WO2018161351A1 - Method and apparatus for user equipment and base station used for wireless communication - Google Patents

Method and apparatus for user equipment and base station used for wireless communication Download PDF

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Publication number
WO2018161351A1
WO2018161351A1 PCT/CN2017/076318 CN2017076318W WO2018161351A1 WO 2018161351 A1 WO2018161351 A1 WO 2018161351A1 CN 2017076318 W CN2017076318 W CN 2017076318W WO 2018161351 A1 WO2018161351 A1 WO 2018161351A1
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Prior art keywords
air interface
resource
information
resources
wireless signal
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PCT/CN2017/076318
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French (fr)
Chinese (zh)
Inventor
张晓博
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南通朗恒通信技术有限公司
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Application filed by 南通朗恒通信技术有限公司 filed Critical 南通朗恒通信技术有限公司
Priority to PCT/CN2017/076318 priority Critical patent/WO2018161351A1/en
Priority to CN201780069294.5A priority patent/CN109937586B/en
Publication of WO2018161351A1 publication Critical patent/WO2018161351A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W28/00Network traffic management; Network resource management
    • H04W28/02Traffic management, e.g. flow control or congestion control

Definitions

  • the present invention relates to transmission schemes in wireless communication systems, and more particularly to methods and apparatus in wireless communication that simultaneously support multiple services.
  • GSM EDGE Radio Access Network GSM and EDGE Radio Access Network
  • GSM Global System for Mobile Communication
  • EDGE Enhanced Data Rate for GSM Evolution
  • UTRA-FDD UMTS Terrestrial Radio Access-Frequency Domain Duplex
  • UMTS corresponds to Universal Mobile Telecommunication System
  • -EUTRA Evolutionary UMTS Terrestrial Radio Access
  • WLAN and EUTRA are evolving, and NR for 5G systems is also discussed in 3GPP (3rd Generation Partnership Project).
  • the inventor discovered through research that after introducing the concept of network slicing, a simple implementation method is that one network slice corresponds to one type of service, and one type of service corresponds to one type of RAT.
  • the network architecture based on this design method will lead to inflexibility of network design, reducing network scalability and Forward Compatibility.
  • a more flexible design approach is where multiple network slices coexist under the same RAT.
  • QoS Quality of Service
  • delay requirements for services corresponding to multiple network slices resource allocation based on dynamic scheduling cannot meet multiple QoS and delay requirements.
  • the present invention provides a solution. It should be noted that, in the case of no conflict, the features in the embodiments and the embodiments of the present application may be combined with each other arbitrarily. For example, features in embodiments and embodiments in the UE of the present application may be applied to a base station, and vice versa.
  • the invention discloses a method in a UE used for wireless communication, which comprises the following steps:
  • Step B operating the first wireless signal on the first air interface resource.
  • the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services.
  • the air interface resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource is one of the K air interface resources.
  • the K air interface resources correspond to the same radio access technology.
  • the K is a positive integer.
  • the operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access.
  • an advantage of the foregoing method is: when the K service groups are sliced for K networks, the multiple network slices share the same radio access technology, and are processed under the same scheduling of the network, so that Network design and network architecture are more flexible.
  • another advantage of the foregoing method is that, for different service groups, the network allocates different air interface resources to meet QoS and delay requirements of different service groups.
  • the QoS of the service is independently configured.
  • the first information further includes K unique identifiers, and the K unique identifiers are in one-to-one correspondence with the K service groups, and the identifiers are integers.
  • the K service groups are transmitted under the same wireless access technology.
  • the radio access technology is a RAT (Radio Access Technology).
  • the RAT is one of ⁇ GERAN, UTRA-FDD, UTRA-TDD, CDMA2000, WLAN, EUTRA, NR ⁇ .
  • the given RAT corresponds to an independent synchronization signal.
  • the given RAT corresponds to independent broadcast information.
  • the given RAT corresponds to a separate MIB.
  • the given RAT corresponds to an independent SIB (System Information Block).
  • SIB System Information Block
  • the K service groups include at least a first service group and a second service group, and the first service group includes ⁇ URLLC (Ultra-Reliable and Low Latency Communications). At least one of the corresponding service, the service corresponding to the Short Transmission Time Interval (STTI), and the second service group includes the service corresponding to the eMBB (enhanced Mobi le Broadband) .
  • STTI Short Transmission Time Interval
  • eMBB enhanced Mobi le Broadband
  • the above method is characterized by further comprising the steps of:
  • Step C Send a second wireless signal on the first air interface uplink resource.
  • the operation is reception.
  • the first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups.
  • the air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource and the first air interface uplink resource are reserved for the same service group.
  • the first air interface uplink resource is one of the K air interface uplink resources.
  • the foregoing method is characterized in that, for different first air interface resources, the network allocates the first air interface uplink resource to ensure different QoS (Quality of Service) and delay requirements. .
  • QoS Quality of Service
  • the second wireless channel is a PRACH (Physical Random Access Channel) for the first wireless signal.
  • PRACH Physical Random Access Channel
  • the K air interface uplink resources are in one-to-one correspondence with the K service groups.
  • the correspondence between the K air interface uplink resources and the K service groups is fixed or configurable.
  • the first air interface resource uniquely determines the first air interface uplink resource.
  • the method is characterized in that the step A further comprises the following steps:
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the UE Determine whether to access the serving cell.
  • the foregoing method is characterized in that: the network side device configures access criteria for different service groups by using the second information. Determining, by the UE, the third information according to the second information, and determining whether to access.
  • the first service group is the service group that is uniquely corresponding to the first air interface resource in the K service groups.
  • the second information is associated with the first service group.
  • the third information is associated with the first service group.
  • the second information is common to the cell.
  • the third information is UE specific.
  • the second information includes an AC (Access Class) barring parameter in the TS 36.331, where the determining the third information refers to an Access Barring parameter randomly generated by the UE.
  • AC Access Class
  • the first parameter is an ac-BarringFactor parameter in TS 36.331
  • the second parameter is a random number rand generated by the UE.
  • the rand is evenly distributed between 0 and 1.
  • the rand is not less than 0 and less than 1.
  • the second parameter is smaller than the first parameter, The access of the UE is not prohibited.
  • the second parameter is not less than the first parameter, and access of the UE is prohibited.
  • the second information includes an eab-BarringBitmap in TS 36.331.
  • the second information further includes eab_Common in TS 36.331, or the second information further includes eab_Config in TS 36.331.
  • the category of the UE belongs to the category indicated by the eab_Category in the given indication signaling
  • the second parameter is the UE stored in the USIM of the UE.
  • the target AC, the first parameter is the eab-BarringBitmap in TS 36.331.
  • the given indication signaling is eab_Common, or the given indication signaling is eab_Config.
  • the second parameter is an integer not less than 0 and not greater than 9
  • the first parameter includes 10 bits
  • the first bit of the first parameter (the leftmost one) Bit) corresponds to the second parameter being equal to 0
  • the second bit of the first parameter corresponds to the second parameter being equal to 1, and so on.
  • the target parameter corresponding to the second parameter in the first parameter is used by the UE to determine whether to access the serving cell.
  • the target bit is equal to 1, and the UE is prohibited from accessing.
  • the target bit is not equal to 1, and the UE is not prohibited from being accessed by EAB (Extended Access Barring).
  • the second information includes an ACDC (Application Specific Congestion Control for Data Communication) barring parameter in the TS 36.331, where the determining the third information means that the UE is randomly generated. Access Barring parameters.
  • ACDC Application Specific Congestion Control for Data Communication
  • the first parameter is an ac-BarringFactor parameter in the ACDC barring parameter
  • the second parameter is a random number rand generated by the UE.
  • the rand is evenly divided between 0 and 1. Cloth.
  • the rand is not less than 0 and less than 1.
  • the second parameter is smaller than the first parameter, and access of the UE is not prohibited.
  • the second parameter is not less than the first parameter, and access of the UE is prohibited.
  • the method is characterized in that the service group corresponds to one network slice.
  • the network slice is a logical network
  • the logical network includes an access network and a core network.
  • the network slice corresponds to Network Slicing.
  • the network slice uniquely identifies a network slice identifier.
  • the second information is related to the network slice identifier.
  • the first air interface resource corresponds to the first service group
  • the first service group corresponds to a given network slice
  • the given network slice uniquely corresponds to the second information
  • a plurality of the network slices share one of the second information.
  • a plurality of the network slices correspond to a RAT.
  • the service group corresponds to a QoS.
  • the K service groups respectively correspond to K network slices.
  • the K network slices respectively correspond to K priority identifiers.
  • the priority identifier is an integer not less than 0.
  • the priority identifier is related to the QoS of the corresponding service group.
  • the priority identifier is related to a delay requirement of the corresponding service group.
  • the K priority identifiers are configured by a core network.
  • the K priority identifiers are fixed.
  • the greater the priority identifier the higher the priority of the corresponding service group.
  • the method is characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • At least two of the K service groups correspond to different transmission efficiencies.
  • At least a third service group and a fourth service group exist in the K service groups, and the third service group and the fourth service group both need to transmit information of M bits.
  • the first wireless signal occupies M1 bits of air interface resources when transmitting the information of the M bits corresponding to the third service group, where the first wireless signal is in the transmission corresponding to the fourth service group
  • the M bits of information occupy the M2 bits of air interface resources.
  • the M, the M1 and the M2 are both positive integers, and the M1 is not equal to the M2.
  • the cost of the air interface resource occupied by the two service groups in transmitting the same information bit in the first wireless signal is different. of.
  • the method is characterized in that the first information further includes a first security key, and the first security key is used for at least ⁇ data encryption, integrity protection ⁇ one.
  • the first security key is configured by a higher layer.
  • the first security key is a K eNB in TS 36.323.
  • the data encryption is used in the processing of SRB (Signaling Radio Bearer) of the Packet Data Convergence Protocol (PDCP).
  • SRB Sendaling Radio Bearer
  • PDCP Packet Data Convergence Protocol
  • the data encryption is used in the processing of a DRB (Data Radio Bearer) of the PDCP layer.
  • DRB Data Radio Bearer
  • the integrity protection is used in the processing of the SRB of the PDCP layer.
  • the data is encrypted for the UE.
  • the integrity protection is for the UE.
  • a second security key is used for the data encryption, the second security key being obtained by the first security key.
  • the second security key is K RRCenc in TS 36.323.
  • the second security key is K UPenc in TS 36.323.
  • a third security key is used for the integrity protection, the third security key being obtained by the first security key.
  • the third security key is K RRCint in TS 36.323.
  • the invention discloses a method in a base station used for wireless communication, which comprises the following steps:
  • Step B Performing a first wireless signal on the first air interface resource.
  • the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services.
  • the air interface resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource is one of the K air interface resources.
  • the K air interface resources correspond to the same radio access technology.
  • the K is a positive integer.
  • the execution is to send and the first wireless signal is used for paging, or the execution is to receive and the first wireless signal is used for random access.
  • the above method is characterized by further comprising the steps of:
  • Step C Receive a second wireless signal on the first air interface uplink resource.
  • the execution is a transmission.
  • the first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups.
  • the air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource and the first air interface uplink resource are reserved for the same service group.
  • the first air interface uplink resource is one of the K air interface uplink resources.
  • the method is characterized in that the step A further comprises the following steps:
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the first node to determine whether Access to the service cell.
  • the first node is a recipient of the first information.
  • the first information is received by a plurality of terminals, and the first node is one of the terminals.
  • the third information is generated by the first node.
  • the first node is a recipient of the first information.
  • the first node generates the third information by using the second information.
  • the first node is a UE.
  • the method is characterized in that: the network side configures access criteria for different service groups by using the second information. Determining, by the UE, the third information according to the second information, and determining whether to access.
  • the first service group is the service group that is uniquely corresponding to the first air interface resource in the K service groups.
  • the second information is associated with the first service group.
  • the third information is associated with the first service group.
  • the second information is common to the cell.
  • the third information is UE specific.
  • the second information includes an AC (Access Class) barring parameter
  • the determining third information refers to an Access Barring parameter randomly generated by the first node.
  • the first parameter is an ac-BarringFactor parameter
  • the second parameter is a random number rand generated by the first node
  • the rand is evenly distributed between 0 and 1.
  • the rand is not less than 0 and less than 1.
  • the second parameter is smaller than the first parameter, and access of the first node is not prohibited.
  • the second parameter is not less than the first parameter.
  • the access of the first node is prohibited.
  • the second information includes an eab-BarringBitmap.
  • the second information further includes eab_Common, or the second information further includes eab_Config.
  • the category of the first node belongs to a category indicated by eab_Category in a given indication signaling, and the second parameter is stored in a USIM of the first node.
  • the target AC of the first node, the first parameter is eab-BarringBitmap.
  • the given indication signaling is eab_Common, or the given indication signaling is eab_Config.
  • the second parameter is an integer not less than 0 and not greater than 9
  • the first parameter includes 10 bits
  • the first bit of the first parameter (the leftmost one) Bit) corresponds to the second parameter being equal to 0
  • the second bit of the first parameter corresponds to the second parameter being equal to 1, and so on.
  • the target parameter corresponding to the second parameter in the first parameter is used by the first node to determine whether to access the serving cell.
  • the target bit is equal to 1, and the first node is prohibited from accessing.
  • the target bit is not equal to 1, and the first node is not prohibited from being accessed by EAB (Extended Access Barring).
  • the second information includes an application specific congestion control (DataDC) application barring parameter
  • the determining third information refers to a prohibition randomly generated by the first node.
  • Access (Access Barring) parameters are included in the second information.
  • the first parameter is an ac-BarringFactor parameter in the ACDC barring parameter
  • the second parameter is a random number rand generated by the first node
  • the rand is evenly distributed between 0 and 1.
  • the rand is not less than 0 and less than 1.
  • the second parameter is smaller than the first parameter, and access of the first node is not prohibited.
  • the second parameter is not less than the first parameter, and access of the first node is prohibited.
  • the method is characterized in that the service group corresponds to one network slice.
  • the method is characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the method is characterized in that the first information further includes a first security key, and the first security key is used for at least ⁇ data encryption, integrity protection ⁇ one.
  • the invention discloses a user equipment used for wireless communication, which comprises the following modules:
  • a first receiving module for receiving the first information
  • a first processing module for operating the first wireless signal on the first air interface resource.
  • the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services.
  • the air interface resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource is one of the K air interface resources.
  • the K air interface resources correspond to the same radio access technology.
  • the K is a positive integer.
  • the operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access.
  • the user equipment used for wireless communication described above is characterized in that it further includes the following modules:
  • a first sending module transmitting a second wireless signal on the first air interface uplink resource.
  • the operation is reception.
  • the first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups.
  • the air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource and the first air interface uplink resource are reserved for the same service group.
  • the first air interface uplink resource is one of the K air interface uplink resources.
  • the foregoing user equipment used for wireless communication is characterized in that the first receiving module is further configured to receive second information, and the first receiving module is further configured to determine third information.
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the UE to determine whether Access to the service cell.
  • the foregoing user equipment used for wireless communication is characterized in that the service group corresponds to one network slice.
  • the foregoing user equipment used for wireless communication is characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the user equipment used for wireless communication is characterized in that the first information further includes a first security key, and the first security key is used in ⁇ data encryption, integrity protection ⁇ At least one of them.
  • the invention discloses a base station device used for wireless communication, which comprises the following modules:
  • a second sending module configured to send the first information
  • a second processing module configured to perform the first wireless signal on the first air interface resource.
  • the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services.
  • the air interface resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource is one of the K air interface resources.
  • the K air interface resources correspond to the same radio access technology.
  • the K is a positive integer.
  • the execution is to send and the first wireless signal is used for paging, or the execution is to receive and the first wireless signal is used for random access.
  • the base station device used for wireless communication described above is characterized in that it further includes the following modules:
  • a second receiving module receiving the second wireless signal on the first air interface uplink resource.
  • the operation is reception.
  • the first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups.
  • the air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes ⁇ time domain resource, frequency domain resource, At least one of the code domain resources ⁇ .
  • the first air interface resource and the first air interface uplink resource are reserved for the same service group.
  • the first air interface uplink resource is one of the K air interface uplink resources.
  • the base station device used for wireless communication is characterized in that the second sending module is further configured to send the second information.
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the first node to determine whether to access Service area.
  • the first node is a recipient of the first information.
  • the third information is generated by the first node.
  • the first node generates the third information by using the second information.
  • the first node is a user equipment.
  • the above-mentioned base station device used for wireless communication is characterized in that the service group corresponds to one network slice.
  • the base station device used for wireless communication is characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the base station device used for wireless communication is characterized in that the first information further includes a first security key, and the first security key is used in ⁇ data encryption, integrity protection ⁇ At least one of them.
  • the present invention has the following technical advantages over the prior art:
  • the K air interface resources are in one-to-one correspondence with the K service groups.
  • the K service groups are sliced for K networks, the K network slices share the same radio access technology and are processed under the same scheduling of the network, so that the network design and the network architecture are more flexible.
  • the network allocates different air interface resources to ensure QoS and delay requirements of different service groups.
  • Figure 1 shows a flow chart of a first information transmission in accordance with one embodiment of the present invention
  • FIG. 2 shows a flow chart of a first information transmission in accordance with another embodiment of the present invention
  • FIG. 3 shows a schematic diagram of air interface resources in accordance with one embodiment of the present invention
  • FIG. 4 shows a schematic diagram of a network slice in accordance with one embodiment of the present invention.
  • FIG. 5 is a block diagram showing the structure of a processing device in a UE according to an embodiment of the present invention.
  • Figure 6 is a block diagram showing the structure of a processing device in a base station according to an embodiment of the present invention.
  • Embodiment 1 illustrates a flow chart of a first information transmission in accordance with the present invention, as shown in FIG.
  • a base station N1 is a maintenance base station of a serving cell of UE U2.
  • the second information is sent in step S10, the first information is sent in step S11, the first wireless signal is sent on the first air interface resource in step S12, and the first air interface uplink resource is received in step S13.
  • Second wireless signal is sent.
  • the second information is received in step S20, the third information is determined in step S21, the first information is received in step 22, and the first wireless signal is received on the first air interface resource in step S23, in step S24.
  • the second wireless signal is sent on the first air interface uplink resource.
  • the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services.
  • the air interface resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource is one of the K air interface resources.
  • the K air interface resources correspond to the same radio access technology.
  • the K is a positive integer.
  • the first wireless signal is used for paging.
  • the first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups.
  • the air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes ⁇ time domain resource, frequency domain resource, and code domain resource. At least one of them.
  • the first air interface resource and the first air interface uplink resource are reserved for the same service group.
  • the first air interface uplink resource is one of the K air interface uplink resources.
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the UE U2 to determine Whether to access the service cell.
  • the service group corresponds to a network slice.
  • the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the first information further includes a first security key, and the first security key is used for at least one of ⁇ data encryption, integrity protection ⁇ .
  • the physical layer channel corresponding to the first information is a PDSCH.
  • the transport channel corresponding to the first information is a DL-SCH.
  • the first information is transmitted by using RRC (Radio Resource Control) signaling.
  • RRC Radio Resource Control
  • the RRC signaling is non-UE-specific.
  • the RRC signaling is Cell-Specific.
  • the RRC signaling is TRP-specific (TRP-Specific).
  • the logical channel corresponding to the first wireless signal is a PCCH (Paging Control Channel).
  • the service group corresponds to one network slice.
  • the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the first information further includes a first security key, and the first security key is used for at least one of ⁇ data encryption, integrity protection ⁇ .
  • Embodiment 2 illustrates a flow chart of another first information transmission according to the present invention, as shown in FIG.
  • the base station N3 is a maintenance base station of the serving cell of the UE U4.
  • the second information is transmitted in step S30, the first information is transmitted in step S31, and the first wireless signal is received on the first air interface resource in step S32.
  • the second information is received in step S40, the third information is determined in step S41, the first information is received in step 42, and the first wireless signal is transmitted on the first air interface resource in step S43.
  • the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, and the service group includes one or more services.
  • the air interface resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource is one of the K air interface resources.
  • the K air interface resources correspond to the same radio access technology.
  • the K is a positive integer.
  • the first wireless signal is used for random access.
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the UE U4 to determine Whether to access the service cell.
  • the service group corresponds to a network slice.
  • the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the first information further includes a first security key, and the first security key is used for at least one of ⁇ data encryption, integrity protection ⁇ .
  • the physical layer channel corresponding to the first information is a PDSCH.
  • the transport channel corresponding to the first information is a DL-SCH.
  • the first information is transmitted through RRC signaling.
  • the RRC signaling is non-UE-specific.
  • the RRC signaling is cell-specific.
  • the RRC signaling is TRP-specific.
  • the physical layer channel corresponding to the first wireless signal is a PRACH.
  • Embodiment 3 illustrates a schematic diagram of a first air interface resource, as shown in FIG.
  • the air interface resource occupies a positive integer number of REs (Resource Element resource units), and the first air interface resource in the present invention is one of the K air interface resources shown.
  • REs Resource Element resource units
  • the K air interface resources are orthogonal in the frequency domain.
  • the K air interface resources are orthogonal in the time domain.
  • the K air interface resources are scrambled by using different orthogonal sequences.
  • the K air interface resources are respectively in one-to-one correspondence with the K air interface uplink resources in the present invention.
  • the K air interface resources are respectively related to the K industries in the present invention.
  • One-to-one correspondence is
  • Embodiment 4 illustrates a schematic diagram of a network slice, as shown in FIG.
  • a given RAT includes three of the network slices, the network slice #1 shown corresponds to user type #1, the network slice #2 shown corresponds to user type #2, and the network slice #3 shown corresponds to user type # 3.
  • the network slice #1 shown corresponds to the service group #1, the network slice #2 shown corresponds to the service group #2, and the network slice #3 shown corresponds to the service group #3.
  • the user type #1 is for a mobile broadband user.
  • the user type #2 is for a general IOT (Internet of Things) user.
  • the user type #3 is for an IOT user with special needs.
  • the special-demand IOT user corresponds to a medical IOT user.
  • the special-demand IOT user corresponds to a car network IOT user.
  • the special-demand IOT user corresponds to an industrial robot IOT user.
  • the service group #1 includes at least one of ⁇ wireless communication, Internet ⁇ services.
  • the business group #2 includes at least one of ⁇ logistics, agriculture, weather ⁇ services.
  • the service group #3 includes at least one of ⁇ autopilot, industrial manufacturing ⁇ services.
  • the given RAT is a RAT based on 5G technology.
  • the given RAT is a RAT based on NR technology.
  • Embodiment 5 exemplifies a structural block diagram of a processing device in one UE, as shown in FIG.
  • the UE processing apparatus 100 is mainly composed of a first receiving module 101, a first processing module 102, and a first transmitting module 103.
  • the first sending module 103 is optional.
  • a first receiving module 101 for receiving the first information
  • a first processing module 102 configured to operate the first wireless signal on the first air interface resource
  • the first sending module 103 is configured to send the second wireless signal on the first air interface uplink resource.
  • the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services.
  • the air interface resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource is one of the K air interface resources.
  • the K air interface resources correspond to the same radio access technology.
  • the K is a positive integer.
  • the operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access.
  • the first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups.
  • the air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource and the first air interface uplink resource are reserved for the same service group.
  • the first air interface uplink resource is one of the K air interface uplink resources.
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the UE to determine whether Access to the service cell.
  • the service group corresponds to a network slice.
  • the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the first information further includes a first security key, and the first security key is used for at least one of ⁇ data encryption, integrity protection ⁇ .
  • the first receiving module 101 is further configured to receive the second information, and the first receiving module 101 is further configured to determine the third information.
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the UE to determine whether Access to the service cell.
  • the service group corresponds to one network slice.
  • the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the first information further includes a first security key, and the first security key is used for at least one of ⁇ data encryption, integrity protection ⁇ .
  • Embodiment 6 exemplifies a structural block diagram of a processing device in a base station, as shown in FIG.
  • the base station processing apparatus 200 is mainly composed of a second sending module 201, a second processing module 202, and a second receiving module 203.
  • the second receiving module 203 is optional.
  • a second sending module 201 for transmitting the first information
  • a second processing module 202 configured to execute the first wireless signal on the first air interface resource
  • the second receiving module 203 is configured to receive the second wireless signal on the first air interface uplink resource.
  • the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services.
  • the air interface resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource is one of the K air interface resources.
  • the K air interface resources correspond to the same radio access technology.
  • the K is a positive integer.
  • the operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access.
  • the first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups.
  • the air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of ⁇ time domain resource, frequency domain resource, and code domain resource ⁇ .
  • the first air interface resource and the first air interface uplink resource are reserved for the same service group.
  • the first air interface uplink resource is one of the K air interface uplink resources.
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the first node to determine whether Access to the service cell.
  • the first node is a recipient of the first information.
  • the service group corresponds to a network slice.
  • the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the first information further includes a first security key, and the first security key is used for at least one of ⁇ data encryption, integrity protection ⁇ .
  • the second sending module 201 is further configured to send the second information.
  • the second information is used to determine a first parameter
  • the third information is used to determine a second parameter
  • a relative relationship between the first parameter and the second parameter is used by the first node to determine whether to access Service area.
  • the third information is generated by the first node.
  • the first node passes the second information Generating the third information.
  • the first node is a user equipment.
  • the first node is a recipient of the first information.
  • the service group corresponds to one network slice.
  • the transmission efficiency of the first wireless signal is related to the first air interface resource.
  • the first information further includes a first security key, and the first security key is used for at least one of ⁇ data encryption, integrity protection ⁇ .
  • each module unit in the above embodiment may be implemented in hardware form or in the form of a software function module.
  • the application is not limited to any specific combination of software and hardware.
  • the UE and the terminal in the present invention include but are not limited to RFID, IoT terminal equipment, MTC (Machine Type Communication) terminal, vehicle communication device, wireless sensor, network card, mobile phone, tablet computer, notebook and other wireless communication devices.
  • the base station, the base station device, and the network side device in the present invention include, but are not limited to, a macro communication base station, a micro cell base station, a home base station, a relay base station, and the like.

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Abstract

The present invention discloses a method and an apparatus for user equipment (UE) and a base station used for wireless communication. The UE receives first information and operates a first wireless signal on a first air interface resource. The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, the service groups comprising one or more services. The air interface resource comprises at least one of a time domain resource, a frequency domain resource and a code domain resource. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same wireless access technology. In the present invention, by designing the K service groups and the corresponding K air interface resources, and associating the service groups with network slices, a plurality of network slices can share the same wireless access technology without affecting service requirements, reducing network deployment costs and improving system efficiency.

Description

一种被用于无线通信的用户设备、基站中的方法和装置User equipment, method and device in base station used for wireless communication 技术领域Technical field
本发明涉及无线通信系统中的传输方案,特别是涉及同时支持多种业务的无线通信中的方法和装置。The present invention relates to transmission schemes in wireless communication systems, and more particularly to methods and apparatus in wireless communication that simultaneously support multiple services.
背景技术Background technique
自移动通信广泛应用以来,多种RAT(Radio Access Technology,接入技术)在不断演进中发展。目前经历了以下几种RAT:Since the widespread use of mobile communications, a variety of RATs (Radio Access Technology) have evolved. Currently has experienced the following RATs:
-GERAN(GSM EDGE Radio Access Network,GSM及EDGE无线接入网),其中GSM对应全球移动通信系统(Global System for Mobile Communication),EDGE对应增强型数据速率GSM演进技术(Enhanced Data Rate for GSM Evolution);-GERAN (GSM EDGE Radio Access Network, GSM and EDGE Radio Access Network), where GSM corresponds to Global System for Mobile Communication, and EDGE corresponds to Enhanced Data Rate for GSM Evolution (Enhanced Data Rate for GSM Evolution) ;
-UTRA-FDD(UMTS Terrestrial Radio Access-Frequency Domain Duplex,UMTS陆地无线接入频分双工),其中UMTS对应通用移动通信系统(Universal Mobile Telecommunication System);- UTRA-FDD (UMTS Terrestrial Radio Access-Frequency Domain Duplex), where UMTS corresponds to Universal Mobile Telecommunication System;
-UTRA-TDD(UTRA-Time Domain Duplex,UMTS陆地无线接入时分双工),-UTRA-TDD (UTRA-Time Domain Duplex), UMTS terrestrial wireless access time division duplex,
-CDMA(Code Division Multiple Access,码分多址)2000,-CDMA (Code Division Multiple Access) 2000,
-WLAN(Wireless Local Area Networks,无线局域网);-WLAN (Wireless Local Area Networks);
-EUTRA(Evolved-UTRA,进化的UMTS陆地无线接入);-EUTRA (Evolved-UTRA, Evolutionary UMTS Terrestrial Radio Access);
-NR(New Radio,新无线);-NR (New Radio, new wireless);
目前,WLAN和EUTRA正在演进中,而面向5G系统的NR也在3GPP(3rd Generation Partnership Project,第三代合作伙伴计划)中讨论。Currently, WLAN and EUTRA are evolving, and NR for 5G systems is also discussed in 3GPP (3rd Generation Partnership Project).
未来5G系统中,多种RAT技术将会在一个基站或者一个TRP(Transmission Reception Point,发送接收点)上被同时支持并提供服务。目前在3GPP讨论中,一种新的网络切片(Network Slicing)的概念被广泛探讨和提及,相应的,针对网络切片的新的网络构架和资源分配的方法需要被重新设计。In the future 5G system, multiple RAT technologies will be simultaneously supported and provided on a base station or a TRP (Transmission Reception Point). At present, in the 3GPP discussion, a new concept of Network Slicing is widely discussed and mentioned. Correspondingly, the new network architecture and resource allocation method for network slicing needs to be redesigned.
发明内容Summary of the invention
发明人通过研究发现,引入网络切片的概念后,一种简单的实现方法就是一个网络切片即对应一种业务,且一种业务就对应一种RAT。然而基于此种设计方法的网络架构会导致网络设计的不灵活,降低网络的拓展性和前向兼容性(Forward Compatibility)。一种更为灵活的设计方式,就是多个网络切片在同一种RAT下共存。然而,由于多个网络切片对应的业务存在不同的QoS(Quality of Service,服务质量)和时延要求,完全基于动态调度的资源分配无法满足多种QoS和时延要求。The inventor discovered through research that after introducing the concept of network slicing, a simple implementation method is that one network slice corresponds to one type of service, and one type of service corresponds to one type of RAT. However, the network architecture based on this design method will lead to inflexibility of network design, reducing network scalability and Forward Compatibility. A more flexible design approach is where multiple network slices coexist under the same RAT. However, due to different QoS (Quality of Service) and delay requirements for services corresponding to multiple network slices, resource allocation based on dynamic scheduling cannot meet multiple QoS and delay requirements.
针对上述问题,本发明提供了解决方案。需要说明的是,在不冲突的情况下,本申请的实施例和实施例中的特征可以任意相互组合。例如本申请的UE中的实施例和实施例中的特征可应用到基站中,反之亦然。In response to the above problems, the present invention provides a solution. It should be noted that, in the case of no conflict, the features in the embodiments and the embodiments of the present application may be combined with each other arbitrarily. For example, features in embodiments and embodiments in the UE of the present application may be applied to a base station, and vice versa.
本发明公开了一种被用于无线通信的UE中的方法,其中,包括如下步骤:The invention discloses a method in a UE used for wireless communication, which comprises the following steps:
-步骤A.接收第一信息;- Step A. Receiving the first information;
-步骤B.在第一空口资源上操作第一无线信号。Step B. operating the first wireless signal on the first air interface resource.
其中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述操作是接收并且所述第一无线信号被用于寻呼,或者所述操作是发送并且所述第一无线信号被用于随机接入。The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access.
作为一个实施例,上述方法的一个好处在于:当所述K个业务组针对K个网络切片时,所述多个网络切片共享同一种无线接入技术,且在网络的同一调度下处理,使网络设计和网络架构更为灵活。As an embodiment, an advantage of the foregoing method is: when the K service groups are sliced for K networks, the multiple network slices share the same radio access technology, and are processed under the same scheduling of the network, so that Network design and network architecture are more flexible.
作为一个实施例,上述方法的另一个好处在于:针对不同业务组,网络分配不同的所述空口资源,以满足不同业务组的QoS和时延需求。As an embodiment, another advantage of the foregoing method is that, for different service groups, the network allocates different air interface resources to meet QoS and delay requirements of different service groups.
作为一个实施例,所述业务的QoS是独立配置的。As an embodiment, the QoS of the service is independently configured.
作为一个实施例,所述第一信息还包括K个独一无二的标识,所述K个独一无二的标识和所述K个业务组一一对应,所述标识是整数。As an embodiment, the first information further includes K unique identifiers, and the K unique identifiers are in one-to-one correspondence with the K service groups, and the identifiers are integers.
作为一个实施例,所述K个业务组在同一种无线接入技术下传输。 As an embodiment, the K service groups are transmitted under the same wireless access technology.
作为一个实施例,所述无线接入技术是RAT(Radio Access Technology,无线接入技术)。As an embodiment, the radio access technology is a RAT (Radio Access Technology).
作为该实施例的一个子实施例,所述RAT是{GERAN,UTRA-FDD,UTRA-TDD,CDMA2000,WLAN,EUTRA,NR}中的一种。As a sub-embodiment of this embodiment, the RAT is one of {GERAN, UTRA-FDD, UTRA-TDD, CDMA2000, WLAN, EUTRA, NR}.
作为该实施例的一个子实施例,对于一种给定RAT,所述给定RAT对应独立同步信号。As a sub-embodiment of this embodiment, for a given RAT, the given RAT corresponds to an independent synchronization signal.
作为该实施例的一个子实施例,对于一种给定RAT,所述给定RAT对应独立的广播信息。As a sub-embodiment of this embodiment, for a given RAT, the given RAT corresponds to independent broadcast information.
作为该实施例的一个子实施例,对于一种给定RAT,所述给定RAT对应独立的MIB。As a sub-embodiment of this embodiment, for a given RAT, the given RAT corresponds to a separate MIB.
作为该实施例的一个子实施例,对于一种给定RAT,所述给定RAT对应独立的SIB(System Information Block,系统信息块)。As a sub-embodiment of this embodiment, for a given RAT, the given RAT corresponds to an independent SIB (System Information Block).
作为一个实施例,所述K个业务组中至少包含第一业务组和第二业务组,所述第一业务组包含{URLLC(Ultra-Reliable and Low Latency Communications,超高可靠性和低延迟通信)对应的业务,STTI(Short Transmission Time Interval,缩短的传输时间间隔)对应的业务}中的至少之一,所述第二业务组包含eMBB(enhanced Mobi le Broadband,增强的移动宽带)对应的业务。As an embodiment, the K service groups include at least a first service group and a second service group, and the first service group includes {URLLC (Ultra-Reliable and Low Latency Communications). At least one of the corresponding service, the service corresponding to the Short Transmission Time Interval (STTI), and the second service group includes the service corresponding to the eMBB (enhanced Mobi le Broadband) .
具体的,根据本发明的一个方面,上述方法的特征在于,还包括如下步骤:Specifically, according to an aspect of the present invention, the above method is characterized by further comprising the steps of:
-步骤C.在第一空口上行资源上发送第二无线信号。Step C. Send a second wireless signal on the first air interface uplink resource.
其中,所述操作是接收。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。Wherein the operation is reception. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources.
作为一个实施例,上述方法的特质在于:针对不同的所述第一空口资源,网络配置对应的所述第一空口上行资源,以保证不同的QoS(Quality of Service,服务质量)和时延需求。 As an embodiment, the foregoing method is characterized in that, for different first air interface resources, the network allocates the first air interface uplink resource to ensure different QoS (Quality of Service) and delay requirements. .
作为一个实施例,所述第二无线信道是针对所述第一无线信号的PRACH(Physical Random Access Channel,物理随机接入信道)。In one embodiment, the second wireless channel is a PRACH (Physical Random Access Channel) for the first wireless signal.
作为一个实施例,所述K个空口上行资源与所述K个业务组一一对应。As an embodiment, the K air interface uplink resources are in one-to-one correspondence with the K service groups.
作为该实施例的一个子实施例,所述K个空口上行资源与所述K个业务组的对应关系是固定的,或者可配置的。As a sub-embodiment of the embodiment, the correspondence between the K air interface uplink resources and the K service groups is fixed or configurable.
作为一个实施例,所述第一空口资源唯一确定所述第一空口上行资源。As an embodiment, the first air interface resource uniquely determines the first air interface uplink resource.
具体的,根据本发明的一个方面,上述方法的特征在于,所述步骤A还包括如下步骤:Specifically, according to an aspect of the invention, the method is characterized in that the step A further comprises the following steps:
-步骤A0.接收第二信息;- step A0. receiving the second information;
-步骤A1.确定第三信息。- Step A1. Determine the third information.
其中,所述第二信息被用于确定第一参数,所述第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被所述UE用于确定是否接入服务小区。The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the UE Determine whether to access the serving cell.
作为一个实施例,上述方法的特质在于:网络侧设备通过所述第二信息,配置针对不同业务组的接入准则。所述UE根据所述第二信息确定所述第三信息,进而确定是否接入。As an embodiment, the foregoing method is characterized in that: the network side device configures access criteria for different service groups by using the second information. Determining, by the UE, the third information according to the second information, and determining whether to access.
作为一个实施例,第一业务组是所述K个业务组中的与所述第一空口资源唯一对应的所述业务组。As an embodiment, the first service group is the service group that is uniquely corresponding to the first air interface resource in the K service groups.
作为该实施例一个子实施例,所述第二信息和所述第一业务组关联。As a sub-embodiment of this embodiment, the second information is associated with the first service group.
作为该实施例一个子实施例,所述第三信息和所述第一业务组关联。As a sub-embodiment of this embodiment, the third information is associated with the first service group.
作为一个实施例,所述第二信息是小区公共的。As an embodiment, the second information is common to the cell.
作为一个实施例,所述第三信息是UE特定的。As an embodiment, the third information is UE specific.
作为一个实施例,所述第二信息包括TS 36.331中的AC(Access Class,接入等级)barring parameter,所述确定第三信息是指所述UE随机产生的禁止访问(Access Barring)参数。As an embodiment, the second information includes an AC (Access Class) barring parameter in the TS 36.331, where the determining the third information refers to an Access Barring parameter randomly generated by the UE.
作为一个实施例,所述第一参数是TS 36.331中的ac-BarringFactor参数,所述第二参数是所述UE产生的随机数rand。As an embodiment, the first parameter is an ac-BarringFactor parameter in TS 36.331, and the second parameter is a random number rand generated by the UE.
作为该子实施例的一个附属实施例,所述rand在0到1之间是均匀分布的。所述rand不小于0且小于1。As an additional embodiment of this sub-embodiment, the rand is evenly distributed between 0 and 1. The rand is not less than 0 and less than 1.
作为该子实施例的一个附属实施例,所述第二参数小于所述第一参数, 所述UE的接入不被禁止。As an auxiliary embodiment of the sub-embodiment, the second parameter is smaller than the first parameter, The access of the UE is not prohibited.
作为该子实施例的一个附属实施例,所述第二参数不小于所述第一参数,所述UE的接入被禁止。As an auxiliary embodiment of the sub-embodiment, the second parameter is not less than the first parameter, and access of the UE is prohibited.
作为一个实施例,所述第二信息包括TS 36.331中的eab-BarringBitmap。As an embodiment, the second information includes an eab-BarringBitmap in TS 36.331.
作为一个实施例,所述第二信息还包括TS 36.331中的eab_Common,或者所述第二信息还包括TS 36.331中的eab_Config。As an embodiment, the second information further includes eab_Common in TS 36.331, or the second information further includes eab_Config in TS 36.331.
作为上述两个实施例的一个子实施例,所述UE的种类(Category)属于给定指示信令中eab_Category指示的种类,所述第二参数是所述UE的USIM中存储的所述UE的目标AC,所述第一参数是TS 36.331中的eab-BarringBitmap。As a sub-embodiment of the foregoing two embodiments, the category of the UE belongs to the category indicated by the eab_Category in the given indication signaling, and the second parameter is the UE stored in the USIM of the UE. The target AC, the first parameter is the eab-BarringBitmap in TS 36.331.
作为该子实施例的一个附属实施例,所述给定指示信令是eab_Common,或者所述给定指示信令是eab_Config。As a subsidiary embodiment of this sub-embodiment, the given indication signaling is eab_Common, or the given indication signaling is eab_Config.
作为该子实施例的一个附属实施例,所述第二参数是不小于0且不大于9的整数,所述第一参数包含10比特,所述第一参数的第一比特位(最左边一位)对应所述第二参数等于0,所述第一参数的第二比特位对应所述第二参数等于1,以此类推。As a subsidiary embodiment of the sub-embodiment, the second parameter is an integer not less than 0 and not greater than 9, the first parameter includes 10 bits, and the first bit of the first parameter (the leftmost one) Bit) corresponds to the second parameter being equal to 0, the second bit of the first parameter corresponds to the second parameter being equal to 1, and so on.
作为该子实施例的一个附属实施例,所述第二参数在第一参数中对应的目标比特位被所述UE用于确定是否接入服务小区。As a subsidiary embodiment of the sub-embodiment, the target parameter corresponding to the second parameter in the first parameter is used by the UE to determine whether to access the serving cell.
作为该附属实施例的一个范例,所述目标比特位等于1,所述UE被禁止接入。As an example of this subsidiary embodiment, the target bit is equal to 1, and the UE is prohibited from accessing.
作为该附属实施例的一个范例,所述目标比特位不等于1,所述UE不被EAB(Extended Access Barring,扩展的接入禁止)禁止接入。As an example of the accessory embodiment, the target bit is not equal to 1, and the UE is not prohibited from being accessed by EAB (Extended Access Barring).
作为一个实施例,所述第二信息包括TS 36.331中的ACDC(Application specific Congestion control for Data Communication,数据通信中基于应用的拥塞控制)barring parameter,所述确定第三信息是指所述UE随机产生的禁止访问(Access Barring)参数。As an embodiment, the second information includes an ACDC (Application Specific Congestion Control for Data Communication) barring parameter in the TS 36.331, where the determining the third information means that the UE is randomly generated. Access Barring parameters.
作为一个实施例,所述第一参数是所述ACDC barring parameter中的ac-BarringFactor参数,所述第二参数是所述UE产生的随机数rand。As an embodiment, the first parameter is an ac-BarringFactor parameter in the ACDC barring parameter, and the second parameter is a random number rand generated by the UE.
作为该子实施例的一个附属实施例,所述rand在0到1之间是均匀分 布的。所述rand不小于0且小于1。As a subsidiary embodiment of this sub-embodiment, the rand is evenly divided between 0 and 1. Cloth. The rand is not less than 0 and less than 1.
作为该子实施例的一个附属实施例,所述第二参数小于所述第一参数,所述UE的接入不被禁止。As a subsidiary embodiment of the sub-embodiment, the second parameter is smaller than the first parameter, and access of the UE is not prohibited.
作为该子实施例的一个附属实施例,所述第二参数不小于所述第一参数,所述UE的接入被禁止。As an auxiliary embodiment of the sub-embodiment, the second parameter is not less than the first parameter, and access of the UE is prohibited.
具体的,根据本发明的一个方面,上述方法的特征在于,所述业务组对应一个网络切片。Specifically, according to an aspect of the present invention, the method is characterized in that the service group corresponds to one network slice.
作为一个实施例,所述网络切片是一个逻辑网络,所述逻辑网络包括接入网和核心网。As an embodiment, the network slice is a logical network, and the logical network includes an access network and a core network.
作为一个实施例,所述网络切片对应Network Slicing。As an embodiment, the network slice corresponds to Network Slicing.
作为一个实施例,所述网络切片唯一确定一个网络切片标识。As an embodiment, the network slice uniquely identifies a network slice identifier.
作为该实施例的一个子实施例,所述第二信息与所述网络切片标识相关。As a sub-embodiment of this embodiment, the second information is related to the network slice identifier.
作为一个实施例,所述第一空口资源对应第一业务组,所述第一业务组对应给定网络切片,所述给定网络切片唯一对应所述第二信息。As an embodiment, the first air interface resource corresponds to the first service group, the first service group corresponds to a given network slice, and the given network slice uniquely corresponds to the second information.
作为一个实施例,多个所述网络切片共享一个所述第二信息。As an embodiment, a plurality of the network slices share one of the second information.
作为一个实施例,多个所述网络切片对应一种RAT。As an embodiment, a plurality of the network slices correspond to a RAT.
作为一个实施例,所述业务组对应一种QoS。As an embodiment, the service group corresponds to a QoS.
作为一个实施例,所述K个业务组分别对应K个网络切片。所述K个网络切片分别对应K个优先级标识。As an embodiment, the K service groups respectively correspond to K network slices. The K network slices respectively correspond to K priority identifiers.
作为该实施例的一个子实施例,所述优先级标识是不小于0的整数。As a sub-embodiment of this embodiment, the priority identifier is an integer not less than 0.
作为该实施例的一个子实施例,所述优先级标识与对应的所述业务组的QoS有关。As a sub-embodiment of the embodiment, the priority identifier is related to the QoS of the corresponding service group.
作为该实施例的一个子实施例,所述优先级标识与对应的所述业务组的时延需求有关。As a sub-embodiment of the embodiment, the priority identifier is related to a delay requirement of the corresponding service group.
作为该实施例的一个子实施例,所述K个优先级标识由核心网配置。As a sub-embodiment of this embodiment, the K priority identifiers are configured by a core network.
作为该实施例的一个子实施例,所述K个优先级标识是固定的。As a sub-embodiment of this embodiment, the K priority identifiers are fixed.
作为该实施例的一个子实施例,所述优先级标识越大,对应的所述业务组的优先级越高。As a sub-embodiment of the embodiment, the greater the priority identifier, the higher the priority of the corresponding service group.
作为该实施例的一个子实施例,所述优先级标识越小,对应的所述业 务组的优先级越高。As a sub-embodiment of this embodiment, the smaller the priority identifier, the corresponding industry The higher the priority of the group.
具体的,根据本发明的一个方面,上述方法的特征在于,所述第一无线信号的传输效率和所述第一空口资源相关。Specifically, according to an aspect of the invention, the method is characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
作为一个实施例,所述K个业务组中至少有两个所述业务组对应不同的传输效率。As an embodiment, at least two of the K service groups correspond to different transmission efficiencies.
作为一个实施例,所述K个业务组中至少存在第三业务组和第四业务组,所述第三业务组和所述第四业务组均需要传输M个比特的信息。所述第一无线信号在传输所述第三业务组对应的所述M个比特的信息时占用M1个比特的空口资源,所述第一无线信号在传输所述第四业务组对应的所述M个比特的信息时占用M2个比特的空口资源。所述M,所述M1和所述M2均是正整数,所述M1不等于所述M2。As an embodiment, at least a third service group and a fourth service group exist in the K service groups, and the third service group and the fourth service group both need to transmit information of M bits. The first wireless signal occupies M1 bits of air interface resources when transmitting the information of the M bits corresponding to the third service group, where the first wireless signal is in the transmission corresponding to the fourth service group The M bits of information occupy the M2 bits of air interface resources. The M, the M1 and the M2 are both positive integers, and the M1 is not equal to the M2.
作为一个实施例,所述K个业务组中至少两个所述业务组,所述两个业务组在所述第一无线信号中传输相同信息比特所占用的空口资源的开销(Cost)是不同的。As an embodiment, at least two of the K service groups, the cost of the air interface resource occupied by the two service groups in transmitting the same information bit in the first wireless signal is different. of.
具体的,根据本发明的一个方面,上述方法的特征在于,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。Specifically, according to an aspect of the invention, the method is characterized in that the first information further includes a first security key, and the first security key is used for at least {data encryption, integrity protection} one.
作为一个实施例,所述第一安全密钥由高层配置。As an embodiment, the first security key is configured by a higher layer.
作为一个实施例,所述第一安全密钥是TS 36.323中的KeNBAs an embodiment, the first security key is a K eNB in TS 36.323.
作为一个实施例,所述数据加密被用于PDCP(Packet Data Convergence Protocol,分组数据汇聚协议层)的SRB(Signaling Radio Bearer,信号无线承载)的处理过程中。As an embodiment, the data encryption is used in the processing of SRB (Signaling Radio Bearer) of the Packet Data Convergence Protocol (PDCP).
作为一个实施例,所述数据加密被用于PDCP层的DRB(Data Radio Bearer,数据无线承载)的处理过程中。As an embodiment, the data encryption is used in the processing of a DRB (Data Radio Bearer) of the PDCP layer.
作为一个实施例,所述完整性保护被用于PDCP层的SRB的处理过程中。As an embodiment, the integrity protection is used in the processing of the SRB of the PDCP layer.
作为一个实施例,所述数据加密针对所述UE。As an embodiment, the data is encrypted for the UE.
作为一个实施例,所述完整性保护针对所述UE。As an embodiment, the integrity protection is for the UE.
作为一个实施例,第二安全密钥被用于所述数据加密,所述第二安全密钥通过所述第一安全密钥获得。As an embodiment, a second security key is used for the data encryption, the second security key being obtained by the first security key.
作为该实施例的一个子实施例,所述第二安全密钥是TS 36.323中的 KRRCencAs a sub-embodiment of this embodiment, the second security key is K RRCenc in TS 36.323.
作为该实施例的一个子实施例,所述第二安全密钥是TS 36.323中的KUPencAs a sub-embodiment of this embodiment, the second security key is K UPenc in TS 36.323.
作为一个实施例,第三安全密钥被用于所述完整性保护,所述第三安全密钥通过所述第一安全密钥获得。As an embodiment, a third security key is used for the integrity protection, the third security key being obtained by the first security key.
作为该实施例的一个子实施例,所述第三安全密钥是TS 36.323中的KRRCintAs a sub-embodiment of this embodiment, the third security key is K RRCint in TS 36.323.
本发明公开了一种被用于无线通信的基站中的方法,其中,包括如下步骤:The invention discloses a method in a base station used for wireless communication, which comprises the following steps:
-步骤A.发送第一信息;- Step A. Send the first message;
-步骤B.在第一空口资源上执行第一无线信号。Step B. Performing a first wireless signal on the first air interface resource.
其中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述执行是发送并且所述第一无线信号被用于寻呼,或者所述执行是接收并且所述第一无线信号被用于随机接入。The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The execution is to send and the first wireless signal is used for paging, or the execution is to receive and the first wireless signal is used for random access.
具体的,根据本发明的一个方面,上述方法的特征在于,还包括如下步骤:Specifically, according to an aspect of the present invention, the above method is characterized by further comprising the steps of:
-步骤C.在第一空口上行资源上接收第二无线信号。Step C. Receive a second wireless signal on the first air interface uplink resource.
其中,所述执行是发送。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。Wherein the execution is a transmission. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources.
具体的,根据本发明的一个方面,上述方法的特征在于,所述步骤A还包括如下步骤: Specifically, according to an aspect of the invention, the method is characterized in that the step A further comprises the following steps:
-步骤A0.发送第二信息;- Step A0. Sending the second information;
其中,所述第二信息被用于确定第一参数,第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被第一节点用于确定是否接入服务小区。所述第一节点是一个所述第一信息的接收者。The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the first node to determine whether Access to the service cell. The first node is a recipient of the first information.
作为一个实施例,所述第一信息被多个终端接收,所述第一节点是一个所述终端。As an embodiment, the first information is received by a plurality of terminals, and the first node is one of the terminals.
作为一个实施例,所述第三信息是所述第一节点生成的。As an embodiment, the third information is generated by the first node.
作为一个实施例,所述第一节点是所述第一信息的接收者。As an embodiment, the first node is a recipient of the first information.
作为该实施例的一个子实施例,所述第一节点通过所述第二信息生成所述第三信息。As a sub-embodiment of the embodiment, the first node generates the third information by using the second information.
作为该实施例的一个子实施例,所述第一节点是一个UE。As a sub-embodiment of this embodiment, the first node is a UE.
作为一个实施例,上述方法的特质在于:网络侧通过所述第二信息,配置针对不同业务组的接入准则。所述UE根据所述第二信息确定所述第三信息,进而确定是否接入。As an embodiment, the method is characterized in that: the network side configures access criteria for different service groups by using the second information. Determining, by the UE, the third information according to the second information, and determining whether to access.
作为一个实施例,第一业务组是所述K个业务组中的与所述第一空口资源唯一对应的所述业务组。As an embodiment, the first service group is the service group that is uniquely corresponding to the first air interface resource in the K service groups.
作为该实施例一个子实施例,所述第二信息和所述第一业务组关联。As a sub-embodiment of this embodiment, the second information is associated with the first service group.
作为该实施例一个子实施例,所述第三信息和所述第一业务组关联。As a sub-embodiment of this embodiment, the third information is associated with the first service group.
作为一个实施例,所述第二信息是小区公共的。As an embodiment, the second information is common to the cell.
作为一个实施例,所述第三信息是UE特定的。As an embodiment, the third information is UE specific.
作为一个实施例,所述第二信息包括AC(Access Class,接入等级)barring parameter,所述确定第三信息是指所述第一节点随机产生的禁止访问(Access Barring)参数。As an embodiment, the second information includes an AC (Access Class) barring parameter, and the determining third information refers to an Access Barring parameter randomly generated by the first node.
作为一个实施例,所述第一参数是ac-BarringFactor参数,所述第二参数是所述第一节点产生的随机数rand。As an embodiment, the first parameter is an ac-BarringFactor parameter, and the second parameter is a random number rand generated by the first node.
作为该子实施例的一个附属实施例,所述rand在0到1之间是均匀分布的。所述rand不小于0且小于1。As an additional embodiment of this sub-embodiment, the rand is evenly distributed between 0 and 1. The rand is not less than 0 and less than 1.
作为该子实施例的一个附属实施例,所述第二参数小于所述第一参数,所述第一节点的接入不被禁止。As an auxiliary embodiment of the sub-embodiment, the second parameter is smaller than the first parameter, and access of the first node is not prohibited.
作为该子实施例的一个附属实施例,所述第二参数不小于所述第一参 数,所述第一节点的接入被禁止。As an auxiliary embodiment of the sub-embodiment, the second parameter is not less than the first parameter. The access of the first node is prohibited.
作为一个实施例,所述第二信息包括eab-BarringBitmap。As an embodiment, the second information includes an eab-BarringBitmap.
作为一个实施例,所述第二信息还包括eab_Common,或者所述第二信息还包括eab_Config。As an embodiment, the second information further includes eab_Common, or the second information further includes eab_Config.
作为上述两个实施例的一个子实施例,所述第一节点的种类(Category)属于给定指示信令中eab_Category指示的种类,所述第二参数是所述第一节点的USIM中存储的所述第一节点的目标AC,所述第一参数是eab-BarringBitmap。As a sub-embodiment of the foregoing two embodiments, the category of the first node belongs to a category indicated by eab_Category in a given indication signaling, and the second parameter is stored in a USIM of the first node. The target AC of the first node, the first parameter is eab-BarringBitmap.
作为该子实施例的一个附属实施例,所述给定指示信令是eab_Common,或者所述给定指示信令是eab_Config。As a subsidiary embodiment of this sub-embodiment, the given indication signaling is eab_Common, or the given indication signaling is eab_Config.
作为该子实施例的一个附属实施例,所述第二参数是不小于0且不大于9的整数,所述第一参数包含10比特,所述第一参数的第一比特位(最左边一位)对应所述第二参数等于0,所述第一参数的第二比特位对应所述第二参数等于1,以此类推。As a subsidiary embodiment of the sub-embodiment, the second parameter is an integer not less than 0 and not greater than 9, the first parameter includes 10 bits, and the first bit of the first parameter (the leftmost one) Bit) corresponds to the second parameter being equal to 0, the second bit of the first parameter corresponds to the second parameter being equal to 1, and so on.
作为该子实施例的一个附属实施例,所述第二参数在第一参数中对应的目标比特位被所述第一节点用于确定是否接入服务小区。As a subsidiary embodiment of the sub-embodiment, the target parameter corresponding to the second parameter in the first parameter is used by the first node to determine whether to access the serving cell.
作为该附属实施例的一个范例,所述目标比特位等于1,所述第一节点被禁止接入。As an example of this subsidiary embodiment, the target bit is equal to 1, and the first node is prohibited from accessing.
作为该附属实施例的一个范例,所述目标比特位不等于1,所述第一节点不被EAB(Extended Access Barring,扩展的接入禁止)禁止接入。As an example of the subsidiary embodiment, the target bit is not equal to 1, and the first node is not prohibited from being accessed by EAB (Extended Access Barring).
作为一个实施例,所述第二信息包括ACDC(Application specific Congestion control for Data Communication,数据通信中基于应用的拥塞控制)barring parameter,所述确定第三信息是指所述第一节点随机产生的禁止访问(Access Barring)参数。As an embodiment, the second information includes an application specific congestion control (DataDC) application barring parameter, and the determining third information refers to a prohibition randomly generated by the first node. Access (Access Barring) parameters.
作为一个实施例,所述第一参数是所述ACDC barring parameter中的ac-BarringFactor参数,所述第二参数是所述第一节点产生的随机数rand。As an embodiment, the first parameter is an ac-BarringFactor parameter in the ACDC barring parameter, and the second parameter is a random number rand generated by the first node.
作为该子实施例的一个附属实施例,所述rand在0到1之间是均匀分布的。所述rand不小于0且小于1。As an additional embodiment of this sub-embodiment, the rand is evenly distributed between 0 and 1. The rand is not less than 0 and less than 1.
作为该子实施例的一个附属实施例,所述第二参数小于所述第一参数,所述第一节点的接入不被禁止。 As an auxiliary embodiment of the sub-embodiment, the second parameter is smaller than the first parameter, and access of the first node is not prohibited.
作为该子实施例的一个附属实施例,所述第二参数不小于所述第一参数,所述第一节点的接入被禁止。As a subsidiary embodiment of the sub-embodiment, the second parameter is not less than the first parameter, and access of the first node is prohibited.
具体的,根据本发明的一个方面,上述方法的特征在于,所述业务组对应一个网络切片。Specifically, according to an aspect of the present invention, the method is characterized in that the service group corresponds to one network slice.
具体的,根据本发明的一个方面,上述方法的特征在于,所述第一无线信号的传输效率和所述第一空口资源相关。Specifically, according to an aspect of the invention, the method is characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
具体的,根据本发明的一个方面,上述方法的特征在于,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。Specifically, according to an aspect of the invention, the method is characterized in that the first information further includes a first security key, and the first security key is used for at least {data encryption, integrity protection} one.
本发明公开了一种被用于无线通信的用户设备,其中,包括如下模块:The invention discloses a user equipment used for wireless communication, which comprises the following modules:
-第一接收模块:用于接收第一信息;a first receiving module: for receiving the first information;
-第一处理模块:用于在第一空口资源上操作第一无线信号。a first processing module: for operating the first wireless signal on the first air interface resource.
其中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述操作是接收并且所述第一无线信号被用于寻呼,或者所述操作是发送并且所述第一无线信号被用于随机接入。The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access.
作为一个实施例,上述被用于无线通信的用户设备的特征在于,还包括如下模块:As an embodiment, the user equipment used for wireless communication described above is characterized in that it further includes the following modules:
-第一发送模块:在第一空口上行资源上发送第二无线信号。- a first sending module: transmitting a second wireless signal on the first air interface uplink resource.
其中,所述操作是接收。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。 Wherein the operation is reception. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources.
作为一个实施例,上述被用于无线通信的用户设备的特征在于,所述第一接收模块还用于接收第二信息,以及所述第一接收模块还用于确定第三信息。所述第二信息被用于确定第一参数,所述第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被所述UE用于确定是否接入服务小区。As an embodiment, the foregoing user equipment used for wireless communication is characterized in that the first receiving module is further configured to receive second information, and the first receiving module is further configured to determine third information. The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the UE to determine whether Access to the service cell.
作为一个实施例,上述被用于无线通信的用户设备的特征在于,所述业务组对应一个网络切片。As an embodiment, the foregoing user equipment used for wireless communication is characterized in that the service group corresponds to one network slice.
作为一个实施例,上述被用于无线通信的用户设备的特征在于,所述第一无线信号的传输效率和所述第一空口资源相关。As an embodiment, the foregoing user equipment used for wireless communication is characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
作为一个实施例,上述被用于无线通信的用户设备的特征在于,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。As an embodiment, the user equipment used for wireless communication is characterized in that the first information further includes a first security key, and the first security key is used in {data encryption, integrity protection} At least one of them.
本发明公开了一种被用于无线通信的基站设备,其中,包括如下模块:The invention discloses a base station device used for wireless communication, which comprises the following modules:
-第二发送模块:用于发送第一信息;a second sending module: configured to send the first information;
-第二处理模块:用于在第一空口资源上执行第一无线信号。a second processing module: configured to perform the first wireless signal on the first air interface resource.
其中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述执行是发送并且所述第一无线信号被用于寻呼,或者所述执行是接收并且所述第一无线信号被用于随机接入。The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The execution is to send and the first wireless signal is used for paging, or the execution is to receive and the first wireless signal is used for random access.
作为一个实施例,上述被用于无线通信的基站设备的特征在于,还包括如下模块:As an embodiment, the base station device used for wireless communication described above is characterized in that it further includes the following modules:
-第二接收模块:在第一空口上行资源上接收第二无线信号。a second receiving module: receiving the second wireless signal on the first air interface uplink resource.
其中,所述操作是接收。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源, 码域资源}中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。Wherein the operation is reception. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes {time domain resource, frequency domain resource, At least one of the code domain resources}. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources.
作为一个实施例,上述被用于无线通信的基站设备的特征在于,所述第二发送模块还用于发送第二信息。所述第二信息被用于确定第一参数,第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被第一节点用于确定是否接入服务小区。所述第一节点是一个所述第一信息的接收者。As an embodiment, the base station device used for wireless communication is characterized in that the second sending module is further configured to send the second information. The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the first node to determine whether to access Service area. The first node is a recipient of the first information.
作为该实施例的一个子实施,所述第三信息是所述第一节点生成的。As a sub-implementation of this embodiment, the third information is generated by the first node.
作为该子实施例的一个附属实施例,所述第一节点通过所述第二信息生成所述第三信息。As an auxiliary embodiment of the sub-embodiment, the first node generates the third information by using the second information.
作为该子实施例的一个附属实施例,所述第一节点是一个用户设备。As a subsidiary embodiment of this sub-embodiment, the first node is a user equipment.
作为一个实施例,上述被用于无线通信的基站设备的特征在于,所述业务组对应一个网络切片。As an embodiment, the above-mentioned base station device used for wireless communication is characterized in that the service group corresponds to one network slice.
作为一个实施例,上述被用于无线通信的基站设备的特征在于,所述第一无线信号的传输效率和所述第一空口资源相关。As an embodiment, the base station device used for wireless communication is characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
作为一个实施例,上述被用于无线通信的基站设备的特征在于,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。As an embodiment, the base station device used for wireless communication is characterized in that the first information further includes a first security key, and the first security key is used in {data encryption, integrity protection} At least one of them.
作为一个实施例,相比现有公开技术,本发明具有如下技术优势:As an embodiment, the present invention has the following technical advantages over the prior art:
-.通过设计所述K个空口资源,所述K个空口资源与所述K个业务组一一对应。当所述K个业务组针对K个网络切片时,所述K个网络切片共享同一种无线接入技术,且在网络的同一调度下处理,使网络设计和网络架构更为灵活。By designing the K air interface resources, the K air interface resources are in one-to-one correspondence with the K service groups. When the K service groups are sliced for K networks, the K network slices share the same radio access technology and are processed under the same scheduling of the network, so that the network design and the network architecture are more flexible.
-.针对不同业务组,网络分配不同的所述空口资源,以保证不同业务组的QoS和时延需求。- For different service groups, the network allocates different air interface resources to ensure QoS and delay requirements of different service groups.
附图说明DRAWINGS
通过阅读参照以下附图所作的对非限制性实施例所作的详细描述,本 发明的其它特征、目的和优点将会变得更加明显:A detailed description of non-limiting embodiments made with reference to the following drawings, Other features, objects, and advantages of the invention will become more apparent.
图1示出了根据本发明的一个实施例的第一信息传输的流程图;Figure 1 shows a flow chart of a first information transmission in accordance with one embodiment of the present invention;
图2示出了根据本发明的另一个实施例的第一信息传输的流程图;2 shows a flow chart of a first information transmission in accordance with another embodiment of the present invention;
图3示出了根据本发明的一个实施例的空口资源的示意图;Figure 3 shows a schematic diagram of air interface resources in accordance with one embodiment of the present invention;
图4示出了根据本发明的一个实施例的网络切片的示意图;4 shows a schematic diagram of a network slice in accordance with one embodiment of the present invention;
图5示出了根据本发明的一个实施例的UE中的处理装置的结构框图;FIG. 5 is a block diagram showing the structure of a processing device in a UE according to an embodiment of the present invention; FIG.
图6示出了根据本发明的一个实施例的基站中的处理装置的结构框图。Figure 6 is a block diagram showing the structure of a processing device in a base station according to an embodiment of the present invention.
具体实施方式detailed description
下文将结合附图对本发明的技术方案作进一步详细说明,需要说明的是,在不冲突的情况下,本申请的实施例和实施例中的特征可以任意相互组合。The technical solutions of the present invention will be further described in detail below with reference to the accompanying drawings. It should be noted that the features of the embodiments and the embodiments of the present application may be combined with each other without conflict.
实施例1Example 1
实施例1示例了根据本发明的一个第一信息传输的流程图,如附图1所示。附图1中,基站N1是UE U2的服务小区的维持基站。Embodiment 1 illustrates a flow chart of a first information transmission in accordance with the present invention, as shown in FIG. In Fig. 1, a base station N1 is a maintenance base station of a serving cell of UE U2.
对于基站N1,在步骤S10中发送第二信息,在步骤S11中发送第一信息,在步骤S12中在第一空口资源上发送第一无线信号,在步骤S13中在第一空口上行资源上接收第二无线信号。For the base station N1 , the second information is sent in step S10, the first information is sent in step S11, the first wireless signal is sent on the first air interface resource in step S12, and the first air interface uplink resource is received in step S13. Second wireless signal.
对于UE U2,在步骤S20中接收第二信息,在步骤S21中确定第三信息,在步骤22中接收第一信息,在步骤S23中在第一空口资源上接收第一无线信号,在步骤S24中在第一空口上行资源上发送第二无线信号。For UE U2 , the second information is received in step S20, the third information is determined in step S21, the first information is received in step 22, and the first wireless signal is received on the first air interface resource in step S23, in step S24. The second wireless signal is sent on the first air interface uplink resource.
实施例1中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述第一无线信号被用于寻呼。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源,码域资源} 中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。所述第二信息被用于确定第一参数,所述第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被所述UE U2用于确定是否接入服务小区。所述业务组对应一个网络切片。所述第一无线信号的传输效率和所述第一空口资源相关。所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。In the first embodiment, the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The first wireless signal is used for paging. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes {time domain resource, frequency domain resource, and code domain resource. At least one of them. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources. The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the UE U2 to determine Whether to access the service cell. The service group corresponds to a network slice. The transmission efficiency of the first wireless signal is related to the first air interface resource. The first information further includes a first security key, and the first security key is used for at least one of {data encryption, integrity protection}.
作为一个实施例,所述第一信息对应的物理层信道是PDSCH。As an embodiment, the physical layer channel corresponding to the first information is a PDSCH.
作为一个实施例,所述第一信息对应的传输信道是DL-SCH。As an embodiment, the transport channel corresponding to the first information is a DL-SCH.
作为一个实施例,所述第一信息通过RRC(Radio Resource Control,无线资源控制)信令传输。As an embodiment, the first information is transmitted by using RRC (Radio Resource Control) signaling.
作为上述实施例的一个子实施例,所述RRC信令是非UE专属的。As a sub-embodiment of the foregoing embodiment, the RRC signaling is non-UE-specific.
作为上述实施例的一个子实施例,所述RRC信令是小区专属的(Cell-Specific)。As a sub-embodiment of the foregoing embodiment, the RRC signaling is Cell-Specific.
作为上述实施例的一个子实施例,所述RRC信令是TRP专属的(TRP-Specific)。As a sub-embodiment of the above embodiment, the RRC signaling is TRP-specific (TRP-Specific).
作为一个实施例,所述第一无线信号对应的逻辑信道是PCCH(Paging Control Channel,寻呼控制信道)。As an embodiment, the logical channel corresponding to the first wireless signal is a PCCH (Paging Control Channel).
作为一个实施例,所述业务组对应一个网络切片。As an embodiment, the service group corresponds to one network slice.
作为一个实施例,所述第一无线信号的传输效率和所述第一空口资源相关。As an embodiment, the transmission efficiency of the first wireless signal is related to the first air interface resource.
作为一个实施例,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。As an embodiment, the first information further includes a first security key, and the first security key is used for at least one of {data encryption, integrity protection}.
实施例2Example 2
实施例2示例了根据本发明的另一个第一信息传输的流程图,如附图2所示。附图2中,基站N3是UE U4的服务小区的维持基站。Embodiment 2 illustrates a flow chart of another first information transmission according to the present invention, as shown in FIG. In Fig. 2, the base station N3 is a maintenance base station of the serving cell of the UE U4.
对于基站N3,在步骤S30中发送第二信息,在步骤S31中发送第一信息,在步骤S32中在第一空口资源上接收第一无线信号。For the base station N3 , the second information is transmitted in step S30, the first information is transmitted in step S31, and the first wireless signal is received on the first air interface resource in step S32.
对于UE U4,在步骤S40中接收第二信息,在步骤S41中确定第三信息, 在步骤42中接收第一信息,在步骤S43中在第一空口资源上发送第一无线信号。For UE U4 , the second information is received in step S40, the third information is determined in step S41, the first information is received in step 42, and the first wireless signal is transmitted on the first air interface resource in step S43.
实施例2中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述第一无线信号被用于随机接入。所述第二信息被用于确定第一参数,所述第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被所述UE U4用于确定是否接入服务小区。所述业务组对应一个网络切片。所述第一无线信号的传输效率和所述第一空口资源相关。所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。In the second embodiment, the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, and the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The first wireless signal is used for random access. The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the UE U4 to determine Whether to access the service cell. The service group corresponds to a network slice. The transmission efficiency of the first wireless signal is related to the first air interface resource. The first information further includes a first security key, and the first security key is used for at least one of {data encryption, integrity protection}.
作为一个子实施例,所述第一信息对应的物理层信道是PDSCH。As a sub-embodiment, the physical layer channel corresponding to the first information is a PDSCH.
作为一个子实施例,所述第一信息对应的传输信道是DL-SCH。As a sub-embodiment, the transport channel corresponding to the first information is a DL-SCH.
作为一个子实施例,所述第一信息通过RRC信令传输。As a sub-embodiment, the first information is transmitted through RRC signaling.
作为该子实施例的一个附属实施例,所述RRC信令是非UE专属的。As a subsidiary embodiment of this sub-embodiment, the RRC signaling is non-UE-specific.
作为该子实施例的一个附属实施例,所述RRC信令是小区专属的。As a subsidiary embodiment of this sub-embodiment, the RRC signaling is cell-specific.
作为该子实施例的一个附属实施例,所述RRC信令是TRP专属的。As a subsidiary embodiment of this sub-embodiment, the RRC signaling is TRP-specific.
作为一个子实施例,所述第一无线信号对应的物理层信道是PRACH。As a sub-embodiment, the physical layer channel corresponding to the first wireless signal is a PRACH.
实施例3Example 3
实施例3示例了一个第一空口资源的示意图,如附图3所示。附图3中,所述空口资源占用正整数个RE(Resource Element资源单元),本发明中的所述第一空口资源是所示K个空口资源中的之一。Embodiment 3 illustrates a schematic diagram of a first air interface resource, as shown in FIG. In FIG. 3, the air interface resource occupies a positive integer number of REs (Resource Element resource units), and the first air interface resource in the present invention is one of the K air interface resources shown.
作为一个子实施例,所述K个空口资源在频域是正交的。As a sub-embodiment, the K air interface resources are orthogonal in the frequency domain.
作为一个子实施例,所述K个空口资源在时域是正交的。As a sub-embodiment, the K air interface resources are orthogonal in the time domain.
作为一个子实施例,所述K个空口资源采用不同的正交序列进行加扰。As a sub-embodiment, the K air interface resources are scrambled by using different orthogonal sequences.
作为一个子实施例,所述K个空口资源分别与本发明中的所述K个空口上行资源一一对应。As a sub-embodiment, the K air interface resources are respectively in one-to-one correspondence with the K air interface uplink resources in the present invention.
作为一个子实施例,所述K个空口资源分别与本发明中的所述K个业 务组一一对应。As a sub-embodiment, the K air interface resources are respectively related to the K industries in the present invention. One-to-one correspondence.
实施例4Example 4
实施例4示例了一个网络切片的示意图,如附图4所示。附图4中,给定RAT包含三个所述网络切片,所示网络切片#1对应用户类型#1,所示网络切片#2对应用户类型#2,所示网络切片#3对应用户类型#3。所示网络切片#1对应业务组#1,所示网络切片#2对应业务组#2,所示网络切片#3对应业务组#3。Embodiment 4 illustrates a schematic diagram of a network slice, as shown in FIG. In FIG. 4, a given RAT includes three of the network slices, the network slice #1 shown corresponds to user type #1, the network slice #2 shown corresponds to user type #2, and the network slice #3 shown corresponds to user type # 3. The network slice #1 shown corresponds to the service group #1, the network slice #2 shown corresponds to the service group #2, and the network slice #3 shown corresponds to the service group #3.
作为一个子实施例,所述用户类型#1针对移动宽带用户。As a sub-embodiment, the user type #1 is for a mobile broadband user.
作为一个子实施例,所述用户类型#2针对一般IOT(Internet of Things,物联网)用户。As a sub-embodiment, the user type #2 is for a general IOT (Internet of Things) user.
作为一个子实施例,所述用户类型#3针对特殊需求的IOT用户。As a sub-embodiment, the user type #3 is for an IOT user with special needs.
作为该子实施例的一个附属实施例,所述特殊需求的IOT用户对应医疗类IOT用户。As an additional embodiment of this sub-embodiment, the special-demand IOT user corresponds to a medical IOT user.
作为该子实施例的一个附属实施例,所述特殊需求的IOT用户对应车联网IOT用户。As a subsidiary embodiment of this sub-embodiment, the special-demand IOT user corresponds to a car network IOT user.
作为该子实施例的一个附属实施例,所述特殊需求的IOT用户对应工业机器人IOT用户。As a subsidiary embodiment of this sub-embodiment, the special-demand IOT user corresponds to an industrial robot IOT user.
作为一个子实施例,所述业务组#1包括{无线通信,互联网}业务中的至少之一。As a sub-embodiment, the service group #1 includes at least one of {wireless communication, Internet} services.
作为一个子实施例,所述业务组#2包括{物流,农业,气象}业务中的至少之一。As a sub-embodiment, the business group #2 includes at least one of {logistics, agriculture, weather} services.
作为一个子实施例,所述业务组#3包括{自动驾驶,工业制造}业务中的至少之一。As a sub-embodiment, the service group #3 includes at least one of {autopilot, industrial manufacturing} services.
作为一个子实施例,所述给定RAT是基于5G技术的RAT。As a sub-embodiment, the given RAT is a RAT based on 5G technology.
作为一个子实施例,所述给定RAT是基于NR技术的RAT。As a sub-embodiment, the given RAT is a RAT based on NR technology.
实施例5Example 5
实施例5示例了一个UE中的处理装置的结构框图,如附图5所示。附图5中,UE处理装置100主要由第一接收模块101,第一处理模块102和第一发送模块103组成。所述第一发送模块103是可选的。Embodiment 5 exemplifies a structural block diagram of a processing device in one UE, as shown in FIG. In FIG. 5, the UE processing apparatus 100 is mainly composed of a first receiving module 101, a first processing module 102, and a first transmitting module 103. The first sending module 103 is optional.
-第一接收模块101:用于接收第一信息; a first receiving module 101: for receiving the first information;
-第一处理模块102:用于在第一空口资源上操作第一无线信号;a first processing module 102: configured to operate the first wireless signal on the first air interface resource;
-第一发送模块103:用于在第一空口上行资源上发送第二无线信号。The first sending module 103 is configured to send the second wireless signal on the first air interface uplink resource.
实施例5中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述操作是接收并且所述第一无线信号被用于寻呼,或者所述操作是发送并且所述第一无线信号被用于随机接入。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。所述第二信息被用于确定第一参数,所述第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被所述UE用于确定是否接入服务小区。所述业务组对应一个网络切片。所述第一无线信号的传输效率和所述第一空口资源相关。所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。In the embodiment 5, the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources. The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the UE to determine whether Access to the service cell. The service group corresponds to a network slice. The transmission efficiency of the first wireless signal is related to the first air interface resource. The first information further includes a first security key, and the first security key is used for at least one of {data encryption, integrity protection}.
作为一个子实施例,所述第一接收模块101还用于接收第二信息,以及所述第一接收模块101还用于确定第三信息。所述第二信息被用于确定第一参数,所述第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被所述UE用于确定是否接入服务小区。As a sub-embodiment, the first receiving module 101 is further configured to receive the second information, and the first receiving module 101 is further configured to determine the third information. The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the UE to determine whether Access to the service cell.
作为一个子实施例,所述业务组对应一个网络切片。As a sub-embodiment, the service group corresponds to one network slice.
作为一个子实施例,所述第一无线信号的传输效率和所述第一空口资源相关。As a sub-embodiment, the transmission efficiency of the first wireless signal is related to the first air interface resource.
作为一个子实施例,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。As a sub-embodiment, the first information further includes a first security key, and the first security key is used for at least one of {data encryption, integrity protection}.
实施例6Example 6
实施例6示例了一个基站中的处理装置的结构框图,如附图6所示。附图6中,基站处理装置200主要由第二发送模块201,第二处理模块202和第二接收模块203组成。所述第二接收模块203是可选的。Embodiment 6 exemplifies a structural block diagram of a processing device in a base station, as shown in FIG. In FIG. 6, the base station processing apparatus 200 is mainly composed of a second sending module 201, a second processing module 202, and a second receiving module 203. The second receiving module 203 is optional.
-第二发送模块201:用于发送第一信息;a second sending module 201: for transmitting the first information;
-第二处理模块202:用于在第一空口资源上执行第一无线信号;a second processing module 202: configured to execute the first wireless signal on the first air interface resource;
-第二接收模块203:用于在第一空口上行资源上接收第二无线信号。The second receiving module 203 is configured to receive the second wireless signal on the first air interface uplink resource.
实施例6中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述操作是接收并且所述第一无线信号被用于寻呼,或者所述操作是发送并且所述第一无线信号被用于随机接入。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。所述第二信息被用于确定第一参数,所述第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被第一节点用于确定是否接入服务小区。所述第一节点是一个所述第一信息的接收者。所述业务组对应一个网络切片。所述第一无线信号的传输效率和所述第一空口资源相关。所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。In the sixth embodiment, the first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources. The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the first node to determine whether Access to the service cell. The first node is a recipient of the first information. The service group corresponds to a network slice. The transmission efficiency of the first wireless signal is related to the first air interface resource. The first information further includes a first security key, and the first security key is used for at least one of {data encryption, integrity protection}.
作为一个子实施例,所述第二发送模块201还用于发送第二信息。所述第二信息被用于确定第一参数,第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被第一节点用于确定是否接入服务小区。所述第三信息是所述第一节点生成的。As a sub-embodiment, the second sending module 201 is further configured to send the second information. The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the first node to determine whether to access Service area. The third information is generated by the first node.
作为该子实施例的一个附属实施例,所述第一节点通过所述第二信息 生成所述第三信息。As an auxiliary embodiment of the sub-embodiment, the first node passes the second information Generating the third information.
作为该子实施例的一个附属实施例,所述第一节点是一个用户设备。As a subsidiary embodiment of this sub-embodiment, the first node is a user equipment.
作为一个子实施例,所述第一节点是所述第一信息的接收者。As a sub-embodiment, the first node is a recipient of the first information.
作为一个子实施例,所述业务组对应一个网络切片。As a sub-embodiment, the service group corresponds to one network slice.
作为一个子实施例,所述第一无线信号的传输效率和所述第一空口资源相关。As a sub-embodiment, the transmission efficiency of the first wireless signal is related to the first air interface resource.
作为一个子实施例,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。As a sub-embodiment, the first information further includes a first security key, and the first security key is used for at least one of {data encryption, integrity protection}.
本领域普通技术人员可以理解上述方法中的全部或部分步骤可以通过程序来指令相关硬件完成,所述程序可以存储于计算机可读存储介质中,如只读存储器,硬盘或者光盘等。可选的,上述实施例的全部或部分步骤也可以使用一个或者多个集成电路来实现。相应的,上述实施例中的各模块单元,可以采用硬件形式实现,也可以由软件功能模块的形式实现,本申请不限于任何特定形式的软件和硬件的结合。本发明中的UE和终端包括但不限于RFID,物联网终端设备,MTC(Machine Type Communication,机器类型通信)终端,车载通信设备,无线传感器,上网卡,手机,平板电脑,笔记本等无线通信设备。本发明中的基站,基站设备,和网络侧设备包括但不限于宏蜂窝基站,微蜂窝基站,家庭基站,中继基站等无线通信设备。One of ordinary skill in the art can appreciate that all or part of the above steps can be completed by a program to instruct related hardware, and the program can be stored in a computer readable storage medium such as a read only memory, a hard disk or an optical disk. Alternatively, all or part of the steps of the above embodiments may also be implemented using one or more integrated circuits. Correspondingly, each module unit in the above embodiment may be implemented in hardware form or in the form of a software function module. The application is not limited to any specific combination of software and hardware. The UE and the terminal in the present invention include but are not limited to RFID, IoT terminal equipment, MTC (Machine Type Communication) terminal, vehicle communication device, wireless sensor, network card, mobile phone, tablet computer, notebook and other wireless communication devices. . The base station, the base station device, and the network side device in the present invention include, but are not limited to, a macro communication base station, a micro cell base station, a home base station, a relay base station, and the like.
以上所述,仅为本发明的较佳实施例而已,并非用于限定本发明的保护范围。凡在本发明的精神和原则之内,所做的任何修改,等同替换,改进等,均应包含在本发明的保护范围之内。 The above is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. All modifications, equivalents, improvements, etc., made within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (14)

  1. 一种被用于无线通信的UE中的方法,其中,包括如下步骤:A method in a UE for wireless communication, comprising the steps of:
    -步骤A.接收第一信息;- Step A. Receiving the first information;
    -步骤B.在第一空口资源上操作第一无线信号。Step B. operating the first wireless signal on the first air interface resource.
    其中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述操作是接收并且所述第一无线信号被用于寻呼,或者所述操作是发送并且所述第一无线信号被用于随机接入。The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access.
  2. 根据权利要求1所述的方法,其特征在于,还包括如下步骤:The method of claim 1 further comprising the steps of:
    -步骤C.在第一空口上行资源上发送第二无线信号。Step C. Send a second wireless signal on the first air interface uplink resource.
    其中,所述操作是接收。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。Wherein the operation is reception. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources.
  3. 根据权利要求1,2所述的方法,其特征在于,所述步骤A还包括如下步骤:The method according to claim 1, wherein the step A further comprises the following steps:
    -步骤A0.接收第二信息;- step A0. receiving the second information;
    -步骤A1.确定第三信息。- Step A1. Determine the third information.
    其中,所述第二信息被用于确定第一参数,所述第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被所述UE用于确定是否接入服务小区。The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is used by the UE Determine whether to access the serving cell.
  4. 根据权利要求1-3所述的方法,其特征在于,所述业务组对应一个网络切片。The method according to any one of claims 1-3, wherein the service group corresponds to a network slice.
  5. 根据权利要求1-4所述的方法,其特征在于,所述第一无线信号的传输效率和所述第一空口资源相关。The method according to any one of claims 1-4, wherein the transmission efficiency of the first wireless signal is related to the first air interface resource.
  6. 根据权利要求1-5所述的方法,其特征在于,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。The method according to any one of claims 1-5, wherein said first information further comprises a first security key, said first security key being used for at least one of {data encryption, integrity protection} One.
  7. 一种被用于无线通信的基站中的方法,其中,还包括如下步骤: A method in a base station used for wireless communication, further comprising the steps of:
    -步骤A.发送第一信息;- Step A. Send the first message;
    -步骤B.在第一空口资源上执行第一无线信号。Step B. Performing a first wireless signal on the first air interface resource.
    其中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述执行是发送并且所述第一无线信号被用于寻呼,或者所述执行是接收并且所述第一无线信号被用于随机接入。The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The execution is to send and the first wireless signal is used for paging, or the execution is to receive and the first wireless signal is used for random access.
  8. 根据权利要求7所述的方法,其特征在于,还包括如下步骤:The method of claim 7 further comprising the steps of:
    -步骤C.在第一空口上行资源上接收第二无线信号。Step C. Receive a second wireless signal on the first air interface uplink resource.
    其中,所述执行是发送。所述第一信息被用于确定K个空口上行资源,所述K个空口上行资源分别被预留给所述K个业务组。所述空口上行资源被预留给上行传输,所述空口上行资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源和所述第一空口上行资源被预留给同一个所述业务组。所述第一空口上行资源是所述K个空口上行资源中的一个所述空口上行资源。Wherein the execution is a transmission. The first information is used to determine K air interface uplink resources, and the K air interface uplink resources are respectively reserved for the K service groups. The air interface uplink resource is reserved for uplink transmission, and the air interface uplink resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource and the first air interface uplink resource are reserved for the same service group. The first air interface uplink resource is one of the K air interface uplink resources.
  9. 根据权利要求7,8所述的方法,其特征在于,所述步骤A还包括如下步骤:The method according to claim 7, wherein the step A further comprises the following steps:
    -步骤A0.发送第二信息;- Step A0. Sending the second information;
    其中,所述第二信息被用于确定第一参数,第三信息被用于确定第二参数,所述第一参数和所述第二参数之间的相对关系被所述第一信息的接收者用于确定是否接入服务小区。所述第一节点是一个所述第一信息的接收者。The second information is used to determine a first parameter, the third information is used to determine a second parameter, and a relative relationship between the first parameter and the second parameter is received by the first information It is used to determine whether to access the serving cell. The first node is a recipient of the first information.
  10. 根据权利要求7-9所述的方法,其特征在于,所述业务组对应一个网络切片。The method according to claims 7-9, wherein the service group corresponds to a network slice.
  11. 根据权利要求7-10所述的方法,其特征在于,所述第一无线信号的传输效率和所述第一空口资源相关。The method according to any of claims 7-10, characterized in that the transmission efficiency of the first wireless signal is related to the first air interface resource.
  12. 根据权利要求7-11所述的方法,其特征在于,所述第一信息还包括第一安全密钥,所述第一安全密钥被用于{数据加密,完整性保护}中的至少之一。The method according to any one of claims 7-11, wherein said first information further comprises a first security key, said first security key being used for at least one of {data encryption, integrity protection} One.
  13. 一种被用于无线通信的用户设备,其中,包括如下模块:A user equipment used for wireless communication, comprising the following modules:
    -第一接收模块:用于接收第一信息;a first receiving module: for receiving the first information;
    -第一处理模块:用于在第一空口资源上操作第一无线信号。 a first processing module: for operating the first wireless signal on the first air interface resource.
    其中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述操作是接收并且所述第一无线信号被用于寻呼,或者所述操作是发送并且所述第一无线信号被用于随机接入。The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The operation is to receive and the first wireless signal is used for paging, or the operation is to transmit and the first wireless signal is used for random access.
  14. 一种被用于无线通信的基站设备,其中,包括如下模块:A base station device used for wireless communication, comprising the following modules:
    -第二发送模块:用于发送第一信息;a second sending module: configured to send the first information;
    -第二处理模块:用于在第一空口资源上执行第一无线信号。a second processing module: configured to perform the first wireless signal on the first air interface resource.
    其中,所述第一信息被用于确定K个空口资源,所述K个空口资源分别被预留给K个业务组,所述业务组中包括一种或者多种业务。所述空口资源包括{时域资源,频域资源,码域资源}中的至少之一。所述第一空口资源是所述K个空口资源中的一个所述空口资源。所述K个空口资源对应同一种无线接入技术。所述K是正整数。所述执行是发送并且所述第一无线信号被用于寻呼,或者所述执行是接收并且所述第一无线信号被用于随机接入。 The first information is used to determine K air interface resources, and the K air interface resources are respectively reserved for K service groups, where the service group includes one or more services. The air interface resource includes at least one of {time domain resource, frequency domain resource, and code domain resource}. The first air interface resource is one of the K air interface resources. The K air interface resources correspond to the same radio access technology. The K is a positive integer. The execution is to send and the first wireless signal is used for paging, or the execution is to receive and the first wireless signal is used for random access.
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