WO2022237752A1 - Method for transmitting information of terminal antenna panel, and terminal and network side device - Google Patents
Method for transmitting information of terminal antenna panel, and terminal and network side device Download PDFInfo
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- WO2022237752A1 WO2022237752A1 PCT/CN2022/091870 CN2022091870W WO2022237752A1 WO 2022237752 A1 WO2022237752 A1 WO 2022237752A1 CN 2022091870 W CN2022091870 W CN 2022091870W WO 2022237752 A1 WO2022237752 A1 WO 2022237752A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/0408—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas using two or more beams, i.e. beam diversity
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/10—Scheduling measurement reports ; Arrangements for measurement reports
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/30—TPC using constraints in the total amount of available transmission power
- H04W52/36—TPC using constraints in the total amount of available transmission power with a discrete range or set of values, e.g. step size, ramping or offsets
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/30—TPC using constraints in the total amount of available transmission power
- H04W52/36—TPC using constraints in the total amount of available transmission power with a discrete range or set of values, e.g. step size, ramping or offsets
- H04W52/365—Power headroom reporting
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/046—Wireless resource allocation based on the type of the allocated resource the resource being in the space domain, e.g. beams
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- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/54—Allocation or scheduling criteria for wireless resources based on quality criteria
Definitions
- the present application belongs to the technical field of communications, and in particular relates to a method for transmitting information on a terminal antenna panel, a terminal, and a network side device.
- the terminal When the terminal communicates with the network, it is often necessary to back-off the uplink transmit power according to the MPE (Maximum Permissible Exposure, maximum allowable radiation) requirement.
- MPE Maximum Permissible Exposure, maximum allowable radiation
- the terminal uses beams for transmission in the high frequency band, since the spatial propagation paths of each beam are different, performing the same power backoff on all beams of the terminal will not fully reflect the transmission performance of each beam link, thereby affecting the uplink performance. Therefore, it may be considered to introduce a P-MPR (Power Management-Maximum Power Reduction) report based on the terminal antenna panel or beam, so as to perform power back-off for each terminal antenna panel or beam.
- P-MPR Power Management-Maximum Power Reduction
- Embodiments of the present application provide a method for transmitting antenna panel information of a terminal, a terminal and a network side device, which can solve the problem of how to define the content and form of a P-MPR report.
- a method for transmitting terminal antenna panel information including:
- the terminal sends a P-MPR report to the network side device
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- a method for transmitting terminal antenna panel information including:
- the network side device receives the P-MPR report sent by the terminal
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- a device for transmitting terminal antenna panel information includes:
- a sending module configured to send a P-MPR report to a network side device
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- a device for transmitting terminal antenna panel information comprising:
- a receiving module configured to receive the P-MPR report sent by the terminal
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- a terminal includes a processor, a memory, and a program or instruction stored in the memory and operable on the processor.
- the program or instruction is executed by the processor The steps of the method described in the first aspect are realized.
- a terminal including a processor and a communication interface, wherein the communication interface is used to send a P-MPR report to a network side device;
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- a network-side device includes a processor, a memory, and a program or instruction stored in the memory and operable on the processor, and the program or instruction is executed by the The processor implements the steps of the method described in the second aspect when executed.
- a network side device including a processor and a communication interface, wherein the communication interface is used to send a P-MPR report to the network side device;
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- a ninth aspect provides a readable storage medium, on which a program or instruction is stored, and when the program or instruction is executed by a processor, the steps of the method described in the first aspect are realized, or the steps of the method described in the first aspect are realized, or The steps of the method described in the second aspect.
- a chip in a tenth aspect, includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is used to run programs or instructions to implement the method as described in the first aspect steps, or to achieve the steps of the method as described in the second aspect.
- a computer program/program product is provided, the computer program/program product is stored in a non-transitory storage medium, and the program/program product is executed by at least one processor to implement the first The steps of the method described in the first aspect, or the steps of implementing the method described in the second aspect.
- the method for transmitting terminal antenna panel information provided by the embodiment of the application, the terminal and the network side equipment by combining the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information Corresponding to the same beam or the same terminal antenna panel, the network side equipment can accurately obtain the measurement results of each beam or each terminal antenna panel, so that the network side equipment can timely and accurately instruct the terminal to switch beams, ensuring communication quality and efficiency .
- FIG. 1 is a structural diagram of a wireless communication system applicable to an embodiment of the present application
- FIG. 2 is one of the schematic flowcharts of a method for transmitting terminal antenna panel information provided in an embodiment of the present application
- FIG. 3 is a second schematic flow diagram of a method for transmitting terminal antenna panel information provided by an embodiment of the present application
- FIG. 4 is one of the schematic structural diagrams of a device for transmitting terminal antenna panel information provided in an embodiment of the present application
- FIG. 5 is the second structural schematic diagram of the transmission device for terminal antenna panel information provided by the embodiment of the present application.
- FIG. 6 is a schematic structural diagram of a communication device implementing an embodiment of the present application.
- FIG. 7 is a schematic diagram of a hardware structure of a terminal implementing an embodiment of the present application.
- FIG. 8 is a schematic diagram of a hardware structure of a network side device implementing an embodiment of the present application.
- first, second and the like in the specification and claims of the present application are used to distinguish similar objects, and are not used to describe a specific sequence or sequence. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in sequences other than those illustrated or described herein and that "first" and “second” distinguish objects. It is usually one category, and the number of objects is not limited. For example, there may be one or more first objects.
- “and/or” in the description and claims means at least one of the connected objects, and the character “/” generally means that the related objects are an "or” relationship.
- LTE Long Term Evolution
- LTE-Advanced LTE-Advanced
- LTE-A Long Term Evolution-Advanced
- CDMA Code Division Multiple Access
- TDMA Time Division Multiple Access
- FDMA Frequency Division Multiple Access
- OFDMA Orthogonal Frequency Division Multiple Access
- SC-FDMA Single-carrier Frequency-Division Multiple Access
- system and “network” in the embodiments of the present application are often used interchangeably, and the described technology can be used for the above-mentioned system and radio technology, and can also be used for other systems and radio technologies.
- the following description describes the New Radio (New Radio, NR) system for example purposes, and uses NR terminology in most of the following descriptions, but these techniques can also be applied to applications other than NR system applications, such as the 6th Generation (6th Generation , 6G) communication system.
- 6th Generation 6th Generation
- FIG. 1 shows a structural diagram of a wireless communication system to which this embodiment of the present application is applicable.
- the wireless communication system includes a terminal 11 and a network side device 12 .
- the terminal 11 can also be called a terminal device or a user terminal (User Equipment, UE), and the terminal 11 can be a mobile phone, a tablet computer (Tablet Personal Computer), a laptop computer (Laptop Computer) or a notebook computer, a personal digital Assistant (Personal Digital Assistant, PDA), handheld computer, netbook, ultra-mobile personal computer (ultra-mobile personal computer, UMPC), mobile internet device (Mobile Internet Device, MID), augmented reality (augmented reality, AR)/virtual reality (virtual reality, VR) equipment, robots, wearable devices (Wearable Device), vehicle-mounted equipment (VUE), pedestrian terminal (PUE), smart home (home equipment with wireless communication functions, such as refrigerators, TVs, washing machines or furniture etc.), game consoles, personal computers (personal computers, PCs), teller machines or self-service machines
- the network side device 12 may include an access network device or a core network device, where the access network device 12 may also be called a radio access network device, a radio access network (Radio Access Network, RAN), a radio access network function, or Wireless access network unit.
- RAN Radio Access Network
- the access network device 12 may include a base station, a WLAN access point, or a WiFi node, etc., and the base station may be referred to as a node B, an evolved node B (eNB), an access point, a base transceiver station (Base Transceiver Station, BTS), a radio Base station, radio transceiver, Basic Service Set (BSS), Extended Service Set (ESS), Home Node B, Home Evolved Node B, Transmitting Receiving Point (TRP) or all As long as the same technical effect is achieved, the base station is not limited to a specific technical vocabulary. It should be noted that in this embodiment of the application, only the base station in the NR system is used as an example for introduction, and The specific type of the base station is not limited.
- Core network equipment may include but not limited to at least one of the following: core network nodes, core network functions, mobility management entities (Mobility Management Entity, MME), access mobility management functions (Access and Mobility Management Function, AMF), session management functions (Session Management Function, SMF), User Plane Function (UPF), Policy Control Function (Policy Control Function, PCF), Policy and Charging Rules Function (PCRF), edge application service Discovery function (Edge Application Server Discovery Function, EASDF), unified data management (Unified Data Management, UDM), unified data storage (Unified Data Repository, UDR), home subscriber server (Home Subscriber Server, HSS), centralized network configuration ( Centralized network configuration, CNC), network storage function (Network Repository Function, NRF), network exposure function (Network Exposure Function, NEF), local NEF (Local NEF, or L-NEF), binding support function (Binding Support Function, BSF), application function (Application Function, AF), etc. It should be noted that, in the embodiment of the present application, only the core
- Wireless access technology standards such as LTE (Long Term Evolution, long-term evolution)/LTE-A (LTE-Advanced, an upgraded version of long-term evolution) are all based on MIMO (multiple-in multiple-out) + OFDM (Orthogonal Frequency Division Multiplexing (orthogonal frequency division multiplexing) technology is built on the basis.
- MIMO multiple-in multiple-out
- OFDM Orthogonal Frequency Division Multiplexing
- the dimensions of MIMO technology continue to expand.
- LTE Rel-8 up to 4 layers of MIMO transmission can be supported.
- the MU-MIMO technology is enhanced in Rel-9, and the MU-MIMO (Multi-User MIMO, multi-user MIMO) transmission of TM (Transmission Mode)-8 can support up to 4 downlink data layers.
- TM Transmission Mode
- Rel-10 the transmission capability of SU-MIMO (Single-User MIMO, single-user MIMO) is extended to up to 8 data layers.
- 3GPP has completed the research project of 3D channel modeling, and is carrying out the research and standardization work of eFD-MIMO and NR MIMO. It is foreseeable that in the future 5G mobile communication system, MIMO technology with larger scale and more antenna ports will be introduced.
- Massive MIMO large-scale MIMO
- uses large-scale antenna arrays which can greatly improve the efficiency of system frequency band utilization and support a larger number of access users. Therefore, major research organizations regard massive MIMO technology as one of the most potential physical layer technologies in the next generation mobile communication system.
- digital-analog hybrid beamforming technology came into being, that is, on the basis of traditional digital domain beamforming, an additional level of beamforming is added to the radio frequency signal near the front end of the antenna system. shape.
- Analog shaping can achieve a rough match between the transmitted signal and the channel in a relatively simple way.
- the dimension of the equivalent channel formed after analog shaping is smaller than the actual number of antennas, so the subsequent required AD/DA conversion devices, the number of digital channels, and the corresponding baseband processing complexity can be greatly reduced.
- the residual interference of the analog shaped part can be processed again in the digital domain, so as to ensure the quality of MU-MIMO transmission.
- digital-analog hybrid beamforming is a compromise between performance and complexity, and it has a high practical prospect in systems with large bandwidth in high frequency bands or a large number of antennas.
- the working frequency band supported by the system will be raised to above 6GHz, and the highest will be about 100GHz.
- the high frequency band has relatively abundant idle frequency resources, which can provide greater throughput for data transmission.
- 3GPP has completed the high-frequency channel modeling work.
- the wavelength of the high-frequency signal is short.
- more antenna elements can be arranged on the same size panel, and the beamforming technology is used to form a stronger directivity.
- the analog beamforming is transmitted in full bandwidth, and each polarization element on the panel of each high-frequency antenna array can only transmit analog beams in a time-division multiplexed manner.
- the shaping weight of the analog beam is realized by adjusting the parameters of the RF front-end phase shifter and other equipment.
- the training of analog beamforming vectors is usually carried out in a polling manner, that is, the array elements of each polarization direction of each antenna panel are sequentially sent training signals at the appointed time in a time-division multiplexing manner (That is, the candidate shaping vector), the terminal feeds back the beam report after the measurement, and the network side uses the training signal to realize the simulated beam transmission in the next service transmission.
- the content of the beam report usually includes several optimal transmit beam identities and the measured received power of each transmit beam.
- the network When performing beam measurement, the network will configure a reference signal resource set (RS resource set), including at least one reference signal resource, such as SSB (Synchronization Signal Block, synchronization signal block) resources or CSI (Channel State Information, channel state information) -RS resources.
- RS resource set including at least one reference signal resource, such as SSB (Synchronization Signal Block, synchronization signal block) resources or CSI (Channel State Information, channel state information) -RS resources.
- the terminal measures the L1-RSRP (Reference Signal Receiving Power, reference signal received power)/L1-SINR (Signal to Interference plus Noise Ratio, signal to interference plus noise ratio) of each reference signal resource, and uses at least one optimal measurement
- the result is reported to the network, and the reported content includes SSBRI (SSB Resource Indicator, SSB Resource Indicator) or CRI (CSI-RS Resource Indicator, CSI-RS Resource Indicator), and the corresponding L1-RSRP/L1-SINR.
- the content of the report reflects at least one optimal beam and its quality, and is used by the network to determine beam information for transmitting channels or signals with the UE.
- the network can make beam indications for downlink and uplink channels or reference signals, which are used to establish beam links between the network and terminals to realize the transmission of channel or reference signals.
- RRC Radio Resource Control, radio resource control
- K TCI Transmission Configuration Indication, transmission configuration indication
- the terminal monitors the PDCCH, it uses the same QCL (Quasi-colocation, quasi-colocation) for all the search spaces in the CORESET, that is, uses the same TCI state to monitor the PDCCH.
- the reference signals in the TCI state (such as periodic CSI-RS resources, semi-persistent CSI-RS resources, SSB, etc.) and the terminal-specific PDCCH DMRS port are spatially QCL. According to the TCI state, the terminal can know which receiving beam is used to receive the PDCCH.
- the network configures M TCI states through RRC signaling, then uses MAC CE commands to activate 2N TCI states, and then notifies through the N-bit TCI field of DCI
- the reference signal in the TCI state is QCL with the DMRS port of the PDSCH to be scheduled. According to the TCI state, the terminal can know which receiving beam is used to receive the PDSCH.
- the network configures QCL information for CSI-RS resources through RRC signaling.
- the network indicates its QCL information when activating a CSI-RS resource from the CSI-RS resource set configured by RRC through a MAC CE command.
- the network configures QCL for the CSI-RS resource through RRC signaling, and uses DCI to trigger the CSI-RS.
- the network uses RRC signaling to configure spatial relationship information for each PUCCH resource through the parameter PUCCH-SpatialRelationInfo.
- the spatial relationship information configured for PUCCH resources contains multiple , use the MAC-CE to indicate or activate one of the spatial relationship information.
- the spatial relationship information configured for the PUCCH resource contains only one, no additional MAC CE command is required.
- the spatial relationship information of PUSCH is that when the DCI carried by PDCCH schedules PUSCH, each SRI code point in the SRI field in DCI indicates an SRI, and the SRI is used Used to indicate the spatial relationship information of the PUSCH.
- the network configures spatial relationship information for SRS resources through RRC signaling.
- the SRS type is semi-persistent SRS
- the network activates one from a set of spatial relationship information configured by RRC through a MAC CE command.
- the SRS type is aperiodic SRS
- the network configures spatial relationship information for SRS resources through RRC signaling, and can also use MAC CE commands to update the spatial relationship information of aperiodic SRS resources.
- MPE maximum radiation or the maximum exposure level that can cause harm to the human body after radiation.
- P-MPR is the maximum allowable terminal output power reduction.
- the transmission power needs to be reduced.
- the UE determines the maximum output power according to the P-MPR and reports it to the network, so as to ensure compliance with available battery energy absorption requirements and solve unexpected radiation requirements.
- the beam information mentioned in this article can also be called: beam identification information, spatial relation information, spatial domain transmission filter information, spatial domain reception filter information filter) information, spatial filter (spatial filter) information, transmission configuration indication status (TCI state) information, quasi-co-location (QCL) information or QCL parameters, etc.
- the downlink beam information can usually be represented by TCI status information or QCL information.
- Uplink beam information can usually be represented by TCI status information or spatial relationship information.
- the antenna panel mentioned in this article can also be called: antenna group, antenna port group, antenna set, antenna port set, beam set, beam sub-set, antenna array, antenna port array, antenna sub-array, antenna port sub-array, logic Entity, entity or antenna entity, panel entity (panel entity), timing error group (timing error group, TEG), etc.
- the identifier of the antenna panel mentioned herein may be: the identifier of the antenna panel, the identifier of the reference signal resource, the identifier of the reference signal resource set, the identifier of the TCI state, the identifier of the QCL information, the identifier of the spatial relationship, and the like.
- Fig. 2 is one of the flow diagrams of the transmission method of the terminal antenna panel information provided by the embodiment of the present application; referring to Fig. 2, the embodiment of the present application provides a transmission method of the terminal antenna panel information, which may include:
- Step 210 sending a P-MPR report to the network side device
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- Associated refers to corresponding to the same beam or the same terminal antenna panel.
- the executing subject of the method for transmitting antenna panel information of a terminal may be a terminal, such as a mobile phone, a computer, and the like.
- the terminal may send a P-MPR report to the network side device, and the report may include at least one P-MPR value.
- the P-MPR value may be associated with at least one of the following first objective parameters:
- the identification information of the terminal antenna panel in the P-MPR report or PH report or beam report or CSI report or beam indication information the beam identification information in P-MPR report or PH report or beam report or CSI report or beam indication information, PH of terminal antenna panel in P-MPR report or PH report or beam report or CSI report, PH of terminal antenna panel in P-MPR report or PH report or beam report or PH of beam in beam report or CSI report, synchronization signal block in beam report or CSI report
- association may refer to corresponding to the same beam or the same terminal antenna panel, that is, the P-MPR value and the first target parameter correspond to the same beam or the same terminal antenna panel.
- the terminal sends a P-MPR report to the network side device, and the network side device sends indication information to the terminal according to the P-MPR report, so that the terminal sends a beam report to the network side device.
- the P-MPR value in the P-MPR report may correspond to the same beam or the same terminal antenna panel as the SSBRI or CRI in the beam report.
- the network can be The equipment on the network side can accurately obtain the measurement results of each beam or antenna panel of each terminal, so that the equipment on the network side can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
- the position of the P-MPR value in the P-MPR report corresponds to the position of the first target parameter in the corresponding report or indication information.
- the P-MPR report and the report corresponding to the first target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel
- the P-MPR report includes two P-MPR values: P-MPR 01 and P-MPR 02.
- P-MPR 01 corresponds to beam 01 or terminal antenna panel 01
- P-MPR 02 corresponds to beam 02 or terminal antenna panel 02
- P-MPR 01 and P-MPR 02 can be located in the P-MPR report, such as line X and line X respectively. +1 row.
- SSBRI 01 or CRI 01 corresponding to beam 01 or terminal antenna panel 01 may be located in row Y
- SSBRI 02 or CRI 02 corresponding to beam 02 or terminal antenna panel 02 may be located in row Y+1.
- X can be equal to Y.
- the network side device when the network side device receives the P-MPR report, it can know that the X row and X+1 row in the P-MPR report are the P-MPR value of beam 01 or the terminal antenna panel 01 and the beam 02 respectively. Or the P-MPR value of the terminal antenna panel 02; and when the network side device receives the beam report or CSI report, it can know that the Y line and the Y+1 line in the beam report or CSI report are the beam 01 or the terminal antenna panel respectively SSBRI or CRI of 01, and SSBRI or CRI of beam 02 or terminal antenna panel 02.
- the network side device can determine that the P-MPR value and SSBRI or CRI at the corresponding positions in the two reports correspond to the same beam or terminal antenna panel, such as in P -The P-MPR value of the X line of the MPR report and the SSBRI or CRI of the beam report or CSI report Y line correspond to the same beam or terminal antenna panel, and the P-MPR value and the beam report or CSI of the X+1 line of the P-MPR report Report the SSBRI or CRI of row Y+1 for another beam or terminal antenna panel. That is, the network side device only needs to determine which line or lines in each report correspond to the same terminal antenna panel, and does not need to determine the specific identification information of the terminal antenna panel.
- the network side equipment can make the P-MPR report and the first target parameter correspond to each other.
- the report does not include the identification information of the beam or the identification information of the terminal antenna panel
- the data corresponding to each beam or each terminal antenna panel can still be known, so that the network and the terminal can compare the information in each report with the beam or terminal antenna
- the understanding of the corresponding relationship of the panels is consistent, so that the terminal can be accurately instructed to switch beams in time while saving communication resources, further ensuring communication quality and efficiency.
- the P-MPR report may include the identification information of the terminal antenna panel and/or the identification information of the beam corresponding to the P-MPR value;
- corresponding to the same beam or the same terminal antenna panel as the first target parameters may include: the first target parameters include the identification information of the terminal antenna panels corresponding to the first target parameters and/or in the report or indication information corresponding to each of the first target parameters or beam identification information.
- each piece of data explicitly corresponds to the identification information of the terminal antenna panel and/or the identification information of the beam.
- the network-side device can directly know the data corresponding to each beam or each terminal antenna panel, thereby accurately instructing the terminal to perform beam switching, thereby ensuring communication quality and efficiency.
- the number of P-MPR values can be determined in at least one of the following ways:
- Mode 1 The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or CSI report;
- the identification information of the terminal antenna panel can be included in the beam report or CSI report, and the number of P-MPR values corresponding to a terminal antenna panel is fixed, so the number of P-MPR values can be based on the beam report Or the quantity of identification information of the terminal antenna panel in the CSI report is determined.
- Mode 2 The number of P-MPR values is determined according to the number of beam identification information in the beam report or CSI report;
- the beam identification information can be included in the beam report or CSI report, and a beam usually corresponds to a P-MPR value, so the number of P-MPR values can be based on the beam identification information in the beam report or CSI report The quantity is determined directly.
- Mode 3 The number of P-MPR values is determined according to the number of PH;
- the PH has a one-to-one correspondence with the terminal antenna panels or beams, after determining the PH, the number of terminal antenna panels or beams can be determined, thereby determining the number of P-MPR values.
- the number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;
- the number of SSBRIs or the number of CRIs corresponds to the number of terminal antenna panels or beams, so after determining the number of SSBRIs and/or the number of CRIs, the number of terminal antenna panels or beams can be determined, so that A number of P-MPR values can be determined.
- Way 5 The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
- the type of beam report or CSI report includes at least one of the following:
- the terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
- the terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
- the beam report or CSI report includes identification information of multiple terminal antenna panels
- the identification information of a terminal antenna panel is included in the beam report or CSI report;
- the identification information of the terminal antenna panel is not included in the beam report or CSI report;
- the beam report or CSI report includes identification information of multiple beams
- the identification information of one beam is included in the beam report or CSI report;
- Beam identification information is not included in the beam report or CSI report.
- the number of P-MPR values in the P-MPR report is 2.
- the number of P-MPR values in the P-MPR report is 1.
- the beam report type is the report obtained by the terminal receiving SSB or CSI-RS using two spatial filters
- the number of P-MPR values in the P-MPR report is two.
- the beam report type is the report obtained by the terminal receiving SSB or CSI-RS using one spatial filter
- the number of P-MPR values in the P-MPR report is one.
- the beam report type includes identification information of 2 terminal antenna panels
- the number of P-MPR values in the P-MPR report is 2.
- the number of P-MPR values in the P-MPR report is one.
- determining the number of P-MPR values in the P-MPR report through the above-mentioned various methods can meet the requirements for determining the number of P-MPR values in various scenarios, and effectively improve the number of P-MPR values provided by the embodiments of the present application. Applicability of the method of transmission of terminal antenna panel information.
- the position of the P-MPR value in the P-MPR report is determined by at least one of the following methods:
- Mode I Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;
- the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event occurs can be placed before the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event does not occur;
- the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event occurs may be placed after the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event does not occur.
- Mode II According to the size of each P-MPR value, arrange each P-MPR value in the P-MPR report in sequence;
- each P-MPR value may be arranged in ascending order in the P-MPR report, or each P-MPR value may be arranged in descending order in the P-MPR report.
- Mode III The terminal determines the position of each P-MPR value in the P-MPR report
- the terminal may arrange each P-MPR value in the P-MPR report according to a preset rule.
- the terminal can assign corresponding weights to each P-MPR value according to whether an MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value and the size of each P-MPR value, and assign each P-MPR value according to the size of the weight.
- the MPR values are sorted in ascending order in the P-MPR report, or the individual P-MPR values are sorted in descending order in the P-MPR report.
- Method IV Determine the position of each P-MPR value in the P-MPR report according to the order of the PH corresponding to each P-MPR value;
- the position of each P-MPR value in the P-MPR report may be determined according to the determined arrangement order of the PHs corresponding to each P-MPR value in the P-MPR report.
- the P-MPR 01 corresponding to PH 01 can be placed in line A of the P-MPR report.
- Mode V Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;
- the terminal needs to report the actual PH (actual PH) of the terminal antenna panel 01 or beam 01
- the P-MPR corresponding to the terminal antenna panel 01 or beam 01 can be ranked first; and the terminal needs to report the terminal antenna panel 02 or beam 02
- the virtual PH (virtual PH) of the terminal, the P-MPR corresponding to the terminal antenna panel 02 or the beam 02 can be ranked behind.
- Method VI Determine the position of each P-MPR value in the P-MPR report according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
- the P-MPR corresponding to terminal antenna panel 01 or beam 01 can be ranked first; while terminal antenna panel 02 or beam 02 is not scheduled for uplink resources, the P-MPR corresponding to the terminal antenna panel 02 or beam 02 may be ranked behind.
- step 210 may include:
- the preset conditions may include at least one of the following:
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold
- the transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the transmit power of the terminal antenna panel is greater than or equal to the third threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold
- the distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold
- the terminal activates or turns on or adds an antenna panel
- the path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold
- the power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold
- the P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold
- the link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold
- the difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
- the difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
- the difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
- the current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- the first beam may be a preset value, and may also be any one of multiple beams of the current terminal.
- the PH satisfies any of the following:
- the sending time of the PH report is closest to the sending time of the P-MPR report
- the PH report is located in the same PUSCH as the P-MPR report;
- the PH report is located in the same TB as the P-MPR report.
- the method for transmitting terminal antenna panel information provided in the embodiment of the present application may further include:
- the first beam report or the first CSI report includes at least one of the following target information:
- the targeting information is associated with at least one of the following second targeting parameters:
- P-MPR value identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- the network side device After the network side device receives the P-MPR report sent by the terminal, it can know the P-MPR value corresponding to each terminal antenna panel or beam according to the association between the P-MPR value and the first target parameter. And correspondingly send the first indication information to the terminal, so as to instruct the terminal to perform beam measurement, and report the first beam report or the first CSI report to the network side device.
- the terminal After receiving the first indication information sent by the network-side device, the terminal starts beam measurement according to the first indication information, and sends a first beam report or a first CSI report to the network-side device after the beam measurement is completed.
- the first beam report or the first CSI report may include at least one SSBRI and the L1-RSRP or L1-SINR corresponding to the SSBRI, and/or at least one CRI and the L1-RSRP or L1-SINR corresponding to the CRI.
- the above target information may be associated with at least one of the following second target parameters:
- association may refer to corresponding to the same beam or the same terminal antenna panel, that is, the target information and the second target parameter correspond to the same beam or the same terminal antenna panel.
- the network can be The equipment on the network side can accurately obtain the measurement results of each beam or antenna panel of each terminal, so that the equipment on the network side can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
- the position of the target information in the first beam report or the first CSI report corresponds to the position of the second target parameter in the corresponding report or indication information.
- the first beam report or the first CSI report and the report corresponding to the second target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel
- the first beam report or the first CSI report includes 2 SSBRIs: SSBRI 01 (and corresponding L1-RSRP 01) and SSBRI 02 (and corresponding L1-RSRP 02).
- SSBRI 01 corresponds to beam 01 or terminal antenna panel 01
- SSBRI 02 corresponds to beam 02 or terminal antenna panel 02
- SSBRI 01 and SSBRI 02 can be located in the first beam report or the first CSI report, for example, row X and row X+1 .
- the P-MPR 01 corresponding to beam 01 or terminal antenna panel 01 may be located in row Y
- the P-MPR 02 corresponding to beam 02 or terminal antenna panel 02 may be located in row Y+1.
- X can be equal to Y.
- the network side device when the network side device receives the P-MPR report, it can know that the Y line and Y+1 line in the P-MPR report are the P-MPR value of beam 01 or the terminal antenna panel 01 and the beam 02 Or the P-MPR value of the terminal antenna panel 02; and when the network side device receives the first beam report or the first CSI report, it can know the X line and X+1 line in the first beam report or the first CSI report They are SSBRI 01 of beam 01 or terminal antenna panel 01, and SSBRI 02 of beam 02 or terminal antenna panel 02.
- the network side device can determine that the P-MPR value and SSBRI or CRI at the corresponding positions in the two reports correspond to the same beam or terminal antenna panel , such as the P-MPR value in the P-MPR report line Y and the SSBRI or CRI in the X line of the beam report or CSI report correspond to the same beam or terminal antenna panel, and the P-MPR value and the P-MPR value in the Y+1 line of the P-MPR report Beam report or CSI report
- the SSBRI or CRI of row X+1 corresponds to another beam or terminal antenna panel. That is, the network-side device only needs to determine which line or lines in each report correspond to the same terminal antenna panel, instead of determining the specific identification information of the terminal antenna panel
- the network side device can In the case that the reports corresponding to the report and the second target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel, the data corresponding to each beam or each terminal antenna panel can still be known, so that the network and the terminal are for each report.
- the information in is consistent with the understanding of the corresponding relationship between beams or terminal antenna panels, so that the terminal can be timely and accurately instructed to switch beams while saving communication resources, further ensuring communication quality and efficiency.
- the first beam report or the first CSI report may include identification information of the terminal antenna panel and/or identification information of the beam corresponding to the target information;
- corresponding to the same beam or the same terminal antenna panel as the second target parameter may include: the second target parameter includes the identification information of the terminal antenna panel corresponding to the second target parameter and/or in the report or indication information respectively corresponding to the second target parameter or beam identification information.
- each data is explicitly corresponding to identification information of the terminal antenna panel and/or identification information of the beam.
- the network-side device can directly know the data corresponding to each beam or each terminal antenna panel, thereby accurately instructing the terminal to perform beam switching, thereby ensuring communication quality and efficiency.
- the amount of target information may be determined in at least one of the following ways:
- Method 1 The quantity of target information is determined according to the quantity of P-MPR values
- the number of target information corresponding to a terminal antenna panel or beam is fixed, and the number of P-MPR values corresponding to a terminal antenna panel or beam is also fixed. Therefore, the P-MPR value When the quantity of is determined, the quantity of target information is determined.
- the quantity of target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;
- the identification information of the terminal antenna panel may be included in the beam report or the CSI report, and the amount of target information corresponding to a terminal antenna panel is fixed, therefore, it may be based on the first beam report or the first CSI report.
- the amount of identification information of the terminal antenna panel directly determines the amount of target information.
- the quantity of target information is determined according to the quantity of identification information of beams in the first beam report or the first CSI report;
- beam identification information may be included in the beam report or CSI report, and one beam usually corresponds to one target information, therefore, it can be directly determined according to the number of beam identification information in the first beam report or the first CSI report Amount of target information.
- Method 4 The quantity of target information is determined according to the quantity of PH;
- the PH has a one-to-one correspondence with the terminal antenna panels or beams, after determining the PH, the number of terminal antenna panels or beams can be determined, thereby determining the quantity of target information.
- Manner 5 The amount of target information is determined according to the type of the first beam report or the first CSI report.
- the type of the first beam report or the first CSI report includes at least one of the following:
- the terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
- the terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
- the first beam report or the first CSI report includes identification information of multiple terminal antenna panels
- the identification information of a terminal antenna panel is included in the first beam report or the first CSI report;
- the identification information of the antenna panel of the terminal is not included in the first beam report or the first CSI report;
- the first beam report or the first CSI report includes identification information of multiple beams
- the identification information of one beam is included in the first beam report or the first CSI report;
- the identification information of the beam is not included in the first beam report or the first CSI report.
- the target information is CRI and its corresponding L1-RSRP.
- the type of the first beam report is group-based beam report, and the number of beams that can be transmitted simultaneously in each group is 2, the number of CRIs and their corresponding L1-RSRPs in the first beam report are both 2.
- the type of the first beam report is non-group based beam report, the number of CRI and its corresponding L1-RSRP in the first beam report is one.
- the type of the first beam report is the report obtained by the terminal receiving the CSI-RS using two spatial filters, the number of CRIs and corresponding L1-RSRPs in the first beam report is two.
- the number of CRI and its corresponding L1-RSRP in the first beam report is one.
- the number of CRIs and corresponding L1-RSRPs in the first beam report is two.
- the number of CRI and its corresponding L1-RSRP in the first beam report is one.
- determining the quantity of target information in the first beam report or the first CSI report through the above-mentioned various methods can meet the requirements for determining the quantity of target information in various scenarios, effectively improving the number of target information provided by the embodiments of the present application. Applicability of the method of transmission of terminal antenna panel information.
- the first beam report or the first CSI report may be any of the following:
- Project 1 Group-based reporting
- the first beam report or the first CSI report may be a group-based report, that is, the terminal sends one or more sets of SSBRI and/or CRI to the network side device each time, wherein the number of each set of SSBRI and/or CRI is At least 2, means that at least 2 beams corresponding to each group of SSBRI and/or CRI can transmit at the same time.
- Item 2 Report based on ungrouping
- the terminal may correspondingly send the first beam report or the first CSI report including a certain number of SSBRIs and/or CRIs to the network side device according to the actually measured beam conditions of the antenna panel of the terminal.
- Item 3 Report based on preset rules
- preset rules can include:
- each set of beam identification information indicates beams that can be transmitted at the same time, or identification information corresponding to the same terminal antenna panel, or corresponding to the same P-MPR value.
- the terminal can also use the first beam report or the first CSI report based on the grouping, and the first beam report or the first CSI report based on the non-grouping, but adopt the first beam report or the first CSI report of the preset rule .
- the first beam report or the first CSI report sent by the terminal to the network side device may include multiple sets of SSBRI and/or CRI, each set of SSBRI and/or CRI indicates beams that can be transmitted simultaneously, or each set of SSBRI and/or Either the CRIs correspond to identification information of the same terminal antenna panel, or each group of SSBRIs and/or CRIs corresponds to the same P-MPR value.
- the content of the first beam report or the first CSI report is target information satisfying a specific constraint relationship.
- the first beam report or the first CSI report is a packet-based report
- the first beam report or the first CSI report is obtained by the terminal using multiple or one spatial domain filter to receive SSB or CSI-RS;
- the first beam report or the first CSI report reports the identification information of the terminal antenna panel or the number of identification information of the terminal antenna panel
- the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or update the configured CSI report type to the first CSI report type type of instruction.
- the network side device can indicate through MAC CE or DCI to update the beam report to a packet-based beam report (the first beam report is a group-based report), or vice versa.
- the network side device can update the beam report to receive SSB/CSI-RS using 2 spatial domain filters through MAC CE or DCI instructions beam report (the first beam report is the report obtained by receiving SSB/CSI-RS with 2 spatial filters), or vice versa.
- the network side device can use the MAC CE or DCI instruction to update the beam report to a beam report that reports the identification information of the terminal antenna panel (the first beam report is the one that reports the terminal reporting of identification information for antenna panels), or vice versa.
- the network side device can use the MAC CE or DCI instruction to update the beam report to a beam report that reports the identification information of multiple terminal antenna panels (the first beam report For reporting identification information of multiple terminal antenna panels), or vice versa.
- the quantity of target information corresponding to one P-MPR value is one or more.
- the number of target information corresponding to the identification information of a terminal antenna panel or the identification information of the beam is one or more indivual.
- the target information corresponding to the antenna panel of the terminal in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value.
- the network side device can determine whether the status of the terminal antenna panel is activated or deactivated according to whether the target information is an invalid value or a predetermined value, that is, when the target information is an invalid value or a predetermined value, the network side device can determine that the terminal antenna panel is in the deactivated state. active state.
- the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
- the activation state can include any of the following:
- a state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
- the deactivated terminal antenna panel can be in the deactivated state before beam measurement, but it needs to be changed to the active state when using the terminal antenna panel for beam measurement. After the measurement is completed or the beam report or CSI report is sent , the antenna panel of the terminal may be deactivated, so as to save power for the terminal.
- the target information included in the first beam report or the first CSI report is multiple groups;
- Each set of target information corresponds to at least one of the following:
- the terminal determines the mode of sending the first beam report or the first CSI report to the network side device according to at least one of the following:
- the above patterns can include any of the following:
- SSBRI is obtained by the terminal receiving SSB through a spatial filter or terminal antenna panel or beam
- CRI is obtained by the terminal receiving CSI-RS through a spatial filter or terminal antenna panel or beam
- SSBRI is obtained by the terminal receiving SSB through multiple spatial filters or terminal antenna panels or beams
- CRI is obtained by the terminal receiving CSI-RS through multiple spatial filters or terminal antenna panels or beams
- the terminal uses a packet-based report to send the first beam report or the first CSI report to the network side device;
- the terminal sends the first beam report or the first CSI report to the network side device by using an ungrouped report;
- the first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
- the first beam report or the first CSI report carries beam identification information, and the number of beam identification information is one or more.
- the switching time of the foregoing modes is determined by the time when the terminal sends a P-MPR report or a PHR (PH Report, power headroom report).
- the mode of sending the first beam report or the first CSI report to the network side device may be switched according to actual conditions.
- the associated effective time may include at least one of the following:
- the starting point of the valid time is any of the following: the time when the P-MPR report sending condition is met, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report.
- the end of the valid time is any of the following: the time when the network-side device sends the beam switching command, the preset time after the time when the network-side device sends the beam switching command, the starting point of the next valid time, or the first indication information sent by the network-side device time, the preset time after the time when the network-side device sends the first indication information, the network-side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report Time, the preset time after the time when the network side device updates the beam report type to the first beam report type or updates the CSI report type to the first CSI report type, the terminal sends the first beam report or the first CSI report The time of the report, the preset time after the time when the terminal sends the first beam report or the first CSI report.
- the activation state or deactivation state of the antenna panel of the terminal remains unchanged.
- the embodiment of the present application provides a method for transmitting terminal antenna panel information.
- the P-MPR report sent by the terminal based on the terminal antenna panel or beam and the network triggers the terminal to perform a P-MPR report based on the terminal antenna panel.
- the relationship between the beam report or the CSI report of the beam or the beam can accurately know the beam measurement result of the terminal antenna panel, thereby ensuring the timeliness and accuracy of the terminal antenna panel and beam selection.
- FIG. 3 is the second schematic flow diagram of the method for transmitting terminal antenna panel information provided by the embodiment of the present application; referring to FIG. 3 , the embodiment of the present application provides a method for transmitting terminal antenna panel information, which may include:
- Step 310 receiving the P-MPR report sent by the terminal
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- Associated refers to corresponding to the same beam or the same terminal antenna panel.
- the execution subject of the method for transmitting the terminal antenna panel information provided in the embodiment of the present application may be a network side device, such as a base station.
- the network side device may receive a P-MPR report sent by the terminal, and the report may include at least one P-MPR value.
- the P-MPR value may be associated with at least one of the following first objective parameters:
- the identification information of the terminal antenna panel in the P-MPR report or PH report or beam report or CSI report or beam indication information the beam identification information in P-MPR report or PH report or beam report or CSI report or beam indication information, PH of terminal antenna panel in P-MPR report or PH report or beam report or CSI report, PH of terminal antenna panel in P-MPR report or PH report or beam report or PH of beam in beam report or CSI report, synchronization signal block in beam report or CSI report
- association may refer to corresponding to the same beam or the same terminal antenna panel, that is, the P-MPR value and the first target parameter correspond to the same beam or the same terminal antenna panel.
- the terminal sends a P-MPR report to the network side device, and the network side device sends indication information to the terminal according to the P-MPR report, so that the terminal sends a beam report to the network side device.
- the P-MPR value in the P-MPR report may correspond to the same beam or the same terminal antenna panel as the SSBRI or CRI in the beam report.
- the network can be The equipment on the network side can accurately obtain the measurement results of each beam or antenna panel of each terminal, so that the equipment on the network side can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
- the position of the P-MPR value in the P-MPR report corresponds to the position of the first target parameter in the corresponding report or indication information.
- the P-MPR report and the report corresponding to the first target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel
- the P-MPR report includes two P-MPR values: P-MPR 01 and P-MPR 02.
- P-MPR 01 corresponds to beam 01 or terminal antenna panel 01
- P-MPR 02 corresponds to beam 02 or terminal antenna panel 02
- P-MPR 01 and P-MPR 02 can be located in the P-MPR report, such as line X and line X respectively. +1 row.
- SSBRI 01 or CRI 01 corresponding to beam 01 or terminal antenna panel 01 may be located in row Y
- SSBRI 02 or CRI 02 corresponding to beam 02 or terminal antenna panel 02 may be located in row Y+1.
- X can be equal to Y.
- the network side device when the network side device receives the P-MPR report, it can know that the X row and X+1 row in the P-MPR report are the P-MPR value of beam 01 or the terminal antenna panel 01 and the beam 02 respectively. Or the P-MPR value of the terminal antenna panel 02; and when the network side device receives the beam report or CSI report, it can know that the Y line and the Y+1 line in the beam report or CSI report are the beam 01 or the terminal antenna panel respectively SSBRI or CRI of 01, and SSBRI or CRI of beam 02 or terminal antenna panel 02.
- the network side device can determine that the P-MPR value and SSBRI or CRI at the corresponding positions in the two reports correspond to the same beam or terminal antenna panel, such as in P -The P-MPR value of the X line of the MPR report and the SSBRI or CRI of the beam report or CSI report Y line correspond to the same beam or terminal antenna panel, and the P-MPR value and the beam report or CSI of the X+1 line of the P-MPR report Report the SSBRI or CRI of row Y+1 for another beam or terminal antenna panel. That is, the network-side device only needs to determine which line or lines in each report correspond to the same terminal antenna panel, instead of determining the specific identification information of the terminal antenna panel
- the network side equipment can make the P-MPR report and the first target parameter correspond to each other.
- the report does not include the identification information of the beam or the identification information of the terminal antenna panel
- the data corresponding to each beam or each terminal antenna panel can still be known, so that the network and the terminal can compare the information in each report with the beam or terminal antenna
- the understanding of the corresponding relationship of the panels is consistent, so that the terminal can be accurately instructed to switch beams in time while saving communication resources, further ensuring communication quality and efficiency.
- the P-MPR report may include the identification information of the terminal antenna panel and/or the identification information of the beam corresponding to the P-MPR value;
- corresponding to the same beam or the same terminal antenna panel as the first target parameters may include: the first target parameters include the identification information of the terminal antenna panels corresponding to the first target parameters and/or in the report or indication information corresponding to each of the first target parameters or beam identification information.
- each piece of data explicitly corresponds to the identification information of the terminal antenna panel and/or the identification information of the beam.
- the network-side device can directly know the data corresponding to each beam or each terminal antenna panel, thereby accurately instructing the terminal to perform beam switching, thereby ensuring communication quality and efficiency.
- the number of P-MPR values can be determined in at least one of the following ways:
- Mode 1 The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or CSI report;
- the identification information of the terminal antenna panel can be included in the beam report or CSI report, and the number of P-MPR values corresponding to a terminal antenna panel is fixed, so the number of P-MPR values can be based on the beam report Or the quantity of identification information of the terminal antenna panel in the CSI report is determined.
- Mode 2 The number of P-MPR values is determined according to the number of beam identification information in the beam report or CSI report;
- the beam identification information can be included in the beam report or CSI report, and a beam usually corresponds to a P-MPR value, so the number of P-MPR values can be based on the beam identification information in the beam report or CSI report The quantity is determined directly.
- Mode 3 The number of P-MPR values is determined according to the number of PH;
- the PH has a one-to-one correspondence with the terminal antenna panels or beams, after determining the PH, the number of terminal antenna panels or beams can be determined, thereby determining the number of P-MPR values.
- the number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;
- the number of SSBRIs or the number of CRIs corresponds to the number of terminal antenna panels or beams, so after determining the number of SSBRIs and/or the number of CRIs, the number of terminal antenna panels or beams can be determined, so that A number of P-MPR values can be determined.
- Way 5 The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
- the type of beam report or CSI report includes at least one of the following:
- the terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
- the terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
- the beam report or CSI report includes identification information of multiple terminal antenna panels
- the identification information of a terminal antenna panel is included in the beam report or CSI report;
- the identification information of the terminal antenna panel is not included in the beam report or CSI report;
- the beam report or CSI report includes identification information of multiple beams
- the identification information of one beam is included in the beam report or CSI report;
- Beam identification information is not included in the beam report or CSI report.
- the number of P-MPR values in the P-MPR report is 2.
- the number of P-MPR values in the P-MPR report is 1.
- the beam report type is the report obtained by the terminal receiving SSB or CSI-RS using two spatial filters
- the number of P-MPR values in the P-MPR report is two.
- the beam report type is the report obtained by the terminal receiving SSB or CSI-RS using one spatial filter
- the number of P-MPR values in the P-MPR report is one.
- the beam report type includes identification information of 2 terminal antenna panels
- the number of P-MPR values in the P-MPR report is 2.
- the number of P-MPR values in the P-MPR report is one.
- determining the number of P-MPR values in the P-MPR report through the above-mentioned various methods can meet the requirements for determining the number of P-MPR values in various scenarios, and effectively improve the number of P-MPR values provided by the embodiments of the present application. Applicability of the method of transmission of terminal antenna panel information.
- the position of the P-MPR value in the P-MPR report is determined by at least one of the following methods:
- Mode I Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;
- the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event occurs can be placed before the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event does not occur;
- the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event occurs may be placed after the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event does not occur.
- Mode II According to the size of each P-MPR value, arrange each P-MPR value in the P-MPR report in sequence;
- each P-MPR value may be arranged in ascending order in the P-MPR report, or each P-MPR value may be arranged in descending order in the P-MPR report.
- Mode III The terminal determines the position of each P-MPR value in the P-MPR report
- the terminal may arrange each P-MPR value in the P-MPR report according to a preset rule.
- the terminal can assign corresponding weights to each P-MPR value according to whether an MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value and the size of each P-MPR value, and assign each P-MPR value according to the size of the weight.
- the MPR values are sorted in ascending order in the P-MPR report, or the individual P-MPR values are sorted in descending order in the P-MPR report.
- Method IV Determine the position of each P-MPR value in the P-MPR report according to the order of the PH corresponding to each P-MPR value;
- the position of each P-MPR value in the P-MPR report may be determined according to the determined arrangement order of the PHs corresponding to each P-MPR value in the P-MPR report.
- the P-MPR 01 corresponding to PH 01 can be placed in line A of the P-MPR report.
- Mode V Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;
- the P-MPR corresponding to the terminal antenna panel 01 or beam 01 can be ranked first; and the terminal needs to report the virtual PH of the terminal antenna panel 02 or beam 02, Then the P-MPR corresponding to the terminal antenna panel 02 or the beam 02 may be ranked behind.
- Method VI Determine the position of each P-MPR value in the P-MPR report according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
- the P-MPR corresponding to terminal antenna panel 01 or beam 01 can be ranked first; while terminal antenna panel 02 or beam 02 is not scheduled for uplink resources, the P-MPR corresponding to the terminal antenna panel 02 or beam 02 may be ranked behind.
- step 310 may include:
- the network side device receives the P-MPR report sent by the terminal;
- the preset conditions may include at least one of the following:
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold
- the transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the transmit power of the terminal antenna panel is greater than or equal to the third threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold
- the distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold
- the terminal activates or turns on or adds an antenna panel
- the path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold
- the power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold
- the P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold
- the link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold
- the difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
- the difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
- the difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
- the current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- the first beam may be a preset value, and may also be any one of multiple beams of the current terminal.
- the PH satisfies any of the following:
- the sending time of the PH report is closest to the sending time of the P-MPR report
- the PH report is located in the same PUSCH as the P-MPR report;
- the PH report is located in the same TB as the P-MPR report.
- the method for transmitting terminal antenna panel information provided in the embodiment of the present application may further include:
- the first beam report or the first CSI report includes at least one of the following target information:
- the targeting information is associated with at least one of the following second targeting parameters:
- P-MPR value identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- the network side device After the network side device receives the P-MPR report sent by the terminal, it can know the P-MPR value corresponding to each terminal antenna panel or beam according to the association between the P-MPR value and the first target parameter. And correspondingly send the first indication information to the terminal, so as to instruct the terminal to perform beam measurement, and report the first beam report or the first CSI report to the network side device.
- the terminal After receiving the first indication information sent by the network side device, the terminal will start beam measurement according to the first indication information, and after the beam measurement is completed, send the first beam report or the first CSI report to the network side device.
- the first beam report or the first CSI report may include at least one SSBRI and the L1-RSRP or L1-SINR corresponding to the SSBRI, and/or at least one CRI and the L1-RSRP or L1-SINR corresponding to the CRI.
- the above target information may be associated with at least one of the following second target parameters:
- association may refer to corresponding to the same beam or the same terminal antenna panel, that is, the target information and the second target parameter correspond to the same beam or the same terminal antenna panel.
- the network can be The equipment on the network side can accurately obtain the measurement results of each beam or antenna panel of each terminal, so that the equipment on the network side can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
- the position of the target information in the first beam report or the first CSI report corresponds to the position of the second target parameter in the corresponding report or indication information.
- the first beam report or the first CSI report and the report corresponding to the second target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel
- the first beam report or the first CSI report includes 2 SSBRIs: SSBRI 01 (and corresponding L1-RSRP 01) and SSBRI 02 (and corresponding L1-RSRP 02).
- SSBRI 01 corresponds to beam 01 or terminal antenna panel 01
- SSBRI 02 corresponds to beam 02 or terminal antenna panel 02
- SSBRI 01 and SSBRI 02 can be located in the first beam report or the first CSI report, for example, row X and row X+1 .
- the P-MPR 01 corresponding to beam 01 or terminal antenna panel 01 may be located in row Y
- the P-MPR 02 corresponding to beam 02 or terminal antenna panel 02 may be located in row Y+1.
- X can be equal to Y.
- the network side device when the network side device receives the P-MPR report, it can know that the Y line and Y+1 line in the P-MPR report are the P-MPR value of beam 01 or the terminal antenna panel 01 and the beam 02 Or the P-MPR value of the terminal antenna panel 02; and when the network side device receives the first beam report or the first CSI report, it can know the X line and X+1 line in the first beam report or the first CSI report They are SSBRI 01 of beam 01 or terminal antenna panel 01, and SSBRI 02 of beam 02 or terminal antenna panel 02.
- the network side device after the network side device receives the P-MPR report and the first beam report or the first CSI report, it can determine that the P-MPR value and SSBRI or CRI at the corresponding positions in the two reports correspond to the same beam or terminal antenna panel , if the P-MPR value in the P-MPR report line Y and the SSBRI or CRI in the X line of the beam report or CSI report correspond to the same beam or terminal antenna panel, the P-MPR value and the P-MPR value in the P-MPR report line Y+1 Beam report or CSI report The SSBRI or CRI of row X+1 corresponds to another beam or terminal antenna panel. That is, the network-side device only needs to determine which line or lines in each report correspond to the same terminal antenna panel, instead of determining the specific identification information of the terminal antenna panel
- the network side device can In the case that the reports corresponding to the report and the second target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel, the data corresponding to each beam or each terminal antenna panel can still be known, so that the network and the terminal are for each report.
- the information in is consistent with the understanding of the corresponding relationship between beams or terminal antenna panels, so that the terminal can be timely and accurately instructed to switch beams while saving communication resources, further ensuring communication quality and efficiency.
- the first beam report or the first CSI report may include the identification information of the terminal antenna panel and/or the identification information of the beam corresponding to the target information;
- corresponding to the same beam or the same terminal antenna panel as the second target parameter may include: the second target parameter includes the identification information of the terminal antenna panel corresponding to the second target parameter and/or in the report or indication information respectively corresponding to the second target parameter or beam identification information.
- each data is explicitly corresponding to identification information of the terminal antenna panel and/or identification information of the beam.
- the network-side device can directly know the data corresponding to each beam or each terminal antenna panel, thereby accurately instructing the terminal to perform beam switching, thereby ensuring communication quality and efficiency.
- the amount of target information may be determined in at least one of the following ways:
- Method 1 The quantity of target information is determined according to the quantity of P-MPR values
- the number of target information corresponding to a terminal antenna panel or beam is fixed, and the number of P-MPR values corresponding to a terminal antenna panel or beam is also fixed. Therefore, the P-MPR value When the quantity of is determined, the quantity of target information is determined.
- the quantity of target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;
- the identification information of the terminal antenna panel may be included in the beam report or the CSI report, and the amount of target information corresponding to a terminal antenna panel is fixed, therefore, it may be based on the first beam report or the first CSI report.
- the amount of identification information of the terminal antenna panel directly determines the amount of target information.
- the quantity of target information is determined according to the quantity of identification information of beams in the first beam report or the first CSI report;
- beam identification information may be included in the beam report or CSI report, and one beam usually corresponds to one target information, therefore, it can be directly determined according to the number of beam identification information in the first beam report or the first CSI report Amount of target information.
- Method 4 The quantity of target information is determined according to the quantity of PH;
- the PH is in one-to-one correspondence with the terminal antenna panels or beams, after determining the PH, the number of terminal antenna panels or beams can be determined, thereby determining the quantity of target information.
- Manner 5 The amount of target information is determined according to the type of the first beam report or the first CSI report.
- the type of the first beam report or the first CSI report includes at least one of the following:
- the terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
- the terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
- the first beam report or the first CSI report includes identification information of multiple terminal antenna panels
- the identification information of a terminal antenna panel is included in the first beam report or the first CSI report;
- the identification information of the antenna panel of the terminal is not included in the first beam report or the first CSI report;
- the first beam report or the first CSI report includes identification information of multiple beams
- the identification information of one beam is included in the first beam report or the first CSI report;
- the identification information of the beam is not included in the first beam report or the first CSI report.
- the target information is CRI and its corresponding L1-RSRP.
- the type of the first beam report is group-based beam report, and the number of beams that can be transmitted simultaneously in each group is 2, the number of CRIs and their corresponding L1-RSRPs in the first beam report are both 2.
- the type of the first beam report is non-group based beam report, the number of CRI and its corresponding L1-RSRP in the first beam report is one.
- the type of the first beam report is the report obtained by the terminal receiving the CSI-RS using two spatial filters, the number of CRIs and corresponding L1-RSRPs in the first beam report is two.
- the number of CRI and its corresponding L1-RSRP in the first beam report is one.
- the number of CRIs and corresponding L1-RSRPs in the first beam report is two.
- the number of CRI and its corresponding L1-RSRP in the first beam report is one.
- determining the quantity of target information in the first beam report or the first CSI report through the above-mentioned various methods can meet the requirements for determining the quantity of target information in various scenarios, effectively improving the number of target information provided by the embodiments of the present application. Applicability of the method of transmission of terminal antenna panel information.
- the first beam report or the first CSI report may be any of the following:
- Project 1 Group-based reporting
- the first beam report or the first CSI report may be a group-based report, that is, the terminal sends one or more sets of SSBRI and/or CRI to the network side device each time, wherein the number of each set of SSBRI and/or CRI is At least 2, means that at least 2 beams corresponding to each group of SSBRI and/or CRI can transmit at the same time.
- Item 2 Report based on ungrouping
- the terminal may correspondingly send the first beam report or the first CSI report including a certain number of SSBRIs and/or CRIs to the network side device according to the actually measured beam conditions of the antenna panel of the terminal.
- Item 3 Report based on preset rules
- preset rules can include:
- the network side device receives multiple sets of beam identification information, each set of beam identification information indicates beams that can be transmitted simultaneously, or corresponds to identification information of the same terminal antenna panel, or corresponds to the same P-MPR value.
- the terminal can also use the first beam report or the first CSI report based on the grouping, and the first beam report or the first CSI report based on the non-grouping, but adopt the first beam report or the first CSI report of the preset rule .
- the first beam report or the first CSI report sent by the terminal to the network side device may include multiple sets of SSBRI and/or CRI, each set of SSBRI and/or CRI indicates beams that can be transmitted simultaneously, or each set of SSBRI and/or Either the CRIs correspond to identification information of the same terminal antenna panel, or each group of SSBRIs and/or CRIs corresponds to the same P-MPR value.
- the content of the first beam report or the first CSI report is target information satisfying a specific constraint relationship.
- the first beam report or the first CSI report is a packet-based report
- the first beam report or the first CSI report is obtained by the terminal using multiple or one spatial domain filter to receive SSB or CSI-RS;
- the first beam report or the first CSI report reports the identification information of the terminal antenna panel or the number of identification information of the terminal antenna panel
- the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or update the configured CSI report type to the first CSI report type type of instruction.
- the network side device can indicate through MAC CE or DCI to update the beam report to a packet-based beam report (the first beam report is a packet-based report), or vice versa.
- the network side device can update the beam report to receive SSB/CSI-RS using 2 spatial domain filters through MAC CE or DCI instructions beam report (the first beam report is the report obtained by receiving SSB/CSI-RS with 2 spatial filters), or vice versa.
- the network side device can use the MAC CE or DCI instruction to update the beam report to a beam report that reports the identification information of the terminal antenna panel (the first beam report is the one that reports the terminal reporting of identification information for antenna panels), or vice versa.
- the network side device can use the MAC CE or DCI instruction to update the beam report to a beam report that reports the identification information of multiple terminal antenna panels (the first beam report For reporting identification information of multiple terminal antenna panels), or vice versa.
- the quantity of target information corresponding to one P-MPR value is one or more.
- the number of target information corresponding to the identification information of a terminal antenna panel or the identification information of the beam is one or more indivual.
- the target information corresponding to the antenna panel of the terminal in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value.
- the network side device can determine whether the status of the terminal antenna panel is activated or deactivated according to whether the target information is an invalid value or a predetermined value, that is, when the target information is an invalid value or a predetermined value, the network side device can determine that the terminal antenna panel is in the deactivated state. active state.
- the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
- the activation state can include any of the following:
- a state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
- the deactivated terminal antenna panel can be in the deactivated state before beam measurement, but it needs to be changed to the active state when using the terminal antenna panel for beam measurement. After the measurement is completed or the beam report or CSI report is sent , the antenna panel of the terminal may be deactivated, so as to save power for the terminal.
- the target information included in the first beam report or the first CSI report is multiple groups;
- Each set of target information corresponds to at least one of the following:
- the network side device determines the mode of receiving the first beam report or the first CSI report according to at least one of the following:
- the above patterns can include any of the following:
- SSBRI is obtained by the terminal receiving SSB through a spatial filter or terminal antenna panel or beam
- CRI is obtained by the terminal receiving CSI-RS through a spatial filter or terminal antenna panel or beam
- SSBRI is obtained by the terminal receiving SSB through multiple spatial filters or terminal antenna panels or beams
- CRI is obtained by the terminal receiving CSI-RS through multiple spatial filters or terminal antenna panels or beams
- the terminal uses a packet-based report to send the first beam report or the first CSI report to the network side device;
- the terminal sends the first beam report or the first CSI report to the network side device by using an ungrouped report;
- the first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
- the first beam report or the first CSI report carries beam identification information, and the number of beam identification information is one or more.
- the switching time of the foregoing modes is determined by the time when the terminal sends a P-MPR report or a PHR (PH Report, power headroom report).
- the mode of sending the first beam report or the first CSI report to the network side device may be switched according to actual conditions.
- the associated effective time may include at least one of the following:
- the starting point of the valid time is any of the following: the time when the P-MPR report sending condition is met, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report.
- the end of the valid time is any of the following: the time when the network-side device sends the beam switching command, the preset time after the time when the network-side device sends the beam switching command, the starting point of the next valid time, or the first indication information sent by the network-side device time, the preset time after the time when the network-side device sends the first indication information, the network-side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report Time, the preset time after the time when the network side device updates the beam report type to the first beam report type or updates the CSI report type to the first CSI report type, the terminal sends the first beam report or the first CSI report The time of the report, the preset time after the time when the terminal sends the first beam report or the first CSI report.
- the activation state or deactivation state of the antenna panel of the terminal remains unchanged.
- the embodiment of the present application provides a method for transmitting terminal antenna panel information.
- the P-MPR report sent by the terminal based on the terminal antenna panel or beam and the network triggers the terminal to perform a P-MPR report based on the terminal antenna panel.
- the relationship between the beam report or the CSI report of the beam or the beam can accurately know the beam measurement result of the terminal antenna panel, thereby ensuring the timeliness and accuracy of the terminal antenna panel and beam selection.
- the execution subject may be a transmission device for terminal antenna panel information, or the terminal antenna panel information transmission device is used to execute the terminal antenna panel information
- the control module of the transmission method In the embodiment of the present application, the method for transmitting the terminal antenna panel information performed by the terminal antenna panel information transmission device is taken as an example to illustrate the terminal antenna panel information transmission device provided in the embodiment of the present application.
- Fig. 4 is one of the structural schematic diagrams of the transmission device of terminal antenna panel information provided by the embodiment of the present application; referring to Fig. 4, the embodiment of the present application provides a transmission device of terminal antenna panel information, which may include:
- a sending module 410 configured to send a P-MPR report to a network side device
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- the terminal antenna panel information transmission device provided by the embodiment of the present application combines the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same beam.
- the corresponding terminal antenna panels can enable the network-side equipment to accurately obtain the measurement results of each beam or each terminal antenna panel, so that the network-side equipment can timely and accurately instruct the terminal to switch beams, ensuring communication quality and efficiency.
- the position of the P-MPR value in the P-MPR report corresponds to the position of the first target parameter in the corresponding report or indication information.
- the number of P-MPR values is determined by at least one of the following methods:
- the number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or channel state information CSI report;
- the number of P-MPR values is determined according to the number of beam identification information in the beam report or channel state information CSI report;
- the quantity of the P-MPR value is determined according to the quantity of PH;
- the number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;
- the number of P-MPR values is determined according to the type of beam report or the type of CSI report.
- the type of beam report or CSI report includes at least one of the following:
- the terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
- the terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
- the beam report or CSI report includes identification information of multiple terminal antenna panels
- the identification information of a terminal antenna panel is included in the beam report or CSI report;
- the identification information of the terminal antenna panel is not included in the beam report or CSI report;
- the beam report or CSI report includes identification information of multiple beams
- the identification information of one beam is included in the beam report or CSI report;
- Beam identification information is not included in the beam report or CSI report.
- the position of the P-MPR value in the P-MPR report is determined by at least one of the following methods:
- the terminal determines the position of each P-MPR value in the P-MPR report
- the position of each P-MPR value in the P-MPR report is determined according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
- the sending module 410 is specifically used for:
- the preset conditions include at least one of the following:
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold
- the transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the transmit power of the terminal antenna panel is greater than or equal to the third threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold
- the distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold
- the terminal activates or turns on or adds an antenna panel
- the path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold
- the power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold
- the P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold
- the link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold
- the difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
- the difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
- the difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
- the current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- the PH when the P-MPR value is associated with the PH, the PH satisfies any of the following:
- the P-MPR value is in the same P-MPR report as the pH
- the sending time of the report where the PH is located is closest to the sending time of the P-MPR report;
- the report where the PH is located and the P-MPR report are located in the same physical uplink shared channel PUSCH;
- the PH report is located in the same transport block TB as the P-MPR report.
- the device for transmitting terminal antenna panel information provided in the embodiment of the present application further includes a reporting module (not shown in the figure), configured to:
- the first beam report or the first CSI report includes at least one of the following target information:
- the target information is associated with at least one of the following second target parameters:
- P-MPR value identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- the position of the target information in the first beam report or the first CSI report corresponds to the position of the second target parameter in the corresponding report or indication information.
- the quantity of the target information is determined by at least one of the following methods:
- the quantity of the target information is determined according to the quantity of P-MPR values
- the quantity of the target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;
- the amount of target information is determined according to the amount of identification information of beams in the first beam report or the first CSI report;
- the quantity of the target information is determined according to the quantity of PH;
- the quantity of the target information is determined according to the type of the first beam report or the first CSI report.
- the type of the first beam report or the first CSI report includes at least one of the following :
- the terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
- the terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
- the first beam report or the first CSI report includes identification information of multiple terminal antenna panels
- the first beam report or the first CSI report includes identification information of one terminal antenna panel
- the identification information of the terminal antenna panel is not included in the first beam report or the first CSI report;
- the first beam report or the first CSI report includes identification information of multiple beams
- the first beam report or the first CSI report includes identification information of one beam
- the first beam report or the first CSI report does not include beam identification information.
- the first beam report or the first CSI report is any of the following:
- the preset rules include:
- each set of beam identification information indicates beams that can be transmitted simultaneously, or identification information corresponding to the same terminal antenna panel, or corresponding to the same P-MPR value.
- the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or to update the configured CSI report type to the The indication information of the type of the first CSI report.
- the quantity of the target information corresponding to one P-MPR value is one or more.
- the target information when the target information has the association with the identification information of the terminal antenna panel or the identification information of the beam, the corresponding to the identification information of a terminal antenna panel or the identification information of the beam
- the number of target information is one or more.
- the target information corresponding to the terminal antenna panel in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value. value.
- the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
- the target information included in the first beam report or the first CSI report is multiple groups;
- Each set of target information corresponds to at least one of the following:
- the device for transmitting information on the antenna panel of a terminal provided in the embodiment of the present application further includes a mode determining module, configured to determine to send the first beam report or the first beam report to the network side device according to at least one of the following: The schema of the first CSI report described:
- the modes include any of the following:
- the SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam
- the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam
- the SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams
- the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams
- the terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;
- the terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;
- the first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
- the first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
- the switching time of the mode is determined by the time when the terminal sends a P-MPR report or a power headroom report (PHR).
- P-MPR report or a power headroom report (PHR).
- PHR power headroom report
- the associated valid time includes at least one of the following:
- the starting point of the effective time is any of the following: the time when the P-MPR report sending condition is satisfied, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report, A preset time after the time of the MPR report, a time when the network side device sends the network response information of the P-MPR report, and a preset time after the time when the network side device sends the network response information of the P-MPR report;
- the end of the valid time is any of the following: the time when the network side device sends the beam switching command, the preset time after the time when the network side device sends the beam switching command, the starting point of the next valid time, the first time when the network side device sends the beam switching command.
- the activation state or deactivation state of the antenna panel of the terminal remains unchanged.
- the activation status includes any of the following:
- a state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
- the embodiment of the present application provides a transmission device for terminal antenna panel information.
- the terminal sends a P-MPR report based on the terminal antenna panel and the network triggers the terminal to perform a beam based on the terminal antenna panel.
- the association relationship in the report or CSI report can accurately know the beam measurement results of the terminal antenna panel, thereby ensuring the timeliness and accuracy of the terminal antenna panel and beam selection.
- Fig. 5 is the second structural schematic diagram of the terminal antenna panel information transmission device provided by the embodiment of the present application; referring to Fig. 5, the present application embodiment provides a terminal antenna panel information transmission device, which may include:
- the receiving module 510 is configured to receive the P-MPR report sent by the terminal;
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- the terminal antenna panel information transmission device provided by the embodiment of the present application combines the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same beam.
- the corresponding terminal antenna panels can enable the network-side equipment to accurately obtain the measurement results of each beam or each terminal antenna panel, so that the network-side equipment can timely and accurately instruct the terminal to switch beams, ensuring communication quality and efficiency.
- the position of the P-MPR value in the P-MPR report corresponds to the position of the first target parameter in the corresponding report or indication information.
- the number of P-MPR values is determined by at least one of the following methods:
- the quantity of the P-MPR value is determined according to the quantity of identification information of the terminal antenna panel in the beam report or channel state information CSI report;
- the number of P-MPR values is determined according to the number of beam identification information in the beam report or channel state information CSI report;
- the quantity of the P-MPR value is determined according to the quantity of PH;
- the number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;
- the number of P-MPR values is determined according to the type of beam report or the type of CSI report.
- the type of beam report or CSI report includes at least one of the following:
- the terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
- the terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
- the beam report or CSI report includes identification information of multiple terminal antenna panels
- the identification information of a terminal antenna panel is included in the beam report or CSI report;
- the identification information of the terminal antenna panel is not included in the beam report or CSI report;
- the beam report or CSI report includes identification information of multiple beams
- the identification information of one beam is included in the beam report or CSI report;
- Beam identification information is not included in the beam report or CSI report.
- the position of the P-MPR value in the P-MPR report is determined by at least one of the following methods:
- the terminal determines the position of each P-MPR value in the P-MPR report
- the position of each P-MPR value in the P-MPR report is determined according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
- the receiving module 510 is specifically used for:
- the preset conditions include at least one of the following:
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold
- the transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the transmit power of the terminal antenna panel is greater than or equal to the third threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold
- the distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold
- the terminal activates or turns on or adds an antenna panel
- the path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold
- the power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold
- the P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold
- the link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold
- the difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
- the difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
- the difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
- the current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- the PH when the P-MPR value is associated with the PH, the PH satisfies any of the following:
- the P-MPR value is in the same P-MPR report as the pH
- the sending time of the report where the PH is located is closest to the sending time of the P-MPR report;
- the report where the PH is located and the P-MPR report are located in the same physical uplink shared channel PUSCH;
- the PH report is located in the same transport block TB as the P-MPR report.
- the device for transmitting terminal antenna panel information provided in the embodiment of the present application further includes an indication module (not shown in the figure), configured to:
- the first beam report or the first CSI report includes at least one of the following target information:
- the target information has the association with at least one of the following second target parameters:
- P-MPR value identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- the position of the target information in the first beam report or the first CSI report corresponds to the position of the second target parameter in the corresponding report or indication information.
- the quantity of the target information is determined by at least one of the following methods:
- the quantity of the target information is determined according to the quantity of P-MPR values
- the quantity of the target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;
- the amount of target information is determined according to the amount of identification information of beams in the first beam report or the first CSI report;
- the quantity of the target information is determined according to the quantity of PH;
- the quantity of the target information is determined according to the type of the first beam report or the first CSI report.
- the type of the first beam report or the first CSI report includes at least one of the following :
- the terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
- the terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
- the first beam report or the first CSI report includes identification information of multiple terminal antenna panels
- the first beam report or the first CSI report includes identification information of one terminal antenna panel
- the identification information of the terminal antenna panel is not included in the first beam report or the first CSI report;
- the first beam report or the first CSI report includes identification information of multiple beams
- the first beam report or the first CSI report includes identification information of one beam
- the first beam report or the first CSI report does not include beam identification information.
- the first beam report or the first CSI report is any of the following:
- the preset rules include:
- the network side device receives multiple sets of beam identification information, and each set of beam identification information indicates beams that can be transmitted simultaneously, or corresponds to identification information of the same terminal antenna panel, or corresponds to the same P-MPR value.
- the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or to update the configured CSI report type to the The indication information of the type of the first CSI report.
- the quantity of the target information corresponding to one P-MPR value is one or more.
- the target information when the target information has the association with the identification information of the terminal antenna panel or the identification information of the beam, the corresponding to the identification information of a terminal antenna panel or the identification information of the beam
- the number of target information is one or more.
- the target information corresponding to the terminal antenna panel in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value. value.
- the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
- the target information included in the first beam report or the first CSI report is multiple groups;
- Each set of target information corresponds to at least one of the following:
- the device for transmitting antenna panel information of a terminal provided in the embodiment of the present application further includes a mode determination module, configured to determine a mode for receiving the first beam report or the first CSI report according to at least one of the following:
- the modes include any of the following:
- the SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam
- the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam
- the SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams
- the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams
- the terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;
- the terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;
- the first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
- the first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
- the switching time of the mode is determined by the time when the terminal sends a P-MPR report or a power headroom report (PHR).
- P-MPR report or a power headroom report (PHR).
- PHR power headroom report
- the associated valid time includes at least one of the following:
- the starting point of the effective time is any of the following: the time when the P-MPR report sending condition is satisfied, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report, A preset time after the time of the MPR report, a time when the network side device sends the network response information of the P-MPR report, and a preset time after the time when the network side device sends the network response information of the P-MPR report;
- the end of the valid time is any of the following: the time when the network side device sends the beam switching command, the preset time after the time when the network side device sends the beam switching command, the starting point of the next valid time, the first time when the network side device sends the beam switching command.
- the activation state or deactivation state of the antenna panel of the terminal remains unchanged.
- the activation status includes any of the following:
- a state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
- the embodiment of the present application provides a transmission device for terminal antenna panel information.
- the terminal sends a P-MPR report based on the terminal antenna panel and the network triggers the terminal to perform a beam based on the terminal antenna panel.
- the association relationship in the report or CSI report can accurately know the beam measurement results of the terminal antenna panel, thereby ensuring the timeliness and accuracy of the terminal antenna panel and beam selection.
- the apparatus for transmitting information on the terminal antenna panel in the embodiment of the present application may be an electronic device, or may be a component in the electronic device, such as an integrated circuit or a chip.
- the electronic device may be a terminal, or other devices other than the terminal.
- the electronic device can be a mobile phone, a tablet computer, a notebook computer, a handheld computer, a vehicle electronic device, a mobile Internet device (Mobile Internet Device, MID), an augmented reality (augmented reality, AR)/virtual reality (virtual reality, VR) ) equipment, robots, wearable devices, ultra-mobile personal computer (ultra-mobile personal computer, UMPC), netbook or personal digital assistant (personal digital assistant, PDA), etc.
- the device for transmitting the terminal antenna panel information in the embodiment of the present application may be a device with an operating system.
- the operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, which are not specifically limited in this embodiment of the present application.
- the device for transmitting terminal antenna panel information provided by the embodiment of the present application can implement the various processes implemented by the method embodiments shown in FIG. 2 and FIG. 3 and achieve the same technical effect. To avoid repetition, details are not repeated here.
- this embodiment of the present application further provides a communication device 600, including a processor 601, a memory 602, and programs or instructions stored in the memory 602 and operable on the processor 601,
- a communication device 600 including a processor 601, a memory 602, and programs or instructions stored in the memory 602 and operable on the processor 601
- the communication device 600 is a terminal
- the program or instruction is executed by the processor 601
- each process of the above embodiment of the method for transmitting antenna panel information of the terminal can be realized, and the same technical effect can be achieved.
- the communication device 600 is a network-side device
- the program or instruction is executed by the processor 601
- the various processes of the above-mentioned embodiment of the method for transmitting terminal antenna panel information can be achieved, and the same technical effect can be achieved. To avoid repetition, it is not repeated here repeat.
- the embodiment of the present application also provides a terminal, including a processor and a communication interface, and the communication interface is used to send a P-MPR report to a network side device; wherein, the P-MPR report includes at least one P-MPR value; the P - The MPR value is associated with at least one of the following first target parameters: terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state, and spatial relation spatial relation; the association refers to corresponding to the same beam or the same terminal antenna panel.
- the P-MPR report includes at least one P-MPR value
- the P - The MPR value is associated with at least one of the following first target parameters: terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI
- FIG. 7 is a schematic diagram of a hardware structure of a terminal implementing an embodiment of the present application.
- the terminal 700 includes but is not limited to: a radio frequency unit 701, a network module 702, an audio output unit 703, an input unit 704, a sensor 705, a display unit 706, a user input unit 707, an interface unit 708, a memory 709, and a processor 710, etc. at least some of the components.
- the terminal 700 may also include a power supply (such as a battery) for supplying power to various components, and the power supply may be logically connected to the processor 710 through the power management system, so as to manage charging, discharging, and power consumption through the power management system. Management and other functions.
- a power supply such as a battery
- the terminal structure shown in FIG. 7 does not constitute a limitation on the terminal, and the terminal may include more or fewer components than shown in the figure, or combine some components, or arrange different components, which will not be repeated here.
- the input unit 704 may include a graphics processor (Graphics Processing Unit, GPU) 7041 and a microphone 7042, and the graphics processor 7041 is used for the image capture device (such as the image data of the still picture or video obtained by the camera) for processing.
- the display unit 706 may include a display panel 7061, and the display panel 7061 may be configured in the form of a liquid crystal display, an organic light emitting diode, or the like.
- the user input unit 707 includes a touch panel 7071 and other input devices 7072 .
- the touch panel 7071 is also called a touch screen.
- the touch panel 7071 may include two parts, a touch detection device and a touch controller.
- Other input devices 7072 may include, but are not limited to, physical keyboards, function keys (such as volume control buttons, switch buttons, etc.), trackballs, mice, and joysticks, which will not be repeated here.
- the radio frequency unit 701 receives the downlink data from the network side device, and processes it to the processor 710; in addition, sends the uplink data to the network side device.
- the radio frequency unit 701 includes, but is not limited to, an antenna, at least one amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, and the like.
- the memory 709 can be used to store software programs as well as various data.
- the memory 709 may mainly include a first storage area for storing programs or instructions and a second storage area for storing data, wherein the first storage area may store an operating system, an application program or instructions required by at least one function (such as a sound playing function, image playback function, etc.), etc.
- memory 709 may include volatile memory or nonvolatile memory, or, memory 709 may include both volatile and nonvolatile memory.
- the non-volatile memory can be read-only memory (Read-Only Memory, ROM), programmable read-only memory (Programmable ROM, PROM), erasable programmable read-only memory (Erasable PROM, EPROM), electronically programmable Erase Programmable Read-Only Memory (Electrically EPROM, EEPROM) or Flash.
- ROM Read-Only Memory
- PROM programmable read-only memory
- Erasable PROM Erasable PROM
- EPROM erasable programmable read-only memory
- Electrical EPROM Electrical EPROM
- EEPROM electronically programmable Erase Programmable Read-Only Memory
- Volatile memory can be random access memory (Random Access Memory, RAM), static random access memory (Static RAM, SRAM), dynamic random access memory (Dynamic RAM, DRAM), synchronous dynamic random access memory (Synchronous DRAM, SDRAM), double data rate synchronous dynamic random access memory (Double Data Rate SDRAM, DDR SDRAM), enhanced synchronous dynamic random access memory (Enhanced SDRAM, ESDRAM), synchronous connection dynamic random access memory (Synch link DRAM , SLDRAM) and Direct Memory Bus Random Access Memory (Direct Rambus RAM, DRRAM).
- RAM Random Access Memory
- SRAM static random access memory
- DRAM dynamic random access memory
- DRAM synchronous dynamic random access memory
- Double data rate synchronous dynamic random access memory Double Data Rate SDRAM, DDR SDRAM
- enhanced SDRAM synchronous dynamic random access memory
- Synch link DRAM SLDRAM
- Direct Memory Bus Random Access Memory Direct Rambus RAM, DRRAM
- the memory 709 in the embodiment of the present application includes but is not limited to these and any
- the processor 710 may include one or more processing units; optionally, the processor 710 may integrate an application processor and a modem processor, wherein the application processor mainly processes the operating system, user interface and application programs or instructions, etc., Modem processors mainly handle wireless communications, such as baseband processors. It can be understood that the foregoing modem processor may not be integrated into the processor 710 .
- the radio frequency unit 701 is configured to send a P-MPR report to the network side device;
- the P-MPR report includes at least one P-MPR value
- the P-MPR value is associated with at least one of the following first objective parameters:
- Terminal antenna panel identification information terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
- the associated means correspond to the same beam or the same terminal antenna panel.
- the radio frequency unit 701 is also configured to send a P-MPR report to the network side device when the preset condition is met;
- the preset conditions include at least one of the following:
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold
- the transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the transmit power of the terminal antenna panel is greater than or equal to the third threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold
- the maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold
- the distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold
- the terminal activates or turns on or adds an antenna panel
- the path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold
- the power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold
- the P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold
- the link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold
- the difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
- the difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
- the difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
- the current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- the radio frequency unit 701 is also configured to receive first indication information sent by the network side device;
- the first beam report or the first CSI report includes at least one of the following target information:
- the target information has the association with at least one of the following second target parameters:
- P-MPR value identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- a processor 710 configured to determine a mode of sending the first beam report or the first CSI report to the network side device according to at least one of the following:
- the modes include any of the following:
- the SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam
- the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam
- the SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams
- the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams
- the terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;
- the terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;
- the first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
- the first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
- the terminal provided by the embodiment of the application can associate the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same terminal antenna panel.
- the network-side device can accurately obtain the measurement results of each beam or each terminal antenna panel, so that the network-side device can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
- the embodiment of the present application also provides a network side device, including a processor and a communication interface, and the communication interface is used to receive a P-MPR report sent by a terminal; wherein, the P-MPR report includes at least one P-MPR value; the The P-MPR value is associated with at least one of the following first target parameters: terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indication character SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state, and spatial relation spatial relation; the association refers to corresponding to the same beam or the same terminal antenna panel.
- the network-side device embodiment corresponds to the above-mentioned network-side device method embodiment, and each implementation process and implementation mode of the above-mentioned method embodiment can be applied to this network-side device embodiment, and can achieve the same technical effect.
- the embodiment of the present application also provides a network side device.
- the network device 800 includes: an antenna 81 , a radio frequency device 82 , and a baseband device 83 .
- the antenna 81 is connected to a radio frequency device 82 .
- the radio frequency device 82 receives information through the antenna 81, and sends the received information to the baseband device 83 for processing.
- the baseband device 83 processes the information to be sent and sends it to the radio frequency device 82
- the radio frequency device 82 processes the received information and sends it out through the antenna 81 .
- the foregoing frequency band processing device may be located in the baseband device 83 , and the method performed by the network side device in the above embodiments may be implemented in the baseband device 83 , and the baseband device 83 includes a processor 84 and a memory 85 .
- Baseband device 83 for example can comprise at least one baseband board, and this baseband board is provided with a plurality of chips, as shown in Fig. The network device operations shown in the above method embodiments.
- the baseband device 83 may also include a network interface 86 for exchanging information with the radio frequency device 82, such as a common public radio interface (CPRI for short).
- a network interface 86 for exchanging information with the radio frequency device 82, such as a common public radio interface (CPRI for short).
- CPRI common public radio interface
- the network-side device in the embodiment of the present invention also includes: instructions or programs stored in the memory 85 and operable on the processor 84, and the processor 84 calls the instructions or programs in the memory 85 to execute the modules shown in FIG. 5 To avoid duplication, the method of implementation and to achieve the same technical effect will not be repeated here.
- the embodiment of the present application also provides a readable storage medium, the readable storage medium stores a program or an instruction, and when the program or instruction is executed by the processor, each process of the above embodiment of the method for transmitting antenna panel information of the terminal is implemented, And can achieve the same technical effect, in order to avoid repetition, no more details here.
- the processor is the processor in the terminal described in the foregoing embodiments.
- the readable storage medium includes computer readable storage medium, such as computer read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disk or optical disk, etc.
- the embodiment of the present application further provides a chip, the chip includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is used to run programs or instructions to realize the transmission of the above terminal antenna panel information
- the chip includes a processor and a communication interface
- the communication interface is coupled to the processor
- the processor is used to run programs or instructions to realize the transmission of the above terminal antenna panel information
- the chip mentioned in the embodiment of the present application may also be called a system-on-chip, a system-on-chip, a system-on-a-chip, or a system-on-a-chip.
- the term “comprising”, “comprising” or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article or apparatus comprising a set of elements includes not only those elements, It also includes other elements not expressly listed, or elements inherent in the process, method, article, or device. Without further limitations, an element defined by the phrase “comprising a " does not preclude the presence of additional identical elements in the process, method, article, or apparatus comprising that element.
- the scope of the methods and devices in the embodiments of the present application is not limited to performing functions in the order shown or discussed, and may also include performing functions in a substantially simultaneous manner or in reverse order according to the functions involved. Functions are performed, for example, the described methods may be performed in an order different from that described, and various steps may also be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.
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Abstract
The present application belongs to the technical field of communications. Disclosed are a method for transmitting information of a terminal antenna panel, and a terminal and a network side device. The method for transmitting information of a terminal antenna panel provided in the embodiments of the present application comprises: a terminal sending a P-MPR report to a network side device, wherein the P-MPR report comprises at least one P-MPR value; the P-MPR value is associated with at least one of the following first target parameters: identification information of a terminal antenna panel, power headroom (PH) of the terminal antenna panel, identification information of a beam, PH of the beam, a synchronization signal block resource indicator (SSBRI), a channel state information resource indicator (CRI), a transmission configuration indication (TCI) state and a spatial relation; and the association refers to corresponding to the same beam or the same terminal antenna panel.
Description
相关申请的交叉引用Cross References to Related Applications
本申请要求于2021年05月11日提交的申请号为202110513737.3,发明名称为“终端天线面板信息的传输方法、终端及网络侧设备”的中国专利申请的优先权,其通过引用方式全部并入本申请。This application claims the priority of the Chinese patent application filed on May 11, 2021 with the application number 202110513737.3 and the title of the invention is "Transmission method of terminal antenna panel information, terminal and network side equipment", which is incorporated by reference in its entirety this application.
本申请属于通信技术领域,具体涉及一种终端天线面板信息的传输方法、终端及网络侧设备。The present application belongs to the technical field of communications, and in particular relates to a method for transmitting information on a terminal antenna panel, a terminal, and a network side device.
当终端与网络进行通信时,往往需要根据MPE(Maximum Permissible Exposure,最大允许辐射量)要求,对上行发射功率做功率回退。当终端在高频段使用波束进行传输时,由于各波束的空间传播路径不同,因此对终端的所有波束做相同的功率回退会无法充分体现各波束链路的传输性能,从而影响上行链路性能。因此,可以考虑引入基于终端天线面板或波束的P-MPR(Power Management-Maximum Power Reduction,功率管理-最大功率降低值)报告,从而对每个终端天线面板或波束进行功率回退。When the terminal communicates with the network, it is often necessary to back-off the uplink transmit power according to the MPE (Maximum Permissible Exposure, maximum allowable radiation) requirement. When the terminal uses beams for transmission in the high frequency band, since the spatial propagation paths of each beam are different, performing the same power backoff on all beams of the terminal will not fully reflect the transmission performance of each beam link, thereby affecting the uplink performance. Therefore, it may be considered to introduce a P-MPR (Power Management-Maximum Power Reduction) report based on the terminal antenna panel or beam, so as to perform power back-off for each terminal antenna panel or beam.
然而,现有技术尚未对P-MPR报告的内容及形式进行清楚的定义。However, the prior art has not clearly defined the content and form of the P-MPR report.
发明内容Contents of the invention
本申请实施例提供一种终端天线面板信息的传输方法、终端及网络侧设备,能够解决如何对P-MPR报告的内容及形式进行定义的问题。Embodiments of the present application provide a method for transmitting antenna panel information of a terminal, a terminal and a network side device, which can solve the problem of how to define the content and form of a P-MPR report.
第一方面,提供了一种终端天线面板信息的传输方法,该方法包括:In a first aspect, a method for transmitting terminal antenna panel information is provided, the method including:
终端向网络侧设备发送P-MPR报告;The terminal sends a P-MPR report to the network side device;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
第二方面,提供了一种终端天线面板信息的传输方法,该方法包括:In a second aspect, a method for transmitting terminal antenna panel information is provided, the method including:
网络侧设备接收终端发送的P-MPR报告;The network side device receives the P-MPR report sent by the terminal;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
第三方面,提供了一种终端天线面板信息的传输装置,该装置包括:In a third aspect, a device for transmitting terminal antenna panel information is provided, and the device includes:
发送模块,用于向网络侧设备发送P-MPR报告;A sending module, configured to send a P-MPR report to a network side device;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
第四方面,提供了一种一种终端天线面板信息的传输装置,该装置包括:In a fourth aspect, a device for transmitting terminal antenna panel information is provided, the device comprising:
接收模块,用于接收终端发送的P-MPR报告;a receiving module, configured to receive the P-MPR report sent by the terminal;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信 息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
第五方面,提供了一种终端,该终端包括处理器、存储器及存储在所述存储器上并可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如第一方面所述的方法的步骤。According to a fifth aspect, a terminal is provided. The terminal includes a processor, a memory, and a program or instruction stored in the memory and operable on the processor. When the program or instruction is executed by the processor The steps of the method described in the first aspect are realized.
第六方面,提供了一种终端,包括处理器及通信接口,其中,所述通信接口用于向网络侧设备发送P-MPR报告;In a sixth aspect, a terminal is provided, including a processor and a communication interface, wherein the communication interface is used to send a P-MPR report to a network side device;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
第七方面,提供了一种网络侧设备,该网络侧设备包括处理器、存储器及存储在所述存储器上并可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如第二方面所述的方法的步骤。According to the seventh aspect, a network-side device is provided, the network-side device includes a processor, a memory, and a program or instruction stored in the memory and operable on the processor, and the program or instruction is executed by the The processor implements the steps of the method described in the second aspect when executed.
第八方面,提供了一种网络侧设备,包括处理器及通信接口,其中,所述通信接口用于向网络侧设备发送P-MPR报告;In an eighth aspect, a network side device is provided, including a processor and a communication interface, wherein the communication interface is used to send a P-MPR report to the network side device;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
第九方面,提供了一种可读存储介质,所述可读存储介质上存储程序或指令,所述程序或指令被处理器执行时实现如第一方面所述的方法的步骤, 或者实现如第二方面所述的方法的步骤。A ninth aspect provides a readable storage medium, on which a program or instruction is stored, and when the program or instruction is executed by a processor, the steps of the method described in the first aspect are realized, or the steps of the method described in the first aspect are realized, or The steps of the method described in the second aspect.
第十方面,提供了一种芯片,所述芯片包括处理器和通信接口,所述通信接口和所述处理器耦合,所述处理器用于运行程序或指令,实现如第一方面所述的方法的步骤,或实现如第二方面所述的方法的步骤。In a tenth aspect, a chip is provided, the chip includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is used to run programs or instructions to implement the method as described in the first aspect steps, or to achieve the steps of the method as described in the second aspect.
第十一方面,提供了一种计算机程序/程序产品,所述计算机程序/程序产品被存储在非瞬态的存储介质中,所述程序/程序产品被至少一个处理器执行以实现如第一方面所述的方法的步骤,或实现如第二方面所述的方法的步骤。In an eleventh aspect, a computer program/program product is provided, the computer program/program product is stored in a non-transitory storage medium, and the program/program product is executed by at least one processor to implement the first The steps of the method described in the first aspect, or the steps of implementing the method described in the second aspect.
申请实施例提供的终端天线面板信息的传输方法、终端及网络侧设备,通过将P-MPR报告中的信息、PH报告中的信息、波束报告中的信息、CSI报告中的信息以及波束指示信息与同一波束或者同一终端天线面板对应起来,可以使网络侧设备准确获得各波束或者各终端天线面板的测量结果,从而使得网络侧设备可以及时准确地指示终端进行波束切换,保证了通信质量以及效率。The method for transmitting terminal antenna panel information provided by the embodiment of the application, the terminal and the network side equipment, by combining the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information Corresponding to the same beam or the same terminal antenna panel, the network side equipment can accurately obtain the measurement results of each beam or each terminal antenna panel, so that the network side equipment can timely and accurately instruct the terminal to switch beams, ensuring communication quality and efficiency .
图1为本申请实施例可应用的一种无线通信系统的结构图;FIG. 1 is a structural diagram of a wireless communication system applicable to an embodiment of the present application;
图2为本申请实施例提供的终端天线面板信息的传输方法的流程示意图之一;FIG. 2 is one of the schematic flowcharts of a method for transmitting terminal antenna panel information provided in an embodiment of the present application;
图3为本申请实施例提供的终端天线面板信息的传输方法的流程示意图之二;FIG. 3 is a second schematic flow diagram of a method for transmitting terminal antenna panel information provided by an embodiment of the present application;
图4为本申请实施例提供的终端天线面板信息的传输装置的结构示意图之一;FIG. 4 is one of the schematic structural diagrams of a device for transmitting terminal antenna panel information provided in an embodiment of the present application;
图5为本申请实施例提供的终端天线面板信息的传输装置的结构示意图之二;FIG. 5 is the second structural schematic diagram of the transmission device for terminal antenna panel information provided by the embodiment of the present application;
图6为实现本申请实施例的一种通信设备的结构示意图;FIG. 6 is a schematic structural diagram of a communication device implementing an embodiment of the present application;
图7为实现本申请实施例的一种终端的硬件结构示意图;FIG. 7 is a schematic diagram of a hardware structure of a terminal implementing an embodiment of the present application;
图8为实现本申请实施例的一种网络侧设备的硬件结构示意图。FIG. 8 is a schematic diagram of a hardware structure of a network side device implementing an embodiment of the present application.
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚描述,显然,所描述的实施例是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员所获得的所有其他实施例,都属于本申请保护的范围。The technical solutions in the embodiments of the present application will be clearly described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments are part of the embodiments of the present application, but not all of them. All other embodiments obtained by persons of ordinary skill in the art based on the embodiments in this application belong to the protection scope of this application.
本申请的说明书和权利要求书中的术语“第一”、“第二”等是用于区别类似的对象,而不用于描述特定的顺序或先后次序。应该理解这样使用的术语在适当情况下可以互换,以便本申请的实施例能够以除了在这里图示或描述的那些以外的顺序实施,且“第一”、“第二”所区别的对象通常为一类,并不限定对象的个数,例如第一对象可以是一个,也可以是多个。此外,说明书以及权利要求中“和/或”表示所连接对象的至少其中之一,字符“/”一般表示前后关联对象是一种“或”的关系。The terms "first", "second" and the like in the specification and claims of the present application are used to distinguish similar objects, and are not used to describe a specific sequence or sequence. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in sequences other than those illustrated or described herein and that "first" and "second" distinguish objects. It is usually one category, and the number of objects is not limited. For example, there may be one or more first objects. In addition, "and/or" in the description and claims means at least one of the connected objects, and the character "/" generally means that the related objects are an "or" relationship.
值得指出的是,本申请实施例所描述的技术不限于长期演进型(Long Term Evolution,LTE)/LTE的演进(LTE-Advanced,LTE-A)系统,还可用于其他无线通信系统,诸如码分多址(Code Division Multiple Access,CDMA)、时分多址(Time Division Multiple Access,TDMA)、频分多址(Frequency Division Multiple Access,FDMA)、正交频分多址(Orthogonal Frequency Division Multiple Access,OFDMA)、单载波频分多址(Single-carrier Frequency-Division Multiple Access,SC-FDMA)和其他系统。本申请实施例中的术语“系统”和“网络”常被可互换地使用,所描述的技术既可用于以上提及的系统和无线电技术,也可用于其他系统和无线电技术。以下描述出于示例目的描述了新空口(New Radio,NR)系统,并且在以下大部分描述中使用NR术语,但是这些技术也可应用于NR系统应用以外的应用,如第6代(6th Generation,6G)通信系统。It is worth noting that the technology described in the embodiment of this application is not limited to the Long Term Evolution (Long Term Evolution, LTE)/LTE-Advanced (LTE-Advanced, LTE-A) system, and can also be used in other wireless communication systems, such as code Code Division Multiple Access (CDMA), Time Division Multiple Access (TDMA), Frequency Division Multiple Access (FDMA), Orthogonal Frequency Division Multiple Access, OFDMA), Single-carrier Frequency-Division Multiple Access (Single-carrier Frequency-Division Multiple Access, SC-FDMA) and other systems. The terms "system" and "network" in the embodiments of the present application are often used interchangeably, and the described technology can be used for the above-mentioned system and radio technology, and can also be used for other systems and radio technologies. The following description describes the New Radio (New Radio, NR) system for example purposes, and uses NR terminology in most of the following descriptions, but these techniques can also be applied to applications other than NR system applications, such as the 6th Generation (6th Generation , 6G) communication system.
图1示出本申请实施例可应用的一种无线通信系统的结构图。无线通信系统包括终端11和网络侧设备12。其中,终端11也可以称作终端设备或者 用户终端(User Equipment,UE),终端11可以是手机、平板电脑(Tablet Personal Computer)、膝上型电脑(Laptop Computer)或称为笔记本电脑、个人数字助理(Personal Digital Assistant,PDA)、掌上电脑、上网本、超级移动个人计算机(ultra-mobile personal computer,UMPC)、移动上网装置(Mobile Internet Device,MID)、增强现实(augmented reality,AR)/虚拟现实(virtual reality,VR)设备、机器人、可穿戴式设备(Wearable Device)、车载设备(VUE)、行人终端(PUE)、智能家居(具有无线通信功能的家居设备,如冰箱、电视、洗衣机或者家具等)、游戏机、个人计算机(personal computer,PC)、柜员机或者自助机等终端侧设备,可穿戴式设备包括:智能手表、智能手环、智能耳机、智能眼镜、智能首饰(智能手镯、智能手链、智能戒指、智能项链、智能脚镯、智能脚链等)、智能腕带、智能服装等。需要说明的是,在本申请实施例并不限定终端11的具体类型。网络侧设备12可以包括接入网设备或核心网设备,其中,接入网设备12也可以称为无线接入网设备、无线接入网(Radio Access Network,RAN)、无线接入网功能或无线接入网单元。接入网设备12可以包括基站、WLAN接入点或WiFi节点等,基站可被称为节点B、演进节点B(eNB)、接入点、基收发机站(Base Transceiver Station,BTS)、无线电基站、无线电收发机、基本服务集(Basic Service Set,BSS)、扩展服务集(Extended Service Set,ESS)、家用B节点、家用演进型B节点、发送接收点(Transmitting Receiving Point,TRP)或所述领域中其他某个合适的术语,只要达到相同的技术效果,所述基站不限于特定技术词汇,需要说明的是,在本申请实施例中仅以NR系统中的基站为例进行介绍,并不限定基站的具体类型。核心网设备可以包含但不限于如下至少一项:核心网节点、核心网功能、移动管理实体(Mobility Management Entity,MME)、接入移动管理功能(Access and Mobility Management Function,AMF)、会话管理功能(Session Management Function,SMF)、用户平面功能(User Plane Function,UPF)、策略控制功能(Policy Control Function,PCF)、策略与计费规则功能单元(Policy and Charging Rules Function,PCRF)、边缘应用服务发现功能(Edge Application Server Discovery Function,EASDF)、统一数据管理(Unified Data Management,UDM),统一数据仓储(Unified Data Repository,UDR)、归属用户服务器(Home Subscriber Server,HSS)、集中式网络配置(Centralized network configuration,CNC)、网络存储功能(Network Repository Function,NRF),网络开放功能(Network Exposure Function,NEF)、本地NEF(Local NEF,或L-NEF)、绑定支持功能(Binding Support Function,BSF)、应用功能(Application Function,AF)等。需要说明的是,在本申请实施例中仅以NR系统中的核心网设备为例进行介绍,并不限定核心网设备的具体类型。FIG. 1 shows a structural diagram of a wireless communication system to which this embodiment of the present application is applicable. The wireless communication system includes a terminal 11 and a network side device 12 . Wherein, the terminal 11 can also be called a terminal device or a user terminal (User Equipment, UE), and the terminal 11 can be a mobile phone, a tablet computer (Tablet Personal Computer), a laptop computer (Laptop Computer) or a notebook computer, a personal digital Assistant (Personal Digital Assistant, PDA), handheld computer, netbook, ultra-mobile personal computer (ultra-mobile personal computer, UMPC), mobile internet device (Mobile Internet Device, MID), augmented reality (augmented reality, AR)/virtual reality (virtual reality, VR) equipment, robots, wearable devices (Wearable Device), vehicle-mounted equipment (VUE), pedestrian terminal (PUE), smart home (home equipment with wireless communication functions, such as refrigerators, TVs, washing machines or furniture etc.), game consoles, personal computers (personal computers, PCs), teller machines or self-service machines and other terminal-side devices. Wearable devices include: smart watches, smart bracelets, smart headphones, smart glasses, smart jewelry (smart bracelets, smart bracelets, smart rings, smart necklaces, smart anklets, smart anklets, etc.), smart wristbands, smart clothing, etc. It should be noted that, the embodiment of the present application does not limit the specific type of the terminal 11 . The network side device 12 may include an access network device or a core network device, where the access network device 12 may also be called a radio access network device, a radio access network (Radio Access Network, RAN), a radio access network function, or Wireless access network unit. The access network device 12 may include a base station, a WLAN access point, or a WiFi node, etc., and the base station may be referred to as a node B, an evolved node B (eNB), an access point, a base transceiver station (Base Transceiver Station, BTS), a radio Base station, radio transceiver, Basic Service Set (BSS), Extended Service Set (ESS), Home Node B, Home Evolved Node B, Transmitting Receiving Point (TRP) or all As long as the same technical effect is achieved, the base station is not limited to a specific technical vocabulary. It should be noted that in this embodiment of the application, only the base station in the NR system is used as an example for introduction, and The specific type of the base station is not limited. Core network equipment may include but not limited to at least one of the following: core network nodes, core network functions, mobility management entities (Mobility Management Entity, MME), access mobility management functions (Access and Mobility Management Function, AMF), session management functions (Session Management Function, SMF), User Plane Function (UPF), Policy Control Function (Policy Control Function, PCF), Policy and Charging Rules Function (PCRF), edge application service Discovery function (Edge Application Server Discovery Function, EASDF), unified data management (Unified Data Management, UDM), unified data storage (Unified Data Repository, UDR), home subscriber server (Home Subscriber Server, HSS), centralized network configuration ( Centralized network configuration, CNC), network storage function (Network Repository Function, NRF), network exposure function (Network Exposure Function, NEF), local NEF (Local NEF, or L-NEF), binding support function (Binding Support Function, BSF), application function (Application Function, AF), etc. It should be noted that, in the embodiment of the present application, only the core network equipment in the NR system is used as an example for introduction, and the specific type of the core network equipment is not limited.
为便于更加充分地理解本申请实施例提供的技术方案,现对以下内容进行介绍:In order to more fully understand the technical solutions provided by the embodiments of the present application, the following content is now introduced:
1.关于多天线1. About multi-antenna
LTE(Long Term Evolution,长期演进)/LTE-A(LTE-Advanced,升级版长期演进)等无线接入技术标准都是以MIMO(multiple-in multiple-out,多进多出)+OFDM(Orthogonal Frequency Division Multiplexing,正交频分复用)技术为基础构建起来的。其中,MIMO技术利用多天线系统所能获得的空间自由度,来提高峰值速率与系统频谱利用率。Wireless access technology standards such as LTE (Long Term Evolution, long-term evolution)/LTE-A (LTE-Advanced, an upgraded version of long-term evolution) are all based on MIMO (multiple-in multiple-out) + OFDM (Orthogonal Frequency Division Multiplexing (orthogonal frequency division multiplexing) technology is built on the basis. Among them, the MIMO technology utilizes the spatial freedom obtained by the multi-antenna system to improve the peak rate and the utilization rate of the system spectrum.
在标准化发展过程中MIMO技术的维度不断扩展。在LTE Rel-8中,最多可以支持4层的MIMO传输。在Rel-9中增强MU-MIMO技术,TM(Transmission Mode,传输模式)-8的MU-MIMO(Multi-User MIMO,多用户MIMO)传输中最多可以支持4个下行数据层。在Rel-10中将SU-MIMO(Single-User MIMO,单用户MIMO)的传输能力扩展至最多8个数据层。In the process of standardization development, the dimensions of MIMO technology continue to expand. In LTE Rel-8, up to 4 layers of MIMO transmission can be supported. The MU-MIMO technology is enhanced in Rel-9, and the MU-MIMO (Multi-User MIMO, multi-user MIMO) transmission of TM (Transmission Mode)-8 can support up to 4 downlink data layers. In Rel-10, the transmission capability of SU-MIMO (Single-User MIMO, single-user MIMO) is extended to up to 8 data layers.
产业界正在进一步地将MIMO技术向着三维化和大规模化的方向推进。目前,3GPP已经完成了3D信道建模的研究项目,并且正在开展eFD-MIMO和NR MIMO的研究和标准化工作。可以预见,在未来的5G移动通信系统中,更大规模、更多天线端口的MIMO技术将被引入。The industry is further advancing the MIMO technology towards three-dimensional and large-scale. At present, 3GPP has completed the research project of 3D channel modeling, and is carrying out the research and standardization work of eFD-MIMO and NR MIMO. It is foreseeable that in the future 5G mobile communication system, MIMO technology with larger scale and more antenna ports will be introduced.
Massive MIMO(大规模MIMO)技术使用大规模天线阵列,能够极大地提升系统频带利用效率,支持更大数量的接入用户。因此各大研究组织均将 massive MIMO技术视为下一代移动通信系统中最有潜力的物理层技术之一。Massive MIMO (large-scale MIMO) technology uses large-scale antenna arrays, which can greatly improve the efficiency of system frequency band utilization and support a larger number of access users. Therefore, major research organizations regard massive MIMO technology as one of the most potential physical layer technologies in the next generation mobile communication system.
在massive MIMO技术中如果采用全数字阵列,可以实现最大化的空间分辨率以及最优MU-MIMO性能,但是这种结构需要大量的AD/DA转换器件以及大量完整的射频-基带处理通道,无论是设备成本还是基带处理复杂度都将是巨大的负担。In massive MIMO technology, if an all-digital array is used, the maximum spatial resolution and optimal MU-MIMO performance can be achieved, but this structure requires a large number of AD/DA conversion devices and a large number of complete RF-baseband processing channels. Whether it is equipment cost or baseband processing complexity, it will be a huge burden.
为了避免上述的实现成本与设备复杂度,数模混合波束赋形技术应运而生,即在传统的数字域波束赋形基础上,在靠近天线系统的前端,在射频信号上增加一级波束赋形。模拟赋形能够通过较为简单的方式,使发送信号与信道实现较为粗略的匹配。模拟赋形后形成的等效信道的维度小于实际的天线数量,因此其后所需的AD/DA转换器件、数字通道数以及相应的基带处理复杂度都可以大为降低。模拟赋形部分残余的干扰可以在数字域再进行一次处理,从而保证MU-MIMO传输的质量。相对于全数字赋形而言,数模混合波束赋形是性能与复杂度的一种折中方案,在高频段大带宽或天线数量很大的系统中具有较高的实用前景。In order to avoid the above-mentioned implementation cost and equipment complexity, digital-analog hybrid beamforming technology came into being, that is, on the basis of traditional digital domain beamforming, an additional level of beamforming is added to the radio frequency signal near the front end of the antenna system. shape. Analog shaping can achieve a rough match between the transmitted signal and the channel in a relatively simple way. The dimension of the equivalent channel formed after analog shaping is smaller than the actual number of antennas, so the subsequent required AD/DA conversion devices, the number of digital channels, and the corresponding baseband processing complexity can be greatly reduced. The residual interference of the analog shaped part can be processed again in the digital domain, so as to ensure the quality of MU-MIMO transmission. Compared with all-digital beamforming, digital-analog hybrid beamforming is a compromise between performance and complexity, and it has a high practical prospect in systems with large bandwidth in high frequency bands or a large number of antennas.
2.关于高频段2. About the high frequency band
在对4G以后的下一代通信系统研究中,将系统支持的工作频段提升至6GHz以上,最高约达100GHz。高频段具有较为丰富的空闲频率资源,可以为数据传输提供更大的吞吐量。目前3GPP已经完成了高频信道建模工作,高频信号的波长短,同低频段相比,能够在同样大小的面板上布置更多的天线阵元,利用波束赋形技术形成指向性更强、波瓣更窄的波束。因此,将大规模天线和高频通信相结合,也是未来的趋势之一。In the research on the next-generation communication system after 4G, the working frequency band supported by the system will be raised to above 6GHz, and the highest will be about 100GHz. The high frequency band has relatively abundant idle frequency resources, which can provide greater throughput for data transmission. At present, 3GPP has completed the high-frequency channel modeling work. The wavelength of the high-frequency signal is short. Compared with the low-frequency band, more antenna elements can be arranged on the same size panel, and the beamforming technology is used to form a stronger directivity. , Beams with narrower lobes. Therefore, the combination of large-scale antennas and high-frequency communication is also one of the future trends.
3.关于波束测量和波束报告(beam measurement and beam reporting)3. About beam measurement and beam reporting (beam measurement and beam reporting)
模拟波束赋形是全带宽发射的,并且每个高频天线阵列的面板上每个极化方向阵元仅能以时分复用的方式发送模拟波束。模拟波束的赋形权值是通过调整射频前端移相器等设备的参数来实现。The analog beamforming is transmitted in full bandwidth, and each polarization element on the panel of each high-frequency antenna array can only transmit analog beams in a time-division multiplexed manner. The shaping weight of the analog beam is realized by adjusting the parameters of the RF front-end phase shifter and other equipment.
目前在学术界和工业界,通常是使用轮询的方式进行模拟波束赋形向量的训练,即每个天线面板每个极化方向的阵元以时分复用方式依次在约定时 间发送训练信号(即候选的赋形向量),终端经过测量后反馈波束报告,供网络侧在下一次传输业务时采用该训练信号来实现模拟波束发射。波束报告的内容通常包括最优的若干个发射波束标识以及测量出的每个发射波束的接收功率。At present, in academia and industry, the training of analog beamforming vectors is usually carried out in a polling manner, that is, the array elements of each polarization direction of each antenna panel are sequentially sent training signals at the appointed time in a time-division multiplexing manner ( That is, the candidate shaping vector), the terminal feeds back the beam report after the measurement, and the network side uses the training signal to realize the simulated beam transmission in the next service transmission. The content of the beam report usually includes several optimal transmit beam identities and the measured received power of each transmit beam.
在进行波束测量时,网络会配置参考信号资源集合(RS resource set),其中包括至少一个参考信号资源,例如SSB(Synchronization Signal Block,同步信号块)资源或CSI(Channel State Information,信道状态信息)-RS资源。终端测量每个参考信号资源的L1-RSRP(Reference Signal Receiving Power,参考信号接收功率)/L1-SINR(Signal to Interference plus Noise Ratio,信号与干扰加噪声比),并将最优的至少一个测量结果上报给网络,上报内容包括SSBRI(SSB Resource Indicator,SSB资源指示符)或CRI(CSI-RS Resource Indictor,CSI-RS资源指示符)、及对应的L1-RSRP/L1-SINR。该报告内容反映了至少一个最优的波束及其质量,供网络确定用来与UE传输信道或信号的波束信息。When performing beam measurement, the network will configure a reference signal resource set (RS resource set), including at least one reference signal resource, such as SSB (Synchronization Signal Block, synchronization signal block) resources or CSI (Channel State Information, channel state information) -RS resources. The terminal measures the L1-RSRP (Reference Signal Receiving Power, reference signal received power)/L1-SINR (Signal to Interference plus Noise Ratio, signal to interference plus noise ratio) of each reference signal resource, and uses at least one optimal measurement The result is reported to the network, and the reported content includes SSBRI (SSB Resource Indicator, SSB Resource Indicator) or CRI (CSI-RS Resource Indicator, CSI-RS Resource Indicator), and the corresponding L1-RSRP/L1-SINR. The content of the report reflects at least one optimal beam and its quality, and is used by the network to determine beam information for transmitting channels or signals with the UE.
4.关于波束指示(beam indication)机制4. About the beam indication mechanism
在经过波束测量和波束报告后,网络可以对下行与上行链路的信道或参考信号做波束指示,用于网络与终端之间建立波束链路,实现信道或参考信号的传输。After beam measurement and beam reporting, the network can make beam indications for downlink and uplink channels or reference signals, which are used to establish beam links between the network and terminals to realize the transmission of channel or reference signals.
对于PDCCH(Physical Downlink Control Channel,物理下行控制信道)的波束指示,网络使用RRC(Radio Resource Control,无线资源控制)信令为每个CORESET配置K个TCI(Transmission Configuration Indication,传输配置指示)状态,当K>1时,由MAC CE指示或激活1个TCI状态,当K=1时,不需要额外的MAC CE命令。终端在监听PDCCH时,对CORESET内全部搜索空间使用相同QCL(Quasi-colocation,准共址),即使用相同的TCI状态来监听PDCCH。该TCI状态中的参考信号(例如周期CSI-RS资源、半持续CSI-RS资源、SSB等)与终端专用的PDCCH DMRS端口是空间QCL的。终端根据该TCI状态即可获知使用哪个接收波束来接收PDCCH。For the beam indication of PDCCH (Physical Downlink Control Channel, physical downlink control channel), the network uses RRC (Radio Resource Control, radio resource control) signaling to configure K TCI (Transmission Configuration Indication, transmission configuration indication) status for each CORESET, When K>1, one TCI state is indicated or activated by MAC CE, and when K=1, no additional MAC CE command is required. When the terminal monitors the PDCCH, it uses the same QCL (Quasi-colocation, quasi-colocation) for all the search spaces in the CORESET, that is, uses the same TCI state to monitor the PDCCH. The reference signals in the TCI state (such as periodic CSI-RS resources, semi-persistent CSI-RS resources, SSB, etc.) and the terminal-specific PDCCH DMRS port are spatially QCL. According to the TCI state, the terminal can know which receiving beam is used to receive the PDCCH.
对于PDSCH(Physical Downlink Shared Channel,物理下行共享信道)的波束指示,网络通过RRC信令配置M个TCI状态,再使用MAC CE命令激活2N个TCI状态,然后通过DCI的N-bit TCI字段来通知TCI状态,该TCI状态中的参考信号与要调度的PDSCH的DMRS端口是QCL的。终端根据该TCI状态即可获知使用哪个接收波束来接收PDSCH。For the beam indication of PDSCH (Physical Downlink Shared Channel, physical downlink shared channel), the network configures M TCI states through RRC signaling, then uses MAC CE commands to activate 2N TCI states, and then notifies through the N-bit TCI field of DCI In the TCI state, the reference signal in the TCI state is QCL with the DMRS port of the PDSCH to be scheduled. According to the TCI state, the terminal can know which receiving beam is used to receive the PDSCH.
对于CSI-RS的波束指示,当CSI-RS类型为周期CSI-RS时,网络通过RRC信令为CSI-RS资源配置QCL信息。当CSI-RS类型为半持续CSI-RS时,网络通过MAC CE命令来从RRC配置的CSI-RS资源集合中激活一个CSI-RS资源时指示其QCL信息。当CSI-RS类型为非周期CSI-RS时,网络通过RRC信令为CSI-RS资源配置QCL,并使用DCI来触发CSI-RS。For CSI-RS beam indication, when the CSI-RS type is periodic CSI-RS, the network configures QCL information for CSI-RS resources through RRC signaling. When the CSI-RS type is semi-persistent CSI-RS, the network indicates its QCL information when activating a CSI-RS resource from the CSI-RS resource set configured by RRC through a MAC CE command. When the CSI-RS type is aperiodic CSI-RS, the network configures QCL for the CSI-RS resource through RRC signaling, and uses DCI to trigger the CSI-RS.
对于PUCCH(Physical Uplink Control Channel,物理上行控制信道)的波束指示,网络使用RRC信令通过参数PUCCH-SpatialRelationInfo为每个PUCCH资源配置空间关系信息,当为PUCCH资源配置的空间关系信息包含多个时,使用MAC-CE指示或激活其中一个空间关系信息。当为PUCCH资源配置的空间关系信息只包含1个时,不需要额外的MAC CE命令。For the beam indication of PUCCH (Physical Uplink Control Channel, physical uplink control channel), the network uses RRC signaling to configure spatial relationship information for each PUCCH resource through the parameter PUCCH-SpatialRelationInfo. When the spatial relationship information configured for PUCCH resources contains multiple , use the MAC-CE to indicate or activate one of the spatial relationship information. When the spatial relationship information configured for the PUCCH resource contains only one, no additional MAC CE command is required.
对于PUSCH(Physical Uplink Shared Channel,物理上行共享信道)的波束指示,PUSCH的空间关系信息是当PDCCH承载的DCI调度PUSCH时,DCI中的SRI字段的每个SRI码点指示一个SRI,该SRI用于指示PUSCH的空间关系信息。For the beam indication of PUSCH (Physical Uplink Shared Channel, physical uplink shared channel), the spatial relationship information of PUSCH is that when the DCI carried by PDCCH schedules PUSCH, each SRI code point in the SRI field in DCI indicates an SRI, and the SRI is used Used to indicate the spatial relationship information of the PUSCH.
对于SRS(Sounding Reference Signal,信道探测参考信号)的波束指示,当SRS类型为周期SRS时,网络通过RRC信令为SRS资源配置空间关系信息。当SRS类型为半持续SRS时,网络通过MAC CE命令来从RRC配置的一组空间关系信息中激活一个。当SRS类型为非周期SRS时,网络通过RRC信令为SRS资源配置空间关系信息,还可以使用MAC CE命令更新非周期SRS资源的空间关系信息。For beam indication of SRS (Sounding Reference Signal, channel sounding reference signal), when the SRS type is periodic SRS, the network configures spatial relationship information for SRS resources through RRC signaling. When the SRS type is semi-persistent SRS, the network activates one from a set of spatial relationship information configured by RRC through a MAC CE command. When the SRS type is aperiodic SRS, the network configures spatial relationship information for SRS resources through RRC signaling, and can also use MAC CE commands to update the spatial relationship information of aperiodic SRS resources.
5.P-MPR和MPE5. P-MPR and MPE
FCC和一些国家规定了MPE的标准,包括人体经辐射后引起伤害的辐 射最大值或最大照射水平。FCC and some countries have stipulated the standard of MPE, including the maximum radiation or the maximum exposure level that can cause harm to the human body after radiation.
P-MPR是最大允许的终端输出功率降低值。当无线电发射功率较大、射频器件距离人体较近时,为了保证满足MPE标准,需要降低发射功率。在现有技术中,UE根据P-MPR确定最大输出功率并上报给网络,保证符合可用的电池能量吸收需求,解决不期望的辐射需求。P-MPR is the maximum allowable terminal output power reduction. When the radio transmission power is high and the radio frequency device is close to the human body, in order to ensure that the MPE standard is met, the transmission power needs to be reduced. In the prior art, the UE determines the maximum output power according to the P-MPR and reports it to the network, so as to ensure compliance with available battery energy absorption requirements and solve unexpected radiation requirements.
需要注意的是,本文提及的波束信息,也可以称为:波束的标识信息、空间关系(spatial relation)信息、空域发送滤波器(spatial domain transmission filter)信息、空域接收滤波器(spatial domain reception filter)信息、空域滤波器(spatial filter)信息、传输配置指示状态(TCI state)信息、准共址(QCL)信息或QCL参数等。其中,下行波束信息通常可使用TCI状态信息或QCL信息表示。上行波束信息通常可使用TCI状态信息或空间关系信息表示。It should be noted that the beam information mentioned in this article can also be called: beam identification information, spatial relation information, spatial domain transmission filter information, spatial domain reception filter information filter) information, spatial filter (spatial filter) information, transmission configuration indication status (TCI state) information, quasi-co-location (QCL) information or QCL parameters, etc. Wherein, the downlink beam information can usually be represented by TCI status information or QCL information. Uplink beam information can usually be represented by TCI status information or spatial relationship information.
本文提及的天线面板,也可以称为:天线组、天线端口组、天线集合、天线端口集合、波束集合、波束子集合、天线阵列、天线端口阵列、天线子阵列、天线端口子阵列、逻辑实体、实体或天线实体、面板实体(panel entity)、定时误差组(timing error group,TEG)等。The antenna panel mentioned in this article can also be called: antenna group, antenna port group, antenna set, antenna port set, beam set, beam sub-set, antenna array, antenna port array, antenna sub-array, antenna port sub-array, logic Entity, entity or antenna entity, panel entity (panel entity), timing error group (timing error group, TEG), etc.
本文提及的天线面板的标识可以为:天线面板的标识、参考信号资源标识、参考信号资源集标识、TCI状态标识、QCL信息标识、空间关系标识等。The identifier of the antenna panel mentioned herein may be: the identifier of the antenna panel, the identifier of the reference signal resource, the identifier of the reference signal resource set, the identifier of the TCI state, the identifier of the QCL information, the identifier of the spatial relationship, and the like.
下面结合附图,通过一些实施例及其应用场景对本申请实施例提供的端天线面板信息的传输方法、终端及网络侧设备进行详细地说明。The method for transmitting end antenna panel information provided by the embodiments of the present application, the terminal and the network side equipment are described in detail below through some embodiments and application scenarios with reference to the accompanying drawings.
图2为本申请实施例提供的终端天线面板信息的传输方法的流程示意图之一;参照图2,本申请实施例提供一种终端天线面板信息的传输方法,可以包括:Fig. 2 is one of the flow diagrams of the transmission method of the terminal antenna panel information provided by the embodiment of the present application; referring to Fig. 2, the embodiment of the present application provides a transmission method of the terminal antenna panel information, which may include:
步骤210、向网络侧设备发送P-MPR报告; Step 210, sending a P-MPR report to the network side device;
其中,P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源 指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
关联指对应于同一波束或者同一终端天线面板。Associated refers to corresponding to the same beam or the same terminal antenna panel.
需要说明的是,本申请实施例提供的终端天线面板信息的传输方法的执行主体可以是终端,例如手机、计算机等。It should be noted that the executing subject of the method for transmitting antenna panel information of a terminal provided in the embodiment of the present application may be a terminal, such as a mobile phone, a computer, and the like.
下面以终端执行本申请实施例提供的终端天线面板信息的传输方法为例,详细说明本申请的技术方案。The technical solution of the present application will be described in detail below by taking the terminal executing the method for transmitting the antenna panel information of the terminal provided in the embodiment of the present application as an example.
在步骤210中,终端可以向网络侧设备发送P-MPR报告,该报告可以包括至少一个P-MPR值。P-MPR值可以与以下第一目标参数中的至少一个具有关联:In step 210, the terminal may send a P-MPR report to the network side device, and the report may include at least one P-MPR value. The P-MPR value may be associated with at least one of the following first objective parameters:
P-MPR报告或PH报告或波束报告或CSI报告或波束指示信息中的终端天线面板的标识信息、P-MPR报告或PH报告或波束报告或CSI报告或波束指示信息中的波束的标识信息、P-MPR报告或PH报告或波束报告或CSI报告中的终端天线面板的PH、P-MPR报告或PH报告或波束报告或CSI报告中的波束的PH、波束报告或CSI报告中的同步信号块资源指示符SSBRI、波束报告或CSI报告中的信道状态信息资源指示符CRI、波束指示信息中的传输配置指示状态以及波束指示信息中的空间关系。The identification information of the terminal antenna panel in the P-MPR report or PH report or beam report or CSI report or beam indication information, the beam identification information in P-MPR report or PH report or beam report or CSI report or beam indication information, PH of terminal antenna panel in P-MPR report or PH report or beam report or CSI report, PH of terminal antenna panel in P-MPR report or PH report or beam report or PH of beam in beam report or CSI report, synchronization signal block in beam report or CSI report The resource indicator SSBRI, the channel state information resource indicator CRI in the beam report or CSI report, the transmission configuration indication status in the beam indication information, and the spatial relationship in the beam indication information.
需要说明的是,关联可以指对应于同一波束或者同一终端天线面板,即P-MPR值与第一目标参数对应于同一波束或者同一终端天线面板。It should be noted that association may refer to corresponding to the same beam or the same terminal antenna panel, that is, the P-MPR value and the first target parameter correspond to the same beam or the same terminal antenna panel.
例如,终端向网络侧设备发送P-MPR报告,网络侧设备根据该P-MPR报告向终端发送指示信息,以使终端向网络侧设备发送波束报告。For example, the terminal sends a P-MPR report to the network side device, and the network side device sends indication information to the terminal according to the P-MPR report, so that the terminal sends a beam report to the network side device.
其中,P-MPR报告中的P-MPR值可以与波束报告中的SSBRI或者CRI对应于同一波束或者同一终端天线面板。Wherein, the P-MPR value in the P-MPR report may correspond to the same beam or the same terminal antenna panel as the SSBRI or CRI in the beam report.
需要说明的是,通过将P-MPR报告中的信息、PH报告中的信息、波束报告中的信息、CSI报告中的信息以及波束指示信息与同一波束或者同一终端天线面板对应起来,可以使网络侧设备准确获得各波束或者各终端天线面板的测量结果,从而使得网络侧设备可以及时准确地指示终端进行波束切换,保证了通信质量以及效率。It should be noted that by associating the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same terminal antenna panel, the network can be The equipment on the network side can accurately obtain the measurement results of each beam or antenna panel of each terminal, so that the equipment on the network side can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
在一个实施例中,P-MPR值在P-MPR报告中的位置,与第一目标参数在各自对应的报告或指示信息中的位置对应。In one embodiment, the position of the P-MPR value in the P-MPR report corresponds to the position of the first target parameter in the corresponding report or indication information.
例如,在P-MPR报告以及第一目标参数各自对应的报告中不包括波束的标识信息或者终端天线面板的标识信息的情况下,P-MPR报告中包括2个P-MPR值:P-MPR 01以及P-MPR 02。P-MPR 01对应波束01或者终端天线面板01,P-MPR 02对应波束02或者终端天线面板02,则P-MPR 01以及P-MPR 02可以分别位于P-MPR报告中的例如X行以及X+1行。For example, if the P-MPR report and the report corresponding to the first target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel, the P-MPR report includes two P-MPR values: P-MPR 01 and P-MPR 02. P-MPR 01 corresponds to beam 01 or terminal antenna panel 01, and P-MPR 02 corresponds to beam 02 or terminal antenna panel 02, then P-MPR 01 and P-MPR 02 can be located in the P-MPR report, such as line X and line X respectively. +1 row.
对应地,在波束报告中,与波束01或者终端天线面板01对应的SSBRI 01或者CRI 01可以位于Y行,与波束02或者终端天线面板02对应的SSBRI 02或者CRI 02可以位于Y+1行。其中,X可以等于Y。Correspondingly, in the beam report, SSBRI 01 or CRI 01 corresponding to beam 01 or terminal antenna panel 01 may be located in row Y, and SSBRI 02 or CRI 02 corresponding to beam 02 or terminal antenna panel 02 may be located in row Y+1. Wherein, X can be equal to Y.
需要说明的是,当网络侧设备接收到P-MPR报告时,即可获知P-MPR报告中的X行以及X+1行分别为波束01或者终端天线面板01的P-MPR值以及波束02或者终端天线面板02的P-MPR值;而当网络侧设备接收到波束报告或CSI报告时,即可获知波束报告或CSI报告中的Y行以及Y+1行分别为波束01或者终端天线面板01的SSBRI或者CRI,以及波束02或者终端天线面板02的SSBRI或者CRI。It should be noted that when the network side device receives the P-MPR report, it can know that the X row and X+1 row in the P-MPR report are the P-MPR value of beam 01 or the terminal antenna panel 01 and the beam 02 respectively. Or the P-MPR value of the terminal antenna panel 02; and when the network side device receives the beam report or CSI report, it can know that the Y line and the Y+1 line in the beam report or CSI report are the beam 01 or the terminal antenna panel respectively SSBRI or CRI of 01, and SSBRI or CRI of beam 02 or terminal antenna panel 02.
或者是,当网络侧设备接收到P-MPR报告和波束报告或CSI报告后,可以确定在两个报告中对应位置的P-MPR值和SSBRI或CRI对应同一波束或终端天线面板,如在P-MPR报告X行的P-MPR值和波束报告或CSI报告Y行的SSBRI或CRI对应同一个波束或者终端天线面板,在P-MPR报告X+1行的P-MPR值和波束报告或CSI报告Y+1行的SSBRI或CRI对应另一个波束或者终端天线面板。即,网络侧设备仅确定各个报告中的哪一行或哪几行对应同一个终端天线面板即可,而不再确定该终端天线面板的具体标识信息。Alternatively, after receiving the P-MPR report and beam report or CSI report, the network side device can determine that the P-MPR value and SSBRI or CRI at the corresponding positions in the two reports correspond to the same beam or terminal antenna panel, such as in P -The P-MPR value of the X line of the MPR report and the SSBRI or CRI of the beam report or CSI report Y line correspond to the same beam or terminal antenna panel, and the P-MPR value and the beam report or CSI of the X+1 line of the P-MPR report Report the SSBRI or CRI of row Y+1 for another beam or terminal antenna panel. That is, the network side device only needs to determine which line or lines in each report correspond to the same terminal antenna panel, and does not need to determine the specific identification information of the terminal antenna panel.
通过将P-MPR值在P-MPR报告中的位置,与第一目标参数在各自对应的报告或指示信息中的位置对应,可以使得网络侧设备在P-MPR报告以及第一目标参数各自对应的报告中不包括波束的标识信息或者终端天线面板的标识信息的情况下,仍能获知各个波束或者各个终端天线面板所对应的数据, 使得网络和终端对于各个报告中的信息与波束或者终端天线面板的对应关系的理解一致,从而能够在节约通信资源的情况下,仍能时准确地指示终端进行波束切换,进一步保证了通信质量以及效率。By corresponding the position of the P-MPR value in the P-MPR report with the position of the first target parameter in the corresponding report or indication information, the network side equipment can make the P-MPR report and the first target parameter correspond to each other. In the case that the report does not include the identification information of the beam or the identification information of the terminal antenna panel, the data corresponding to each beam or each terminal antenna panel can still be known, so that the network and the terminal can compare the information in each report with the beam or terminal antenna The understanding of the corresponding relationship of the panels is consistent, so that the terminal can be accurately instructed to switch beams in time while saving communication resources, further ensuring communication quality and efficiency.
在一个实施例中,P-MPR报告中可以包括与P-MPR值对应的终端天线面板的标识信息和/或波束的标识信息;In an embodiment, the P-MPR report may include the identification information of the terminal antenna panel and/or the identification information of the beam corresponding to the P-MPR value;
并且,与第一目标参数对应于同一波束或者同一终端天线面板,可以包括:第一目标参数在各自对应的报告或指示信息中包括与第一目标参数各自对应的终端天线面板的标识信息和/或波束的标识信息。In addition, corresponding to the same beam or the same terminal antenna panel as the first target parameters may include: the first target parameters include the identification information of the terminal antenna panels corresponding to the first target parameters and/or in the report or indication information corresponding to each of the first target parameters or beam identification information.
即,在P-MPR报告以及第一目标参数在各自对应的报告或指示信息中,各个数据均显式地对应有终端天线面板的标识信息和/或波束的标识信息。That is, in the report or indication information corresponding to the P-MPR report and the first target parameter, each piece of data explicitly corresponds to the identification information of the terminal antenna panel and/or the identification information of the beam.
因此,网络侧设备能够直接获知各个波束或者各个终端天线面板所对应的数据,从而准确地指示终端进行波束切换,保证了通信质量以及效率。Therefore, the network-side device can directly know the data corresponding to each beam or each terminal antenna panel, thereby accurately instructing the terminal to perform beam switching, thereby ensuring communication quality and efficiency.
在一个实施例中,P-MPR值的数量可以通过以下至少一种方式确定:In one embodiment, the number of P-MPR values can be determined in at least one of the following ways:
方式1:P-MPR值的数量根据波束报告或CSI报告中的终端天线面板的标识信息的数量确定;Mode 1: The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or CSI report;
需要说明的是,在波束报告或CSI报告中可以包含终端天线面板的标识信息,而一个终端天线面板所对应的P-MPR值的数量是固定的,因此P-MPR值的数量可以根据波束报告或CSI报告中的终端天线面板的标识信息的数量确定。It should be noted that the identification information of the terminal antenna panel can be included in the beam report or CSI report, and the number of P-MPR values corresponding to a terminal antenna panel is fixed, so the number of P-MPR values can be based on the beam report Or the quantity of identification information of the terminal antenna panel in the CSI report is determined.
方式2:P-MPR值的数量根据波束报告或CSI报告中的波束的标识信息的数量确定;Mode 2: The number of P-MPR values is determined according to the number of beam identification information in the beam report or CSI report;
需要说明的是,在波束报告或CSI报告中可以包含波束的标识信息,而一个波束通常对应一个P-MPR值,因此P-MPR值的数量可以根据波束报告或CSI报告中的波束的标识信息的数量直接确定。It should be noted that the beam identification information can be included in the beam report or CSI report, and a beam usually corresponds to a P-MPR value, so the number of P-MPR values can be based on the beam identification information in the beam report or CSI report The quantity is determined directly.
方式3:P-MPR值的数量根据PH的数量确定;Mode 3: The number of P-MPR values is determined according to the number of PH;
需要说明的是,由于PH与终端天线面板或波束是一一对应的,因此在确定PH后,即可确定终端天线面板或波束的数量,从而可以确定P-MPR值的 数量。It should be noted that since the PH has a one-to-one correspondence with the terminal antenna panels or beams, after determining the PH, the number of terminal antenna panels or beams can be determined, thereby determining the number of P-MPR values.
方式4:P-MPR值的数量根据波束报告或CSI报告中的以下至少一项确定:SSBRI的数量、CRI的数量;Mode 4: The number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;
需要说明的是,SSBRI的数量或CRI的数量与终端天线面板或波束的数量是对应的,因此在确定SSBRI的数量和/或CRI的数量后,即可确定终端天线面板或波束的数量,从而可以确定P-MPR值的数量。It should be noted that the number of SSBRIs or the number of CRIs corresponds to the number of terminal antenna panels or beams, so after determining the number of SSBRIs and/or the number of CRIs, the number of terminal antenna panels or beams can be determined, so that A number of P-MPR values can be determined.
方式5:P-MPR值的数量根据波束报告的类型或CSI报告的类型确定。Way 5: The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
可选地,波束报告或CSI报告的类型包括如下至少之一:Optionally, the type of beam report or CSI report includes at least one of the following:
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
波束报告或CSI报告中包括多个终端天线面板的标识信息;The beam report or CSI report includes identification information of multiple terminal antenna panels;
波束报告或CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the beam report or CSI report;
波束报告或CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the beam report or CSI report;
波束报告或CSI报告中包括多个波束的标识信息;The beam report or CSI report includes identification information of multiple beams;
波束报告或CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the beam report or CSI report;
波束报告或CSI报告中不包括波束的标识信息。Beam identification information is not included in the beam report or CSI report.
例如,当波束报告的类型为基于分组的波束报告时,且每组可同时传输的波束数量为2,则在P-MPR报告中的P-MPR值的数量为2个。当波束报告的类型为基于不分组的波束报告时,则在P-MPR报告中的P-MPR值的数量为1个。当波束报告的类型为终端使用2个空域滤波器接收SSB或CSI-RS所得的报告时,则在P-MPR报告中的P-MPR值的数量为2个。当波束报告的类型为终端使用1个空域滤波器接收SSB或CSI-RS所得的报告时,则在P-MPR报告中的P-MPR值的数量为1个。当波束报告的类型为包括2个终端天线面板的标识信息时,则在P-MPR报告中的P-MPR值的数量为2个。当波束报告的类型为包括1个终端天线面板的标识信息时,则在P-MPR报告 中的P-MPR值的数量为1个。For example, when the type of beam report is group-based beam report, and the number of beams that can be transmitted simultaneously in each group is 2, then the number of P-MPR values in the P-MPR report is 2. When the beam report type is non-group based beam report, the number of P-MPR values in the P-MPR report is 1. When the beam report type is the report obtained by the terminal receiving SSB or CSI-RS using two spatial filters, the number of P-MPR values in the P-MPR report is two. When the beam report type is the report obtained by the terminal receiving SSB or CSI-RS using one spatial filter, the number of P-MPR values in the P-MPR report is one. When the beam report type includes identification information of 2 terminal antenna panels, the number of P-MPR values in the P-MPR report is 2. When the beam report type includes identification information of one terminal antenna panel, the number of P-MPR values in the P-MPR report is one.
可以理解的是,通过上述各种方式确定P-MPR报告中的P-MPR值的数量,可以满足在各种场景下确定P-MPR值的数量的要求,有效提高了本申请实施例提供的终端天线面板信息的传输方法的适用性。It can be understood that determining the number of P-MPR values in the P-MPR report through the above-mentioned various methods can meet the requirements for determining the number of P-MPR values in various scenarios, and effectively improve the number of P-MPR values provided by the embodiments of the present application. Applicability of the method of transmission of terminal antenna panel information.
在一个实施例中,在P-MPR报告包括多个P-MPR值的情况下,P-MPR值在P-MPR报告中的位置通过如下至少一种方式确定:In one embodiment, when the P-MPR report includes multiple P-MPR values, the position of the P-MPR value in the P-MPR report is determined by at least one of the following methods:
方式I:根据各P-MPR值对应的终端天线面板或波束是否发生最大允许辐射量MPE事件,来确定各P-MPR值在P-MPR报告中的位置;Mode I: Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;
例如,可以将发生MPE事件的终端天线面板或波束所对应的P-MPR值放在未发生MPE事件的终端天线面板或波束所对应的P-MPR值之前;For example, the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event occurs can be placed before the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event does not occur;
或者,可以将发生MPE事件的终端天线面板或波束所对应的P-MPR值放在未发生MPE事件的终端天线面板或波束所对应的P-MPR值之后。Alternatively, the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event occurs may be placed after the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event does not occur.
方式II:根据各P-MPR值的大小,在P-MPR报告中依次排列各P-MPR值;Mode II: According to the size of each P-MPR value, arrange each P-MPR value in the P-MPR report in sequence;
例如,可以根据各P-MPR值的大小,将各P-MPR值升序排列在P-MPR报告中,或者将各P-MPR值降序排列在P-MPR报告中。For example, according to the magnitude of each P-MPR value, each P-MPR value may be arranged in ascending order in the P-MPR report, or each P-MPR value may be arranged in descending order in the P-MPR report.
方式III:终端确定各P-MPR值在P-MPR报告中的位置;Mode III: The terminal determines the position of each P-MPR value in the P-MPR report;
可选地,终端可以根据预设规则将各P-MPR值排列在P-MPR报告中。Optionally, the terminal may arrange each P-MPR value in the P-MPR report according to a preset rule.
例如,终端可以根据各P-MPR值对应的终端天线面板或波束是否发生MPE事件以及各P-MPR值的大小,对各P-MPR值赋予相应的权重,并按照权重的大小将各P-MPR值升序排列在P-MPR报告中,或者将各P-MPR值降序排列在P-MPR报告中。For example, the terminal can assign corresponding weights to each P-MPR value according to whether an MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value and the size of each P-MPR value, and assign each P-MPR value according to the size of the weight. The MPR values are sorted in ascending order in the P-MPR report, or the individual P-MPR values are sorted in descending order in the P-MPR report.
方式IV:根据各P-MPR值对应的PH的排列顺序,来确定各P-MPR值在P-MPR报告中的位置;Method IV: Determine the position of each P-MPR value in the P-MPR report according to the order of the PH corresponding to each P-MPR value;
可选地,可以根据各P-MPR值对应的PH在P-MPR报告中已确定的排列顺序,来确定各P-MPR值在P-MPR报告中的位置。Optionally, the position of each P-MPR value in the P-MPR report may be determined according to the determined arrangement order of the PHs corresponding to each P-MPR value in the P-MPR report.
例如,PH 01位于P-MPR报告中的第A行,则可以将与PH 01对应的P- MPR 01放置在P-MPR报告中的第A行。For example, if PH 01 is located in line A of the P-MPR report, then the P-MPR 01 corresponding to PH 01 can be placed in line A of the P-MPR report.
方式V:根据各P-MPR值对应的PH是否为实际PH,来确定各P-MPR值在P-MPR报告中的位置;Mode V: Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;
例如,终端需上报终端天线面板01或波束01的实际PH(actural PH),则与终端天线面板01或波束01对应的P-MPR可以排在前面;而终端需上报端天线面板02或波束02的虚拟PH(virtual PH),则与终端天线面板02或波束02对应的P-MPR可以排在后面。For example, if the terminal needs to report the actual PH (actual PH) of the terminal antenna panel 01 or beam 01, the P-MPR corresponding to the terminal antenna panel 01 or beam 01 can be ranked first; and the terminal needs to report the terminal antenna panel 02 or beam 02 The virtual PH (virtual PH) of the terminal, the P-MPR corresponding to the terminal antenna panel 02 or the beam 02 can be ranked behind.
方式VI:根据各P-MPR值对应的终端天线面板或波束是否被调度了上行资源,来确定各P-MPR值在P-MPR报告中的位置。Method VI: Determine the position of each P-MPR value in the P-MPR report according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
例如,网络侧设备实际调度了终端天线面板01或波束01的上行资源,则与终端天线面板01或波束01对应的P-MPR可以排在前面;而终端天线面板02或波束02没有被调度上行资源,则与终端天线面板02或波束02对应的P-MPR可以排在后面。For example, if the network-side device actually schedules the uplink resources of terminal antenna panel 01 or beam 01, the P-MPR corresponding to terminal antenna panel 01 or beam 01 can be ranked first; while terminal antenna panel 02 or beam 02 is not scheduled for uplink resources, the P-MPR corresponding to the terminal antenna panel 02 or beam 02 may be ranked behind.
在一个实施例中,步骤210可以包括:In one embodiment, step 210 may include:
在满足预设条件的情况下,向网络侧设备发送P-MPR报告;Send a P-MPR report to the network side device when the preset conditions are met;
其中,预设条件可以包括以下至少一项:Among them, the preset conditions may include at least one of the following:
终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;
终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;
终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;
终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;
终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;
终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;
终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;
当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;
当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;
当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;
当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;
当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
其中,上述各阈值的具体大小可以根据实际情况进行调整,本申请实施例对此不做具体限定。Wherein, the specific sizes of the foregoing thresholds may be adjusted according to actual conditions, and are not specifically limited in this embodiment of the present application.
第一波束可以是预设值的,也可以是当前终端的多个波束中的任一个。The first beam may be a preset value, and may also be any one of multiple beams of the current terminal.
在一个实施例中,在P-MPR值与PH具有关联的情况下,PH满足以下任一项:In one embodiment, where the P-MPR value is associated with PH, the PH satisfies any of the following:
P-MPR值与PH在同一P-MPR报告中;P-MPR value and PH are in the same P-MPR report;
PH所在报告的发送时间与P-MPR报告的发送时间最接近;The sending time of the PH report is closest to the sending time of the P-MPR report;
PH所在报告与P-MPR报告位于相同的PUSCH中;The PH report is located in the same PUSCH as the P-MPR report;
PH所在报告与P-MPR报告位于相同的TB中。The PH report is located in the same TB as the P-MPR report.
在一个实施例中,本申请实施例提供的终端天线面板信息的传输方法,还可以包括:In an embodiment, the method for transmitting terminal antenna panel information provided in the embodiment of the present application may further include:
接收网络侧设备发送的第一指示信息;receiving first indication information sent by the network side device;
根据第一指示信息,向网络侧设备发送第一波束报告或第一CSI报告;Sending a first beam report or a first CSI report to the network side device according to the first indication information;
其中,第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:
至少一个SSBRI以及与SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to the SSBRI;
至少一个CRI以及与CRI对应的L1-RSRP或L1-SINR;At least one CRI and the L1-RSRP or L1-SINR corresponding to the CRI;
目标信息与以下第二目标参数中的至少一个具有关联:The targeting information is associated with at least one of the following second targeting parameters:
P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
需要说明的是,当网络侧设备接收到终端发送的P-MPR报告后,即可根据P-MPR值与第一目标参数中的关联,获知各终端天线面板或波束对应的P-MPR值,并对应地向终端发送第一指示信息,以指示终端进行波束测量,并向网络侧设备上报第一波束报告或第一CSI报告。It should be noted that after the network side device receives the P-MPR report sent by the terminal, it can know the P-MPR value corresponding to each terminal antenna panel or beam according to the association between the P-MPR value and the first target parameter. And correspondingly send the first indication information to the terminal, so as to instruct the terminal to perform beam measurement, and report the first beam report or the first CSI report to the network side device.
终端接收到网络侧设备发送的第一指示信息后,会根据该第一指示信息开始进行波束测量,并在波束测量完成后,向网络侧设备发送第一波束报告或第一CSI报告。After receiving the first indication information sent by the network-side device, the terminal starts beam measurement according to the first indication information, and sends a first beam report or a first CSI report to the network-side device after the beam measurement is completed.
第一波束报告或第一CSI报告中可以包括至少一个SSBRI以及与SSBRI对应的L1-RSRP或L1-SINR,和/或至少一个CRI以及与CRI对应的L1-RSRP或L1-SINR。The first beam report or the first CSI report may include at least one SSBRI and the L1-RSRP or L1-SINR corresponding to the SSBRI, and/or at least one CRI and the L1-RSRP or L1-SINR corresponding to the CRI.
上述目标信息可以与以下第二目标参数中的至少一个具有关联:The above target information may be associated with at least one of the following second target parameters:
P-MPR报告中的P-MPR值、P-MPR报告或PH报告或波束报告或CSI报告或波束指示信息中的终端天线面板的标识信息、P-MPR报告或PH报告或波束报告或CSI报告或波束指示信息中的波束的标识信息、P-MPR报告或PH报告或波束报告或CSI报告中的终端天线面板的PH、P-MPR报告或PH报告或波束报告或CSI报告中的波束的PH、波束指示信息中的传输配置指示状态以及波束指示信息中的空间关系。P-MPR value in P-MPR report, P-MPR report or PH report or beam report or CSI report or terminal antenna panel identification information in P-MPR report or PH report or beam report or CSI report or the identification information of the beam in the beam indication information, the PH of the terminal antenna panel in the P-MPR report or the PH report or the beam report or the CSI report, the PH of the beam in the P-MPR report or the PH report or the beam report or the CSI report , the transmission configuration indication state in the beam indication information and the spatial relationship in the beam indication information.
需要说明的是,关联可以指对应于同一波束或者同一终端天线面板,即目标信息与第二目标参数对应于同一波束或者同一终端天线面板。It should be noted that association may refer to corresponding to the same beam or the same terminal antenna panel, that is, the target information and the second target parameter correspond to the same beam or the same terminal antenna panel.
需要说明的是,通过将P-MPR报告中的信息、PH报告中的信息、波束报告中的信息、CSI报告中的信息以及波束指示信息与同一波束或者同一终端天线面板对应起来,可以使网络侧设备准确获得各波束或者各终端天线面板的测量结果,从而使得网络侧设备可以及时准确地指示终端进行波束切换,保证了通信质量以及效率。It should be noted that by associating the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same terminal antenna panel, the network can be The equipment on the network side can accurately obtain the measurement results of each beam or antenna panel of each terminal, so that the equipment on the network side can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
在一个实施例中,目标信息在第一波束报告或第一CSI报告中的位置,与第二目标参数在各自对应的报告或指示信息中的位置对应。In an embodiment, the position of the target information in the first beam report or the first CSI report corresponds to the position of the second target parameter in the corresponding report or indication information.
例如,在第一波束报告或第一CSI报告以及第二目标参数各自对应的报告中不包括波束的标识信息或者终端天线面板的标识信息的情况下,第一波束报告或第一CSI报告中包括2个SSBRI:SSBRI 01(以及对应的L1-RSRP 01)以及SSBRI 02(以及对应的L1-RSRP 02)。SSBRI 01对应波束01或者终端天线面板01,SSBRI 02对应波束02或者终端天线面板02,则SSBRI 01以及SSBRI 02可以分别位于第一波束报告或第一CSI报告中的例如X行以及X+1行。For example, if the first beam report or the first CSI report and the report corresponding to the second target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel, the first beam report or the first CSI report includes 2 SSBRIs: SSBRI 01 (and corresponding L1-RSRP 01) and SSBRI 02 (and corresponding L1-RSRP 02). SSBRI 01 corresponds to beam 01 or terminal antenna panel 01, SSBRI 02 corresponds to beam 02 or terminal antenna panel 02, then SSBRI 01 and SSBRI 02 can be located in the first beam report or the first CSI report, for example, row X and row X+1 .
对应地,在P-MPR报告中,与波束01或者终端天线面板01对应的P-MPR 01可以位于Y行,与波束02或者终端天线面板02对应的P-MPR 02可以位于Y+1行。其中,X可以等于Y。Correspondingly, in the P-MPR report, the P-MPR 01 corresponding to beam 01 or terminal antenna panel 01 may be located in row Y, and the P-MPR 02 corresponding to beam 02 or terminal antenna panel 02 may be located in row Y+1. Wherein, X can be equal to Y.
需要说明的是,当网络侧设备接收到P-MPR报告时,即可获知P-MPR报告中的Y行以及Y+1行分别为波束01或者终端天线面板01的P-MPR值以及波束02或者终端天线面板02的P-MPR值;而当网络侧设备接收到第一波束报告或第一CSI报告时,即可获知第一波束报告或第一CSI报告中的X行以及X+1行分别为波束01或者终端天线面板01的SSBRI 01,以及波束02或者终端天线面板02的SSBRI 02。It should be noted that when the network side device receives the P-MPR report, it can know that the Y line and Y+1 line in the P-MPR report are the P-MPR value of beam 01 or the terminal antenna panel 01 and the beam 02 Or the P-MPR value of the terminal antenna panel 02; and when the network side device receives the first beam report or the first CSI report, it can know the X line and X+1 line in the first beam report or the first CSI report They are SSBRI 01 of beam 01 or terminal antenna panel 01, and SSBRI 02 of beam 02 or terminal antenna panel 02.
或者是,当网络侧设备接收到P-MPR报告和第一波束报告或第一CSI报告后,可以确定在两个报告中对应位置的P-MPR值和SSBRI或CRI对应同一波束或终端天线面板,如在P-MPR报告Y行的P-MPR值和波束报告或CSI报告X行的SSBRI或CRI对应同一个波束或者终端天线面板,在P-MPR 报告Y+1行的P-MPR值和波束报告或CSI报告X+1行的SSBRI或CRI对应另一个波束或者终端天线面板。即,网络侧设备仅确定各个报告中的哪一行或哪几行对应同一个终端天线面板即可,而不再确定该终端天线面板的具体标识信息Or, after the network side device receives the P-MPR report and the first beam report or the first CSI report, it can determine that the P-MPR value and SSBRI or CRI at the corresponding positions in the two reports correspond to the same beam or terminal antenna panel , such as the P-MPR value in the P-MPR report line Y and the SSBRI or CRI in the X line of the beam report or CSI report correspond to the same beam or terminal antenna panel, and the P-MPR value and the P-MPR value in the Y+1 line of the P-MPR report Beam report or CSI report The SSBRI or CRI of row X+1 corresponds to another beam or terminal antenna panel. That is, the network-side device only needs to determine which line or lines in each report correspond to the same terminal antenna panel, instead of determining the specific identification information of the terminal antenna panel
通过将目标信息在第一波束报告或第一CSI报告中的位置,与第二目标参数在各自对应的报告或指示信息中的位置对应,可以使得网络侧设备在第一波束报告或第一CSI报告以及第二目标参数各自对应的报告中不包括波束的标识信息或者终端天线面板的标识信息的情况下,仍能获知各个波束或者各个终端天线面板所对应的数据,使得网络和终端对于各个报告中的信息与波束或者终端天线面板的对应关系的理解一致,从而能够在节约通信资源的情况下,仍能时准确地指示终端进行波束切换,进一步保证了通信质量以及效率。By corresponding the position of the target information in the first beam report or the first CSI report with the position of the second target parameter in the corresponding report or indication information, the network side device can In the case that the reports corresponding to the report and the second target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel, the data corresponding to each beam or each terminal antenna panel can still be known, so that the network and the terminal are for each report The information in is consistent with the understanding of the corresponding relationship between beams or terminal antenna panels, so that the terminal can be timely and accurately instructed to switch beams while saving communication resources, further ensuring communication quality and efficiency.
在一个实施例中,第一波束报告或第一CSI报告中可以包括与目标信息对应的终端天线面板的标识信息和/或波束的标识信息;In an embodiment, the first beam report or the first CSI report may include identification information of the terminal antenna panel and/or identification information of the beam corresponding to the target information;
并且,与第二目标参数对应于同一波束或者同一终端天线面板,可以包括:第二目标参数在各自对应的报告或指示信息中包括与第二目标参数各自对应的终端天线面板的标识信息和/或波束的标识信息。In addition, corresponding to the same beam or the same terminal antenna panel as the second target parameter may include: the second target parameter includes the identification information of the terminal antenna panel corresponding to the second target parameter and/or in the report or indication information respectively corresponding to the second target parameter or beam identification information.
即,在第一波束报告或第一CSI报告以及第二目标参数在各自对应的报告或指示信息中,各个数据均显式地对应有终端天线面板的标识信息和/或波束的标识信息。That is, in the report or indication information corresponding to the first beam report or the first CSI report and the second target parameter, each data is explicitly corresponding to identification information of the terminal antenna panel and/or identification information of the beam.
因此,网络侧设备能够直接获知各个波束或者各个终端天线面板所对应的数据,从而准确地指示终端进行波束切换,保证了通信质量以及效率。Therefore, the network-side device can directly know the data corresponding to each beam or each terminal antenna panel, thereby accurately instructing the terminal to perform beam switching, thereby ensuring communication quality and efficiency.
在一个实施例中,目标信息的数量可以通过以下至少一种方式确定:In an embodiment, the amount of target information may be determined in at least one of the following ways:
方式一:目标信息的数量根据P-MPR值的数量确定;Method 1: The quantity of target information is determined according to the quantity of P-MPR values;
需要说明的是,一个终端天线面板或波束所对应的目标信息的数量是固定的,而一个终端天线面板或波束所对应的P-MPR值的数量也是固定的,因此,可以在P-MPR值的数量确定的情况下,确定目标信息的数量。It should be noted that the number of target information corresponding to a terminal antenna panel or beam is fixed, and the number of P-MPR values corresponding to a terminal antenna panel or beam is also fixed. Therefore, the P-MPR value When the quantity of is determined, the quantity of target information is determined.
方式二:目标信息的数量根据所述第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量确定;Mode 2: The quantity of target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;
需要说明的是,在波束报告或CSI报告中可以包括终端天线面板的标识信息,一个终端天线面板对应的目标信息的数量是固定的,因此,可以根据第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量直接确定目标信息的数量。It should be noted that the identification information of the terminal antenna panel may be included in the beam report or the CSI report, and the amount of target information corresponding to a terminal antenna panel is fixed, therefore, it may be based on the first beam report or the first CSI report. The amount of identification information of the terminal antenna panel directly determines the amount of target information.
方式三:目标信息的数量根据第一波束报告或第一CSI报告中的波束的标识信息的数量确定;Mode 3: The quantity of target information is determined according to the quantity of identification information of beams in the first beam report or the first CSI report;
需要说明的是,在波束报告或CSI报告中可以包括波束的标识信息,一个波束通常对应一个目标信息,因此,可以根据第一波束报告或第一CSI报告中的波束的标识信息的数量直接确定目标信息的数量。It should be noted that beam identification information may be included in the beam report or CSI report, and one beam usually corresponds to one target information, therefore, it can be directly determined according to the number of beam identification information in the first beam report or the first CSI report Amount of target information.
方式四:目标信息的数量根据PH的数量确定;Method 4: The quantity of target information is determined according to the quantity of PH;
需要说明的是,由于PH与终端天线面板或波束是一一对应的,因此在确定PH后,即可确定终端天线面板或波束的数量,从而可以确定目标信息的数量。It should be noted that since the PH has a one-to-one correspondence with the terminal antenna panels or beams, after determining the PH, the number of terminal antenna panels or beams can be determined, thereby determining the quantity of target information.
方式五:目标信息的数量根据第一波束报告或第一CSI报告的类型确定。Manner 5: The amount of target information is determined according to the type of the first beam report or the first CSI report.
可选地,第一波束报告或第一CSI报告的类型包括如下至少之一:Optionally, the type of the first beam report or the first CSI report includes at least one of the following:
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
第一波束报告或第一CSI报告中包括多个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of multiple terminal antenna panels;
第一波束报告或第一CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the first beam report or the first CSI report;
第一波束报告或第一CSI报告中不包括终端天线面板的标识信息;The identification information of the antenna panel of the terminal is not included in the first beam report or the first CSI report;
第一波束报告或第一CSI报告中包括多个波束的标识信息;The first beam report or the first CSI report includes identification information of multiple beams;
第一波束报告或第一CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the first beam report or the first CSI report;
第一波束报告或第一CSI报告中不包括波束的标识信息。The identification information of the beam is not included in the first beam report or the first CSI report.
例如,若目标信息为CRI及其对应的L1-RSRP。当第一波束报告的类型为基于分组的波束报告时,且每组可同时传输的波束数量为2,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为2个。当第一波束报告的类型为基于不分组的波束报告时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为1个。当第一波束报告的类型为终端使用2个空域滤波器接收CSI-RS所得的报告时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为2个。当第一波束报告的类型为终端使用1个空域滤波器接收CSI-RS所得的报告时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为1个。当第一波束报告的类型为包括2个终端天线面板的标识信息时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为2个。当第一波束报告的类型为包括1个终端天线面板的标识信息时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为1个。For example, if the target information is CRI and its corresponding L1-RSRP. When the type of the first beam report is group-based beam report, and the number of beams that can be transmitted simultaneously in each group is 2, the number of CRIs and their corresponding L1-RSRPs in the first beam report are both 2. When the type of the first beam report is non-group based beam report, the number of CRI and its corresponding L1-RSRP in the first beam report is one. When the type of the first beam report is the report obtained by the terminal receiving the CSI-RS using two spatial filters, the number of CRIs and corresponding L1-RSRPs in the first beam report is two. When the type of the first beam report is the report obtained by the terminal receiving the CSI-RS using one spatial filter, the number of CRI and its corresponding L1-RSRP in the first beam report is one. When the type of the first beam report includes identification information of two terminal antenna panels, the number of CRIs and corresponding L1-RSRPs in the first beam report is two. When the type of the first beam report includes identification information of one terminal antenna panel, the number of CRI and its corresponding L1-RSRP in the first beam report is one.
可以理解的是,通过上述各种方式确定第一波束报告或第一CSI报告中的目标信息的数量,可以满足在各种场景下确定目标信息的数量的要求,有效提高了本申请实施例提供的终端天线面板信息的传输方法的适用性。It can be understood that determining the quantity of target information in the first beam report or the first CSI report through the above-mentioned various methods can meet the requirements for determining the quantity of target information in various scenarios, effectively improving the number of target information provided by the embodiments of the present application. Applicability of the method of transmission of terminal antenna panel information.
在一个实施例中,第一波束报告或第一CSI报告可以为以下任一项:In an embodiment, the first beam report or the first CSI report may be any of the following:
项目1:基于分组的报告;Project 1: Group-based reporting;
例如,第一波束报告或第一CSI报告可以是基于分组的报告,即终端每次向网络侧设备发送一组或多组SSBRI和/或CRI,其中,每组SSBRI和/或CRI的数量为至少2个,表示每组SSBRI和/或CRI所对应的至少2个波束可以同时传输。For example, the first beam report or the first CSI report may be a group-based report, that is, the terminal sends one or more sets of SSBRI and/or CRI to the network side device each time, wherein the number of each set of SSBRI and/or CRI is At least 2, means that at least 2 beams corresponding to each group of SSBRI and/or CRI can transmit at the same time.
项目2:基于不分组的报告;Item 2: Report based on ungrouping;
终端可以根据实际测量的终端天线面板的波束情况,对应地向网络侧设备发送包括一定数量SSBRI和/或CRI的第一波束报告或第一CSI报告。The terminal may correspondingly send the first beam report or the first CSI report including a certain number of SSBRIs and/or CRIs to the network side device according to the actually measured beam conditions of the antenna panel of the terminal.
项目3:基于预设规则的报告;Item 3: Report based on preset rules;
其中,预设规则可以包括:Among them, preset rules can include:
向网络侧设备发送多组波束标识信息,每一组波束标识信息指示可同时 传输的波束、或对应同一个终端天线面板的标识信息、或对应同一个P-MPR值。Send multiple sets of beam identification information to the network side device, each set of beam identification information indicates beams that can be transmitted at the same time, or identification information corresponding to the same terminal antenna panel, or corresponding to the same P-MPR value.
终端还可以使用不同于基于分组的第一波束报告或第一CSI报告,和基于不分组的第一波束报告或第一CSI报告,而是采用预设规则的第一波束报告或第一CSI报告。The terminal can also use the first beam report or the first CSI report based on the grouping, and the first beam report or the first CSI report based on the non-grouping, but adopt the first beam report or the first CSI report of the preset rule .
例如,终端向网络侧设备发送的第一波束报告或第一CSI报告可以包括多组SSBRI和/或CRI,每一组SSBRI和/或CRI指示可同时传输的波束、或每一组SSBRI和/或CRI对应同一个终端天线面板的标识信息、或每一组SSBRI和/或CRI对应同一个P-MPR值。For example, the first beam report or the first CSI report sent by the terminal to the network side device may include multiple sets of SSBRI and/or CRI, each set of SSBRI and/or CRI indicates beams that can be transmitted simultaneously, or each set of SSBRI and/or Either the CRIs correspond to identification information of the same terminal antenna panel, or each group of SSBRIs and/or CRIs corresponds to the same P-MPR value.
在一个实施例中,第一波束报告或第一CSI报告的内容为满足特定约束关系的目标信息。In an embodiment, the content of the first beam report or the first CSI report is target information satisfying a specific constraint relationship.
特定约束关系可以包括:Specific constraint relationships can include:
第一波束报告或第一CSI报告是否为基于分组的报告;Whether the first beam report or the first CSI report is a packet-based report;
第一波束报告或第一CSI报告是否为终端使用多个或1个空域滤波器接收SSB或CSI-RS所得;Whether the first beam report or the first CSI report is obtained by the terminal using multiple or one spatial domain filter to receive SSB or CSI-RS;
第一波束报告或第一CSI报告是否上报终端天线面板的标识信息或终端天线面板的标识信息的数量;Whether the first beam report or the first CSI report reports the identification information of the terminal antenna panel or the number of identification information of the terminal antenna panel;
第一波束报告或第一CSI报告是否上报波束的标识信息或波束的标识信息的数量。Whether to report beam identification information or the quantity of beam identification information in the first beam report or the first CSI report.
在一个实施例中,第一指示信息为通过MAC CE或DCI将已配置的波束报告的类型更新为第一波束报告的类型,或者将已配置的CSI报告的类型,更新为第一CSI报告的类型的指示信息。In one embodiment, the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or update the configured CSI report type to the first CSI report type type of instruction.
例如,对于已配置了基于不分组的波束报告,网络侧设备可以通过MAC CE或DCI指示将该波束报告更新为基于分组的波束报告(第一波束报告为基于分组的报告),或反之。For example, if the non-group-based beam report has been configured, the network side device can indicate through MAC CE or DCI to update the beam report to a packet-based beam report (the first beam report is a group-based report), or vice versa.
对于已配置了使用1个空域滤波器接收SSB/CSI-RS所得的波束报告,网络侧设备可以通过MAC CE或DCI指示将该波束报告更新为使用2个空 域滤波器接收SSB/CSI-RS所得的波束报告(第一波束报告为使用2个空域滤波器接收SSB/CSI-RS所得的报告),或反之。For the beam report that has been configured to receive SSB/CSI-RS using 1 spatial domain filter, the network side device can update the beam report to receive SSB/CSI-RS using 2 spatial domain filters through MAC CE or DCI instructions beam report (the first beam report is the report obtained by receiving SSB/CSI-RS with 2 spatial filters), or vice versa.
对于已配置了不上报终端天线面板的标识信息的波束报告,网络侧设备可以通过MAC CE或DCI指示将该波束报告更新为上报终端天线面板的标识信息的波束报告(第一波束报告为上报终端天线面板的标识信息的报告),或反之。For the beam report that has been configured not to report the identification information of the terminal antenna panel, the network side device can use the MAC CE or DCI instruction to update the beam report to a beam report that reports the identification information of the terminal antenna panel (the first beam report is the one that reports the terminal reporting of identification information for antenna panels), or vice versa.
对于已配置了上报1个终端天线面板的标识信息的波束报告,网络侧设备可以通过MAC CE或DCI指示将该波束报告更新为上报多个终端天线面板的标识信息的波束报告(第一波束报告为上报多个终端天线面板的标识信息的报告),或反之。For the beam report that has been configured to report the identification information of one terminal antenna panel, the network side device can use the MAC CE or DCI instruction to update the beam report to a beam report that reports the identification information of multiple terminal antenna panels (the first beam report For reporting identification information of multiple terminal antenna panels), or vice versa.
在一个实施例中,在目标信息与P-MPR值具有关联的情况下,与一个P-MPR值对应的目标信息的数量为一个或多个。In one embodiment, in the case that the target information is associated with the P-MPR value, the quantity of target information corresponding to one P-MPR value is one or more.
在一个实施例中,在目标信息与终端天线面板的标识信息或波束的标识信息具有关联的情况下,与一个终端天线面板的标识信息或波束的标识信息对应的目标信息的数量为一个或多个。In one embodiment, when the target information is associated with the identification information of the terminal antenna panel or the identification information of the beam, the number of target information corresponding to the identification information of a terminal antenna panel or the identification information of the beam is one or more indivual.
在一个实施例中,对于处于去激活状态的终端天线面板,在第一波束报告或第一CSI报告中与处于去激活状态的终端天线面板相对应的目标信息为无效值或者预定值。In an embodiment, for the antenna panel of the terminal in the deactivated state, the target information corresponding to the antenna panel of the terminal in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value.
网络侧设备可以根据目标信息是否为无效值或者预定值,确定终端天线面板的状态是激活还是去激活,即当目标信息是否为无效值或者预定值时,网络侧设备可以确定端天线面板处于去激活状态。The network side device can determine whether the status of the terminal antenna panel is activated or deactivated according to whether the target information is an invalid value or a predetermined value, that is, when the target information is an invalid value or a predetermined value, the network side device can determine that the terminal antenna panel is in the deactivated state. active state.
在一个实施例中,在第一波束报告或第一CSI报告中,与处于激活状态的终端天线面板以及处于去激活状态的终端天线面板分别对应的SSBRI或CRI可以相同。In an embodiment, in the first beam report or the first CSI report, the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
其中,激活状态可以包括如下任一项:Among them, the activation state can include any of the following:
多组波束之间可以在预定义的时间段内进行波束切换的状态,其中,每组波束对应一个终端天线面板;The state of beam switching between multiple groups of beams within a predefined time period, where each group of beams corresponds to a terminal antenna panel;
至少一个终端天线面板所对应的一组波束能够进行下行信道接收或者参考信号RS接收的状态;A state in which a group of beams corresponding to at least one terminal antenna panel can perform downlink channel reception or reference signal RS reception;
至少一个终端天线面板所对应的一组波束能够进行上行信道发送或者参考信号RS发送的状态。A state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
需要说明的是,去激活的终端天线面板可以是在波束测量前为去激活态,但是在使用该终端天线面板进行波束测量时需改为激活态,在测量完毕或发送波束报告或CSI报告后,可以去激活该终端天线面板,以实现为终端省电的目的。It should be noted that the deactivated terminal antenna panel can be in the deactivated state before beam measurement, but it needs to be changed to the active state when using the terminal antenna panel for beam measurement. After the measurement is completed or the beam report or CSI report is sent , the antenna panel of the terminal may be deactivated, so as to save power for the terminal.
在一个实施例中,在网络侧设备具有多个TRP(Transmission and Receiving Point,发射接收点)的情况下,第一波束报告或第一CSI报告包括的目标信息为多组;In one embodiment, when the network side device has multiple TRPs (Transmission and Receiving Points, transmitting and receiving points), the target information included in the first beam report or the first CSI report is multiple groups;
每组目标信息对应以下至少一项:Each set of target information corresponds to at least one of the following:
一个终端天线面板的标识信息;Identification information of a terminal antenna panel;
一个波束的标识信息;Identification information of a beam;
一个TRP标识信息。A TRP identification information.
在一个实施例中,终端根据以下至少一项,确定向网络侧设备发送第一波束报告或第一CSI报告的模式:In an embodiment, the terminal determines the mode of sending the first beam report or the first CSI report to the network side device according to at least one of the following:
关联;association;
P-MPR报告中P-MPR值的数量;the number of P-MPR values in the P-MPR report;
PH报告中PH的数量;The number of PH in the PH report;
上述模式可以包括以下任一项:The above patterns can include any of the following:
SSBRI为终端通过1个空域滤波器或终端天线面板或波束接收SSB所得,CRI为终端通过1个空域滤波器或终端天线面板或波束接收CSI-RS所得;SSBRI is obtained by the terminal receiving SSB through a spatial filter or terminal antenna panel or beam, and CRI is obtained by the terminal receiving CSI-RS through a spatial filter or terminal antenna panel or beam;
SSBRI为终端通过多个空域滤波器或终端天线面板或波束接收SSB所得,CRI为终端通过多个空域滤波器或终端天线面板或波束接收CSI-RS所得;SSBRI is obtained by the terminal receiving SSB through multiple spatial filters or terminal antenna panels or beams, and CRI is obtained by the terminal receiving CSI-RS through multiple spatial filters or terminal antenna panels or beams;
终端使用基于分组的报告来向网络侧设备发送第一波束报告或第一CSI 报告;The terminal uses a packet-based report to send the first beam report or the first CSI report to the network side device;
终端使用基于不分组的报告来向网络侧设备发送第一波束报告或第一CSI报告;The terminal sends the first beam report or the first CSI report to the network side device by using an ungrouped report;
第一波束报告或第一CSI报告携带终端天线面板的标识信息,终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
第一波束报告或第一CSI报告携带波束的标识信息,该波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries beam identification information, and the number of beam identification information is one or more.
在一个实施例中,上述模式的切换时间由终端发送P-MPR报告或PHR(PH Report,功率余量报告)的时间确定。In one embodiment, the switching time of the foregoing modes is determined by the time when the terminal sends a P-MPR report or a PHR (PH Report, power headroom report).
例如,当终端发送P-MPR报告或PHR时,可以根据实际情况来切换向网络侧设备发送第一波束报告或第一CSI报告的模式。For example, when the terminal sends a P-MPR report or a PHR, the mode of sending the first beam report or the first CSI report to the network side device may be switched according to actual conditions.
在一个实施例中,关联的有效时间可以包括以下至少一项:In an embodiment, the associated effective time may include at least one of the following:
有效时间的起点为如下任一项:满足P-MPR报告发送条件的时刻、满足P-MPR报告发送条件的时刻之后的预设时刻、终端发送P-MPR报告的时刻、终端发送P-MPR报告的时刻之后的预设时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻之后的预设时刻;The starting point of the valid time is any of the following: the time when the P-MPR report sending condition is met, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report The preset time after the time, the time when the network side device sends the network response information of the P-MPR report, and the preset time after the time when the network side device sends the network response information of the P-MPR report;
有效时间的终点为如下任一项:网络侧设备发送波束切换命令的时刻、网络侧设备发送波束切换命令的时刻之后的预设时刻、下一次有效时间的起点、网络侧设备发送第一指示信息的时刻、网络侧设备发送第一指示信息的时刻之后的预设时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻之后的预设时刻、终端发送第一波束报告或第一CSI报告的时刻、终端发送第一波束报告或第一CSI报告的时刻之后的预设时刻。The end of the valid time is any of the following: the time when the network-side device sends the beam switching command, the preset time after the time when the network-side device sends the beam switching command, the starting point of the next valid time, or the first indication information sent by the network-side device time, the preset time after the time when the network-side device sends the first indication information, the network-side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report Time, the preset time after the time when the network side device updates the beam report type to the first beam report type or updates the CSI report type to the first CSI report type, the terminal sends the first beam report or the first CSI report The time of the report, the preset time after the time when the terminal sends the first beam report or the first CSI report.
在一个实施例中,在上述有效时间内,终端天线面板的激活状态或去激活状态保持不变。In an embodiment, within the above valid time, the activation state or deactivation state of the antenna panel of the terminal remains unchanged.
综上所述,本申请实施例提供终端天线面板信息的传输方法,在发生MPE事件的情况下,通过终端发送的基于终端天线面板或波束的P-MPR报告以及网络触发终端进行基于终端天线面板或波束的波束报告或CSI报告之间的关联关系,可以准确获知终端天线面板的波束测量结果,从而保证终端天线面板和波束选择的及时性和准确性。To sum up, the embodiment of the present application provides a method for transmitting terminal antenna panel information. In the case of an MPE event, the P-MPR report sent by the terminal based on the terminal antenna panel or beam and the network triggers the terminal to perform a P-MPR report based on the terminal antenna panel. The relationship between the beam report or the CSI report of the beam or the beam can accurately know the beam measurement result of the terminal antenna panel, thereby ensuring the timeliness and accuracy of the terminal antenna panel and beam selection.
图3为本申请实施例提供的终端天线面板信息的传输方法的流程示意图之二;参照图3,本申请实施例提供一种终端天线面板信息的传输方法,可以包括:FIG. 3 is the second schematic flow diagram of the method for transmitting terminal antenna panel information provided by the embodiment of the present application; referring to FIG. 3 , the embodiment of the present application provides a method for transmitting terminal antenna panel information, which may include:
步骤310、接收终端发送的P-MPR报告; Step 310, receiving the P-MPR report sent by the terminal;
其中,P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
关联指对应于同一波束或者同一终端天线面板。Associated refers to corresponding to the same beam or the same terminal antenna panel.
需要说明的是,本申请实施例提供的终端天线面板信息的传输方法的执行主体可以是网络侧设备,例如基站等。It should be noted that the execution subject of the method for transmitting the terminal antenna panel information provided in the embodiment of the present application may be a network side device, such as a base station.
下面以网络侧设备执行本申请实施例提供的终端天线面板信息的传输方法为例,详细说明本申请的技术方案。The technical solution of the present application will be described in detail below by taking the method for transmitting terminal antenna panel information provided by the embodiment of the present application performed by the network side device as an example.
在步骤310中,网络侧设备可以接收终端发送P-MPR报告,该报告可以包括至少一个P-MPR值。P-MPR值可以与以下第一目标参数中的至少一个具有关联:In step 310, the network side device may receive a P-MPR report sent by the terminal, and the report may include at least one P-MPR value. The P-MPR value may be associated with at least one of the following first objective parameters:
P-MPR报告或PH报告或波束报告或CSI报告或波束指示信息中的终端天线面板的标识信息、P-MPR报告或PH报告或波束报告或CSI报告或波束指示信息中的波束的标识信息、P-MPR报告或PH报告或波束报告或CSI报告中的终端天线面板的PH、P-MPR报告或PH报告或波束报告或CSI报告中的波束的PH、波束报告或CSI报告中的同步信号块资源指示符SSBRI、波束 报告或CSI报告中的信道状态信息资源指示符CRI、波束指示信息中的传输配置指示状态以及波束指示信息中的空间关系。The identification information of the terminal antenna panel in the P-MPR report or PH report or beam report or CSI report or beam indication information, the beam identification information in P-MPR report or PH report or beam report or CSI report or beam indication information, PH of terminal antenna panel in P-MPR report or PH report or beam report or CSI report, PH of terminal antenna panel in P-MPR report or PH report or beam report or PH of beam in beam report or CSI report, synchronization signal block in beam report or CSI report The resource indicator SSBRI, the channel state information resource indicator CRI in the beam report or CSI report, the transmission configuration indication status in the beam indication information, and the spatial relationship in the beam indication information.
需要说明的是,关联可以指对应于同一波束或者同一终端天线面板,即P-MPR值与第一目标参数对应于同一波束或者同一终端天线面板。It should be noted that association may refer to corresponding to the same beam or the same terminal antenna panel, that is, the P-MPR value and the first target parameter correspond to the same beam or the same terminal antenna panel.
例如,终端向网络侧设备发送P-MPR报告,网络侧设备根据该P-MPR报告向终端发送指示信息,以使终端向网络侧设备发送波束报告。For example, the terminal sends a P-MPR report to the network side device, and the network side device sends indication information to the terminal according to the P-MPR report, so that the terminal sends a beam report to the network side device.
其中,P-MPR报告中的P-MPR值可以与波束报告中的SSBRI或者CRI对应于同一波束或者同一终端天线面板。Wherein, the P-MPR value in the P-MPR report may correspond to the same beam or the same terminal antenna panel as the SSBRI or CRI in the beam report.
需要说明的是,通过将P-MPR报告中的信息、PH报告中的信息、波束报告中的信息、CSI报告中的信息以及波束指示信息与同一波束或者同一终端天线面板对应起来,可以使网络侧设备准确获得各波束或者各终端天线面板的测量结果,从而使得网络侧设备可以及时准确地指示终端进行波束切换,保证了通信质量以及效率。It should be noted that by associating the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same terminal antenna panel, the network can be The equipment on the network side can accurately obtain the measurement results of each beam or antenna panel of each terminal, so that the equipment on the network side can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
在一个实施例中,P-MPR值在P-MPR报告中的位置,与第一目标参数在各自对应的报告或指示信息中的位置对应。In one embodiment, the position of the P-MPR value in the P-MPR report corresponds to the position of the first target parameter in the corresponding report or indication information.
例如,在P-MPR报告以及第一目标参数各自对应的报告中不包括波束的标识信息或者终端天线面板的标识信息的情况下,P-MPR报告中包括2个P-MPR值:P-MPR 01以及P-MPR 02。P-MPR 01对应波束01或者终端天线面板01,P-MPR 02对应波束02或者终端天线面板02,则P-MPR 01以及P-MPR 02可以分别位于P-MPR报告中的例如X行以及X+1行。For example, if the P-MPR report and the report corresponding to the first target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel, the P-MPR report includes two P-MPR values: P-MPR 01 and P-MPR 02. P-MPR 01 corresponds to beam 01 or terminal antenna panel 01, and P-MPR 02 corresponds to beam 02 or terminal antenna panel 02, then P-MPR 01 and P-MPR 02 can be located in the P-MPR report, such as line X and line X respectively. +1 row.
对应地,在波束报告中,与波束01或者终端天线面板01对应的SSBRI 01或者CRI 01可以位于Y行,与波束02或者终端天线面板02对应的SSBRI 02或者CRI 02可以位于Y+1行。其中,X可以等于Y。Correspondingly, in the beam report, SSBRI 01 or CRI 01 corresponding to beam 01 or terminal antenna panel 01 may be located in row Y, and SSBRI 02 or CRI 02 corresponding to beam 02 or terminal antenna panel 02 may be located in row Y+1. Wherein, X can be equal to Y.
需要说明的是,当网络侧设备接收到P-MPR报告时,即可获知P-MPR报告中的X行以及X+1行分别为波束01或者终端天线面板01的P-MPR值以及波束02或者终端天线面板02的P-MPR值;而当网络侧设备接收到波束报告或CSI报告时,即可获知波束报告或CSI报告中的Y行以及Y+1行分 别为波束01或者终端天线面板01的SSBRI或者CRI,以及波束02或者终端天线面板02的SSBRI或者CRI。It should be noted that when the network side device receives the P-MPR report, it can know that the X row and X+1 row in the P-MPR report are the P-MPR value of beam 01 or the terminal antenna panel 01 and the beam 02 respectively. Or the P-MPR value of the terminal antenna panel 02; and when the network side device receives the beam report or CSI report, it can know that the Y line and the Y+1 line in the beam report or CSI report are the beam 01 or the terminal antenna panel respectively SSBRI or CRI of 01, and SSBRI or CRI of beam 02 or terminal antenna panel 02.
或者是,当网络侧设备接收到P-MPR报告和波束报告或CSI报告后,可以确定在两个报告中对应位置的P-MPR值和SSBRI或CRI对应同一波束或终端天线面板,如在P-MPR报告X行的P-MPR值和波束报告或CSI报告Y行的SSBRI或CRI对应同一个波束或者终端天线面板,在P-MPR报告X+1行的P-MPR值和波束报告或CSI报告Y+1行的SSBRI或CRI对应另一个波束或者终端天线面板。即,网络侧设备仅确定各个报告中的哪一行或哪几行对应同一个终端天线面板即可,而不再确定该终端天线面板的具体标识信息Alternatively, after receiving the P-MPR report and beam report or CSI report, the network side device can determine that the P-MPR value and SSBRI or CRI at the corresponding positions in the two reports correspond to the same beam or terminal antenna panel, such as in P -The P-MPR value of the X line of the MPR report and the SSBRI or CRI of the beam report or CSI report Y line correspond to the same beam or terminal antenna panel, and the P-MPR value and the beam report or CSI of the X+1 line of the P-MPR report Report the SSBRI or CRI of row Y+1 for another beam or terminal antenna panel. That is, the network-side device only needs to determine which line or lines in each report correspond to the same terminal antenna panel, instead of determining the specific identification information of the terminal antenna panel
通过将P-MPR值在P-MPR报告中的位置,与第一目标参数在各自对应的报告或指示信息中的位置对应,可以使得网络侧设备在P-MPR报告以及第一目标参数各自对应的报告中不包括波束的标识信息或者终端天线面板的标识信息的情况下,仍能获知各个波束或者各个终端天线面板所对应的数据,使得网络和终端对于各个报告中的信息与波束或者终端天线面板的对应关系的理解一致,从而能够在节约通信资源的情况下,仍能时准确地指示终端进行波束切换,进一步保证了通信质量以及效率。By corresponding the position of the P-MPR value in the P-MPR report with the position of the first target parameter in the corresponding report or indication information, the network side equipment can make the P-MPR report and the first target parameter correspond to each other. In the case that the report does not include the identification information of the beam or the identification information of the terminal antenna panel, the data corresponding to each beam or each terminal antenna panel can still be known, so that the network and the terminal can compare the information in each report with the beam or terminal antenna The understanding of the corresponding relationship of the panels is consistent, so that the terminal can be accurately instructed to switch beams in time while saving communication resources, further ensuring communication quality and efficiency.
在一个实施例中,P-MPR报告中可以包括与P-MPR值对应的终端天线面板的标识信息和/或波束的标识信息;In an embodiment, the P-MPR report may include the identification information of the terminal antenna panel and/or the identification information of the beam corresponding to the P-MPR value;
并且,与第一目标参数对应于同一波束或者同一终端天线面板,可以包括:第一目标参数在各自对应的报告或指示信息中包括与第一目标参数各自对应的终端天线面板的标识信息和/或波束的标识信息。In addition, corresponding to the same beam or the same terminal antenna panel as the first target parameters may include: the first target parameters include the identification information of the terminal antenna panels corresponding to the first target parameters and/or in the report or indication information corresponding to each of the first target parameters or beam identification information.
即,在P-MPR报告以及第一目标参数在各自对应的报告或指示信息中,各个数据均显式地对应有终端天线面板的标识信息和/或波束的标识信息。That is, in the report or indication information corresponding to the P-MPR report and the first target parameter, each piece of data explicitly corresponds to the identification information of the terminal antenna panel and/or the identification information of the beam.
因此,网络侧设备能够直接获知各个波束或者各个终端天线面板所对应的数据,从而准确地指示终端进行波束切换,保证了通信质量以及效率。Therefore, the network-side device can directly know the data corresponding to each beam or each terminal antenna panel, thereby accurately instructing the terminal to perform beam switching, thereby ensuring communication quality and efficiency.
在一个实施例中,P-MPR值的数量可以通过以下至少一种方式确定:In one embodiment, the number of P-MPR values can be determined in at least one of the following ways:
方式1:P-MPR值的数量根据波束报告或CSI报告中的终端天线面板的 标识信息的数量确定;Mode 1: The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or CSI report;
需要说明的是,在波束报告或CSI报告中可以包含终端天线面板的标识信息,而一个终端天线面板所对应的P-MPR值的数量是固定的,因此P-MPR值的数量可以根据波束报告或CSI报告中的终端天线面板的标识信息的数量确定。It should be noted that the identification information of the terminal antenna panel can be included in the beam report or CSI report, and the number of P-MPR values corresponding to a terminal antenna panel is fixed, so the number of P-MPR values can be based on the beam report Or the quantity of identification information of the terminal antenna panel in the CSI report is determined.
方式2:P-MPR值的数量根据波束报告或CSI报告中的波束的标识信息的数量确定;Mode 2: The number of P-MPR values is determined according to the number of beam identification information in the beam report or CSI report;
需要说明的是,在波束报告或CSI报告中可以包含波束的标识信息,而一个波束通常对应一个P-MPR值,因此P-MPR值的数量可以根据波束报告或CSI报告中的波束的标识信息的数量直接确定。It should be noted that the beam identification information can be included in the beam report or CSI report, and a beam usually corresponds to a P-MPR value, so the number of P-MPR values can be based on the beam identification information in the beam report or CSI report The quantity is determined directly.
方式3:P-MPR值的数量根据PH的数量确定;Mode 3: The number of P-MPR values is determined according to the number of PH;
需要说明的是,由于PH与终端天线面板或波束是一一对应的,因此在确定PH后,即可确定终端天线面板或波束的数量,从而可以确定P-MPR值的数量。It should be noted that since the PH has a one-to-one correspondence with the terminal antenna panels or beams, after determining the PH, the number of terminal antenna panels or beams can be determined, thereby determining the number of P-MPR values.
方式4:P-MPR值的数量根据波束报告或CSI报告中的以下至少一项确定:SSBRI的数量、CRI的数量;Mode 4: The number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;
需要说明的是,SSBRI的数量或CRI的数量与终端天线面板或波束的数量是对应的,因此在确定SSBRI的数量和/或CRI的数量后,即可确定终端天线面板或波束的数量,从而可以确定P-MPR值的数量。It should be noted that the number of SSBRIs or the number of CRIs corresponds to the number of terminal antenna panels or beams, so after determining the number of SSBRIs and/or the number of CRIs, the number of terminal antenna panels or beams can be determined, so that A number of P-MPR values can be determined.
方式5:P-MPR值的数量根据波束报告的类型或CSI报告的类型确定。Way 5: The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
可选地,波束报告或CSI报告的类型包括如下至少之一:Optionally, the type of beam report or CSI report includes at least one of the following:
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
波束报告或CSI报告中包括多个终端天线面板的标识信息;The beam report or CSI report includes identification information of multiple terminal antenna panels;
波束报告或CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the beam report or CSI report;
波束报告或CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the beam report or CSI report;
波束报告或CSI报告中包括多个波束的标识信息;The beam report or CSI report includes identification information of multiple beams;
波束报告或CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the beam report or CSI report;
波束报告或CSI报告中不包括波束的标识信息。Beam identification information is not included in the beam report or CSI report.
例如,当波束报告的类型为基于分组的波束报告时,且每组可同时传输的波束数量为2,则在P-MPR报告中的P-MPR值的数量为2个。当波束报告的类型为基于不分组的波束报告时,则在P-MPR报告中的P-MPR值的数量为1个。当波束报告的类型为终端使用2个空域滤波器接收SSB或CSI-RS所得的报告时,则在P-MPR报告中的P-MPR值的数量为2个。当波束报告的类型为终端使用1个空域滤波器接收SSB或CSI-RS所得的报告时,则在P-MPR报告中的P-MPR值的数量为1个。当波束报告的类型为包括2个终端天线面板的标识信息时,则在P-MPR报告中的P-MPR值的数量为2个。当波束报告的类型为包括1个终端天线面板的标识信息时,则在P-MPR报告中的P-MPR值的数量为1个。For example, when the type of beam report is group-based beam report, and the number of beams that can be transmitted simultaneously in each group is 2, then the number of P-MPR values in the P-MPR report is 2. When the beam report type is non-group based beam report, the number of P-MPR values in the P-MPR report is 1. When the beam report type is the report obtained by the terminal receiving SSB or CSI-RS using two spatial filters, the number of P-MPR values in the P-MPR report is two. When the beam report type is the report obtained by the terminal receiving SSB or CSI-RS using one spatial filter, the number of P-MPR values in the P-MPR report is one. When the beam report type includes identification information of 2 terminal antenna panels, the number of P-MPR values in the P-MPR report is 2. When the beam report type includes identification information of one terminal antenna panel, the number of P-MPR values in the P-MPR report is one.
可以理解的是,通过上述各种方式确定P-MPR报告中的P-MPR值的数量,可以满足在各种场景下确定P-MPR值的数量的要求,有效提高了本申请实施例提供的终端天线面板信息的传输方法的适用性。It can be understood that determining the number of P-MPR values in the P-MPR report through the above-mentioned various methods can meet the requirements for determining the number of P-MPR values in various scenarios, and effectively improve the number of P-MPR values provided by the embodiments of the present application. Applicability of the method of transmission of terminal antenna panel information.
在一个实施例中,在P-MPR报告包括多个P-MPR值的情况下,P-MPR值在P-MPR报告中的位置通过如下至少一种方式确定:In one embodiment, when the P-MPR report includes multiple P-MPR values, the position of the P-MPR value in the P-MPR report is determined by at least one of the following methods:
方式I:根据各P-MPR值对应的终端天线面板或波束是否发生最大允许辐射量MPE事件,来确定各P-MPR值在P-MPR报告中的位置;Mode I: Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;
例如,可以将发生MPE事件的终端天线面板或波束所对应的P-MPR值放在未发生MPE事件的终端天线面板或波束所对应的P-MPR值之前;For example, the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event occurs can be placed before the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event does not occur;
或者,可以将发生MPE事件的终端天线面板或波束所对应的P-MPR值放在未发生MPE事件的终端天线面板或波束所对应的P-MPR值之后。Alternatively, the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event occurs may be placed after the P-MPR value corresponding to the terminal antenna panel or beam where the MPE event does not occur.
方式II:根据各P-MPR值的大小,在P-MPR报告中依次排列各P-MPR值;Mode II: According to the size of each P-MPR value, arrange each P-MPR value in the P-MPR report in sequence;
例如,可以根据各P-MPR值的大小,将各P-MPR值升序排列在P-MPR报告中,或者将各P-MPR值降序排列在P-MPR报告中。For example, according to the magnitude of each P-MPR value, each P-MPR value may be arranged in ascending order in the P-MPR report, or each P-MPR value may be arranged in descending order in the P-MPR report.
方式III:终端确定各P-MPR值在P-MPR报告中的位置;Mode III: The terminal determines the position of each P-MPR value in the P-MPR report;
可选地,终端可以根据预设规则将各P-MPR值排列在P-MPR报告中。Optionally, the terminal may arrange each P-MPR value in the P-MPR report according to a preset rule.
例如,终端可以根据各P-MPR值对应的终端天线面板或波束是否发生MPE事件以及各P-MPR值的大小,对各P-MPR值赋予相应的权重,并按照权重的大小将各P-MPR值升序排列在P-MPR报告中,或者将各P-MPR值降序排列在P-MPR报告中。For example, the terminal can assign corresponding weights to each P-MPR value according to whether an MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value and the size of each P-MPR value, and assign each P-MPR value according to the size of the weight. The MPR values are sorted in ascending order in the P-MPR report, or the individual P-MPR values are sorted in descending order in the P-MPR report.
方式IV:根据各P-MPR值对应的PH的排列顺序,来确定各P-MPR值在P-MPR报告中的位置;Method IV: Determine the position of each P-MPR value in the P-MPR report according to the order of the PH corresponding to each P-MPR value;
可选地,可以根据各P-MPR值对应的PH在P-MPR报告中已确定的排列顺序,来确定各P-MPR值在P-MPR报告中的位置。Optionally, the position of each P-MPR value in the P-MPR report may be determined according to the determined arrangement order of the PHs corresponding to each P-MPR value in the P-MPR report.
例如,PH 01位于P-MPR报告中的第A行,则可以将与PH 01对应的P-MPR 01放置在P-MPR报告中的第A行。For example, if PH 01 is located in line A of the P-MPR report, then the P-MPR 01 corresponding to PH 01 can be placed in line A of the P-MPR report.
方式V:根据各P-MPR值对应的PH是否为实际PH,来确定各P-MPR值在P-MPR报告中的位置;Mode V: Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;
例如,终端需上报终端天线面板01或波束01的实际PH,则与终端天线面板01或波束01对应的P-MPR可以排在前面;而终端需上报端天线面板02或波束02的虚拟PH,则与终端天线面板02或波束02对应的P-MPR可以排在后面。For example, if the terminal needs to report the actual PH of the terminal antenna panel 01 or beam 01, the P-MPR corresponding to the terminal antenna panel 01 or beam 01 can be ranked first; and the terminal needs to report the virtual PH of the terminal antenna panel 02 or beam 02, Then the P-MPR corresponding to the terminal antenna panel 02 or the beam 02 may be ranked behind.
方式VI:根据各P-MPR值对应的终端天线面板或波束是否被调度了上行资源,来确定各P-MPR值在P-MPR报告中的位置。Method VI: Determine the position of each P-MPR value in the P-MPR report according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
例如,网络侧设备实际调度了终端天线面板01或波束01的上行资源,则与终端天线面板01或波束01对应的P-MPR可以排在前面;而终端天线面板02或波束02没有被调度上行资源,则与终端天线面板02或波束02对应的P-MPR可以排在后面。For example, if the network-side device actually schedules the uplink resources of terminal antenna panel 01 or beam 01, the P-MPR corresponding to terminal antenna panel 01 or beam 01 can be ranked first; while terminal antenna panel 02 or beam 02 is not scheduled for uplink resources, the P-MPR corresponding to the terminal antenna panel 02 or beam 02 may be ranked behind.
在一个实施例中,步骤310可以包括:In one embodiment, step 310 may include:
在满足预设条件的情况下,网络侧设备接收终端发送的P-MPR报告;When the preset conditions are met, the network side device receives the P-MPR report sent by the terminal;
其中,预设条件可以包括以下至少一项:Among them, the preset conditions may include at least one of the following:
终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;
终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;
终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;
终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;
终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;
终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;
终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;
当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;
当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;
当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;
当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;
当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
其中,上述各阈值的具体大小可以根据实际情况进行调整,本申请实施例对此不做具体限定。Wherein, the specific sizes of the foregoing thresholds may be adjusted according to actual conditions, and are not specifically limited in this embodiment of the present application.
第一波束可以是预设值的,也可以是当前终端的多个波束中的任一个。The first beam may be a preset value, and may also be any one of multiple beams of the current terminal.
在一个实施例中,在P-MPR值与PH具有关联的情况下,PH满足以下任一项:In one embodiment, where the P-MPR value is associated with PH, the PH satisfies any of the following:
P-MPR值与PH在同一P-MPR报告中;P-MPR value and PH are in the same P-MPR report;
PH所在报告的发送时间与P-MPR报告的发送时间最接近;The sending time of the PH report is closest to the sending time of the P-MPR report;
PH所在报告与P-MPR报告位于相同的PUSCH中;The PH report is located in the same PUSCH as the P-MPR report;
PH所在报告与P-MPR报告位于相同的TB中。The PH report is located in the same TB as the P-MPR report.
在一个实施例中,本申请实施例提供的终端天线面板信息的传输方法,还可以包括:In an embodiment, the method for transmitting terminal antenna panel information provided in the embodiment of the present application may further include:
向终端发送第一指示信息;Sending first indication information to the terminal;
接收终端根据第一指示信息,向网络侧设备发送的第一波束报告或第一CSI报告;receiving the first beam report or the first CSI report sent by the terminal to the network side device according to the first indication information;
其中,第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:
至少一个SSBRI以及与SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to the SSBRI;
至少一个CRI以及与CRI对应的L1-RSRP或L1-SINR;At least one CRI and the L1-RSRP or L1-SINR corresponding to the CRI;
目标信息与以下第二目标参数中的至少一个具有关联:The targeting information is associated with at least one of the following second targeting parameters:
P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
需要说明的是,当网络侧设备接收到终端发送的P-MPR报告后,即可根据P-MPR值与第一目标参数中的关联,获知各终端天线面板或波束对应的P-MPR值,并对应地向终端发送第一指示信息,以指示终端进行波束测量,并向网络侧设备上报第一波束报告或第一CSI报告。It should be noted that after the network side device receives the P-MPR report sent by the terminal, it can know the P-MPR value corresponding to each terminal antenna panel or beam according to the association between the P-MPR value and the first target parameter. And correspondingly send the first indication information to the terminal, so as to instruct the terminal to perform beam measurement, and report the first beam report or the first CSI report to the network side device.
终端接收到网络侧设备发送的第一指示信息后,会根据该第一指示信息 开始进行波束测量,并在波束测量完成后,向网络侧设备发送第一波束报告或第一CSI报告。After receiving the first indication information sent by the network side device, the terminal will start beam measurement according to the first indication information, and after the beam measurement is completed, send the first beam report or the first CSI report to the network side device.
第一波束报告或第一CSI报告中可以包括至少一个SSBRI以及与SSBRI对应的L1-RSRP或L1-SINR,和/或至少一个CRI以及与CRI对应的L1-RSRP或L1-SINR。The first beam report or the first CSI report may include at least one SSBRI and the L1-RSRP or L1-SINR corresponding to the SSBRI, and/or at least one CRI and the L1-RSRP or L1-SINR corresponding to the CRI.
上述目标信息可以与以下第二目标参数中的至少一个具有关联:The above target information may be associated with at least one of the following second target parameters:
P-MPR报告中的P-MPR值、P-MPR报告或PH报告或波束报告或CSI报告或波束指示信息中的终端天线面板的标识信息、P-MPR报告或PH报告或波束报告或CSI报告或波束指示信息中的波束的标识信息、P-MPR报告或PH报告或波束报告或CSI报告中的终端天线面板的PH、P-MPR报告或PH报告或波束报告或CSI报告中的波束的PH、波束指示信息中的传输配置指示状态以及波束指示信息中的空间关系。P-MPR value in P-MPR report, P-MPR report or PH report or beam report or CSI report or terminal antenna panel identification information in P-MPR report or PH report or beam report or CSI report or the identification information of the beam in the beam indication information, the PH of the terminal antenna panel in the P-MPR report or the PH report or the beam report or the CSI report, the PH of the beam in the P-MPR report or the PH report or the beam report or the CSI report , the transmission configuration indication state in the beam indication information and the spatial relationship in the beam indication information.
需要说明的是,关联可以指对应于同一波束或者同一终端天线面板,即目标信息与第二目标参数对应于同一波束或者同一终端天线面板。It should be noted that association may refer to corresponding to the same beam or the same terminal antenna panel, that is, the target information and the second target parameter correspond to the same beam or the same terminal antenna panel.
需要说明的是,通过将P-MPR报告中的信息、PH报告中的信息、波束报告中的信息、CSI报告中的信息以及波束指示信息与同一波束或者同一终端天线面板对应起来,可以使网络侧设备准确获得各波束或者各终端天线面板的测量结果,从而使得网络侧设备可以及时准确地指示终端进行波束切换,保证了通信质量以及效率。It should be noted that by associating the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same terminal antenna panel, the network can be The equipment on the network side can accurately obtain the measurement results of each beam or antenna panel of each terminal, so that the equipment on the network side can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
在一个实施例中,目标信息在第一波束报告或第一CSI报告中的位置,与第二目标参数在各自对应的报告或指示信息中的位置对应。In an embodiment, the position of the target information in the first beam report or the first CSI report corresponds to the position of the second target parameter in the corresponding report or indication information.
例如,在第一波束报告或第一CSI报告以及第二目标参数各自对应的报告中不包括波束的标识信息或者终端天线面板的标识信息的情况下,第一波束报告或第一CSI报告中包括2个SSBRI:SSBRI 01(以及对应的L1-RSRP 01)以及SSBRI 02(以及对应的L1-RSRP 02)。SSBRI 01对应波束01或者终端天线面板01,SSBRI 02对应波束02或者终端天线面板02,则SSBRI 01以及SSBRI 02可以分别位于第一波束报告或第一CSI报告中的例如X行以 及X+1行。For example, if the first beam report or the first CSI report and the report corresponding to the second target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel, the first beam report or the first CSI report includes 2 SSBRIs: SSBRI 01 (and corresponding L1-RSRP 01) and SSBRI 02 (and corresponding L1-RSRP 02). SSBRI 01 corresponds to beam 01 or terminal antenna panel 01, SSBRI 02 corresponds to beam 02 or terminal antenna panel 02, then SSBRI 01 and SSBRI 02 can be located in the first beam report or the first CSI report, for example, row X and row X+1 .
对应地,在P-MPR报告中,与波束01或者终端天线面板01对应的P-MPR 01可以位于Y行,与波束02或者终端天线面板02对应的P-MPR 02可以位于Y+1行。其中,X可以等于Y。Correspondingly, in the P-MPR report, the P-MPR 01 corresponding to beam 01 or terminal antenna panel 01 may be located in row Y, and the P-MPR 02 corresponding to beam 02 or terminal antenna panel 02 may be located in row Y+1. Wherein, X can be equal to Y.
需要说明的是,当网络侧设备接收到P-MPR报告时,即可获知P-MPR报告中的Y行以及Y+1行分别为波束01或者终端天线面板01的P-MPR值以及波束02或者终端天线面板02的P-MPR值;而当网络侧设备接收到第一波束报告或第一CSI报告时,即可获知第一波束报告或第一CSI报告中的X行以及X+1行分别为波束01或者终端天线面板01的SSBRI 01,以及波束02或者终端天线面板02的SSBRI 02。It should be noted that when the network side device receives the P-MPR report, it can know that the Y line and Y+1 line in the P-MPR report are the P-MPR value of beam 01 or the terminal antenna panel 01 and the beam 02 Or the P-MPR value of the terminal antenna panel 02; and when the network side device receives the first beam report or the first CSI report, it can know the X line and X+1 line in the first beam report or the first CSI report They are SSBRI 01 of beam 01 or terminal antenna panel 01, and SSBRI 02 of beam 02 or terminal antenna panel 02.
或者是,当网络侧设备接收到P-MPR报告和第一波束报告或第一CSI报告后,可以确定在两个报告中对应位置的P-MPR值和SSBRI或CRI对应同一波束或终端天线面板,如在P-MPR报告Y行的P-MPR值和波束报告或CSI报告X行的SSBRI或CRI对应同一个波束或者终端天线面板,在P-MPR报告Y+1行的P-MPR值和波束报告或CSI报告X+1行的SSBRI或CRI对应另一个波束或者终端天线面板。即,网络侧设备仅确定各个报告中的哪一行或哪几行对应同一个终端天线面板即可,而不再确定该终端天线面板的具体标识信息Or, after the network side device receives the P-MPR report and the first beam report or the first CSI report, it can determine that the P-MPR value and SSBRI or CRI at the corresponding positions in the two reports correspond to the same beam or terminal antenna panel , if the P-MPR value in the P-MPR report line Y and the SSBRI or CRI in the X line of the beam report or CSI report correspond to the same beam or terminal antenna panel, the P-MPR value and the P-MPR value in the P-MPR report line Y+1 Beam report or CSI report The SSBRI or CRI of row X+1 corresponds to another beam or terminal antenna panel. That is, the network-side device only needs to determine which line or lines in each report correspond to the same terminal antenna panel, instead of determining the specific identification information of the terminal antenna panel
通过将目标信息在第一波束报告或第一CSI报告中的位置,与第二目标参数在各自对应的报告或指示信息中的位置对应,可以使得网络侧设备在第一波束报告或第一CSI报告以及第二目标参数各自对应的报告中不包括波束的标识信息或者终端天线面板的标识信息的情况下,仍能获知各个波束或者各个终端天线面板所对应的数据,使得网络和终端对于各个报告中的信息与波束或者终端天线面板的对应关系的理解一致,从而能够在节约通信资源的情况下,仍能时准确地指示终端进行波束切换,进一步保证了通信质量以及效率。By corresponding the position of the target information in the first beam report or the first CSI report with the position of the second target parameter in the corresponding report or indication information, the network side device can In the case that the reports corresponding to the report and the second target parameter do not include the identification information of the beam or the identification information of the terminal antenna panel, the data corresponding to each beam or each terminal antenna panel can still be known, so that the network and the terminal are for each report The information in is consistent with the understanding of the corresponding relationship between beams or terminal antenna panels, so that the terminal can be timely and accurately instructed to switch beams while saving communication resources, further ensuring communication quality and efficiency.
在一个实施例中,第一波束报告或第一CSI报告中可以包括与目标信息 对应的终端天线面板的标识信息和/或波束的标识信息;In one embodiment, the first beam report or the first CSI report may include the identification information of the terminal antenna panel and/or the identification information of the beam corresponding to the target information;
并且,与第二目标参数对应于同一波束或者同一终端天线面板,可以包括:第二目标参数在各自对应的报告或指示信息中包括与第二目标参数各自对应的终端天线面板的标识信息和/或波束的标识信息。In addition, corresponding to the same beam or the same terminal antenna panel as the second target parameter may include: the second target parameter includes the identification information of the terminal antenna panel corresponding to the second target parameter and/or in the report or indication information respectively corresponding to the second target parameter or beam identification information.
即,在第一波束报告或第一CSI报告以及第二目标参数在各自对应的报告或指示信息中,各个数据均显式地对应有终端天线面板的标识信息和/或波束的标识信息。That is, in the report or indication information corresponding to the first beam report or the first CSI report and the second target parameter, each data is explicitly corresponding to identification information of the terminal antenna panel and/or identification information of the beam.
因此,网络侧设备能够直接获知各个波束或者各个终端天线面板所对应的数据,从而准确地指示终端进行波束切换,保证了通信质量以及效率。Therefore, the network-side device can directly know the data corresponding to each beam or each terminal antenna panel, thereby accurately instructing the terminal to perform beam switching, thereby ensuring communication quality and efficiency.
在一个实施例中,目标信息的数量可以通过以下至少一种方式确定:In an embodiment, the amount of target information may be determined in at least one of the following ways:
方式一:目标信息的数量根据P-MPR值的数量确定;Method 1: The quantity of target information is determined according to the quantity of P-MPR values;
需要说明的是,一个终端天线面板或波束所对应的目标信息的数量是固定的,而一个终端天线面板或波束所对应的P-MPR值的数量也是固定的,因此,可以在P-MPR值的数量确定的情况下,确定目标信息的数量。It should be noted that the number of target information corresponding to a terminal antenna panel or beam is fixed, and the number of P-MPR values corresponding to a terminal antenna panel or beam is also fixed. Therefore, the P-MPR value When the quantity of is determined, the quantity of target information is determined.
方式二:目标信息的数量根据所述第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量确定;Mode 2: The quantity of target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;
需要说明的是,在波束报告或CSI报告中可以包括终端天线面板的标识信息,一个终端天线面板对应的目标信息的数量是固定的,因此,可以根据第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量直接确定目标信息的数量。It should be noted that the identification information of the terminal antenna panel may be included in the beam report or the CSI report, and the amount of target information corresponding to a terminal antenna panel is fixed, therefore, it may be based on the first beam report or the first CSI report. The amount of identification information of the terminal antenna panel directly determines the amount of target information.
方式三:目标信息的数量根据第一波束报告或第一CSI报告中的波束的标识信息的数量确定;Mode 3: The quantity of target information is determined according to the quantity of identification information of beams in the first beam report or the first CSI report;
需要说明的是,在波束报告或CSI报告中可以包括波束的标识信息,一个波束通常对应一个目标信息,因此,可以根据第一波束报告或第一CSI报告中的波束的标识信息的数量直接确定目标信息的数量。It should be noted that beam identification information may be included in the beam report or CSI report, and one beam usually corresponds to one target information, therefore, it can be directly determined according to the number of beam identification information in the first beam report or the first CSI report Amount of target information.
方式四:目标信息的数量根据PH的数量确定;Method 4: The quantity of target information is determined according to the quantity of PH;
需要说明的是,由于PH与终端天线面板或波束是一一对应的,因此在确 定PH后,即可确定终端天线面板或波束的数量,从而可以确定目标信息的数量。It should be noted that since the PH is in one-to-one correspondence with the terminal antenna panels or beams, after determining the PH, the number of terminal antenna panels or beams can be determined, thereby determining the quantity of target information.
方式五:目标信息的数量根据第一波束报告或第一CSI报告的类型确定。Manner 5: The amount of target information is determined according to the type of the first beam report or the first CSI report.
可选地,第一波束报告或第一CSI报告的类型包括如下至少之一:Optionally, the type of the first beam report or the first CSI report includes at least one of the following:
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
第一波束报告或第一CSI报告中包括多个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of multiple terminal antenna panels;
第一波束报告或第一CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the first beam report or the first CSI report;
第一波束报告或第一CSI报告中不包括终端天线面板的标识信息;The identification information of the antenna panel of the terminal is not included in the first beam report or the first CSI report;
第一波束报告或第一CSI报告中包括多个波束的标识信息;The first beam report or the first CSI report includes identification information of multiple beams;
第一波束报告或第一CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the first beam report or the first CSI report;
第一波束报告或第一CSI报告中不包括波束的标识信息。The identification information of the beam is not included in the first beam report or the first CSI report.
例如,若目标信息为CRI及其对应的L1-RSRP。当第一波束报告的类型为基于分组的波束报告时,且每组可同时传输的波束数量为2,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为2个。当第一波束报告的类型为基于不分组的波束报告时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为1个。当第一波束报告的类型为终端使用2个空域滤波器接收CSI-RS所得的报告时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为2个。当第一波束报告的类型为终端使用1个空域滤波器接收CSI-RS所得的报告时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为1个。当第一波束报告的类型为包括2个终端天线面板的标识信息时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为2个。当第一波束报告的类型为包括1个终端天线面板的标识信息时,则在第一波束报告中的CRI及其对应的L1-RSRP的数量均为1个。For example, if the target information is CRI and its corresponding L1-RSRP. When the type of the first beam report is group-based beam report, and the number of beams that can be transmitted simultaneously in each group is 2, the number of CRIs and their corresponding L1-RSRPs in the first beam report are both 2. When the type of the first beam report is non-group based beam report, the number of CRI and its corresponding L1-RSRP in the first beam report is one. When the type of the first beam report is the report obtained by the terminal receiving the CSI-RS using two spatial filters, the number of CRIs and corresponding L1-RSRPs in the first beam report is two. When the type of the first beam report is the report obtained by the terminal receiving the CSI-RS using one spatial filter, the number of CRI and its corresponding L1-RSRP in the first beam report is one. When the type of the first beam report includes identification information of two terminal antenna panels, the number of CRIs and corresponding L1-RSRPs in the first beam report is two. When the type of the first beam report includes identification information of one terminal antenna panel, the number of CRI and its corresponding L1-RSRP in the first beam report is one.
可以理解的是,通过上述各种方式确定第一波束报告或第一CSI报告中 的目标信息的数量,可以满足在各种场景下确定目标信息的数量的要求,有效提高了本申请实施例提供的终端天线面板信息的传输方法的适用性。It can be understood that determining the quantity of target information in the first beam report or the first CSI report through the above-mentioned various methods can meet the requirements for determining the quantity of target information in various scenarios, effectively improving the number of target information provided by the embodiments of the present application. Applicability of the method of transmission of terminal antenna panel information.
在一个实施例中,第一波束报告或第一CSI报告可以为以下任一项:In an embodiment, the first beam report or the first CSI report may be any of the following:
项目1:基于分组的报告;Project 1: Group-based reporting;
例如,第一波束报告或第一CSI报告可以是基于分组的报告,即终端每次向网络侧设备发送一组或多组SSBRI和/或CRI,其中,每组SSBRI和/或CRI的数量为至少2个,表示每组SSBRI和/或CRI所对应的至少2个波束可以同时传输。For example, the first beam report or the first CSI report may be a group-based report, that is, the terminal sends one or more sets of SSBRI and/or CRI to the network side device each time, wherein the number of each set of SSBRI and/or CRI is At least 2, means that at least 2 beams corresponding to each group of SSBRI and/or CRI can transmit at the same time.
项目2:基于不分组的报告;Item 2: Report based on ungrouping;
终端可以根据实际测量的终端天线面板的波束情况,对应地向网络侧设备发送包括一定数量SSBRI和/或CRI的第一波束报告或第一CSI报告。The terminal may correspondingly send the first beam report or the first CSI report including a certain number of SSBRIs and/or CRIs to the network side device according to the actually measured beam conditions of the antenna panel of the terminal.
项目3:基于预设规则的报告;Item 3: Report based on preset rules;
其中,预设规则可以包括:Among them, preset rules can include:
网络侧设备接收多组波束标识信息,每一组波束标识信息指示可同时传输的波束、或对应同一个终端天线面板的标识信息、或对应同一个P-MPR值。The network side device receives multiple sets of beam identification information, each set of beam identification information indicates beams that can be transmitted simultaneously, or corresponds to identification information of the same terminal antenna panel, or corresponds to the same P-MPR value.
终端还可以使用不同于基于分组的第一波束报告或第一CSI报告,和基于不分组的第一波束报告或第一CSI报告,而是采用预设规则的第一波束报告或第一CSI报告。The terminal can also use the first beam report or the first CSI report based on the grouping, and the first beam report or the first CSI report based on the non-grouping, but adopt the first beam report or the first CSI report of the preset rule .
例如,终端向网络侧设备发送的第一波束报告或第一CSI报告可以包括多组SSBRI和/或CRI,每一组SSBRI和/或CRI指示可同时传输的波束、或每一组SSBRI和/或CRI对应同一个终端天线面板的标识信息、或每一组SSBRI和/或CRI对应同一个P-MPR值。For example, the first beam report or the first CSI report sent by the terminal to the network side device may include multiple sets of SSBRI and/or CRI, each set of SSBRI and/or CRI indicates beams that can be transmitted simultaneously, or each set of SSBRI and/or Either the CRIs correspond to identification information of the same terminal antenna panel, or each group of SSBRIs and/or CRIs corresponds to the same P-MPR value.
在一个实施例中,第一波束报告或第一CSI报告的内容为满足特定约束关系的目标信息。In an embodiment, the content of the first beam report or the first CSI report is target information satisfying a specific constraint relationship.
特定约束关系可以包括:Specific constraint relationships can include:
第一波束报告或第一CSI报告是否为基于分组的报告;Whether the first beam report or the first CSI report is a packet-based report;
第一波束报告或第一CSI报告是否为终端使用多个或1个空域滤波器接 收SSB或CSI-RS所得;Whether the first beam report or the first CSI report is obtained by the terminal using multiple or one spatial domain filter to receive SSB or CSI-RS;
第一波束报告或第一CSI报告是否上报终端天线面板的标识信息或终端天线面板的标识信息的数量;Whether the first beam report or the first CSI report reports the identification information of the terminal antenna panel or the number of identification information of the terminal antenna panel;
第一波束报告或第一CSI报告是否上报波束的标识信息或波束的标识信息的数量。Whether to report beam identification information or the quantity of beam identification information in the first beam report or the first CSI report.
在一个实施例中,第一指示信息为通过MAC CE或DCI将已配置的波束报告的类型更新为第一波束报告的类型,或者将已配置的CSI报告的类型,更新为第一CSI报告的类型的指示信息。In one embodiment, the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or update the configured CSI report type to the first CSI report type type of instruction.
例如,对于已配置了基于不分组的波束报告报告,网络侧设备可以通过MAC CE或DCI指示将该波束报告更新为基于分组的波束报告(第一波束报告为基于分组的报告),或反之。For example, for a non-group-based beam report report that has been configured, the network side device can indicate through MAC CE or DCI to update the beam report to a packet-based beam report (the first beam report is a packet-based report), or vice versa.
对于已配置了使用1个空域滤波器接收SSB/CSI-RS所得的波束报告,网络侧设备可以通过MAC CE或DCI指示将该波束报告更新为使用2个空域滤波器接收SSB/CSI-RS所得的波束报告(第一波束报告为使用2个空域滤波器接收SSB/CSI-RS所得的报告),或反之。For the beam report that has been configured to receive SSB/CSI-RS using 1 spatial domain filter, the network side device can update the beam report to receive SSB/CSI-RS using 2 spatial domain filters through MAC CE or DCI instructions beam report (the first beam report is the report obtained by receiving SSB/CSI-RS with 2 spatial filters), or vice versa.
对于已配置了不上报终端天线面板的标识信息的波束报告,网络侧设备可以通过MAC CE或DCI指示将该波束报告更新为上报终端天线面板的标识信息的波束报告(第一波束报告为上报终端天线面板的标识信息的报告),或反之。For the beam report that has been configured not to report the identification information of the terminal antenna panel, the network side device can use the MAC CE or DCI instruction to update the beam report to a beam report that reports the identification information of the terminal antenna panel (the first beam report is the one that reports the terminal reporting of identification information for antenna panels), or vice versa.
对于已配置了上报1个终端天线面板的标识信息的波束报告,网络侧设备可以通过MAC CE或DCI指示将该波束报告更新为上报多个终端天线面板的标识信息的波束报告(第一波束报告为上报多个终端天线面板的标识信息的报告),或反之。For the beam report that has been configured to report the identification information of one terminal antenna panel, the network side device can use the MAC CE or DCI instruction to update the beam report to a beam report that reports the identification information of multiple terminal antenna panels (the first beam report For reporting identification information of multiple terminal antenna panels), or vice versa.
在一个实施例中,在目标信息与P-MPR值具有关联的情况下,与一个P-MPR值对应的目标信息的数量为一个或多个。In one embodiment, in the case that the target information is associated with the P-MPR value, the quantity of target information corresponding to one P-MPR value is one or more.
在一个实施例中,在目标信息与终端天线面板的标识信息或波束的标识信息具有关联的情况下,与一个终端天线面板的标识信息或波束的标识信息 对应的目标信息的数量为一个或多个。In one embodiment, when the target information is associated with the identification information of the terminal antenna panel or the identification information of the beam, the number of target information corresponding to the identification information of a terminal antenna panel or the identification information of the beam is one or more indivual.
在一个实施例中,对于处于去激活状态的终端天线面板,在第一波束报告或第一CSI报告中与处于去激活状态的终端天线面板相对应的目标信息为无效值或者预定值。In an embodiment, for the antenna panel of the terminal in the deactivated state, the target information corresponding to the antenna panel of the terminal in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value.
网络侧设备可以根据目标信息是否为无效值或者预定值,确定终端天线面板的状态是激活还是去激活,即当目标信息是否为无效值或者预定值时,网络侧设备可以确定端天线面板处于去激活状态。The network side device can determine whether the status of the terminal antenna panel is activated or deactivated according to whether the target information is an invalid value or a predetermined value, that is, when the target information is an invalid value or a predetermined value, the network side device can determine that the terminal antenna panel is in the deactivated state. active state.
在一个实施例中,在第一波束报告或第一CSI报告中,与处于激活状态的终端天线面板以及处于去激活状态的终端天线面板分别对应的SSBRI或CRI可以相同。In an embodiment, in the first beam report or the first CSI report, the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
其中,激活状态可以包括如下任一项:Among them, the activation state can include any of the following:
多组波束之间可以在预定义的时间段内进行波束切换的状态,其中,每组波束对应一个终端天线面板;The state of beam switching between multiple groups of beams within a predefined time period, where each group of beams corresponds to a terminal antenna panel;
至少一个终端天线面板所对应的一组波束能够进行下行信道接收或者参考信号RS接收的状态;A state in which a group of beams corresponding to at least one terminal antenna panel can perform downlink channel reception or reference signal RS reception;
至少一个终端天线面板所对应的一组波束能够进行上行信道发送或者参考信号RS发送的状态。A state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
需要说明的是,去激活的终端天线面板可以是在波束测量前为去激活态,但是在使用该终端天线面板进行波束测量时需改为激活态,在测量完毕或发送波束报告或CSI报告后,可以去激活该终端天线面板,以实现为终端省电的目的。It should be noted that the deactivated terminal antenna panel can be in the deactivated state before beam measurement, but it needs to be changed to the active state when using the terminal antenna panel for beam measurement. After the measurement is completed or the beam report or CSI report is sent , the antenna panel of the terminal may be deactivated, so as to save power for the terminal.
在一个实施例中,在网络侧设备具有多个TRP(Transmission and Receiving Point,发射接收点)的情况下,第一波束报告或第一CSI报告包括的目标信息为多组;In one embodiment, when the network side device has multiple TRPs (Transmission and Receiving Points, transmitting and receiving points), the target information included in the first beam report or the first CSI report is multiple groups;
每组目标信息对应以下至少一项:Each set of target information corresponds to at least one of the following:
一个终端天线面板的标识信息;Identification information of a terminal antenna panel;
一个波束的标识信息;Identification information of a beam;
一个TRP标识信息。A TRP identification information.
在一个实施例中,网络侧设备根据以下至少一项,确定接收第一波束报告或第一CSI报告的模式:In an embodiment, the network side device determines the mode of receiving the first beam report or the first CSI report according to at least one of the following:
关联;association;
P-MPR报告中P-MPR值的数量;the number of P-MPR values in the P-MPR report;
PH报告中PH的数量;The number of PH in the PH report;
上述模式可以包括以下任一项:The above patterns can include any of the following:
SSBRI为终端通过1个空域滤波器或终端天线面板或波束接收SSB所得,CRI为终端通过1个空域滤波器或终端天线面板或波束接收CSI-RS所得;SSBRI is obtained by the terminal receiving SSB through a spatial filter or terminal antenna panel or beam, and CRI is obtained by the terminal receiving CSI-RS through a spatial filter or terminal antenna panel or beam;
SSBRI为终端通过多个空域滤波器或终端天线面板或波束接收SSB所得,CRI为终端通过多个空域滤波器或终端天线面板或波束接收CSI-RS所得;SSBRI is obtained by the terminal receiving SSB through multiple spatial filters or terminal antenna panels or beams, and CRI is obtained by the terminal receiving CSI-RS through multiple spatial filters or terminal antenna panels or beams;
终端使用基于分组的报告来向网络侧设备发送第一波束报告或第一CSI报告;The terminal uses a packet-based report to send the first beam report or the first CSI report to the network side device;
终端使用基于不分组的报告来向网络侧设备发送第一波束报告或第一CSI报告;The terminal sends the first beam report or the first CSI report to the network side device by using an ungrouped report;
第一波束报告或第一CSI报告携带终端天线面板的标识信息,终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
第一波束报告或第一CSI报告携带波束的标识信息,该波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries beam identification information, and the number of beam identification information is one or more.
在一个实施例中,上述模式的切换时间由终端发送P-MPR报告或PHR(PH Report,功率余量报告)的时间确定。In one embodiment, the switching time of the foregoing modes is determined by the time when the terminal sends a P-MPR report or a PHR (PH Report, power headroom report).
例如,当终端发送P-MPR报告或PHR时,可以根据实际情况来切换向网络侧设备发送第一波束报告或第一CSI报告的模式。For example, when the terminal sends a P-MPR report or a PHR, the mode of sending the first beam report or the first CSI report to the network side device may be switched according to actual conditions.
在一个实施例中,关联的有效时间可以包括以下至少一项:In an embodiment, the associated effective time may include at least one of the following:
有效时间的起点为如下任一项:满足P-MPR报告发送条件的时刻、满足P-MPR报告发送条件的时刻之后的预设时刻、终端发送P-MPR报告的时刻、 终端发送P-MPR报告的时刻之后的预设时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻之后的预设时刻;The starting point of the valid time is any of the following: the time when the P-MPR report sending condition is met, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report The preset time after the time, the time when the network side device sends the network response information of the P-MPR report, and the preset time after the time when the network side device sends the network response information of the P-MPR report;
有效时间的终点为如下任一项:网络侧设备发送波束切换命令的时刻、网络侧设备发送波束切换命令的时刻之后的预设时刻、下一次有效时间的起点、网络侧设备发送第一指示信息的时刻、网络侧设备发送第一指示信息的时刻之后的预设时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻之后的预设时刻、终端发送第一波束报告或第一CSI报告的时刻、终端发送第一波束报告或第一CSI报告的时刻之后的预设时刻。The end of the valid time is any of the following: the time when the network-side device sends the beam switching command, the preset time after the time when the network-side device sends the beam switching command, the starting point of the next valid time, or the first indication information sent by the network-side device time, the preset time after the time when the network-side device sends the first indication information, the network-side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report Time, the preset time after the time when the network side device updates the beam report type to the first beam report type or updates the CSI report type to the first CSI report type, the terminal sends the first beam report or the first CSI report The time of the report, the preset time after the time when the terminal sends the first beam report or the first CSI report.
在一个实施例中,在上述有效时间内,终端天线面板的激活状态或去激活状态保持不变。In an embodiment, within the above valid time, the activation state or deactivation state of the antenna panel of the terminal remains unchanged.
综上所述,本申请实施例提供终端天线面板信息的传输方法,在发生MPE事件的情况下,通过终端发送的基于终端天线面板或波束的P-MPR报告以及网络触发终端进行基于终端天线面板或波束的波束报告或CSI报告之间的关联关系,可以准确获知终端天线面板的波束测量结果,从而保证终端天线面板和波束选择的及时性和准确性。To sum up, the embodiment of the present application provides a method for transmitting terminal antenna panel information. In the case of an MPE event, the P-MPR report sent by the terminal based on the terminal antenna panel or beam and the network triggers the terminal to perform a P-MPR report based on the terminal antenna panel. The relationship between the beam report or the CSI report of the beam or the beam can accurately know the beam measurement result of the terminal antenna panel, thereby ensuring the timeliness and accuracy of the terminal antenna panel and beam selection.
需要说明的是,本申请实施例提供的终端天线面板信息的传输方法,执行主体可以为终端天线面板信息的传输装置,或者,该终端天线面板信息的传输装置中的用于执行终端天线面板信息的传输方法的控制模块。本申请实施例中以终端天线面板信息的传输装置执行终端天线面板信息的传输方法为例,说明本申请实施例提供的终端天线面板信息的传输装置。It should be noted that, in the method for transmitting terminal antenna panel information provided in the embodiment of the present application, the execution subject may be a transmission device for terminal antenna panel information, or the terminal antenna panel information transmission device is used to execute the terminal antenna panel information The control module of the transmission method. In the embodiment of the present application, the method for transmitting the terminal antenna panel information performed by the terminal antenna panel information transmission device is taken as an example to illustrate the terminal antenna panel information transmission device provided in the embodiment of the present application.
图4为本申请实施例提供的终端天线面板信息的传输装置的结构示意图之一;参照图4,本申请实施例提供一种终端天线面板信息的传输装置,可以包括:Fig. 4 is one of the structural schematic diagrams of the transmission device of terminal antenna panel information provided by the embodiment of the present application; referring to Fig. 4, the embodiment of the present application provides a transmission device of terminal antenna panel information, which may include:
发送模块410,用于向网络侧设备发送P-MPR报告;A sending module 410, configured to send a P-MPR report to a network side device;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
本申请实施例提供的终端天线面板信息的传输装置,通过将P-MPR报告中的信息、PH报告中的信息、波束报告中的信息、CSI报告中的信息以及波束指示信息与同一波束或者同一终端天线面板对应起来,可以使网络侧设备准确获得各波束或者各终端天线面板的测量结果,从而使得网络侧设备可以及时准确地指示终端进行波束切换,保证了通信质量以及效率。The terminal antenna panel information transmission device provided by the embodiment of the present application combines the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same beam. The corresponding terminal antenna panels can enable the network-side equipment to accurately obtain the measurement results of each beam or each terminal antenna panel, so that the network-side equipment can timely and accurately instruct the terminal to switch beams, ensuring communication quality and efficiency.
在一个实施例中,所述P-MPR值在所述P-MPR报告中的位置,与所述第一目标参数在各自对应的报告或指示信息中的位置对应。In an embodiment, the position of the P-MPR value in the P-MPR report corresponds to the position of the first target parameter in the corresponding report or indication information.
在一个实施例中,所述P-MPR值的数量通过以下至少一种方式确定:In one embodiment, the number of P-MPR values is determined by at least one of the following methods:
所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的终端天线面板的标识信息的数量确定;The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or channel state information CSI report;
所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的波束的标识信息的数量确定;The number of P-MPR values is determined according to the number of beam identification information in the beam report or channel state information CSI report;
所述P-MPR值的数量根据PH的数量确定;The quantity of the P-MPR value is determined according to the quantity of PH;
所述P-MPR值的数量根据波束报告或CSI报告中的以下至少一项确定:SSBRI的数量、CRI的数量;The number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;
所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定。The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
在一个实施例中,在所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定的情况下,所述波束报告或CSI报告的类型包括如下至少之一:In one embodiment, when the number of P-MPR values is determined according to the type of beam report or CSI report, the type of beam report or CSI report includes at least one of the following:
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
波束报告或CSI报告中包括多个终端天线面板的标识信息;The beam report or CSI report includes identification information of multiple terminal antenna panels;
波束报告或CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the beam report or CSI report;
波束报告或CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the beam report or CSI report;
波束报告或CSI报告中包括多个波束的标识信息;The beam report or CSI report includes identification information of multiple beams;
波束报告或CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the beam report or CSI report;
波束报告或CSI报告中不包括波束的标识信息。Beam identification information is not included in the beam report or CSI report.
在一个实施例中,在所述P-MPR报告包括多个P-MPR值的情况下,所述P-MPR值在所述P-MPR报告中的位置通过如下至少一种方式确定:In one embodiment, when the P-MPR report includes multiple P-MPR values, the position of the P-MPR value in the P-MPR report is determined by at least one of the following methods:
根据各P-MPR值对应的终端天线面板或波束是否发生最大允许辐射量MPE事件,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;
根据各P-MPR值的大小,在所述P-MPR报告中依次排列各P-MPR值;Arranging each P-MPR value in sequence in the P-MPR report according to the size of each P-MPR value;
终端确定各P-MPR值在所述P-MPR报告中的位置;The terminal determines the position of each P-MPR value in the P-MPR report;
根据各P-MPR值对应的PH的排列顺序,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to the sequence of the PH corresponding to each P-MPR value;
根据各P-MPR值对应的PH是否为实际PH,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;
根据各P-MPR值对应的终端天线面板或波束是否被调度了上行资源,来确定各P-MPR值在所述P-MPR报告中的位置。The position of each P-MPR value in the P-MPR report is determined according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
在一个实施例中,发送模块410具体用于:In one embodiment, the sending module 410 is specifically used for:
在满足预设条件的情况下,向网络侧设备发送P-MPR报告;Send a P-MPR report to the network side device when the preset conditions are met;
其中,所述预设条件包括以下至少一项:Wherein, the preset conditions include at least one of the following:
终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;
终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;
终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;
终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;
终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;
终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;
终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;
当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;
当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;
当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;
当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;
当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
在一个实施例中,在所述P-MPR值与所述PH具有关联的情况下,所述PH满足以下任一项:In one embodiment, when the P-MPR value is associated with the PH, the PH satisfies any of the following:
所述P-MPR值与所述PH在同一P-MPR报告中;The P-MPR value is in the same P-MPR report as the pH;
所述PH所在报告的发送时间与所述P-MPR报告的发送时间最接近;The sending time of the report where the PH is located is closest to the sending time of the P-MPR report;
所述PH所在报告与所述P-MPR报告位于相同的物理上行共享信道 PUSCH中;The report where the PH is located and the P-MPR report are located in the same physical uplink shared channel PUSCH;
所述PH所在报告与所述P-MPR报告位于相同的传输块TB中。The PH report is located in the same transport block TB as the P-MPR report.
在一个实施例中,本申请实施例提供的终端天线面板信息的传输装置,还包括报告模块(图中未示出),用于:In one embodiment, the device for transmitting terminal antenna panel information provided in the embodiment of the present application further includes a reporting module (not shown in the figure), configured to:
接收所述网络侧设备发送的第一指示信息;receiving first indication information sent by the network side device;
根据所述第一指示信息,向所述网络侧设备发送第一波束报告或第一CSI报告;Sending a first beam report or a first CSI report to the network side device according to the first indication information;
其中,所述第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:
至少一个SSBRI以及与所述SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to said SSBRI;
至少一个CRI以及与所述CRI对应的L1-RSRP或L1-SINR;at least one CRI and the L1-RSRP or L1-SINR corresponding to said CRI;
所述目标信息与以下第二目标参数中的至少一个具有关联:The target information is associated with at least one of the following second target parameters:
P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
在一个实施例中,所述目标信息在所述第一波束报告或第一CSI报告中的位置,与所述第二目标参数在各自对应的报告或指示信息中的位置对应。In an embodiment, the position of the target information in the first beam report or the first CSI report corresponds to the position of the second target parameter in the corresponding report or indication information.
在一个实施例中,所述目标信息的数量通过以下至少一种方式确定:In an embodiment, the quantity of the target information is determined by at least one of the following methods:
所述目标信息的数量根据P-MPR值的数量确定;The quantity of the target information is determined according to the quantity of P-MPR values;
所述目标信息的数量根据所述第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量确定;The quantity of the target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;
所述目标信息的数量根据所述第一波束报告或第一CSI报告中的波束的标识信息的数量确定;The amount of target information is determined according to the amount of identification information of beams in the first beam report or the first CSI report;
所述目标信息的数量根据PH的数量确定;The quantity of the target information is determined according to the quantity of PH;
所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定。The quantity of the target information is determined according to the type of the first beam report or the first CSI report.
在一个实施例中,在所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定的情况下,所述第一波束报告或第一CSI报告的类型包括如下至少之一:In an embodiment, when the quantity of the target information is determined according to the type of the first beam report or the first CSI report, the type of the first beam report or the first CSI report includes at least one of the following :
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
所述第一波束报告或第一CSI报告中包括多个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of multiple terminal antenna panels;
所述第一波束报告或第一CSI报告中包括1个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of one terminal antenna panel;
所述第一波束报告或第一CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the first beam report or the first CSI report;
所述第一波束报告或第一CSI报告中包括多个波束的标识信息;The first beam report or the first CSI report includes identification information of multiple beams;
所述第一波束报告或第一CSI报告中包括1个波束的标识信息;The first beam report or the first CSI report includes identification information of one beam;
所述第一波束报告或第一CSI报告中不包括波束的标识信息。The first beam report or the first CSI report does not include beam identification information.
在一个实施例中,所述第一波束报告或第一CSI报告为以下任一项:In an embodiment, the first beam report or the first CSI report is any of the following:
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
基于预设规则的报告;Reporting based on preset rules;
其中,所述预设规则包括:Wherein, the preset rules include:
向所述网络侧设备发送多组波束标识信息,每一组波束标识信息指示可同时传输的波束、或对应同一个终端天线面板的标识信息、或对应同一个P-MPR值。Send multiple sets of beam identification information to the network side device, each set of beam identification information indicates beams that can be transmitted simultaneously, or identification information corresponding to the same terminal antenna panel, or corresponding to the same P-MPR value.
在一个实施例中,所述第一指示信息为通过MAC CE或DCI将已配置的波束报告的类型更新为所述第一波束报告的类型,或者将已配置的CSI报告的类型,更新为所述第一CSI报告的类型的指示信息。In one embodiment, the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or to update the configured CSI report type to the The indication information of the type of the first CSI report.
在一个实施例中,在所述目标信息与所述P-MPR值具有所述关联的情况下,与一个P-MPR值对应的所述目标信息的数量为一个或多个。In one embodiment, in the case that the target information has the association with the P-MPR value, the quantity of the target information corresponding to one P-MPR value is one or more.
在一个实施例中,在所述目标信息与所述终端天线面板的标识信息或波束的标识信息具有所述关联的情况下,与一个终端天线面板的标识信息或波束的标识信息对应的所述目标信息的数量为一个或多个。In an embodiment, when the target information has the association with the identification information of the terminal antenna panel or the identification information of the beam, the corresponding to the identification information of a terminal antenna panel or the identification information of the beam The number of target information is one or more.
在一个实施例中,对于处于去激活状态的终端天线面板,在所述第一波束报告或第一CSI报告中与所述处于去激活状态的终端天线面板相对应的目 标信息为无效值或者预定值。In an embodiment, for the terminal antenna panel in the deactivated state, the target information corresponding to the terminal antenna panel in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value. value.
在一个实施例中,在所述第一波束报告或第一CSI报告中,与处于激活状态的终端天线面板以及处于去激活状态的终端天线面板分别对应的SSBRI或CRI可以相同。In an embodiment, in the first beam report or the first CSI report, the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
在一个实施例中,在所述网络侧设备具有多个发射接收点TRP的情况下,所述第一波束报告或第一CSI报告包括的目标信息为多组;In an embodiment, when the network side device has multiple transmitting and receiving points TRP, the target information included in the first beam report or the first CSI report is multiple groups;
每组目标信息对应以下至少一项:Each set of target information corresponds to at least one of the following:
一个终端天线面板的标识信息;Identification information of a terminal antenna panel;
一个波束的标识信息;Identification information of a beam;
一个TRP标识信息。A TRP identification information.
在一个实施例中,本申请实施例提供的终端天线面板信息的传输装置,还包括模式确定模块,用于根据以下至少一项,确定向所述网络侧设备发送所述第一波束报告或所述第一CSI报告的模式:In one embodiment, the device for transmitting information on the antenna panel of a terminal provided in the embodiment of the present application further includes a mode determining module, configured to determine to send the first beam report or the first beam report to the network side device according to at least one of the following: The schema of the first CSI report described:
所述关联;said association;
所述P-MPR报告中P-MPR值的数量;the number of P-MPR values in said P-MPR report;
PH报告中PH的数量;The number of PH in the PH report;
所述模式包括以下任一项:The modes include any of the following:
所述SSBRI为所述终端通过1个空域滤波器spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过1个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam, and the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam ;
所述SSBRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams, and the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams;
所述终端使用基于分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;
所述终端使用基于不分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;
所述第一波束报告或第一CSI报告携带终端天线面板的标识信息,所述终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
所述第一波束报告或第一CSI报告携带波束的标识信息,所述波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
在一个实施例中,所述模式的切换时间由所述终端发送P-MPR报告或功率余量报告PHR的时间确定。In one embodiment, the switching time of the mode is determined by the time when the terminal sends a P-MPR report or a power headroom report (PHR).
在一个实施例中,所述关联的有效时间包括以下至少一项:In one embodiment, the associated valid time includes at least one of the following:
所述有效时间的起点为如下任一项:满足P-MPR报告发送条件的时刻、满足P-MPR报告发送条件的时刻之后的预设时刻、终端发送P-MPR报告的时刻、终端发送P-MPR报告的时刻之后的预设时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻之后的预设时刻;The starting point of the effective time is any of the following: the time when the P-MPR report sending condition is satisfied, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report, A preset time after the time of the MPR report, a time when the network side device sends the network response information of the P-MPR report, and a preset time after the time when the network side device sends the network response information of the P-MPR report;
所述有效时间的终点为如下任一项:网络侧设备发送波束切换命令的时刻、网络侧设备发送波束切换命令的时刻之后的预设时刻、下一次有效时间的起点、网络侧设备发送第一指示信息的时刻、网络侧设备发送第一指示信息的时刻之后的预设时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻之后的预设时刻、终端发送第一波束报告或第一CSI报告的时刻、终端发送第一波束报告或第一CSI报告的时刻之后的预设时刻。The end of the valid time is any of the following: the time when the network side device sends the beam switching command, the preset time after the time when the network side device sends the beam switching command, the starting point of the next valid time, the first time when the network side device sends the beam switching command The time of the indication information, the preset time after the time when the network side device sends the first indication information, the network side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report type, the network side device updates the type of the beam report to the type of the first beam report or the preset time after the time when the type of the CSI report is updated to the type of the first CSI report, the terminal sends the first beam report or the second A time of a CSI report, a preset time after the time when the terminal sends the first beam report or the first CSI report.
在一个实施例中,在所述有效时间内,所述终端天线面板的激活状态或去激活状态保持不变。In an embodiment, during the valid time, the activation state or deactivation state of the antenna panel of the terminal remains unchanged.
在一个实施例中,所述激活状态包括如下任一项:In one embodiment, the activation status includes any of the following:
多组波束之间可以在预定义的时间段内进行波束切换的状态,其中,每组波束对应一个终端天线面板;The state of beam switching between multiple groups of beams within a predefined time period, where each group of beams corresponds to a terminal antenna panel;
至少一个终端天线面板所对应的一组波束能够进行下行信道接收或者参 考信号RS接收的状态;A state in which a group of beams corresponding to at least one terminal antenna panel can perform downlink channel reception or reference signal RS reception;
至少一个终端天线面板所对应的一组波束能够进行上行信道发送或者参考信号RS发送的状态。A state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
综上所述,本申请实施例提供终端天线面板信息的传输装置,在发生MPE事件的情况下,通过终端发送的基于终端天线面板的P-MPR报告以及网络触发终端进行基于终端天线面板的波束报告或CSI报告中的关联关系,可以准确获知终端天线面板的波束测量结果,从而保证终端天线面板和波束选择的及时性和准确性。To sum up, the embodiment of the present application provides a transmission device for terminal antenna panel information. In the case of an MPE event, the terminal sends a P-MPR report based on the terminal antenna panel and the network triggers the terminal to perform a beam based on the terminal antenna panel. The association relationship in the report or CSI report can accurately know the beam measurement results of the terminal antenna panel, thereby ensuring the timeliness and accuracy of the terminal antenna panel and beam selection.
图5为本申请实施例提供的终端天线面板信息的传输装置的结构示意图之二;参照图5,本申请实施例提供一种终端天线面板信息的传输装置,可以包括:Fig. 5 is the second structural schematic diagram of the terminal antenna panel information transmission device provided by the embodiment of the present application; referring to Fig. 5, the present application embodiment provides a terminal antenna panel information transmission device, which may include:
接收模块510,用于接收终端发送的P-MPR报告;The receiving module 510 is configured to receive the P-MPR report sent by the terminal;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
本申请实施例提供的终端天线面板信息的传输装置,通过将P-MPR报告中的信息、PH报告中的信息、波束报告中的信息、CSI报告中的信息以及波束指示信息与同一波束或者同一终端天线面板对应起来,可以使网络侧设备准确获得各波束或者各终端天线面板的测量结果,从而使得网络侧设备可以及时准确地指示终端进行波束切换,保证了通信质量以及效率。The terminal antenna panel information transmission device provided by the embodiment of the present application combines the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same beam. The corresponding terminal antenna panels can enable the network-side equipment to accurately obtain the measurement results of each beam or each terminal antenna panel, so that the network-side equipment can timely and accurately instruct the terminal to switch beams, ensuring communication quality and efficiency.
在一个实施例中,所述P-MPR值在所述P-MPR报告中的位置,与所述第一目标参数在各自对应的报告或指示信息中的位置对应。In an embodiment, the position of the P-MPR value in the P-MPR report corresponds to the position of the first target parameter in the corresponding report or indication information.
在一个实施例中,所述P-MPR值的数量通过以下至少一种方式确定:In one embodiment, the number of P-MPR values is determined by at least one of the following methods:
所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的终端 天线面板的标识信息的数量确定;The quantity of the P-MPR value is determined according to the quantity of identification information of the terminal antenna panel in the beam report or channel state information CSI report;
所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的波束的标识信息的数量确定;The number of P-MPR values is determined according to the number of beam identification information in the beam report or channel state information CSI report;
所述P-MPR值的数量根据PH的数量确定;The quantity of the P-MPR value is determined according to the quantity of PH;
所述P-MPR值的数量根据波束报告或CSI报告中的以下至少一项确定:SSBRI的数量、CRI的数量;The number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;
所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定。The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
在一个实施例中,在所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定的情况下,所述波束报告或CSI报告的类型包括如下至少之一:In one embodiment, when the number of P-MPR values is determined according to the type of beam report or CSI report, the type of beam report or CSI report includes at least one of the following:
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
波束报告或CSI报告中包括多个终端天线面板的标识信息;The beam report or CSI report includes identification information of multiple terminal antenna panels;
波束报告或CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the beam report or CSI report;
波束报告或CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the beam report or CSI report;
波束报告或CSI报告中包括多个波束的标识信息;The beam report or CSI report includes identification information of multiple beams;
波束报告或CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the beam report or CSI report;
波束报告或CSI报告中不包括波束的标识信息。Beam identification information is not included in the beam report or CSI report.
在一个实施例中,在所述P-MPR报告包括多个P-MPR值的情况下,所述P-MPR值在所述P-MPR报告中的位置通过如下至少一种方式确定:In one embodiment, when the P-MPR report includes multiple P-MPR values, the position of the P-MPR value in the P-MPR report is determined by at least one of the following methods:
根据各P-MPR值对应的终端天线面板或波束是否发生最大允许辐射量MPE事件,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;
根据各P-MPR值的大小,在所述P-MPR报告中依次排列各P-MPR值;Arranging each P-MPR value in sequence in the P-MPR report according to the size of each P-MPR value;
终端确定各P-MPR值在所述P-MPR报告中的位置;The terminal determines the position of each P-MPR value in the P-MPR report;
根据各P-MPR值对应的PH的排列顺序,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to the sequence of the PH corresponding to each P-MPR value;
根据各P-MPR值对应的PH是否为实际PH,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;
根据各P-MPR值对应的终端天线面板或波束是否被调度了上行资源,来确定各P-MPR值在所述P-MPR报告中的位置。The position of each P-MPR value in the P-MPR report is determined according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
在一个实施例中,接收模块510具体用于:In one embodiment, the receiving module 510 is specifically used for:
在满足预设条件的情况下,接收终端发送的P-MPR报告;When the preset condition is met, receive the P-MPR report sent by the terminal;
其中,所述预设条件包括以下至少一项:Wherein, the preset conditions include at least one of the following:
终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;
终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;
终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;
终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;
终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;
终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;
终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;
当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;
当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;
当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;
当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;
当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与 第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
在一个实施例中,在所述P-MPR值与所述PH具有关联的情况下,所述PH满足以下任一项:In one embodiment, when the P-MPR value is associated with the PH, the PH satisfies any of the following:
所述P-MPR值与所述PH在同一P-MPR报告中;The P-MPR value is in the same P-MPR report as the pH;
所述PH所在报告的发送时间与所述P-MPR报告的发送时间最接近;The sending time of the report where the PH is located is closest to the sending time of the P-MPR report;
所述PH所在报告与所述P-MPR报告位于相同的物理上行共享信道PUSCH中;The report where the PH is located and the P-MPR report are located in the same physical uplink shared channel PUSCH;
所述PH所在报告与所述P-MPR报告位于相同的传输块TB中。The PH report is located in the same transport block TB as the P-MPR report.
在一个实施例中,本申请实施例提供的终端天线面板信息的传输装置,还包括指示模块(图中未示出),用于:In one embodiment, the device for transmitting terminal antenna panel information provided in the embodiment of the present application further includes an indication module (not shown in the figure), configured to:
向所述终端发送第一指示信息;sending first indication information to the terminal;
接收所述终端根据所述第一指示信息,发送的第一波束报告或第一CSI报告;receiving a first beam report or a first CSI report sent by the terminal according to the first indication information;
其中,所述第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:
至少一个SSBRI以及与所述SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to said SSBRI;
至少一个CRI以及与所述CRI对应的L1-RSRP或L1-SINR;at least one CRI and the L1-RSRP or L1-SINR corresponding to said CRI;
所述目标信息与以下第二目标参数中的至少一个具有所述关联:The target information has the association with at least one of the following second target parameters:
P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
在一个实施例中,所述目标信息在所述第一波束报告或第一CSI报告中的位置,与所述第二目标参数在各自对应的报告或指示信息中的位置对应。In an embodiment, the position of the target information in the first beam report or the first CSI report corresponds to the position of the second target parameter in the corresponding report or indication information.
在一个实施例中,所述目标信息的数量通过以下至少一种方式确定:In an embodiment, the quantity of the target information is determined by at least one of the following methods:
所述目标信息的数量根据P-MPR值的数量确定;The quantity of the target information is determined according to the quantity of P-MPR values;
所述目标信息的数量根据所述第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量确定;The quantity of the target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;
所述目标信息的数量根据所述第一波束报告或第一CSI报告中的波束的标识信息的数量确定;The amount of target information is determined according to the amount of identification information of beams in the first beam report or the first CSI report;
所述目标信息的数量根据PH的数量确定;The quantity of the target information is determined according to the quantity of PH;
所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定。The quantity of the target information is determined according to the type of the first beam report or the first CSI report.
在一个实施例中,在所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定的情况下,所述第一波束报告或第一CSI报告的类型包括如下至少之一:In an embodiment, when the quantity of the target information is determined according to the type of the first beam report or the first CSI report, the type of the first beam report or the first CSI report includes at least one of the following :
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;
终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;
所述第一波束报告或第一CSI报告中包括多个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of multiple terminal antenna panels;
所述第一波束报告或第一CSI报告中包括1个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of one terminal antenna panel;
所述第一波束报告或第一CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the first beam report or the first CSI report;
所述第一波束报告或第一CSI报告中包括多个波束的标识信息;The first beam report or the first CSI report includes identification information of multiple beams;
所述第一波束报告或第一CSI报告中包括1个波束的标识信息;The first beam report or the first CSI report includes identification information of one beam;
所述第一波束报告或第一CSI报告中不包括波束的标识信息。The first beam report or the first CSI report does not include beam identification information.
在一个实施例中,所述第一波束报告或第一CSI报告为以下任一项:In an embodiment, the first beam report or the first CSI report is any of the following:
基于分组的报告;group-based reporting;
基于不分组的报告;Based on ungrouped reports;
基于预设规则的报告;Reporting based on preset rules;
其中,所述预设规则包括:Wherein, the preset rules include:
所述网络侧设备接收多组波束标识信息,每一组波束标识信息指示可同 时传输的波束、或对应同一个终端天线面板的标识信息、或对应同一个P-MPR值。The network side device receives multiple sets of beam identification information, and each set of beam identification information indicates beams that can be transmitted simultaneously, or corresponds to identification information of the same terminal antenna panel, or corresponds to the same P-MPR value.
在一个实施例中,所述第一指示信息为通过MAC CE或DCI将已配置的波束报告的类型更新为所述第一波束报告的类型,或者将已配置的CSI报告的类型,更新为所述第一CSI报告的类型的指示信息。In one embodiment, the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or to update the configured CSI report type to the The indication information of the type of the first CSI report.
在一个实施例中,在所述目标信息与所述P-MPR值具有所述关联的情况下,与一个P-MPR值对应的所述目标信息的数量为一个或多个。In one embodiment, in the case that the target information has the association with the P-MPR value, the quantity of the target information corresponding to one P-MPR value is one or more.
在一个实施例中,在所述目标信息与所述终端天线面板的标识信息或波束的标识信息具有所述关联的情况下,与一个终端天线面板的标识信息或波束的标识信息对应的所述目标信息的数量为一个或多个。In an embodiment, when the target information has the association with the identification information of the terminal antenna panel or the identification information of the beam, the corresponding to the identification information of a terminal antenna panel or the identification information of the beam The number of target information is one or more.
在一个实施例中,对于处于去激活状态的终端天线面板,在所述第一波束报告或第一CSI报告中与所述处于去激活状态的终端天线面板相对应的目标信息为无效值或者预定值。In an embodiment, for the terminal antenna panel in the deactivated state, the target information corresponding to the terminal antenna panel in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value. value.
在一个实施例中,在所述第一波束报告或第一CSI报告中,与处于激活状态的终端天线面板以及处于去激活状态的终端天线面板分别对应的SSBRI或CRI可以相同。In an embodiment, in the first beam report or the first CSI report, the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
在一个实施例中,在所述网络侧设备具有多个发射接收点TRP的情况下,所述第一波束报告或第一CSI报告包括的目标信息为多组;In an embodiment, when the network side device has multiple transmitting and receiving points TRP, the target information included in the first beam report or the first CSI report is multiple groups;
每组目标信息对应以下至少一项:Each set of target information corresponds to at least one of the following:
一个终端天线面板的标识信息;Identification information of a terminal antenna panel;
一个波束的标识信息;Identification information of a beam;
一个TRP标识信息。A TRP identification information.
在一个实施例中,本申请实施例提供的终端天线面板信息的传输装置,还包括模式确定模块,用于根据以下至少一项,确定接收所述第一波束报告或第一CSI报告的模式:In one embodiment, the device for transmitting antenna panel information of a terminal provided in the embodiment of the present application further includes a mode determination module, configured to determine a mode for receiving the first beam report or the first CSI report according to at least one of the following:
所述关联;said association;
所述P-MPR报告中P-MPR值的数量;the number of P-MPR values in said P-MPR report;
PH报告中PH的数量;The number of PH in the PH report;
所述模式包括以下任一项:The modes include any of the following:
所述SSBRI为所述终端通过1个空域滤波器spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过1个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam, and the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam ;
所述SSBRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams, and the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams;
所述终端使用基于分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;
所述终端使用基于不分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;
所述第一波束报告或第一CSI报告携带终端天线面板的标识信息,所述终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
所述第一波束报告或第一CSI报告携带波束的标识信息,所述波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
在一个实施例中,所述模式的切换时间由所述终端发送P-MPR报告或功率余量报告PHR的时间确定。In one embodiment, the switching time of the mode is determined by the time when the terminal sends a P-MPR report or a power headroom report (PHR).
在一个实施例中,所述关联的有效时间包括以下至少一项:In one embodiment, the associated valid time includes at least one of the following:
所述有效时间的起点为如下任一项:满足P-MPR报告发送条件的时刻、满足P-MPR报告发送条件的时刻之后的预设时刻、终端发送P-MPR报告的时刻、终端发送P-MPR报告的时刻之后的预设时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻之后的预设时刻;The starting point of the effective time is any of the following: the time when the P-MPR report sending condition is satisfied, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report, A preset time after the time of the MPR report, a time when the network side device sends the network response information of the P-MPR report, and a preset time after the time when the network side device sends the network response information of the P-MPR report;
所述有效时间的终点为如下任一项:网络侧设备发送波束切换命令的时刻、网络侧设备发送波束切换命令的时刻之后的预设时刻、下一次有效时间的起点、网络侧设备发送第一指示信息的时刻、网络侧设备发送第一指示信 息的时刻之后的预设时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻之后的预设时刻、终端发送第一波束报告或第一CSI报告的时刻、终端发送第一波束报告或第一CSI报告的时刻之后的预设时刻。The end of the valid time is any of the following: the time when the network side device sends the beam switching command, the preset time after the time when the network side device sends the beam switching command, the starting point of the next valid time, the first time when the network side device sends the beam switching command The time of the indication information, the preset time after the time when the network side device sends the first indication information, the network side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report type, the network side device updates the type of the beam report to the type of the first beam report or the preset time after the time when the type of the CSI report is updated to the type of the first CSI report, the terminal sends the first beam report or the second A time of a CSI report, a preset time after the time when the terminal sends the first beam report or the first CSI report.
在一个实施例中,在所述有效时间内,所述终端天线面板的激活状态或去激活状态保持不变。In an embodiment, during the valid time, the activation state or deactivation state of the antenna panel of the terminal remains unchanged.
在一个实施例中,所述激活状态包括如下任一项:In one embodiment, the activation status includes any of the following:
多组波束之间可以在预定义的时间段内进行波束切换的状态,其中,每组波束对应一个终端天线面板;The state of beam switching between multiple groups of beams within a predefined time period, where each group of beams corresponds to a terminal antenna panel;
至少一个终端天线面板所对应的一组波束能够进行下行信道接收或者参考信号RS接收的状态;A state in which a group of beams corresponding to at least one terminal antenna panel can perform downlink channel reception or reference signal RS reception;
至少一个终端天线面板所对应的一组波束能够进行上行信道发送或者参考信号RS发送的状态。A state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
综上所述,本申请实施例提供终端天线面板信息的传输装置,在发生MPE事件的情况下,通过终端发送的基于终端天线面板的P-MPR报告以及网络触发终端进行基于终端天线面板的波束报告或CSI报告中的关联关系,可以准确获知终端天线面板的波束测量结果,从而保证终端天线面板和波束选择的及时性和准确性。To sum up, the embodiment of the present application provides a transmission device for terminal antenna panel information. In the case of an MPE event, the terminal sends a P-MPR report based on the terminal antenna panel and the network triggers the terminal to perform a beam based on the terminal antenna panel. The association relationship in the report or CSI report can accurately know the beam measurement results of the terminal antenna panel, thereby ensuring the timeliness and accuracy of the terminal antenna panel and beam selection.
本申请实施例中的终端天线面板信息的传输装置可以是电子设备,也可以是电子设备中的部件,例如集成电路或芯片。该电子设备可以是终端,也可以为除终端之外的其他设备。示例性的,电子设备可以为手机、平板电脑、笔记本电脑、掌上电脑、车载电子设备、移动上网装置(Mobile Internet Device,MID)、增强现实(augmented reality,AR)/虚拟现实(virtual reality,VR)设备、机器人、可穿戴设备、超级移动个人计算机(ultra-mobile personal computer,UMPC)、上网本或者个人数字助理(personal digital assistant,PDA)等,还 可以为服务器、网络附属存储器(Network Attached Storage,NAS)、个人计算机(personal computer,PC)、电视机(television,TV)、柜员机或者自助机等,本申请实施例不作具体限定。The apparatus for transmitting information on the terminal antenna panel in the embodiment of the present application may be an electronic device, or may be a component in the electronic device, such as an integrated circuit or a chip. The electronic device may be a terminal, or other devices other than the terminal. Exemplarily, the electronic device can be a mobile phone, a tablet computer, a notebook computer, a handheld computer, a vehicle electronic device, a mobile Internet device (Mobile Internet Device, MID), an augmented reality (augmented reality, AR)/virtual reality (virtual reality, VR) ) equipment, robots, wearable devices, ultra-mobile personal computer (ultra-mobile personal computer, UMPC), netbook or personal digital assistant (personal digital assistant, PDA), etc., can also serve as server, network attached storage (Network Attached Storage, NAS), personal computer (personal computer, PC), television (television, TV), teller machine, or self-service machine, etc., which are not specifically limited in this embodiment of the present application.
本申请实施例中的终端天线面板信息的传输装置可以为具有操作系统的装置。该操作系统可以为安卓(Android)操作系统,可以为ios操作系统,还可以为其他可能的操作系统,本申请实施例不作具体限定。The device for transmitting the terminal antenna panel information in the embodiment of the present application may be a device with an operating system. The operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, which are not specifically limited in this embodiment of the present application.
本申请实施例提供的终端天线面板信息的传输装置能够实现图2和图3的方法实施例实现的各个过程,并达到相同的技术效果,为避免重复,这里不再赘述。The device for transmitting terminal antenna panel information provided by the embodiment of the present application can implement the various processes implemented by the method embodiments shown in FIG. 2 and FIG. 3 and achieve the same technical effect. To avoid repetition, details are not repeated here.
可选的,如图6所示,本申请实施例还提供一种通信设备600,包括处理器601,存储器602,存储在存储器602上并可在所述处理器601上运行的程序或指令,例如,该通信设备600为终端时,该程序或指令被处理器601执行时实现上述终端天线面板信息的传输方法实施例的各个过程,且能达到相同的技术效果。该通信设备600为网络侧设备时,该程序或指令被处理器601执行时实现上述终端天线面板信息的传输方法实施例的各个过程,且能达到相同的技术效果,为避免重复,这里不再赘述。Optionally, as shown in FIG. 6 , this embodiment of the present application further provides a communication device 600, including a processor 601, a memory 602, and programs or instructions stored in the memory 602 and operable on the processor 601, For example, when the communication device 600 is a terminal, when the program or instruction is executed by the processor 601, each process of the above embodiment of the method for transmitting antenna panel information of the terminal can be realized, and the same technical effect can be achieved. When the communication device 600 is a network-side device, when the program or instruction is executed by the processor 601, the various processes of the above-mentioned embodiment of the method for transmitting terminal antenna panel information can be achieved, and the same technical effect can be achieved. To avoid repetition, it is not repeated here repeat.
本申请实施例还提供一种终端,包括处理器和通信接口,通信接口用于向网络侧设备发送P-MPR报告;其中,所述P-MPR报告包括至少一个P-MPR值;所述P-MPR值与以下第一目标参数中的至少一个具有关联:终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;所述关联指对应于同一波束或者同一终端天线面板。该终端实施例是与上述终端侧方法实施例对应的,上述方法实施例的各个实施过程和实现方式均可适用于该终端实施例中,且能达到相同的技术效果。具体地,图7为实现本申请实施例的一种终端的硬件结构示意图。The embodiment of the present application also provides a terminal, including a processor and a communication interface, and the communication interface is used to send a P-MPR report to a network side device; wherein, the P-MPR report includes at least one P-MPR value; the P - The MPR value is associated with at least one of the following first target parameters: terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state, and spatial relation spatial relation; the association refers to corresponding to the same beam or the same terminal antenna panel. This terminal embodiment corresponds to the above-mentioned terminal-side method embodiment, and each implementation process and implementation mode of the above-mentioned method embodiment can be applied to this terminal embodiment, and can achieve the same technical effect. Specifically, FIG. 7 is a schematic diagram of a hardware structure of a terminal implementing an embodiment of the present application.
该终端700包括但不限于:射频单元701、网络模块702、音频输出单元 703、输入单元704、传感器705、显示单元706、用户输入单元707、接口单元708、存储器709、以及处理器710等中的至少部分部件。The terminal 700 includes but is not limited to: a radio frequency unit 701, a network module 702, an audio output unit 703, an input unit 704, a sensor 705, a display unit 706, a user input unit 707, an interface unit 708, a memory 709, and a processor 710, etc. at least some of the components.
本领域技术人员可以理解,终端700还可以包括给各个部件供电的电源(比如电池),电源可以通过电源管理系统与处理器710逻辑相连,从而通过电源管理系统实现管理充电、放电、以及功耗管理等功能。图7中示出的终端结构并不构成对终端的限定,终端可以包括比图示更多或更少的部件,或者组合某些部件,或者不同的部件布置,在此不再赘述。Those skilled in the art can understand that the terminal 700 may also include a power supply (such as a battery) for supplying power to various components, and the power supply may be logically connected to the processor 710 through the power management system, so as to manage charging, discharging, and power consumption through the power management system. Management and other functions. The terminal structure shown in FIG. 7 does not constitute a limitation on the terminal, and the terminal may include more or fewer components than shown in the figure, or combine some components, or arrange different components, which will not be repeated here.
应理解的是,本申请实施例中,输入单元704可以包括图形处理器(Graphics Processing Unit,GPU)7041和麦克风7042,图形处理器7041对在视频捕获模式或图像捕获模式中由图像捕获装置(如摄像头)获得的静态图片或视频的图像数据进行处理。显示单元706可包括显示面板7061,可以采用液晶显示器、有机发光二极管等形式来配置显示面板7061。用户输入单元707包括触控面板7071以及其他输入设备7072。触控面板7071,也称为触摸屏。触控面板7071可包括触摸检测装置和触摸控制器两个部分。其他输入设备7072可以包括但不限于物理键盘、功能键(比如音量控制按键、开关按键等)、轨迹球、鼠标、操作杆,在此不再赘述。It should be understood that, in the embodiment of the present application, the input unit 704 may include a graphics processor (Graphics Processing Unit, GPU) 7041 and a microphone 7042, and the graphics processor 7041 is used for the image capture device ( Such as the image data of the still picture or video obtained by the camera) for processing. The display unit 706 may include a display panel 7061, and the display panel 7061 may be configured in the form of a liquid crystal display, an organic light emitting diode, or the like. The user input unit 707 includes a touch panel 7071 and other input devices 7072 . The touch panel 7071 is also called a touch screen. The touch panel 7071 may include two parts, a touch detection device and a touch controller. Other input devices 7072 may include, but are not limited to, physical keyboards, function keys (such as volume control buttons, switch buttons, etc.), trackballs, mice, and joysticks, which will not be repeated here.
本申请实施例中,射频单元701将来自网络侧设备的下行数据接收后,给处理器710处理;另外,将上行的数据发送给网络侧设备。通常,射频单元701包括但不限于天线、至少一个放大器、收发信机、耦合器、低噪声放大器、双工器等。In the embodiment of the present application, the radio frequency unit 701 receives the downlink data from the network side device, and processes it to the processor 710; in addition, sends the uplink data to the network side device. Generally, the radio frequency unit 701 includes, but is not limited to, an antenna, at least one amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, and the like.
存储器709可用于存储软件程序以及各种数据。存储器709可主要包括存储程序或指令的第一存储区和存储数据的第二存储区,其中,第一存储区可存储操作系统、至少一个功能所需的应用程序或指令(比如声音播放功能、图像播放功能等)等。此外,存储器709可以包括易失性存储器或非易失性存储器,或者,存储器709可以包括易失性和非易失性存储器两者。其中,非易失性存储器可以是只读存储器(Read-Only Memory,ROM)、可编程只读存储器(Programmable ROM,PROM)、可擦除可编程只读存储器(Erasable PROM,EPROM)、电可擦除可编程只读存储器(Electrically EPROM,EEPROM)或闪存。易失性存储器可以是随机存取存储器(Random Access Memory,RAM),静态随机存取存储器(Static RAM,SRAM)、动态随机存取存储器(Dynamic RAM,DRAM)、同步动态随机存取存储器(Synchronous DRAM,SDRAM)、双倍数据速率同步动态随机存取存储器(Double Data Rate SDRAM,DDRSDRAM)、增强型同步动态随机存取存储器(Enhanced SDRAM,ESDRAM)、同步连接动态随机存取存储器(Synch link DRAM,SLDRAM)和直接内存总线随机存取存储器(Direct Rambus RAM,DRRAM)。本申请实施例中的存储器709包括但不限于这些和任意其它适合类型的存储器。The memory 709 can be used to store software programs as well as various data. The memory 709 may mainly include a first storage area for storing programs or instructions and a second storage area for storing data, wherein the first storage area may store an operating system, an application program or instructions required by at least one function (such as a sound playing function, image playback function, etc.), etc. Furthermore, memory 709 may include volatile memory or nonvolatile memory, or, memory 709 may include both volatile and nonvolatile memory. Among them, the non-volatile memory can be read-only memory (Read-Only Memory, ROM), programmable read-only memory (Programmable ROM, PROM), erasable programmable read-only memory (Erasable PROM, EPROM), electronically programmable Erase Programmable Read-Only Memory (Electrically EPROM, EEPROM) or Flash. Volatile memory can be random access memory (Random Access Memory, RAM), static random access memory (Static RAM, SRAM), dynamic random access memory (Dynamic RAM, DRAM), synchronous dynamic random access memory (Synchronous DRAM, SDRAM), double data rate synchronous dynamic random access memory (Double Data Rate SDRAM, DDR SDRAM), enhanced synchronous dynamic random access memory (Enhanced SDRAM, ESDRAM), synchronous connection dynamic random access memory (Synch link DRAM , SLDRAM) and Direct Memory Bus Random Access Memory (Direct Rambus RAM, DRRAM). The memory 709 in the embodiment of the present application includes but is not limited to these and any other suitable types of memory.
处理器710可包括一个或多个处理单元;可选的,处理器710可集成应用处理器和调制解调处理器,其中,应用处理器主要处理操作系统、用户界面和应用程序或指令等,调制解调处理器主要处理无线通信,如基带处理器。可以理解的是,上述调制解调处理器也可以不集成到处理器710中。The processor 710 may include one or more processing units; optionally, the processor 710 may integrate an application processor and a modem processor, wherein the application processor mainly processes the operating system, user interface and application programs or instructions, etc., Modem processors mainly handle wireless communications, such as baseband processors. It can be understood that the foregoing modem processor may not be integrated into the processor 710 .
其中,射频单元701,用于向网络侧设备发送P-MPR报告;Wherein, the radio frequency unit 701 is configured to send a P-MPR report to the network side device;
其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;
所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:
终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;
所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
可选的,射频单元701,还用于在满足预设条件的情况下,向网络侧设备发送P-MPR报告;Optionally, the radio frequency unit 701 is also configured to send a P-MPR report to the network side device when the preset condition is met;
其中,所述预设条件包括以下至少一项:Wherein, the preset conditions include at least one of the following:
终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;
终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;
终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;
终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;
终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;
终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;
终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;
终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;
当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;
当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;
当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;
当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;
当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;
当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;
当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;
当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
可选的,射频单元701,还用于接收所述网络侧设备发送的第一指示信息;Optionally, the radio frequency unit 701 is also configured to receive first indication information sent by the network side device;
根据所述第一指示信息,向所述网络侧设备发送第一波束报告或第一CSI报告;Sending a first beam report or a first CSI report to the network side device according to the first indication information;
其中,所述第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:
至少一个SSBRI以及与所述SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to said SSBRI;
至少一个CRI以及与所述CRI对应的L1-RSRP或L1-SINR;at least one CRI and the L1-RSRP or L1-SINR corresponding to said CRI;
所述目标信息与以下第二目标参数中的至少一个具有所述关联:The target information has the association with at least one of the following second target parameters:
P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
处理器710,用于根据以下至少一项,确定向所述网络侧设备发送所述第一波束报告或所述第一CSI报告的模式:A processor 710, configured to determine a mode of sending the first beam report or the first CSI report to the network side device according to at least one of the following:
所述关联;said association;
所述P-MPR报告中P-MPR值的数量;the number of P-MPR values in said P-MPR report;
PH报告中PH的数量;The number of PH in the PH report;
所述模式包括以下任一项:The modes include any of the following:
所述SSBRI为所述终端通过1个空域滤波器spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过1个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam, and the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam ;
所述SSBRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams, and the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams;
所述终端使用基于分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;
所述终端使用基于不分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;
所述第一波束报告或第一CSI报告携带终端天线面板的标识信息,所述终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;
所述第一波束报告或第一CSI报告携带波束的标识信息,所述波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
申请实施例提供的终端,通过将P-MPR报告中的信息、PH报告中的信 息、波束报告中的信息、CSI报告中的信息以及波束指示信息与同一波束或者同一终端天线面板对应起来,可以使网络侧设备准确获得各波束或者各终端天线面板的测量结果,从而使得网络侧设备可以及时准确地指示终端进行波束切换,保证了通信质量以及效率。The terminal provided by the embodiment of the application can associate the information in the P-MPR report, the information in the PH report, the information in the beam report, the information in the CSI report, and the beam indication information with the same beam or the same terminal antenna panel. The network-side device can accurately obtain the measurement results of each beam or each terminal antenna panel, so that the network-side device can instruct the terminal to switch beams in a timely and accurate manner, ensuring communication quality and efficiency.
本申请实施例还提供一种网络侧设备,包括处理器和通信接口,通信接口用于接收终端发送的P-MPR报告;其中,所述P-MPR报告包括至少一个P-MPR值;所述P-MPR值与以下第一目标参数中的至少一个具有关联:终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;所述关联指对应于同一波束或者同一终端天线面板。该网络侧设备实施例是与上述网络侧设备方法实施例对应的,上述方法实施例的各个实施过程和实现方式均可适用于该网络侧设备实施例中,且能达到相同的技术效果。The embodiment of the present application also provides a network side device, including a processor and a communication interface, and the communication interface is used to receive a P-MPR report sent by a terminal; wherein, the P-MPR report includes at least one P-MPR value; the The P-MPR value is associated with at least one of the following first target parameters: terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indication character SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state, and spatial relation spatial relation; the association refers to corresponding to the same beam or the same terminal antenna panel. The network-side device embodiment corresponds to the above-mentioned network-side device method embodiment, and each implementation process and implementation mode of the above-mentioned method embodiment can be applied to this network-side device embodiment, and can achieve the same technical effect.
具体地,本申请实施例还提供了一种网络侧设备。如图8所示,该网络设备800包括:天线81、射频装置82、基带装置83。天线81与射频装置82连接。在上行方向上,射频装置82通过天线81接收信息,将接收的信息发送给基带装置83进行处理。在下行方向上,基带装置83对要发送的信息进行处理,并发送给射频装置82,射频装置82对收到的信息进行处理后经过天线81发送出去。Specifically, the embodiment of the present application also provides a network side device. As shown in FIG. 8 , the network device 800 includes: an antenna 81 , a radio frequency device 82 , and a baseband device 83 . The antenna 81 is connected to a radio frequency device 82 . In the uplink direction, the radio frequency device 82 receives information through the antenna 81, and sends the received information to the baseband device 83 for processing. In the downlink direction, the baseband device 83 processes the information to be sent and sends it to the radio frequency device 82 , and the radio frequency device 82 processes the received information and sends it out through the antenna 81 .
上述频带处理装置可以位于基带装置83中,以上实施例中网络侧设备执行的方法可以在基带装置83中实现,该基带装置83包括处理器84和存储器85。The foregoing frequency band processing device may be located in the baseband device 83 , and the method performed by the network side device in the above embodiments may be implemented in the baseband device 83 , and the baseband device 83 includes a processor 84 and a memory 85 .
基带装置83例如可以包括至少一个基带板,该基带板上设置有多个芯片,如图8所示,其中一个芯片例如为处理器84,与存储器85连接,以调用存储器85中的程序,执行以上方法实施例中所示的网络设备操作。 Baseband device 83 for example can comprise at least one baseband board, and this baseband board is provided with a plurality of chips, as shown in Fig. The network device operations shown in the above method embodiments.
该基带装置83还可以包括网络接口86,用于与射频装置82交互信息,该接口例如为通用公共无线接口(common public radio interface,简称CPRI)。The baseband device 83 may also include a network interface 86 for exchanging information with the radio frequency device 82, such as a common public radio interface (CPRI for short).
具体地,本发明实施例的网络侧设备还包括:存储在存储器85上并可在处理器84上运行的指令或程序,处理器84调用存储器85中的指令或程序执行图5所示各模块执行的方法,并达到相同的技术效果,为避免重复,故不在此赘述。Specifically, the network-side device in the embodiment of the present invention also includes: instructions or programs stored in the memory 85 and operable on the processor 84, and the processor 84 calls the instructions or programs in the memory 85 to execute the modules shown in FIG. 5 To avoid duplication, the method of implementation and to achieve the same technical effect will not be repeated here.
本申请实施例还提供一种可读存储介质,所述可读存储介质上存储有程序或指令,该程序或指令被处理器执行时实现上述终端天线面板信息的传输方法实施例的各个过程,且能达到相同的技术效果,为避免重复,这里不再赘述。The embodiment of the present application also provides a readable storage medium, the readable storage medium stores a program or an instruction, and when the program or instruction is executed by the processor, each process of the above embodiment of the method for transmitting antenna panel information of the terminal is implemented, And can achieve the same technical effect, in order to avoid repetition, no more details here.
其中,所述处理器为上述实施例中所述的终端中的处理器。所述可读存储介质,包括计算机可读存储介质,如计算机只读存储器(Read-Only Memory,ROM)、随机存取存储器(Random Access Memory,RAM)、磁碟或者光盘等。Wherein, the processor is the processor in the terminal described in the foregoing embodiments. The readable storage medium includes computer readable storage medium, such as computer read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disk or optical disk, etc.
本申请实施例另提供了一种芯片,所述芯片包括处理器和通信接口,所述通信接口和所述处理器耦合,所述处理器用于运行程序或指令,实现上述终端天线面板信息的传输方法实施例的各个过程,且能达到相同的技术效果,为避免重复,这里不再赘述。The embodiment of the present application further provides a chip, the chip includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is used to run programs or instructions to realize the transmission of the above terminal antenna panel information Each process of the method embodiment can achieve the same technical effect, and will not be repeated here to avoid repetition.
应理解,本申请实施例提到的芯片还可以称为系统级芯片,系统芯片,芯片系统或片上系统芯片等。It should be understood that the chip mentioned in the embodiment of the present application may also be called a system-on-chip, a system-on-chip, a system-on-a-chip, or a system-on-a-chip.
需要说明的是,在本文中,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者装置不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者装置所固有的要素。在没有更多限制的情况下,由语句“包括一个……”限定的要素,并不排除在包括该要素的过程、方法、物品或者装置中还存在另外的相同要素。此外,需要指出的是,本申请实施方式中的方法和装置的范围不限按示出或讨论的顺序来执行功能,还可包括根据所涉及的功能按基本同时的方式或按相反的顺序来执行功能,例如,可以按不同于所描述的次序来执行所描述的方法,并且还可以添加、省去、 或组合各种步骤。另外,参照某些示例所描述的特征可在其他示例中被组合。It should be noted that, in this document, the term "comprising", "comprising" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article or apparatus comprising a set of elements includes not only those elements, It also includes other elements not expressly listed, or elements inherent in the process, method, article, or device. Without further limitations, an element defined by the phrase "comprising a ..." does not preclude the presence of additional identical elements in the process, method, article, or apparatus comprising that element. In addition, it should be pointed out that the scope of the methods and devices in the embodiments of the present application is not limited to performing functions in the order shown or discussed, and may also include performing functions in a substantially simultaneous manner or in reverse order according to the functions involved. Functions are performed, for example, the described methods may be performed in an order different from that described, and various steps may also be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.
通过以上的实施方式的描述,本领域的技术人员可以清楚地了解到上述实施例方法可借助软件加必需的通用硬件平台的方式来实现,当然也可以通过硬件,但很多情况下前者是更佳的实施方式。基于这样的理解,本申请的技术方案本质上或者说对现有技术做出贡献的部分可以以计算机软件产品的形式体现出来,该计算机软件产品存储在一个存储介质(如ROM/RAM、磁碟、光盘)中,包括若干指令用以使得一台终端(可以是手机,计算机,服务器,或者网络设备等)执行本申请各个实施例所述的方法。Through the description of the above embodiments, those skilled in the art can clearly understand that the methods of the above embodiments can be implemented by means of software plus a necessary general-purpose hardware platform, and of course also by hardware, but in many cases the former is better implementation. Based on such an understanding, the technical solution of the present application can be embodied in the form of computer software products, which are stored in a storage medium (such as ROM/RAM, magnetic disk, etc.) , optical disc), including several instructions to enable a terminal (which may be a mobile phone, computer, server, or network device, etc.) to execute the methods described in various embodiments of the present application.
上面结合附图对本申请的实施例进行了描述,但是本申请并不局限于上述的具体实施方式,上述的具体实施方式仅仅是示意性的,而不是限制性的,本领域的普通技术人员在本申请的启示下,在不脱离本申请宗旨和权利要求所保护的范围情况下,还可做出很多形式,均属于本申请的保护之内。The embodiments of the present application have been described above in conjunction with the accompanying drawings, but the present application is not limited to the above-mentioned specific implementations. The above-mentioned specific implementations are only illustrative and not restrictive. Those of ordinary skill in the art will Under the inspiration of this application, without departing from the purpose of this application and the scope of protection of the claims, many forms can also be made, all of which belong to the protection of this application.
Claims (96)
- 一种终端天线面板信息的传输方法,包括:A method for transmitting terminal antenna panel information, comprising:终端向网络侧设备发送功率管理最大功率降低P-MPR报告;The terminal sends a power management maximum power reduction P-MPR report to the network side device;其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
- 根据权利要求1所述的终端天线面板信息的传输方法,其中,所述P-MPR值在所述P-MPR报告中的位置,与所述第一目标参数在各自对应的报告或指示信息中的位置对应。The method for transmitting terminal antenna panel information according to claim 1, wherein the position of the P-MPR value in the P-MPR report and the first target parameter are in the respective corresponding reports or indication information corresponding to the location.
- 根据权利要求1所述的终端天线面板信息的传输方法,其中,所述P-MPR值的数量通过以下至少一种方式确定:The method for transmitting terminal antenna panel information according to claim 1, wherein the number of P-MPR values is determined by at least one of the following methods:所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的终端天线面板的标识信息的数量确定;The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or channel state information CSI report;所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的波束的标识信息的数量确定;The number of P-MPR values is determined according to the number of beam identification information in the beam report or channel state information CSI report;所述P-MPR值的数量根据PH的数量确定;The quantity of the P-MPR value is determined according to the quantity of PH;所述P-MPR值的数量根据波束报告或CSI报告中的以下至少一项确定:SSBRI的数量、CRI的数量;The number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定。The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
- 根据权利要求3所述的终端天线面板信息的传输方法,其中,在所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定的情况下,所述波束报告或CSI报告的类型包括如下至少之一:The method for transmitting terminal antenna panel information according to claim 3, wherein, when the number of the P-MPR value is determined according to the type of beam report or the type of CSI report, the type of beam report or CSI report Including at least one of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;波束报告或CSI报告中包括多个终端天线面板的标识信息;The beam report or CSI report includes identification information of multiple terminal antenna panels;波束报告或CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the beam report or CSI report;波束报告或CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the beam report or CSI report;波束报告或CSI报告中包括多个波束的标识信息;The beam report or CSI report includes identification information of multiple beams;波束报告或CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the beam report or CSI report;波束报告或CSI报告中不包括波束的标识信息。Beam identification information is not included in the beam report or CSI report.
- 根据权利要求1所述的终端天线面板信息的传输方法,其中,在所述P-MPR报告包括多个P-MPR值的情况下,所述P-MPR值在所述P-MPR报告中的位置通过如下至少一种方式确定:The method for transmitting terminal antenna panel information according to claim 1, wherein, when the P-MPR report includes multiple P-MPR values, the P-MPR value in the P-MPR report The location is determined by at least one of the following:根据各P-MPR值对应的终端天线面板或波束是否发生最大允许辐射量MPE事件,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;根据各P-MPR值的大小,在所述P-MPR报告中依次排列各P-MPR值;Arranging each P-MPR value in sequence in the P-MPR report according to the size of each P-MPR value;终端确定各P-MPR值在所述P-MPR报告中的位置;The terminal determines the position of each P-MPR value in the P-MPR report;根据各P-MPR值对应的PH的排列顺序,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to the sequence of the PH corresponding to each P-MPR value;根据各P-MPR值对应的PH是否为实际PH,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;根据各P-MPR值对应的终端天线面板或波束是否被调度了上行资源,来确定各P-MPR值在所述P-MPR报告中的位置。The position of each P-MPR value in the P-MPR report is determined according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
- 根据权利要求1所述的终端天线面板信息的传输方法,其中,所述终端向网络侧设备发送P-MPR报告,包括:The method for transmitting terminal antenna panel information according to claim 1, wherein the terminal sends a P-MPR report to the network side device, including:在满足预设条件的情况下,所述终端向网络侧设备发送P-MPR报告;When the preset condition is met, the terminal sends a P-MPR report to the network side device;其中,所述预设条件包括以下至少一项:Wherein, the preset conditions include at least one of the following:终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- 根据权利要求1所述的终端天线面板信息的传输方法,其中,在所述 P-MPR值与所述PH具有所述关联的情况下,所述PH满足以下任一项:The method for transmitting terminal antenna panel information according to claim 1, wherein, in the case where the P-MPR value has the association with the PH, the PH satisfies any of the following:所述P-MPR值与所述PH在同一P-MPR报告中;The P-MPR value is in the same P-MPR report as the pH;所述PH所在报告的发送时间与所述P-MPR报告的发送时间最接近;The sending time of the report where the PH is located is closest to the sending time of the P-MPR report;所述PH所在报告与所述P-MPR报告位于相同的物理上行共享信道PUSCH中;The report where the PH is located and the P-MPR report are located in the same physical uplink shared channel PUSCH;所述PH所在报告与所述P-MPR报告位于相同的传输块TB中。The PH report is located in the same transport block TB as the P-MPR report.
- 根据权利要求1至7任一项所述的终端天线面板信息的传输方法,其中,还包括:The method for transmitting terminal antenna panel information according to any one of claims 1 to 7, further comprising:所述终端接收所述网络侧设备发送的第一指示信息;The terminal receives the first indication information sent by the network side device;所述终端根据所述第一指示信息,向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device according to the first indication information;其中,所述第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:至少一个SSBRI以及与所述SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to said SSBRI;至少一个CRI以及与所述CRI对应的L1-RSRP或L1-SINR;at least one CRI and the L1-RSRP or L1-SINR corresponding to said CRI;所述目标信息与以下第二目标参数中的至少一个具有所述关联:The target information has the association with at least one of the following second target parameters:P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,所述目标信息在所述第一波束报告或第一CSI报告中的位置,与所述第二目标参数在各自对应的报告或指示信息中的位置对应。The method for transmitting terminal antenna panel information according to claim 8, wherein, the position of the target information in the first beam report or the first CSI report, and the second target parameter in the corresponding reports or Corresponds to the location in the instruction message.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,所述目标信息的数量通过以下至少一种方式确定:The method for transmitting terminal antenna panel information according to claim 8, wherein the quantity of the target information is determined by at least one of the following methods:所述目标信息的数量根据P-MPR值的数量确定;The quantity of the target information is determined according to the quantity of P-MPR values;所述目标信息的数量根据所述第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量确定;The quantity of the target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;所述目标信息的数量根据所述第一波束报告或第一CSI报告中的波束的标识信息的数量确定;The amount of target information is determined according to the amount of identification information of beams in the first beam report or the first CSI report;所述目标信息的数量根据PH的数量确定;The quantity of the target information is determined according to the quantity of PH;所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定。The quantity of the target information is determined according to the type of the first beam report or the first CSI report.
- 根据权利要求10所述的终端天线面板信息的传输方法,其中,在所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定的情况下,所述第一波束报告或第一CSI报告的类型包括如下至少之一:The method for transmitting terminal antenna panel information according to claim 10, wherein, when the quantity of the target information is determined according to the type of the first beam report or the first CSI report, the first beam report or The type of the first CSI report includes at least one of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;所述第一波束报告或第一CSI报告中包括多个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of multiple terminal antenna panels;所述第一波束报告或第一CSI报告中包括1个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of one terminal antenna panel;所述第一波束报告或第一CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the first beam report or the first CSI report;所述第一波束报告或第一CSI报告中包括多个波束的标识信息;The first beam report or the first CSI report includes identification information of multiple beams;所述第一波束报告或第一CSI报告中包括1个波束的标识信息;The first beam report or the first CSI report includes identification information of one beam;所述第一波束报告或第一CSI报告中不包括波束的标识信息。The first beam report or the first CSI report does not include beam identification information.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,所述第一波束报告或第一CSI报告为以下任一项:The method for transmitting terminal antenna panel information according to claim 8, wherein the first beam report or the first CSI report is any of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;基于预设规则的报告;Reporting based on preset rules;其中,所述预设规则包括:Wherein, the preset rules include:向所述网络侧设备发送多组波束标识信息,每一组波束标识信息指示可同时传输的波束、或对应同一个终端天线面板的标识信息、或对应同一个P-MPR值。Send multiple sets of beam identification information to the network side device, each set of beam identification information indicates beams that can be transmitted simultaneously, or identification information corresponding to the same terminal antenna panel, or corresponding to the same P-MPR value.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,所述第一指示信息为通过MAC CE或DCI将已配置的波束报告的类型更新为所述第一波束报告的类型,或者将已配置的CSI报告的类型,更新为所述第一CSI 报告的类型的指示信息。The method for transmitting terminal antenna panel information according to claim 8, wherein the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or set The configured CSI report type is updated with the indication information of the first CSI report type.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,在所述目标信息与所述P-MPR值具有所述关联的情况下,与一个P-MPR值对应的所述目标信息的数量为一个或多个。The method for transmitting terminal antenna panel information according to claim 8, wherein, in the case where the target information has the association with the P-MPR value, the target information corresponding to a P-MPR value The quantity is one or more.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,在所述目标信息与所述终端天线面板的标识信息或波束的标识信息具有所述关联的情况下,与一个终端天线面板的标识信息或波束的标识信息对应的所述目标信息的数量为一个或多个。The method for transmitting terminal antenna panel information according to claim 8, wherein, in the case that the target information has the association with the identification information of the terminal antenna panel or the identification information of the beam, the information related to a terminal antenna panel The number of the target information corresponding to the identification information or the identification information of the beam is one or more.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,The method for transmitting terminal antenna panel information according to claim 8, wherein,对于处于去激活状态的终端天线面板,在所述第一波束报告或第一CSI报告中与所述处于去激活状态的终端天线面板相对应的目标信息为无效值或者预定值。For the terminal antenna panel in the deactivated state, the target information corresponding to the terminal antenna panel in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,The method for transmitting terminal antenna panel information according to claim 8, wherein,在所述第一波束报告或第一CSI报告中,与处于激活状态的终端天线面板以及处于去激活状态的终端天线面板分别对应的SSBRI或CRI可以相同。In the first beam report or the first CSI report, the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,The method for transmitting terminal antenna panel information according to claim 8, wherein,在所述网络侧设备具有多个发射接收点TRP的情况下,所述第一波束报告或第一CSI报告包括的目标信息为多组;In the case where the network side device has multiple transmitting and receiving points TRP, the target information included in the first beam report or the first CSI report is multiple groups;每组目标信息对应以下至少一项:Each set of target information corresponds to at least one of the following:一个终端天线面板的标识信息;Identification information of a terminal antenna panel;一个波束的标识信息;Identification information of a beam;一个TRP标识信息。A TRP identification information.
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,所述终端根据以下至少一项,确定向所述网络侧设备发送所述第一波束报告或所述第一CSI报告的模式:The method for transmitting antenna panel information of a terminal according to claim 8, wherein the terminal determines a mode of sending the first beam report or the first CSI report to the network side device according to at least one of the following:所述关联;said association;所述P-MPR报告中P-MPR值的数量;the number of P-MPR values in said P-MPR report;PH报告中PH的数量;The number of PH in the PH report;所述模式包括以下任一项:The modes include any of the following:所述SSBRI为所述终端通过1个空域滤波器spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过1个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam, and the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam ;所述SSBRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams, and the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams;所述终端使用基于分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;所述终端使用基于不分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;所述第一波束报告或第一CSI报告携带终端天线面板的标识信息,所述终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;所述第一波束报告或第一CSI报告携带波束的标识信息,所述波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
- 根据权利要求19所述的终端天线面板信息的传输方法,其中,所述模式的切换时间由所述终端发送P-MPR报告或功率余量报告PHR的时间确定。The method for transmitting antenna panel information of a terminal according to claim 19, wherein the switching time of the mode is determined by the time when the terminal sends a P-MPR report or a power headroom report (PHR).
- 根据权利要求8所述的终端天线面板信息的传输方法,其中,所述关联的有效时间包括以下至少一项:The method for transmitting terminal antenna panel information according to claim 8, wherein the associated effective time includes at least one of the following:所述有效时间的起点为如下任一项:满足P-MPR报告发送条件的时刻、满足P-MPR报告发送条件的时刻之后的预设时刻、终端发送P-MPR报告的时刻、终端发送P-MPR报告的时刻之后的预设时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻之后的预设时刻;The starting point of the effective time is any of the following: the time when the P-MPR report sending condition is satisfied, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report, A preset time after the time of the MPR report, a time when the network side device sends the network response information of the P-MPR report, and a preset time after the time when the network side device sends the network response information of the P-MPR report;所述有效时间的终点为如下任一项:网络侧设备发送波束切换命令的时 刻、网络侧设备发送波束切换命令的时刻之后的预设时刻、下一次有效时间的起点、网络侧设备发送第一指示信息的时刻、网络侧设备发送第一指示信息的时刻之后的预设时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻之后的预设时刻、终端发送第一波束报告或第一CSI报告的时刻、终端发送第一波束报告或第一CSI报告的时刻之后的预设时刻。The end of the valid time is any of the following: the time when the network side device sends the beam switching command, the preset time after the time when the network side device sends the beam switching command, the starting point of the next valid time, the first time when the network side device sends the beam switching command The time of the indication information, the preset time after the time when the network side device sends the first indication information, the network side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report type, the network side device updates the type of the beam report to the type of the first beam report or the preset time after the time when the type of the CSI report is updated to the type of the first CSI report, the terminal sends the first beam report or the second A time of a CSI report, a preset time after the time when the terminal sends the first beam report or the first CSI report.
- 根据权利要求21所述的终端天线面板信息的传输方法,其中,在所述有效时间内,所述终端天线面板的激活状态或去激活状态保持不变。The method for transmitting terminal antenna panel information according to claim 21, wherein, within the valid time, the activation state or deactivation state of the terminal antenna panel remains unchanged.
- 根据权利要求17所述的终端天线面板信息的传输方法,其中,所述激活状态包括如下任一项:The method for transmitting terminal antenna panel information according to claim 17, wherein the activation state includes any of the following:多组波束之间可以在预定义的时间段内进行波束切换的状态,其中,每组波束对应一个终端天线面板;The state of beam switching between multiple groups of beams within a predefined time period, where each group of beams corresponds to a terminal antenna panel;至少一个终端天线面板所对应的一组波束能够进行下行信道接收或者参考信号RS接收的状态;A state in which a group of beams corresponding to at least one terminal antenna panel can perform downlink channel reception or reference signal RS reception;至少一个终端天线面板所对应的一组波束能够进行上行信道发送或者参考信号RS发送的状态。A state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
- 一种终端天线面板信息的传输方法,包括:A method for transmitting terminal antenna panel information, comprising:网络侧设备接收终端发送的P-MPR报告;The network side device receives the P-MPR report sent by the terminal;其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;所述关联指对应于同一波束或者同一终端天线面板。The associated means correspond to the same beam or the same terminal antenna panel.
- 根据权利要求24所述的终端天线面板信息的传输方法,其中,所述 P-MPR值在所述P-MPR报告中的位置,与所述第一目标参数在各自对应的报告或指示信息中的位置对应。The method for transmitting terminal antenna panel information according to claim 24, wherein the position of the P-MPR value in the P-MPR report and the first target parameter are in the corresponding reports or indication information corresponding to the position.
- 根据权利要求24所述的终端天线面板信息的传输方法,其中,所述P-MPR值的数量通过以下至少一种方式确定:The method for transmitting terminal antenna panel information according to claim 24, wherein the number of P-MPR values is determined by at least one of the following methods:所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的终端天线面板的标识信息的数量确定;The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or channel state information CSI report;所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的波束的标识信息的数量确定;The number of P-MPR values is determined according to the number of beam identification information in the beam report or channel state information CSI report;所述P-MPR值的数量根据PH的数量确定;The quantity of the P-MPR value is determined according to the quantity of PH;所述P-MPR值的数量根据波束报告或CSI报告中的以下至少一项确定:SSBRI的数量、CRI的数量;The number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定。The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
- 根据权利要求26所述的终端天线面板信息的传输方法,其中,在所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定的情况下,所述波束报告或CSI报告的类型包括如下至少之一:The method for transmitting terminal antenna panel information according to claim 26, wherein, when the number of the P-MPR value is determined according to the type of beam report or the type of CSI report, the type of beam report or CSI report Including at least one of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;波束报告或CSI报告中包括多个终端天线面板的标识信息;The beam report or CSI report includes identification information of multiple terminal antenna panels;波束报告或CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the beam report or CSI report;波束报告或CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the beam report or CSI report;波束报告或CSI报告中包括多个波束的标识信息;The beam report or CSI report includes identification information of multiple beams;波束报告或CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the beam report or CSI report;波束报告或CSI报告中不包括波束的标识信息。Beam identification information is not included in the beam report or CSI report.
- 根据权利要求24所述的终端天线面板信息的传输方法,其中,在所述P-MPR报告包括多个P-MPR值的情况下,所述P-MPR值在所述P-MPR 报告中的位置通过如下至少一种方式确定:The method for transmitting terminal antenna panel information according to claim 24, wherein, when the P-MPR report includes multiple P-MPR values, the P-MPR value in the P-MPR report The location is determined by at least one of the following:根据各P-MPR值对应的终端天线面板或波束是否发生最大允许辐射量MPE事件,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;根据各P-MPR值的大小,在所述P-MPR报告中依次排列各P-MPR值;Arranging each P-MPR value in sequence in the P-MPR report according to the size of each P-MPR value;终端确定各P-MPR值在所述P-MPR报告中的位置;The terminal determines the position of each P-MPR value in the P-MPR report;根据各P-MPR值对应的PH的排列顺序,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to the sequence of the PH corresponding to each P-MPR value;根据各P-MPR值对应的PH是否为实际PH,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;根据各P-MPR值对应的终端天线面板或波束是否被调度了上行资源,来确定各P-MPR值在所述P-MPR报告中的位置。The position of each P-MPR value in the P-MPR report is determined according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
- 根据权利要求24所述的终端天线面板信息的传输方法,其中,所述网络侧设备接收终端发送的P-MPR报告,包括:The method for transmitting terminal antenna panel information according to claim 24, wherein the network side device receiving the P-MPR report sent by the terminal includes:在满足预设条件的情况下,所述网络侧设备接收终端发送的P-MPR报告;If the preset condition is met, the network side device receives the P-MPR report sent by the terminal;其中,所述预设条件包括以下至少一项:Wherein, the preset conditions include at least one of the following:终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈 值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- 根据权利要求24所述的终端天线面板信息的传输方法,其中,在所述P-MPR值与所述PH具有所述关联的情况下,所述PH满足以下任一项:The method for transmitting terminal antenna panel information according to claim 24, wherein, when the P-MPR value has the association with the PH, the PH satisfies any of the following:所述P-MPR值与所述PH在同一P-MPR报告中;The P-MPR value is in the same P-MPR report as the pH;所述PH所在报告的发送时间与所述P-MPR报告的发送时间最接近;The sending time of the report where the PH is located is closest to the sending time of the P-MPR report;所述PH所在报告与所述P-MPR报告位于相同的物理上行共享信道PUSCH中;The report where the PH is located and the P-MPR report are located in the same physical uplink shared channel PUSCH;所述PH所在报告与所述P-MPR报告位于相同的传输块TB中。The PH report is located in the same transport block TB as the P-MPR report.
- 根据权利要求24至30任一项所述的终端天线面板信息的传输方法,其中,还包括:The method for transmitting terminal antenna panel information according to any one of claims 24 to 30, further comprising:所述网络侧设备向所述终端发送第一指示信息;The network side device sends first indication information to the terminal;所述网络侧设备接收所述终端根据所述第一指示信息,向所述网络侧设备发送的第一波束报告或第一CSI报告;The network side device receives the first beam report or the first CSI report sent by the terminal to the network side device according to the first indication information;其中,所述第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:至少一个SSBRI以及与所述SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to said SSBRI;至少一个CRI以及与所述CRI对应的L1-RSRP或L1-SINR;at least one CRI and the L1-RSRP or L1-SINR corresponding to said CRI;所述目标信息与以下第二目标参数中的至少一个具有所述关联:The target information has the association with at least one of the following second target parameters:P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,所述目标信息在所述第一波束报告或第一CSI报告中的位置,与所述第二目标参数在各自对应的报告或指示信息中的位置对应。The method for transmitting antenna panel information of a terminal according to claim 31, wherein, the position of the target information in the first beam report or the first CSI report, and the second target parameter in the corresponding reports or Corresponds to the location in the instruction message.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,所述目标信息的数量通过以下至少一种方式确定:The method for transmitting terminal antenna panel information according to claim 31, wherein the quantity of the target information is determined by at least one of the following methods:所述目标信息的数量根据P-MPR值的数量确定;The quantity of the target information is determined according to the quantity of P-MPR values;所述目标信息的数量根据所述第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量确定;The quantity of the target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;所述目标信息的数量根据所述第一波束报告或第一CSI报告中的波束的标识信息的数量确定;The amount of target information is determined according to the amount of identification information of beams in the first beam report or the first CSI report;所述目标信息的数量根据PH的数量确定;The quantity of the target information is determined according to the quantity of PH;所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定。The quantity of the target information is determined according to the type of the first beam report or the first CSI report.
- 根据权利要求33所述的终端天线面板信息的传输方法,其中,在所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定的情况下,所述第一波束报告或第一CSI报告的类型包括如下至少之一:The method for transmitting terminal antenna panel information according to claim 33, wherein, when the quantity of the target information is determined according to the type of the first beam report or the first CSI report, the first beam report or The type of the first CSI report includes at least one of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;所述第一波束报告或第一CSI报告中包括多个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of multiple terminal antenna panels;所述第一波束报告或第一CSI报告中包括1个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of one terminal antenna panel;所述第一波束报告或第一CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the first beam report or the first CSI report;所述第一波束报告或第一CSI报告中包括多个波束的标识信息;The first beam report or the first CSI report includes identification information of multiple beams;所述第一波束报告或第一CSI报告中包括1个波束的标识信息;The first beam report or the first CSI report includes identification information of one beam;所述第一波束报告或第一CSI报告中不包括波束的标识信息。The first beam report or the first CSI report does not include beam identification information.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,所述第一波束报告或第一CSI报告为以下任一项:The method for transmitting terminal antenna panel information according to claim 31, wherein the first beam report or the first CSI report is any of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;基于预设规则的报告;Reporting based on preset rules;其中,所述预设规则包括:Wherein, the preset rules include:所述网络侧设备接收多组波束标识信息,每一组波束标识信息指示可同时传输的波束、或对应同一个终端天线面板的标识信息、或对应同一个P-MPR值。The network side device receives multiple sets of beam identification information, each set of beam identification information indicates beams that can be transmitted simultaneously, or corresponds to identification information of the same terminal antenna panel, or corresponds to the same P-MPR value.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,所述第一指示信息为通过MAC CE或DCI将已配置的波束报告的类型更新为所述第一波束报告的类型,或者将已配置的CSI报告的类型,更新为所述第一CSI报告的类型的指示信息。The method for transmitting terminal antenna panel information according to claim 31, wherein the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or set The configured CSI report type is updated with the indication information of the first CSI report type.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,在所述目标信息与所述P-MPR值具有所述关联的情况下,与一个P-MPR值对应的所述目标信息的数量为一个或多个。The method for transmitting terminal antenna panel information according to claim 31, wherein, when the target information has the association with the P-MPR value, the target information corresponding to a P-MPR value The quantity is one or more.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,在所述目标信息与所述终端天线面板的标识信息或波束的标识信息具有所述关联的情况下,与一个终端天线面板的标识信息或波束的标识信息对应的所述目标信息的数量为一个或多个。The method for transmitting terminal antenna panel information according to claim 31, wherein, when the target information has the association with the identification information of the terminal antenna panel or the identification information of the beam, the information related to a terminal antenna panel The number of the target information corresponding to the identification information or the identification information of the beam is one or more.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,The method for transmitting terminal antenna panel information according to claim 31, wherein,对于处于去激活状态的终端天线面板,在所述第一波束报告或第一CSI报告中与所述处于去激活状态的终端天线面板相对应的目标信息为无效值或 者预定值。For the terminal antenna panel in the deactivated state, the target information corresponding to the terminal antenna panel in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,The method for transmitting terminal antenna panel information according to claim 31, wherein,在所述第一波束报告或第一CSI报告中,与处于激活状态的终端天线面板以及处于去激活状态的终端天线面板分别对应的SSBRI或CRI可以相同。In the first beam report or the first CSI report, the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,The method for transmitting terminal antenna panel information according to claim 31, wherein,在所述网络侧设备具有多个发射接收点TRP的情况下,所述第一波束报告或第一CSI报告包括的目标信息为多组;In the case where the network side device has multiple transmitting and receiving points TRP, the target information included in the first beam report or the first CSI report is multiple groups;每组目标信息对应以下至少一项:Each set of target information corresponds to at least one of the following:一个终端天线面板的标识信息;Identification information of a terminal antenna panel;一个波束的标识信息;Identification information of a beam;一个TRP标识信息。A TRP identification information.
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,The method for transmitting terminal antenna panel information according to claim 31, wherein,所述网络侧设备根据以下至少一项,确定接收所述第一波束报告或第一CSI报告的模式:The network side device determines a mode for receiving the first beam report or the first CSI report according to at least one of the following:所述关联;said association;所述P-MPR报告中P-MPR值的数量;the number of P-MPR values in said P-MPR report;PH报告中PH的数量;The number of PH in the PH report;所述模式包括以下任一项:The modes include any of the following:所述SSBRI为所述终端通过1个空域滤波器spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过1个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam, and the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam ;所述SSBRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams, and the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams;所述终端使用基于分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;所述终端使用基于不分组的报告来向所述网络侧设备发送第一波束报告 或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device using a non-group based report;所述第一波束报告或第一CSI报告携带终端天线面板的标识信息,所述终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;所述第一波束报告或第一CSI报告携带波束的标识信息,所述波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
- 根据权利要求42所述的终端天线面板信息的传输方法,其中,所述模式的切换时间由所述终端发送P-MPR报告或功率余量报告PHR的时间确定。The method for transmitting antenna panel information of a terminal according to claim 42, wherein the switching time of the mode is determined by the time when the terminal sends a P-MPR report or a power headroom report (PHR).
- 根据权利要求31所述的终端天线面板信息的传输方法,其中,所述关联的有效时间包括以下至少一项:The method for transmitting terminal antenna panel information according to claim 31, wherein the associated effective time includes at least one of the following:所述有效时间的起点为如下任一项:满足P-MPR报告发送条件的时刻、满足P-MPR报告发送条件的时刻之后的预设时刻、终端发送P-MPR报告的时刻、终端发送P-MPR报告的时刻之后的预设时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻之后的预设时刻;The starting point of the effective time is any of the following: the time when the P-MPR report sending condition is satisfied, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report, A preset time after the time of the MPR report, a time when the network side device sends the network response information of the P-MPR report, and a preset time after the time when the network side device sends the network response information of the P-MPR report;所述有效时间的终点为如下任一项:网络侧设备发送波束切换命令的时刻、网络侧设备发送波束切换命令的时刻之后的预设时刻、下一次有效时间的起点、网络侧设备发送第一指示信息的时刻、网络侧设备发送第一指示信息的时刻之后的预设时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻之后的预设时刻、终端发送第一波束报告或第一CSI报告的时刻、终端发送第一波束报告或第一CSI报告的时刻之后的预设时刻。The end of the valid time is any of the following: the time when the network side device sends the beam switching command, the preset time after the time when the network side device sends the beam switching command, the starting point of the next valid time, the first time when the network side device sends the beam switching command The time of the indication information, the preset time after the time when the network side device sends the first indication information, the network side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report type, the network side device updates the type of the beam report to the type of the first beam report or the preset time after the time when the type of the CSI report is updated to the type of the first CSI report, the terminal sends the first beam report or the second A time of a CSI report, a preset time after the time when the terminal sends the first beam report or the first CSI report.
- 根据权利要求44所述的终端天线面板信息的传输方法,其中,在所述有效时间内,所述终端天线面板的激活状态或去激活状态保持不变。The method for transmitting terminal antenna panel information according to claim 44, wherein, within the valid time, the activation state or deactivation state of the terminal antenna panel remains unchanged.
- 根据权利要求40所述的终端天线面板信息的传输方法,其中,所述 激活状态包括如下任一项:The method for transmitting terminal antenna panel information according to claim 40, wherein the activation state includes any of the following:多组波束之间可以在预定义的时间段内进行波束切换的状态,其中,每组波束对应一个终端天线面板;The state of beam switching between multiple groups of beams within a predefined time period, where each group of beams corresponds to a terminal antenna panel;至少一个终端天线面板所对应的一组波束能够进行下行信道接收或者参考信号RS接收的状态;A state in which a group of beams corresponding to at least one terminal antenna panel can perform downlink channel reception or reference signal RS reception;至少一个终端天线面板所对应的一组波束能够进行上行信道发送或者参考信号RS发送的状态。A state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
- 一种终端天线面板信息的传输装置,包括:A device for transmitting terminal antenna panel information, comprising:发送模块,用于向网络侧设备发送P-MPR报告;A sending module, configured to send a P-MPR report to a network side device;其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;所述关联指与所述第一目标参数对应于同一波束或者同一终端天线面板。The association means that the first target parameter corresponds to the same beam or the same terminal antenna panel.
- 根据权利要求47所述的终端天线面板信息的传输装置,其中,所述P-MPR值在所述P-MPR报告中的位置,与所述第一目标参数在各自对应的报告或指示信息中的位置对应。The device for transmitting antenna panel information of a terminal according to claim 47, wherein the position of the P-MPR value in the P-MPR report and the first target parameter are in the corresponding reports or indication information corresponding to the location.
- 根据权利要求47所述的终端天线面板信息的传输装置,其中,所述P-MPR值的数量通过以下至少一种方式确定:The device for transmitting terminal antenna panel information according to claim 47, wherein the number of P-MPR values is determined by at least one of the following methods:所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的终端天线面板的标识信息的数量确定;The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or channel state information CSI report;所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的波束的标识信息的数量确定;The number of P-MPR values is determined according to the number of beam identification information in the beam report or channel state information CSI report;所述P-MPR值的数量根据PH的数量确定;The quantity of the P-MPR value is determined according to the quantity of PH;所述P-MPR值的数量根据波束报告或CSI报告中的以下至少一项确定:SSBRI的数量、CRI的数量;The number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定。The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
- 根据权利要求49所述的终端天线面板信息的传输装置,其中,在所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定的情况下,所述波束报告或CSI报告的类型包括如下至少之一:The device for transmitting antenna panel information of a terminal according to claim 49, wherein, when the number of the P-MPR value is determined according to the type of beam report or the type of CSI report, the type of beam report or CSI report Including at least one of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;波束报告或CSI报告中包括多个终端天线面板的标识信息;The beam report or CSI report includes identification information of multiple terminal antenna panels;波束报告或CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the beam report or CSI report;波束报告或CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the beam report or CSI report;波束报告或CSI报告中包括多个波束的标识信息;The beam report or CSI report includes identification information of multiple beams;波束报告或CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the beam report or CSI report;波束报告或CSI报告中不包括波束的标识信息。Beam identification information is not included in the beam report or CSI report.
- 根据权利要求47所述的终端天线面板信息的传输装置,其中,在所述P-MPR报告包括多个P-MPR值的情况下,所述P-MPR值在所述P-MPR报告中的位置通过如下至少一种方式确定:The device for transmitting antenna panel information of a terminal according to claim 47, wherein, when the P-MPR report includes multiple P-MPR values, the P-MPR value in the P-MPR report The location is determined by at least one of the following:根据各P-MPR值对应的终端天线面板或波束是否发生最大允许辐射量MPE事件,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;根据各P-MPR值的大小,在所述P-MPR报告中依次排列各P-MPR值;Arranging each P-MPR value in sequence in the P-MPR report according to the size of each P-MPR value;终端确定各P-MPR值在所述P-MPR报告中的位置;The terminal determines the position of each P-MPR value in the P-MPR report;根据各P-MPR值对应的PH的排列顺序,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to the sequence of the PH corresponding to each P-MPR value;根据各P-MPR值对应的PH是否为实际PH,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;根据各P-MPR值对应的终端天线面板或波束是否被调度了上行资源,来确定各P-MPR值在所述P-MPR报告中的位置。The position of each P-MPR value in the P-MPR report is determined according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
- 根据权利要求47所述的终端天线面板信息的传输装置,其中,所述发送模块具体用于:The device for transmitting terminal antenna panel information according to claim 47, wherein the sending module is specifically used for:在满足预设条件的情况下,向网络侧设备发送P-MPR报告;Send a P-MPR report to the network side device when the preset conditions are met;其中,所述预设条件包括以下至少一项:Wherein, the preset conditions include at least one of the following:终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- 根据权利要求47所述的终端天线面板信息的传输装置,其中,在所述P-MPR值与所述PH具有所述关联的情况下,所述PH满足以下任一项:The device for transmitting terminal antenna panel information according to claim 47, wherein, when the P-MPR value has the association with the PH, the PH satisfies any of the following:所述P-MPR值与所述PH在同一P-MPR报告中;The P-MPR value is in the same P-MPR report as the pH;所述PH所在报告的发送时间与所述P-MPR报告的发送时间最接近;The sending time of the report where the PH is located is closest to the sending time of the P-MPR report;所述PH所在报告与所述P-MPR报告位于相同的物理上行共享信道PUSCH中;The report where the PH is located and the P-MPR report are located in the same physical uplink shared channel PUSCH;所述PH所在报告与所述P-MPR报告位于相同的传输块TB中。The PH report is located in the same transport block TB as the P-MPR report.
- 根据权利要求47至53任一项所述的终端天线面板信息的传输装置,其中,还包括:The device for transmitting terminal antenna panel information according to any one of claims 47 to 53, further comprising:报告模块,用于接收所述网络侧设备发送的第一指示信息;a reporting module, configured to receive the first indication information sent by the network side device;根据所述第一指示信息,向所述网络侧设备发送第一波束报告或第一CSI报告;Sending a first beam report or a first CSI report to the network side device according to the first indication information;其中,所述第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:至少一个SSBRI以及与所述SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to said SSBRI;至少一个CRI以及与所述CRI对应的L1-RSRP或L1-SINR;at least one CRI and the L1-RSRP or L1-SINR corresponding to said CRI;所述目标信息与以下第二目标参数中的至少一个具有所述关联:The target information has the association with at least one of the following second target parameters:P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,所述目标信息在所述第一波束报告或第一CSI报告中的位置,与所述第二目标参数在各自对应的报告或指示信息中的位置对应。The device for transmitting antenna panel information of a terminal according to claim 54, wherein, the position of the target information in the first beam report or the first CSI report, and the second target parameter in the corresponding reports or Corresponds to the location in the instruction message.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,所述目标信息的数量通过以下至少一种方式确定:The device for transmitting terminal antenna panel information according to claim 54, wherein the quantity of the target information is determined by at least one of the following methods:所述目标信息的数量根据P-MPR值的数量确定;The quantity of the target information is determined according to the quantity of P-MPR values;所述目标信息的数量根据所述第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量确定;The quantity of the target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;所述目标信息的数量根据所述第一波束报告或第一CSI报告中的波束的标识信息的数量确定;The amount of target information is determined according to the amount of identification information of beams in the first beam report or the first CSI report;所述目标信息的数量根据PH的数量确定;The quantity of the target information is determined according to the quantity of PH;所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定。The quantity of the target information is determined according to the type of the first beam report or the first CSI report.
- 根据权利要求56所述的终端天线面板信息的传输装置,其中,在所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定的情况下,所述第一波束报告或第一CSI报告的类型包括如下至少之一:The device for transmitting antenna panel information of a terminal according to claim 56, wherein, when the quantity of the target information is determined according to the type of the first beam report or the first CSI report, the first beam report or The type of the first CSI report includes at least one of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;所述第一波束报告或第一CSI报告中包括多个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of multiple terminal antenna panels;所述第一波束报告或第一CSI报告中包括1个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of one terminal antenna panel;所述第一波束报告或第一CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the first beam report or the first CSI report;所述第一波束报告或第一CSI报告中包括多个波束的标识信息;The first beam report or the first CSI report includes identification information of multiple beams;所述第一波束报告或第一CSI报告中包括1个波束的标识信息;The first beam report or the first CSI report includes identification information of one beam;所述第一波束报告或第一CSI报告中不包括波束的标识信息。The first beam report or the first CSI report does not include beam identification information.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,所述第一波束报告或第一CSI报告为以下任一项:The device for transmitting terminal antenna panel information according to claim 54, wherein the first beam report or the first CSI report is any of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;基于预设规则的报告;Reporting based on preset rules;其中,所述预设规则包括:Wherein, the preset rules include:向所述网络侧设备发送多组波束标识信息,每一组波束标识信息指示可 同时传输的波束、或对应同一个终端天线面板的标识信息、或对应同一个P-MPR值。Send multiple sets of beam identification information to the network side device, each set of beam identification information indicates beams that can be transmitted at the same time, or identification information corresponding to the same terminal antenna panel, or corresponding to the same P-MPR value.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,所述第一指示信息为通过MAC CE或DCI将已配置的波束报告的类型更新为所述第一波束报告的类型,或者将已配置的CSI报告的类型,更新为所述第一CSI报告的类型的指示信息。The device for transmitting antenna panel information of a terminal according to claim 54, wherein the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or set The configured CSI report type is updated with the indication information of the first CSI report type.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,在所述目标信息与所述P-MPR值具有所述关联的情况下,与一个P-MPR值对应的所述目标信息的数量为一个或多个。The device for transmitting terminal antenna panel information according to claim 54, wherein, in the case where the target information has the association with the P-MPR value, the target information corresponding to a P-MPR value The quantity is one or more.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,在所述目标信息与所述终端天线面板的标识信息或波束的标识信息具有所述关联的情况下,与一个终端天线面板的标识信息或波束的标识信息对应的所述目标信息的数量为一个或多个。The device for transmitting terminal antenna panel information according to claim 54, wherein, when the target information has the association with the identification information of the terminal antenna panel or the identification information of the beam, the information related to a terminal antenna panel The number of the target information corresponding to the identification information or the identification information of the beam is one or more.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,The device for transmitting terminal antenna panel information according to claim 54, wherein,对于处于去激活状态的终端天线面板,在所述第一波束报告或第一CSI报告中与所述处于去激活状态的终端天线面板相对应的目标信息为无效值或者预定值。For the terminal antenna panel in the deactivated state, the target information corresponding to the terminal antenna panel in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,The device for transmitting terminal antenna panel information according to claim 54, wherein,在所述第一波束报告或第一CSI报告中,与处于激活状态的终端天线面板以及处于去激活状态的终端天线面板分别对应的SSBRI或CRI可以相同。In the first beam report or the first CSI report, the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,The device for transmitting terminal antenna panel information according to claim 54, wherein,在所述网络侧设备具有多个发射接收点TRP的情况下,所述第一波束报告或第一CSI报告包括的目标信息为多组;In the case where the network side device has multiple transmitting and receiving points TRP, the target information included in the first beam report or the first CSI report is multiple groups;每组目标信息对应以下至少一项:Each set of target information corresponds to at least one of the following:一个终端天线面板的标识信息;Identification information of a terminal antenna panel;一个波束的标识信息;Identification information of a beam;一个TRP标识信息。A TRP identification information.
- 根据权利要求54所述的终端天线面板信息的传输装置,其中,还包括模式确定模块,用于根据以下至少一项,确定向所述网络侧设备发送所述第一波束报告或所述第一CSI报告的模式:The device for transmitting antenna panel information of a terminal according to claim 54, further comprising a mode determining module, configured to determine to send the first beam report or the first beam report to the network side device according to at least one of the following: The schema of the CSI report:所述关联;said association;所述P-MPR报告中P-MPR值的数量;the number of P-MPR values in said P-MPR report;PH报告中PH的数量;The number of PH in the PH report;所述模式包括以下任一项:The modes include any of the following:所述SSBRI为所述终端通过1个空域滤波器spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过1个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam, and the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam ;所述SSBRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams, and the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams;所述终端使用基于分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;所述终端使用基于不分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;所述第一波束报告或第一CSI报告携带终端天线面板的标识信息,所述终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;所述第一波束报告或第一CSI报告携带波束的标识信息,所述波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
- 根据权利要求65所述的终端天线面板信息的传输装置,其中,所述模式的切换时间由所述终端发送P-MPR报告或功率余量报告PHR的时间确定。The device for transmitting antenna panel information of a terminal according to claim 65, wherein the switching time of the mode is determined by the time when the terminal sends a P-MPR report or a power headroom report (PHR).
- 根据权利要求54所述的终端天线面板信息的传输方法,其中,所述关联的有效时间包括以下至少一项:The method for transmitting terminal antenna panel information according to claim 54, wherein the associated effective time includes at least one of the following:所述有效时间的起点为如下任一项:满足P-MPR报告发送条件的时刻、 满足P-MPR报告发送条件的时刻之后的预设时刻、终端发送P-MPR报告的时刻、终端发送P-MPR报告的时刻之后的预设时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻之后的预设时刻;The starting point of the effective time is any of the following: the time when the P-MPR report sending condition is met, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report, A preset time after the time of the MPR report, a time when the network side device sends the network response information of the P-MPR report, and a preset time after the time when the network side device sends the network response information of the P-MPR report;所述有效时间的终点为如下任一项:网络侧设备发送波束切换命令的时刻、网络侧设备发送波束切换命令的时刻之后的预设时刻、下一次有效时间的起点、网络侧设备发送第一指示信息的时刻、网络侧设备发送第一指示信息的时刻之后的预设时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻之后的预设时刻、终端发送第一波束报告或第一CSI报告的时刻、终端发送第一波束报告或第一CSI报告的时刻之后的预设时刻。The end of the valid time is any of the following: the time when the network side device sends the beam switching command, the preset time after the time when the network side device sends the beam switching command, the starting point of the next valid time, the first time when the network side device sends the beam switching command The time of the indication information, the preset time after the time when the network side device sends the first indication information, the network side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report type, the network side device updates the type of the beam report to the type of the first beam report or the preset time after the time when the type of the CSI report is updated to the type of the first CSI report, the terminal sends the first beam report or the second A time of a CSI report, a preset time after the time when the terminal sends the first beam report or the first CSI report.
- 根据权利要求67所述的终端天线面板信息的传输装置,其中,在所述有效时间内,所述终端天线面板的激活状态或去激活状态保持不变。The device for transmitting terminal antenna panel information according to claim 67, wherein, within the valid time, the activation state or deactivation state of the terminal antenna panel remains unchanged.
- 根据权利要求63所述的终端天线面板信息的传输装置,其中,所述激活状态包括如下任一项:The device for transmitting terminal antenna panel information according to claim 63, wherein the activation state includes any of the following:多组波束之间可以在预定义的时间段内进行波束切换的状态,其中,每组波束对应一个终端天线面板;The state of beam switching between multiple groups of beams within a predefined time period, where each group of beams corresponds to a terminal antenna panel;至少一个终端天线面板所对应的一组波束能够进行下行信道接收或者参考信号RS接收的状态;A state in which a group of beams corresponding to at least one terminal antenna panel can perform downlink channel reception or reference signal RS reception;至少一个终端天线面板所对应的一组波束能够进行上行信道发送或者参考信号RS发送的状态。A state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
- 一种终端天线面板信息的传输装置,包括:A device for transmitting terminal antenna panel information, comprising:接收模块,用于接收终端发送的P-MPR报告;a receiving module, configured to receive the P-MPR report sent by the terminal;其中,所述P-MPR报告包括至少一个P-MPR值;Wherein, the P-MPR report includes at least one P-MPR value;所述P-MPR值与以下第一目标参数中的至少一个具有关联:The P-MPR value is associated with at least one of the following first objective parameters:终端天线面板的标识信息、终端天线面板的功率余量PH、波束的标识信息、波束的功率余量PH、同步信号块资源指示符SSBRI、信道状态信息资源指示符CRI、传输配置指示状态TCI state以及空间关系spatial relation;Terminal antenna panel identification information, terminal antenna panel power headroom PH, beam identification information, beam power headroom PH, synchronization signal block resource indicator SSBRI, channel state information resource indicator CRI, transmission configuration indication state TCI state And spatial relation spatial relation;所述关联指与所述第一目标参数对应于同一波束或者同一终端天线面板。The association means that the first target parameter corresponds to the same beam or the same terminal antenna panel.
- 根据权利要求70所述的终端天线面板信息的传输装置,其中,所述P-MPR值在所述P-MPR报告中的位置,与所述第一目标参数在各自对应的报告或指示信息中的位置对应。The device for transmitting antenna panel information of a terminal according to claim 70, wherein the position of the P-MPR value in the P-MPR report and the first target parameter are in the corresponding reports or indication information corresponding to the position.
- 根据权利要求70所述的终端天线面板信息的传输装置,其中,所述P-MPR值的数量通过以下至少一种方式确定:The device for transmitting terminal antenna panel information according to claim 70, wherein the number of P-MPR values is determined by at least one of the following methods:所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的终端天线面板的标识信息的数量确定;The number of P-MPR values is determined according to the number of identification information of the terminal antenna panel in the beam report or channel state information CSI report;所述P-MPR值的数量根据波束报告或信道状态信息CSI报告中的波束的标识信息的数量确定;The number of P-MPR values is determined according to the number of beam identification information in the beam report or channel state information CSI report;所述P-MPR值的数量根据PH的数量确定;The quantity of the P-MPR value is determined according to the quantity of PH;所述P-MPR值的数量根据波束报告或CSI报告中的以下至少一项确定:SSBRI的数量、CRI的数量;The number of P-MPR values is determined according to at least one of the following beam reports or CSI reports: the number of SSBRIs, the number of CRIs;所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定。The number of P-MPR values is determined according to the type of beam report or the type of CSI report.
- 根据权利要求72所述的终端天线面板信息的传输装置,其中,在所述P-MPR值的数量根据波束报告的类型或CSI报告的类型确定的情况下,所述波束报告或CSI报告的类型包括如下至少之一:The device for transmitting antenna panel information of a terminal according to claim 72, wherein, when the number of the P-MPR values is determined according to the type of beam report or the type of CSI report, the type of beam report or CSI report Including at least one of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;波束报告或CSI报告中包括多个终端天线面板的标识信息;The beam report or CSI report includes identification information of multiple terminal antenna panels;波束报告或CSI报告中包括1个终端天线面板的标识信息;The identification information of a terminal antenna panel is included in the beam report or CSI report;波束报告或CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the beam report or CSI report;波束报告或CSI报告中包括多个波束的标识信息;The beam report or CSI report includes identification information of multiple beams;波束报告或CSI报告中包括1个波束的标识信息;The identification information of one beam is included in the beam report or CSI report;波束报告或CSI报告中不包括波束的标识信息。Beam identification information is not included in the beam report or CSI report.
- 根据权利要求70所述的终端天线面板信息的传输装置,其中,在所述P-MPR报告包括多个P-MPR值的情况下,所述P-MPR值在所述P-MPR报告中的位置通过如下至少一种方式确定:The device for transmitting antenna panel information of a terminal according to claim 70, wherein, when the P-MPR report includes multiple P-MPR values, the P-MPR value in the P-MPR report The location is determined by at least one of the following:根据各P-MPR值对应的终端天线面板或波束是否发生最大允许辐射量MPE事件,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the maximum allowable radiation amount MPE event occurs on the terminal antenna panel or beam corresponding to each P-MPR value;根据各P-MPR值的大小,在所述P-MPR报告中依次排列各P-MPR值;Arranging each P-MPR value in sequence in the P-MPR report according to the size of each P-MPR value;终端确定各P-MPR值在所述P-MPR报告中的位置;The terminal determines the position of each P-MPR value in the P-MPR report;根据各P-MPR值对应的PH的排列顺序,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to the sequence of the PH corresponding to each P-MPR value;根据各P-MPR值对应的PH是否为实际PH,来确定各P-MPR值在所述P-MPR报告中的位置;Determine the position of each P-MPR value in the P-MPR report according to whether the PH corresponding to each P-MPR value is the actual PH;根据各P-MPR值对应的终端天线面板或波束是否被调度了上行资源,来确定各P-MPR值在所述P-MPR报告中的位置。The position of each P-MPR value in the P-MPR report is determined according to whether the terminal antenna panel or beam corresponding to each P-MPR value is scheduled with uplink resources.
- 根据权利要求70所述的终端天线面板信息的传输装置,其中,所述接收模块具体用于:The device for transmitting terminal antenna panel information according to claim 70, wherein the receiving module is specifically used for:在满足预设条件的情况下,接收终端发送的P-MPR报告;When the preset condition is met, receive the P-MPR report sent by the terminal;其中,所述预设条件包括以下至少一项:Wherein, the preset conditions include at least one of the following:终端天线面板发生MPE事件;An MPE event occurs on the terminal antenna panel;终端天线面板的等效全向辐射功率大于或等于MPE阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的等效全向辐射功率大于或等于第一阈值;The equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the first threshold;终端天线面板的最大等效全向辐射功率大于或等于MPE阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的最大等效全向辐射功率大于或等于第二阈值;The maximum equivalent isotropic radiated power of the terminal antenna panel is greater than or equal to the second threshold;终端天线面板的发射功率大于或等于MPE阈值;The transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的发射功率大于或等于第三阈值;The transmit power of the terminal antenna panel is greater than or equal to the third threshold;终端天线面板的最大发射功率大于或等于MPE阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the MPE threshold;终端天线面板的最大发射功率大于或等于第四阈值;The maximum transmit power of the terminal antenna panel is greater than or equal to the fourth threshold;终端的射频器件与人体的距离小于或等于距离阈值;The distance between the radio frequency device of the terminal and the human body is less than or equal to the distance threshold;终端激活或开启或添加天线面板;The terminal activates or turns on or adds an antenna panel;当前终端天线面板或终端波束的路损测量值或变化值大于或等于第五阈值;The path loss measurement value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the fifth threshold;当前终端天线面板或终端波束的功率回退值或变化值大于或等于第六阈值;The power backoff value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the sixth threshold;当前终端天线面板或终端波束的P-MPR值或变化值大于或等于第七阈值;The P-MPR value or change value of the current terminal antenna panel or terminal beam is greater than or equal to the seventh threshold;当前终端天线面板或终端波束的链路质量值或变化值小于或等于第八阈值;The link quality value or change value of the current terminal antenna panel or terminal beam is less than or equal to the eighth threshold;当前终端天线面板与第一天线面板的路损测量值的差值,或终端波束与第一波束的路损测量值的差值大于或等于第九阈值;The difference between the path loss measurement value of the current terminal antenna panel and the first antenna panel, or the difference between the path loss measurement value of the terminal beam and the first beam is greater than or equal to the ninth threshold;当前终端天线面板与第一天线面板的功率回退值的差值,或终端波束与第一波束的功率回退值的差值大于或等于第十阈值;The difference between the power backoff value of the current terminal antenna panel and the first antenna panel, or the difference between the power backoff value of the terminal beam and the first beam is greater than or equal to the tenth threshold;当前终端天线面板与第一天线面板的P-MPR值的差值,或终端波束与第一波束的P-MPR值的差值大于或等于第十一阈值;The difference between the P-MPR value of the current terminal antenna panel and the first antenna panel, or the difference between the P-MPR value of the terminal beam and the first beam is greater than or equal to the eleventh threshold;当前终端天线面板与第一天线面板的链路质量值的差值,或终端波束与第一波束的链路质量值的差值小于或等于第十二阈值。The current difference between the link quality values of the terminal antenna panel and the first antenna panel, or the difference between the link quality values of the terminal beam and the first beam is less than or equal to the twelfth threshold.
- 根据权利要求70所述的终端天线面板信息的传输装置,其中,在所述P-MPR值与所述PH具有所述关联的情况下,所述PH满足以下任一项:The device for transmitting terminal antenna panel information according to claim 70, wherein, when the P-MPR value has the association with the PH, the PH satisfies any of the following:所述P-MPR值与所述PH在同一P-MPR报告中;The P-MPR value is in the same P-MPR report as the pH;所述PH所在报告的发送时间与所述P-MPR报告的发送时间最接近;The sending time of the report where the PH is located is closest to the sending time of the P-MPR report;所述PH所在报告与所述P-MPR报告位于相同的物理上行共享信道PUSCH中;The report where the PH is located and the P-MPR report are located in the same physical uplink shared channel PUSCH;所述PH所在报告与所述P-MPR报告位于相同的传输块TB中。The PH report is located in the same transport block TB as the P-MPR report.
- 根据权利要求70至76任一项所述的终端天线面板信息的传输装置,其中,还包括:The device for transmitting terminal antenna panel information according to any one of claims 70 to 76, further comprising:指示模块,用于向所述终端发送第一指示信息;an indication module, configured to send first indication information to the terminal;接收所述终端根据所述第一指示信息,向所述网络侧设备发送的第一波束报告或第一CSI报告;receiving a first beam report or a first CSI report sent by the terminal to the network side device according to the first indication information;其中,所述第一波束报告或第一CSI报告中至少包括如下目标信息之一:Wherein, the first beam report or the first CSI report includes at least one of the following target information:至少一个SSBRI以及与所述SSBRI对应的L1-RSRP或L1-SINR;At least one SSBRI and the L1-RSRP or L1-SINR corresponding to said SSBRI;至少一个CRI以及与所述CRI对应的L1-RSRP或L1-SINR;at least one CRI and the L1-RSRP or L1-SINR corresponding to said CRI;所述目标信息与以下第二目标参数中的至少一个具有所述关联:The target information has the association with at least one of the following second target parameters:P-MPR值、终端天线面板的标识信息、波束的标识信息、终端天线面板的PH、波束的PH、传输配置指示状态以及空间关系。P-MPR value, identification information of terminal antenna panel, identification information of beam, PH of terminal antenna panel, PH of beam, transmission configuration indication status and spatial relationship.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,所述目标信息在所述第一波束报告或第一CSI报告中的位置,与所述第二目标参数在各自对应的报告或指示信息中的位置对应。The device for transmitting antenna panel information of a terminal according to claim 77, wherein, the position of the target information in the first beam report or the first CSI report, and the second target parameter in the corresponding reports or Corresponds to the location in the instruction message.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,所述目标信息的数量通过以下至少一种方式确定:The device for transmitting terminal antenna panel information according to claim 77, wherein the quantity of the target information is determined by at least one of the following methods:所述目标信息的数量根据P-MPR值的数量确定;The quantity of the target information is determined according to the quantity of P-MPR values;所述目标信息的数量根据所述第一波束报告或第一CSI报告中的终端天线面板的标识信息的数量确定;The quantity of the target information is determined according to the quantity of identification information of the terminal antenna panel in the first beam report or the first CSI report;所述目标信息的数量根据所述第一波束报告或第一CSI报告中的波束的标识信息的数量确定;The amount of target information is determined according to the amount of identification information of beams in the first beam report or the first CSI report;所述目标信息的数量根据PH的数量确定;The quantity of the target information is determined according to the quantity of PH;所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定。The quantity of the target information is determined according to the type of the first beam report or the first CSI report.
- 根据权利要求79所述的终端天线面板信息的传输装置,其中,在所述目标信息的数量根据所述第一波束报告或第一CSI报告的类型确定的情况下,所述第一波束报告或第一CSI报告的类型包括如下至少之一:The device for transmitting antenna panel information of a terminal according to claim 79, wherein, when the quantity of the target information is determined according to the type of the first beam report or the first CSI report, the first beam report or The type of the first CSI report includes at least one of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;终端使用多个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses multiple spatial domain filters to receive the report obtained by SSB or CSI-RS;终端使用1个空域滤波器接收SSB或CSI-RS所得的报告;The terminal uses a spatial domain filter to receive the report obtained by SSB or CSI-RS;所述第一波束报告或第一CSI报告中包括多个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of multiple terminal antenna panels;所述第一波束报告或第一CSI报告中包括1个终端天线面板的标识信息;The first beam report or the first CSI report includes identification information of one terminal antenna panel;所述第一波束报告或第一CSI报告中不包括终端天线面板的标识信息;The identification information of the terminal antenna panel is not included in the first beam report or the first CSI report;所述第一波束报告或第一CSI报告中包括多个波束的标识信息;The first beam report or the first CSI report includes identification information of multiple beams;所述第一波束报告或第一CSI报告中包括1个波束的标识信息;The first beam report or the first CSI report includes identification information of one beam;所述第一波束报告或第一CSI报告中不包括波束的标识信息。The first beam report or the first CSI report does not include beam identification information.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,所述第一波束报告或第一CSI报告为以下任一项:The device for transmitting terminal antenna panel information according to claim 77, wherein the first beam report or the first CSI report is any of the following:基于分组的报告;group-based reporting;基于不分组的报告;Based on ungrouped reports;基于预设规则的报告;Reporting based on preset rules;其中,所述预设规则包括:Wherein, the preset rules include:所述网络侧设备接收多组波束标识信息,每一组波束标识信息指示可同时传输的波束、或对应同一个终端天线面板的标识信息、或对应同一个P-MPR值。The network side device receives multiple sets of beam identification information, each set of beam identification information indicates beams that can be transmitted simultaneously, or corresponds to identification information of the same terminal antenna panel, or corresponds to the same P-MPR value.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,所述第一指示信息为通过MAC CE或DCI将已配置的波束报告的类型更新为所述第一波束报告的类型,或者将已配置的CSI报告的类型,更新为所述第一CSI报告的类型的指示信息。The device for transmitting antenna panel information of a terminal according to claim 77, wherein the first indication information is to update the configured beam report type to the first beam report type through MAC CE or DCI, or set The configured CSI report type is updated with the indication information of the first CSI report type.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,在所述目标信息与所述P-MPR值具有所述关联的情况下,与一个P-MPR值对应的所述目标信息的数量为一个或多个。The device for transmitting terminal antenna panel information according to claim 77, wherein, in the case where the target information has the association with the P-MPR value, the target information corresponding to a P-MPR value The quantity is one or more.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,在所述目标信息与所述终端天线面板的标识信息或波束的标识信息具有所述关联 的情况下,与一个终端天线面板的标识信息或波束的标识信息对应的所述目标信息的数量为一个或多个。The device for transmitting terminal antenna panel information according to claim 77, wherein, in the case where the target information has the association with the identification information of the terminal antenna panel or the identification information of the beam, the information related to a terminal antenna panel The number of the target information corresponding to the identification information or the identification information of the beam is one or more.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,The device for transmitting terminal antenna panel information according to claim 77, wherein,对于处于去激活状态的终端天线面板,在所述第一波束报告或第一CSI报告中与所述处于去激活状态的终端天线面板相对应的目标信息为无效值或者预定值。For the terminal antenna panel in the deactivated state, the target information corresponding to the terminal antenna panel in the deactivated state in the first beam report or the first CSI report is an invalid value or a predetermined value.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,The device for transmitting terminal antenna panel information according to claim 77, wherein,在所述第一波束报告或第一CSI报告中,与处于激活状态的终端天线面板以及处于去激活状态的终端天线面板分别对应的SSBRI或CRI可以相同。In the first beam report or the first CSI report, the SSBRI or CRI respectively corresponding to the terminal antenna panel in the activated state and the terminal antenna panel in the deactivated state may be the same.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,The device for transmitting terminal antenna panel information according to claim 77, wherein,在所述网络侧设备具有多个发射接收点TRP的情况下,所述第一波束报告或第一CSI报告包括的目标信息为多组;In the case where the network side device has multiple transmitting and receiving points TRP, the target information included in the first beam report or the first CSI report is multiple groups;每组目标信息对应以下至少一项:Each set of target information corresponds to at least one of the following:一个终端天线面板的标识信息;Identification information of a terminal antenna panel;一个波束的标识信息;Identification information of a beam;一个TRP标识信息。A TRP identification information.
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,还包括模式确定模块,用于根据以下至少一项,确定接收所述第一波束报告或第一CSI报告的模式:The device for transmitting antenna panel information of a terminal according to claim 77, further comprising a mode determination module, configured to determine a mode for receiving the first beam report or the first CSI report according to at least one of the following:所述关联;said association;所述P-MPR报告中P-MPR值的数量;the number of P-MPR values in said P-MPR report;PH报告中PH的数量;The number of PH in the PH report;所述模式包括以下任一项:The modes include any of the following:所述SSBRI为所述终端通过1个空域滤波器spatial domain filter或终端天线面板或波束接收SSB所得,所述CRI为所述终端通过1个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through a spatial domain filter or terminal antenna panel or beam, and the CRI is obtained by the terminal receiving CSI-RS through a spatial domain filter or terminal antenna panel or beam ;所述SSBRI为所述终端通过多个spatial domain filter或终端天线面板或 波束接收SSB所得,所述CRI为所述终端通过多个spatial domain filter或终端天线面板或波束接收CSI-RS所得;The SSBRI is obtained by the terminal receiving SSB through multiple spatial domain filters or terminal antenna panels or beams, and the CRI is obtained by the terminal receiving CSI-RS through multiple spatial domain filters or terminal antenna panels or beams;所述终端使用基于分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using a packet-based report;所述终端使用基于不分组的报告来向所述网络侧设备发送第一波束报告或第一CSI报告;The terminal sends a first beam report or a first CSI report to the network side device by using an ungrouped report;所述第一波束报告或第一CSI报告携带终端天线面板的标识信息,所述终端天线面板的标识信息的数量为1个或多个;The first beam report or the first CSI report carries identification information of the terminal antenna panel, and the number of identification information of the terminal antenna panel is one or more;所述第一波束报告或第一CSI报告携带波束的标识信息,所述波束的标识信息的数量为1个或多个。The first beam report or the first CSI report carries identification information of beams, and the number of identification information of beams is one or more.
- 根据权利要求88所述的终端天线面板信息的传输装置,其中,所述模式的切换时间由所述终端发送P-MPR报告或功率余量报告PHR的时间确定。The device for transmitting antenna panel information of a terminal according to claim 88, wherein the switching time of the mode is determined by the time when the terminal sends a P-MPR report or a power headroom report (PHR).
- 根据权利要求77所述的终端天线面板信息的传输装置,其中,所述关联的有效时间包括以下至少一项:The device for transmitting terminal antenna panel information according to claim 77, wherein the associated valid time includes at least one of the following:所述有效时间的起点为如下任一项:满足P-MPR报告发送条件的时刻、满足P-MPR报告发送条件的时刻之后的预设时刻、终端发送P-MPR报告的时刻、终端发送P-MPR报告的时刻之后的预设时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻、网络侧设备发送P-MPR报告的网络响应信息的时刻之后的预设时刻;The starting point of the effective time is any of the following: the time when the P-MPR report sending condition is satisfied, the preset time after the time when the P-MPR report sending condition is met, the time when the terminal sends the P-MPR report, the time when the terminal sends the P-MPR report, A preset time after the time of the MPR report, a time when the network side device sends the network response information of the P-MPR report, and a preset time after the time when the network side device sends the network response information of the P-MPR report;所述有效时间的终点为如下任一项:网络侧设备发送波束切换命令的时刻、网络侧设备发送波束切换命令的时刻之后的预设时刻、下一次有效时间的起点、网络侧设备发送第一指示信息的时刻、网络侧设备发送第一指示信息的时刻之后的预设时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻、网络侧设备将波束报告的类型更新为第一波束报告的类型或将CSI报告的类型更新为第一CSI报告的类型的时刻之后的预设时刻、终端发送第一波束报告或第一 CSI报告的时刻、终端发送第一波束报告或第一CSI报告的时刻之后的预设时刻。The end of the valid time is any of the following: the time when the network side device sends the beam switching command, the preset time after the time when the network side device sends the beam switching command, the starting point of the next valid time, the first time when the network side device sends the beam switching command The time of the indication information, the preset time after the time when the network side device sends the first indication information, the network side device updates the type of the beam report to the type of the first beam report or updates the type of the CSI report to the type of the first CSI report type, the network side device updates the type of the beam report to the type of the first beam report or the preset time after the time when the type of the CSI report is updated to the type of the first CSI report, the terminal sends the first beam report or the second A time of a CSI report, a preset time after the time when the terminal sends the first beam report or the first CSI report.
- 根据权利要求90所述的终端天线面板信息的传输装置,其中,在所述有效时间内,所述终端天线面板的激活状态或去激活状态保持不变。The device for transmitting terminal antenna panel information according to claim 90, wherein, within the valid time, the activation state or deactivation state of the terminal antenna panel remains unchanged.
- 根据权利要求86所述的终端天线面板信息的传输装置,其中,所述激活状态包括如下任一项:The device for transmitting terminal antenna panel information according to claim 86, wherein the activation state includes any of the following:多组波束之间可以在预定义的时间段内进行波束切换的状态,其中,每组波束对应一个终端天线面板;The state of beam switching between multiple groups of beams within a predefined time period, where each group of beams corresponds to a terminal antenna panel;至少一个终端天线面板所对应的一组波束能够进行下行信道接收或者参考信号RS接收的状态;A state in which a group of beams corresponding to at least one terminal antenna panel can perform downlink channel reception or reference signal RS reception;至少一个终端天线面板所对应的一组波束能够进行上行信道发送或者参考信号RS发送的状态。A state in which a group of beams corresponding to at least one terminal antenna panel can perform uplink channel transmission or reference signal RS transmission.
- 一种终端,包括处理器,存储器及存储在所述存储器上并可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如权利要求1至23任一项所述的终端天线面板信息的传输方法的步骤。A terminal, comprising a processor, a memory, and a program or instruction stored in the memory and operable on the processor, when the program or instruction is executed by the processor, any of claims 1 to 23 can be realized. Steps in one item of the method for transmitting terminal antenna panel information.
- 一种网络侧设备,包括处理器,存储器及存储在所述存储器上并可在所述处理器上运行的程序或指令,所述程序或指令被所述处理器执行时实现如权利要求24至46任一项所述的终端天线面板信息的传输方法的步骤。A network side device, comprising a processor, a memory, and a program or instruction stored on the memory and operable on the processor, when the program or instruction is executed by the processor, it realizes the requirements of claims 24 to 24. Steps in the method for transmitting terminal antenna panel information described in any one of 46.
- 一种可读存储介质,所述可读存储介质上存储程序或指令,所述程序或指令被处理器执行时实现如权利要求1至23任一项所述的终端天线面板信息的传输方法的步骤,或者实现如权利要求24至46任一项所述的终端天线面板信息的传输方法的步骤。A readable storage medium, on which a program or instruction is stored, and when the program or instruction is executed by a processor, the method for transmitting terminal antenna panel information according to any one of claims 1 to 23 is implemented steps, or the steps for realizing the method for transmitting terminal antenna panel information according to any one of claims 24 to 46.
- 一种芯片,包括处理器和通信接口,所述通信接口和所述处理器耦合,所述处理器用于运行程序或指令,实现如权利要求1至23任一项所述的终端天线面板信息的传输方法的步骤,或者实现如权利要求24至46任一项所述的终端天线面板信息的传输方法的步骤。A chip, including a processor and a communication interface, the communication interface is coupled to the processor, and the processor is used to run programs or instructions to realize the terminal antenna panel information according to any one of claims 1 to 23 The steps of the transmission method, or the steps of the method for transmitting the antenna panel information of the terminal according to any one of claims 24 to 46.
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