WO2013029553A1 - Method and apparatus for group call - Google Patents
Method and apparatus for group call Download PDFInfo
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- WO2013029553A1 WO2013029553A1 PCT/CN2012/080789 CN2012080789W WO2013029553A1 WO 2013029553 A1 WO2013029553 A1 WO 2013029553A1 CN 2012080789 W CN2012080789 W CN 2012080789W WO 2013029553 A1 WO2013029553 A1 WO 2013029553A1
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- group
- group call
- user equipment
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- base station
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/06—Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
Definitions
- the present invention claims the priority of the Chinese patent application filed on August 30, 2011, the Chinese Patent Office, the application No. 201110252366.4, and the invention entitled “Group Calling Method and Equipment", the entire contents of which are incorporated by reference. Combined in this application.
- TECHNICAL FIELD The present invention relates to the field of wireless communication technologies, and in particular, to a method and a device for group call.
- M2M Machine to Machine
- the purpose is to connect all items to the Internet through information sensing devices. Intelligent identification and management. Combined with the Internet, they enable remote sensing and control of all items, resulting in a more intelligent production and living system.
- M2M devices With the development of technology, the number of M2M devices will become very large. These devices will be closely integrated with wireless communication technologies and obtain data through wireless connections or report data to the control center. Due to random or periodic reporting data, it has a great impact on the network, and even causes network congestion or even paralysis.
- the application terminal devices such as the wireless water meter and the electric meter
- the current communication system generally performs corresponding operations one by one.
- each terminal device performs a complete signaling process similar to the current mobile terminal, and transmits data through scheduling.
- the signaling interaction is also very large. Large, and even lead to signaling overload, and this homogenization operation is undoubtedly a big waste of system resources.
- the embodiments of the present invention provide a method and a device for group call, which can solve the problem that a large number of signaling interactions are caused when a large-scale M2M device is reported periodically.
- a method for group call including: configuring a group context for a user equipment; transmitting a message of a full-band uplink channel quality sounding to the user equipment; and receiving a full-band uplink channel quantity that is sent by the user equipment a response of the sounding signal, the response is sent by the user equipment according to the message of the full-band uplink channel quality detection; and updating the group context according to the response of the full-band uplink channel quality sounding signal, the updating
- the group context includes a group call parameter, the group call parameter is configured to receive a group call message and send a response; send a message carrying the group call parameter to the user equipment; and send the message to the user equipment according to the updated group context Sending a group call message; receiving a response of the group call message sent by the user equipment according to the group call message and the group call parameter.
- a method for group call including: receiving a message of a full-band uplink channel quality sounding sent by a base station; and transmitting, by using the message of the full-band uplink channel quality sounding, a full-band uplink channel to the base station a response of the quality detection signal; receiving a message carrying the group call parameter sent by the base station, the group call parameter is used to receive the group call message and send a response; storing the group call parameter, and remaining in the idle state And receiving, according to the stored group call parameter, a group call message sent by the base station, and sending a response of the group call message to the base station.
- a device for providing a group call includes: a configuration module, configured to configure a group context for the user equipment; a transceiver module, configured to send a message of the full-band uplink channel quality detection to the user equipment; Receiving, by the user equipment, a response that carries a full-band uplink channel quality sounding signal, where the response is sent by the user equipment according to the message of the full-band uplink channel quality detection; and the processing module is configured to use, according to the transceiver module Receiving the response of the full-band uplink channel quality sounding signal, updating the group context configured by the configuration module, the updated group context includes a group call parameter, and the group call parameter is used to receive the group call message and send the response
- the transceiver module is configured to send the message of the group call parameter to the user equipment, where the group call parameter is included in the group context updated by the processing module, and the transceiver module is configured to The group context updated by the processing module sends a group call to the user equipment
- a device for providing a group call includes: a transceiver module, configured to receive a message that the base station sends a full-band uplink channel quality probe, and send the bearer to the base station according to the message of the full-band uplink channel quality detection.
- the transceiver module is configured to receive a message that carries the group call parameter sent by the base station, where the group call parameter is used to receive the group call message and send a response, where the group call parameter Included in the group context updated by the base station; a storage module, configured to store a group call parameter received by the transceiver module, and still maintain the group call parameter when in an idle state; The group call parameter stored by the storage module receives a group call message sent by the base station, and sends a response of the group call message to the base station.
- the embodiment of the present invention can perform initial MCS (Modulation Coding Scheme) selection by configuring full-band uplink channel quality sounding according to the low mobility of the user equipment, and perform static according to the MC S selected by all user equipments.
- the RB (Radio Bearer) grouping and configuring the group context, and the user equipment still saves the group context after being transferred to the IDLE state, and then sequentially connected, so that the user equipment receives the report request in order, Data transmission is performed according to the static configuration, so that the RB configuration and reconfiguration are not required, and the PDCCH (physical downlink control channel) scheduling process is not required, which greatly saves signaling interaction, and the base station (eNB) can pass
- the way the group context is maintained is much less expensive than maintaining a context for each user device.
- FIG. 1 is a flow diagram of a method 100 of group calling in accordance with an embodiment of the present invention.
- FIG. 2 is a flow diagram of another method 200 of group call in accordance with an embodiment of the present invention.
- FIG. 3 is a timing diagram of a method of group call in accordance with an embodiment of the present invention.
- FIG. 4 is a block diagram of an apparatus for group call in accordance with an embodiment of the present invention.
- Figure 5 is a block diagram of an apparatus for group call in accordance with another embodiment of the present invention.
- FIG. 6 is a block diagram of another device for group call in accordance with an embodiment of the present invention.
- FIG. 7 is a block diagram of another device for group call in accordance with another embodiment of the present invention.
- WCDMA Wideband Code Division Multiple Access
- GPRS General Packet Radio Service
- LTE Long Term Evolution
- LTE Long Term Evolution
- a user equipment which may also be called a mobile terminal (Mobile Terminal), a mobile user equipment, or the like, may communicate with one or more core networks via a radio access network (eg, RAN, Radio Access Network).
- the user equipment may be a mobile terminal, such as a mobile phone (or "cellular" phone) and a computer with a mobile terminal, for example, a mobile device that can be portable, pocket-sized, handheld, built-in or in-vehicle, or It is a low mobility machine type communication (MTC) terminal device that exchanges language and/or data with a radio access network.
- MTC low mobility machine type communication
- the base station may be a base station (NodeB) in the UMTS, or may be an evolved base station (eNB or e-NodeB, evolved Node B) in the LTE.
- NodeB base station
- eNB evolved base station
- e-NodeB evolved Node B
- the present invention is not limited, but for convenience of description, the following embodiments are used as an eNB. Give an example for explanation.
- Method 100 is a flow diagram of a method 100 of group calling in accordance with an embodiment of the present invention.
- Method 100 can be implemented by a base station in a wireless communication system.
- the method 100 shown in Figure 1 includes:
- the MTC server or the core network element configures the group information for the base station, for example, instructs the base station to group the smart meters into groups, and the base station performs the initial configuration of the group context according to the information, and may directly
- the packet information is configured to the base station, and the base station configures the group context.
- the receiving user equipment sends a message carrying a machine type communication identifier (MTC indicator) to determine that the user equipment is the same group of user equipment.
- MTC indicator machine type communication identifier
- it may also be determined by other information such as an access point number (APN, Access Point Number) of the user equipment, and an International Mobile Subscriber Identity (IMSI) of a specific number segment.
- API access point number
- IMSI International Mobile Subscriber Identity
- Table 1 is an example of a group context in an embodiment of the present invention.
- the various parameters therein are merely examples for convenience of description, and the parameters may be defined in different manners in different embodiments, and may include, but are not limited to, one or more of the illustrated parameters in different embodiments. According to the definition of the parameters, the common parameters required by the different embodiments may be obtained by the combination of the different parameters.
- the embodiments of the present invention are not limited thereto, as long as the embodiments of the present invention can be implemented, various implementation manners are in the scope of the present invention. within.
- the group context includes common information of all user equipments: group ID, machine type communication identity, group consecutive paging times, group initial access time offset and group call time, and sequence number and resource allocation information table for each user equipment. among them,
- Group consecutive paging times The number of times the base station sends a group call message to the group where the user equipment is located.
- Group initial access time offset Used to identify which group call message the group call message is. If the number of consecutive pagings in the group is 3, the initial access time offset carried in the first group call message is set to 3, and the second group call message is set to 2, in the third group call message. Then set to 1.
- Group call time The time when the base station sends a group call message.
- the sequence number and resource allocation information table includes sequence number information and resource information of one or more dedicated radio bearer sequence numbers, where the resource information includes: dedicated RB parameter information, dedicated time window length, dedicated preamble, and maximum number of preamble transmissions; : User equipment ID, intra-group number, and transmission success flag.
- the contents of the serial number information are empty.
- Exclusive RB parameter information Parameter information corresponding to the specific radio bearer sequence number.
- RBS2 sets all the parameters of the RLC (Radio Link Control) and MAC (Media Access Control) layer configuration, and defines the specific physical layer transmission. Time-frequency resource blocks and modulation coding information.
- Dedicated time window length Specifies the duration of each user equipment on the dedicated time-frequency resource from the transmission of the dedicated preamble to the completion of the data transmission or only the duration of the data transmission completion.
- Maximum number of preambles sent The maximum number of times each user equipment is allowed to send a dedicated preamble.
- User equipment ID It can be the IMSI (International Mobile Subscriber Identity) of each user equipment. It can also be used as other temporary static identification TMSI (Temporary Mobile Subscriber Identity) or (>1;11 (Global User Temporary Identity, global user temporary identifier).
- IMSI International Mobile Subscriber Identity
- TMSI Temporary Mobile Subscriber Identity
- >1;11 Global User Temporary Identity, global user temporary identifier
- Exclusive radio bearer sequence number All user equipments perform full-band uplink channel quality sounding (sounding) to perform initial MCS (modulation and coding) selection, and then perform group numbering after static RB grouping according to the MCS selected by all devices.
- In-group serial number The serial number of each group after each user equipment is regrouped by the exclusive radio bearer sequence number.
- Transmission success flag This message is used to mark the user equipment that was successfully transmitted. For example, the transmission success flag information of the user equipment that successfully transmitted the data can be set to true (true), and the transmission success flag information of the user equipment that failed to send the data can be set to false (false).
- exclusive resources of different exclusive radio bearer sequence numbers such as exclusive RB parameter information, dedicated preamble and/or dedicated time window, are different. Others, such as the maximum number of preamble transmissions, may be the same.
- the modulation coding mode of the user equipment is selected according to the full-band uplink channel quality sounding signal, and the user equipment is subjected to static RB grouping according to the selected modulation and coding mode.
- the grouping of the user equipment is performed by updating the sequence number and the resource allocation information table in the group, including assigning the intra-group serial number to the user equipment, adding the user equipment ID, and assigning a value to the transmission success identification bit, thereby establishing correspondence between various parameters. .
- Group ID MTC ID
- group consecutive paging times group initial access time offset
- the sequence user is transmitted to the number 1.
- the standby ID is set in the function group. The user is set to transmit the number 2.
- the standby ID is set in the function group. The user is set to transmit the number 3.
- the group call parameters may include group ID, dedicated radio bearer parameter information, intra-group serial number, dedicated preamble, maximum number of preamble transmissions, dedicated time window length, group call time, and group consecutive paging times.
- the group call message can carry the group ID, the initial access time offset of the group, and the like.
- the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, according to all user equipments.
- the selected MCS performs static RB grouping and configures the group context, and the user equipment still saves the group context after being transferred to the IDLE state, and then combines the sequential access, so that the user equipment receives the reporting request in order, according to the static configuration.
- Data transmission thereby eliminating the need for RB configuration and reconfiguration, and without the PDCCH scheduling process, greatly saving signaling interaction, and the base station can maintain a context for each user equipment by maintaining the group context.
- Method 200 is a flow diagram of a method 200 of group calling in accordance with an embodiment of the present invention.
- Method 200 can be implemented by a user equipment in a wireless communication system.
- the method 200 shown in Figure 2 includes:
- the group call parameters may include group ID, group consecutive paging times, dedicated radio bearer sequence number, dedicated radio bearer parameter information, dedicated time window length, dedicated preamble, preamble maximum transmission number, and intra-group number.
- the group call message sent by the base station is received according to the receiving time corresponding to the group call time.
- the group call parameter includes the group ID, the intra-group serial number, the dedicated time window length, the maximum number of preamble transmissions, the dedicated preamble, and the dedicated RB parameter information
- the group call message sent by the base station is received, and the group call message carries the group
- the ID is the same as the group ID in the stored group call parameter
- the originating access time of the response of the group call message is calculated according to the intra-group serial number and the exclusive time window length.
- the dedicated preamble is sent to the base station until the message carrying the synchronization information is received or the maximum number of transmissions of the preamble is reached.
- a dedicated preamble can be continuously transmitted in a unit transmission time interval (TTI).
- TTI transmission time interval
- the power transmitted for the first time is started with the default power, and the subsequent power is increased step by step.
- the dedicated preamble is sent for the first time with the stored power decremented by one power at the time of successfully transmitting the message, and the power at the time of successfully transmitting the message is stored for use in the next response.
- the data is sent according to the synchronization information and the dedicated RB parameter information.
- the user equipment After the data is sent successfully or the sending time reaches the length of the dedicated time window, the user equipment enters the idle state.
- the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, perform static RB grouping and configure group context according to MCS selected by all user equipments, and After the user equipment is transferred to the IDLE state, the group context is still saved, and the user equipment is connected in order, so that the user equipment performs data transmission in sequence and in a static configuration when receiving the report request, thereby implementing configuration and reconfiguration of the RB.
- the PDCCH scheduling process is also not required, which greatly saves signaling interaction, and the base station can save the overhead by maintaining the context of the group compared to maintaining a context for each user equipment.
- FIG. 3 is a timing diagram of a method of group call in accordance with another embodiment of the present invention.
- the base station configures a group context for the MTC user equipment.
- the MTC user device After the MTC user equipment is powered on, the MTC user device initiates the access according to the manner of the general user equipment, sends the preamble, and obtains a TA (Timing Advance), and then sends an RRC Connection Request (RRCConnectionRequest) message, and the message can carry the MTC user.
- the MTC identifier of the device's classification MTC indicator ).
- the base station After receiving, the base station acquires an MTC identifier, and feeds back an RRC Connection Setup (RRC ConnectionSetup) message, where the RRC connection setup message requires the MTC user equipment to perform full-band uplink channel quality sounding.
- RRC ConnectionSetup RRC Connection Setup
- the MTC user equipment After receiving the RRC connection setup message, the MTC user equipment feeds back an RRC Connection Setup Complete (RRCConnectionSetupComplete) message, where the message carries a full-band uplink channel quality sounding signal (Sounding RS).
- RRCConnectionSetupComplete RRC Connection Setup Complete
- the base station After receiving the RRC connection setup complete message, the base station allocates the intra-group sequence number to the UE based on the full-band uplink channel quality sounding signal, and updates the update sequence number and the resource allocation information table in the group context, where the transmission success flag is set to False, see Table 2 for an example.
- the base station sends an RRC connection reconfiguration (RRCConnection econfiguration) message to the MTC user equipment, where the message carries the group call parameter for receiving the group call message and sending the response in the updated group context, and the content added in the message is as follows: MTC specific information ( MTCSpecificInfo )
- Group ID ( groupID )
- Group consecutive paging times groupPagingTimes
- the MTC user equipment receives an RRC connection reconfiguration message, where the message carries a group call parameter in the group context for receiving the group call message and sending a response, and stores the group call parameter as a reconfigured parameter.
- the MTC user equipment feeds back a RRC Connection Reconfiguration Complete (RRCConnectionReconfigurationComplete) message to the base station.
- RRCConnectionReconfigurationComplete RRC Connection Reconfiguration Complete
- the MTC user equipment and the base station perform the same connection release process as the general user equipment, save the stored group call parameters, and calculate the time of receiving the group call message in the same manner as the base station by using the group ID, and then enter idle (idle) In the state, the group call message is received, and the group call message is continuously received according to the calculated time of receiving the group call message.
- the base station triggers the group call, calculates the latest group call time, and sends a group call message, and the group call message carries the following content as shown in Table 4 below: group call list (groupPagingList)
- Group ID Group ID
- Required Parameter MD
- Group Initial Access Time Offset Required Data MD
- the MTC UE wakes up to receive the group call message at the time of receiving the group call message, and if the group call message is detected, determines whether the group ID in the group call message is the same as the group ID in the stored group call parameter, and if they are the same, According to the sequence number of the group (sequencelD), the exclusive radio bearer sequence number, the exclusive RB parameter information, and the dedicated time window length, calculate the initiating access time:
- the MTC user equipment sends a dedicated preamble by using a dedicated preamble configured in the group call parameter at the time of initiating the access.
- the dedicated preamble transmission mode may continuously send the dedicated preamble in unit TTI, and sequentially increase the power of the first step (step) to facilitate network detection until the RA (Random Access Response) carrying the synchronization information is received.
- the message or the exclusive preamble is climbed to the maximum number of transmissions of the preamble. If the RAR is not received after the maximum number of preamble transmissions, the exception processing is performed.
- the base station After receiving the dedicated preamble sent by the MTC user equipment, the base station feeds back the RAR message carrying the synchronization information, and prepares to start receiving data.
- the MTC user equipment After determining the TA according to the synchronization information, the MTC user equipment starts to send data after a fixed time interval defined in the configuration of the dedicated RB parameter information.
- the MTC user equipment is re-entered into the idle state. This time, the data is completed, and the group call message continues to be monitored.
- the base station After completing the data reception by the single MTC UE, the base station sets the transmission success flag of the MTC UE to be true, and resets an entity such as an RLC or a MAC. This will prepare the data for the next MTC user device.
- the MTC user equipment that failed to transmit is processed abnormally. After that, the transmission success flag of all MTC user equipments is set to false, and the reporting process ends.
- the exception handling for the MTC user equipment may be a separate call procedure to perform a general user equipment.
- the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, perform static RB grouping and configure group context according to MCS selected by all user equipments, and After the user equipment is transferred to the IDLE state, the group context is still saved, and the user equipment is connected in order, so that the user equipment performs data transmission in sequence and in a static configuration when receiving the report request, thereby implementing configuration and reconfiguration of the RB.
- the PDCCH scheduling process is also not required, which greatly saves signaling interaction, and the base station can save the overhead by maintaining the context of the group compared to maintaining a context for each user equipment.
- FIG. 4 is a block diagram of a device 40 for group calling in accordance with an embodiment of the present invention, including:
- a configuration module 41 configured to configure a group context for the user equipment
- the transceiver module 42 is configured to send a message of the full-band uplink channel quality detection to the user equipment, and a response for receiving the full-band uplink channel quality sounding signal sent by the user equipment, where the response is the user equipment 4, according to the message of the full-band uplink channel quality detection;
- the processing module 43 is configured to update, according to the response that the full-band uplink channel quality sounding signal is received by the transceiver module, a group context configured by the configuration module, where the updated group context includes a group call parameter, the group The call parameter is used to receive the group call message and send a response;
- the transceiver module 42 is configured to send, to the user equipment, a message of the group call parameter, where the group call parameter is included in the group context updated by the processing module;
- the transceiver module 42 is configured to send a group call message to the user equipment according to the group context updated by the processing module;
- the transceiver module 42 is configured to receive a response of the group call message sent by the user equipment according to the group call message and the group call parameter. .
- the device 40 implements the method 100, and details are not described again.
- the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, perform static RB grouping and configure group context according to MCS selected by all user equipments, and After the user equipment is transferred to the IDLE state, the group context is still saved, and the user equipment is connected in order, so that the user equipment performs data transmission in sequence and in a static configuration when receiving the report request, thereby implementing configuration and reconfiguration of the RB.
- the PDCCH scheduling process is also not required, which greatly saves signaling interaction, and the base station can save the overhead by maintaining the context of the group compared to maintaining a context for each user equipment.
- the transceiver module 42 is further configured to receive a communication identifier from the user equipment.
- the configuration module 41 is specifically configured to configure a group context for the user equipment according to the machine type communication identifier received by the transceiver module from the user equipment.
- the processing module 43 is specifically configured to:
- the update of the allocation information table correspondingly stores the correspondence between the group ID, the user equipment ID, the dedicated radio bearer sequence number, the intra-group sequence number, and the transmission success flag bit information.
- the device 40 further includes a calculating module 44, configured to calculate a latest group call time according to the group context updated by the processing module;
- the transceiver module 42 is configured to send a group call message to the user equipment at the group call time calculated by the computing module.
- the transceiver module 42 is specifically configured to:
- processing module 43 is further configured to set the transmission success flag information of the user equipment that successfully sends the data to true, and reset the radio link control layer protocol and the medium access control entity.
- the group context updated by the processing module 43 includes:
- sequence number and resource allocation information table includes one or more exclusive wireless Carry serial number information and resource information of the serial number
- the serial number information of the exclusive radio bearer sequence number and the resource information in the resource information include: dedicated RB parameter information, dedicated time window length, dedicated preamble, and maximum number of preamble transmissions; sequence number information and resource information of the dedicated radio bearer sequence number
- the serial number information in the following includes: user equipment ID, intra-group serial number, and transmission success identification bit.
- FIG. 6 is a block diagram of another device 50 for group call in accordance with an embodiment of the present invention, including:
- the transceiver module 51 is configured to receive a message that the base station sends the full-band uplink channel quality detection, and send a response that carries the full-band uplink channel quality detection signal to the base station according to the message of the full-band uplink channel quality detection.
- the transceiver module 51 is configured to receive a message that carries a group call parameter sent by the base station, where the group call parameter is used to receive a group call message and send a response;
- a storage module 52 configured to store a group call parameter received by the transceiver module, and maintain the group call parameter when in an idle state;
- the transceiver module 51 is configured to receive, according to the group call parameter stored by the storage module, a group call message sent by the base station, and send a response of the group call message to the base station.
- the device 50 implements the method 200, and details are not described again.
- the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, perform static RB grouping and configure group context according to MCS selected by all user equipments, and After the user equipment is transferred to the IDLE state, the group context is still saved, and the user equipment is connected in order, so that the user equipment performs data transmission in sequence and in a static configuration when receiving the report request, thereby implementing configuration and reconfiguration of the RB.
- the PDCCH scheduling process is also not required, which greatly saves signaling interaction, and the base station can save the overhead by maintaining the context of the group compared to maintaining a context for each user equipment.
- the transceiver module 51 is further configured to send a message carrying a machine type communication identifier to the base station, so that the user equipment configures a group context.
- the transceiver module 51 is specifically configured to: when the group call parameter includes a group ID, a group serial number, a dedicated time window length, a preamble maximum transmission number, a dedicated preamble, and exclusive RB parameter information, receiving the base station.
- the group call message is sent, and the group ID carried by the group call message is the same as the stored group ID, the response of the group call message is calculated according to the intra-group signal and the dedicated time window length.
- the preamble At the time of initiating access, according to the maximum number of transmissions of the preamble, continuously transmitting the dedicated preamble to the base station at a unit transmission time interval until receiving a message carrying synchronization information or reaching the preamble a maximum number of transmissions of the code; after receiving the message carrying the synchronization information sent by the base station according to the received exclusive preamble, transmitting data to the base station according to the synchronization message and the dedicated RB parameter information.
- the transceiver module 51 firstly transmits the dedicated preamble with the power of one level decremented when the last successfully transmitted message is stored, and stores the power when the message is successfully transmitted.
- the device 50 further includes:
- the processing module 53 is configured to: after the response is successfully sent or the sending time reaches the length of the dedicated time window, the device enters an idle state.
- the disclosed systems, devices, and methods may be implemented in other ways.
- the device embodiments described above are only schematic.
- the division of the modules is only a logical function division.
- there may be another division manner for example, multiple modules or components may be combined or Can be integrated into another system, or some features can be ignored, or not executed.
- the coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or module, and may be electrical, mechanical or otherwise.
- the modules described as separate components may or may not be physically separate.
- the components displayed as modules may or may not be physical modules, that is, may be located in one place, or may be distributed to multiple network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
- each functional module in each embodiment of the present invention may be integrated into one processing module, or each module may exist physically separately, or two or more modules may be integrated into one module.
- the functions, if implemented in the form of software functional modules and sold or used as separate products, may be stored in a computer readable storage medium.
- a computer readable storage medium includes: a USB flash drive, a mobile hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or A variety of media such as optical discs that can store program code.
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Abstract
Disclosed in the embodiments of the present invention are a method and an apparatus for a group call. The method comprises the following steps: configuring a group context for a User Equipment (UE) (110), sending a full-band uplink channel quality sounding message to the UE (120); receiving a UE response carrying a full-band uplink channel quality sounding signal (130); according to the response carrying the full-band uplink channel quality sounding signal, updating the group context which includes group call parameters for receiving the group call message and sending a response (140); sending a message carrying group parameters to the UE (150); according to the updated group context, sending a group call message to the UE (160); receiving a response sent by the UE according to the group call message and parameters to the group call message (170). According to the solution, the signaling interaction is significantly saved, and the cost is greatly reduced.
Description
组呼的方法及设备 本申请要求于 2011 年 08 月 30 日提交中国专利局、 申请号为 201110252366.4、 发明名称为"组呼的方法及设备"的中国专利申请的优先 权, 其全部内容通过引用结合在本申请中。 技术领域 本发明涉及无线通讯技术领域, 具体涉及组呼的方法及设备。 The present invention claims the priority of the Chinese patent application filed on August 30, 2011, the Chinese Patent Office, the application No. 201110252366.4, and the invention entitled "Group Calling Method and Equipment", the entire contents of which are incorporated by reference. Combined in this application. TECHNICAL FIELD The present invention relates to the field of wireless communication technologies, and in particular, to a method and a device for group call.
背景技术 物联网也被称作 M2M, 即 Machine to Machine (广义的还可理解为 Machine to Man, Man to Machine, Machine to Mobile ), 目的是把所有物品 通过信息传感设备与互联网连接起来, 实现智能化识别和管理。 它们与互 联网相结合, 可以实现所有物品的远程感知和控制, 由此生成一个更加智 能的生产生活体系。 BACKGROUND OF THE INVENTION The Internet of Things is also called M2M, which is Machine to Machine (Machine to Man, Man to Machine, Machine to Mobile). The purpose is to connect all items to the Internet through information sensing devices. Intelligent identification and management. Combined with the Internet, they enable remote sensing and control of all items, resulting in a more intelligent production and living system.
而随着技术的发展, M2M设备的数量会变的十分巨大, 这些设备会和 无线通信技术紧密结合, 并且通过无线连接获得数据或者将数据上报到控 制中心。 因随机或周期的上报数据对网络造成极大的冲击, 甚至造成网络 的拥塞甚至瘫痪。 With the development of technology, the number of M2M devices will become very large. These devices will be closely integrated with wireless communication technologies and obtain data through wireless connections or report data to the control center. Due to random or periodic reporting data, it has a great impact on the network, and even causes network congestion or even paralysis.
M2M的应用场景中, 包括无线水表、 电表等应用终端设备移动性较低, 且一般会要求所有终端设备周期进行数据上报, 针对这种应用需求, 当前 通信系统一般通过逐个的方式进行相应的操作, 这种方式使得每次上报时, 所有终端设备均要执行与当前手机终端类似的完整信令流程, 并通过调度 来发送数据, 由于终端设备数目巨大, 这种方式导致信令交互量也很大, 甚至导致信令超负荷(Signaling overload ) , 而且, 这种同质化的操作无疑 对系统资源是个较大的浪费。
发明内容 本发明实施例提供一种組呼的方法及设备, 能够解决大规模 M2M设备 周期上报时, 信令交互多导致超负荷的问题。 In the application scenario of the M2M, the application terminal devices, such as the wireless water meter and the electric meter, have low mobility, and generally require all terminal devices to periodically report data. For this application requirement, the current communication system generally performs corresponding operations one by one. In this way, each terminal device performs a complete signaling process similar to the current mobile terminal, and transmits data through scheduling. Each time the number of terminal devices is large, the signaling interaction is also very large. Large, and even lead to signaling overload, and this homogenization operation is undoubtedly a big waste of system resources. SUMMARY OF THE INVENTION The embodiments of the present invention provide a method and a device for group call, which can solve the problem that a large number of signaling interactions are caused when a large-scale M2M device is reported periodically.
一方面, 提供了一种组呼的方法, 包括: 为用户设备配置组上下文; 向所述用户设备发送全频带上行信道质量探测的消息; 接收所述用户设备 发送的携带全频带上行信道廣量探测信号的响应, 所述响应为所述用户设 备根据所述全频带上行信道质量探测的消息发送的; 根据所述携带全频带 上行信道质量探测信号的响应, 更新所述组上下文, 所述更新的组上下文 包括组呼参数, 所述组呼参数用于接收组呼消息并发送响应; 向所述用户 设备发送携带所述组呼参数的消息; 根据所述更新的组上下文向所述用户 设备发送组呼消息; 接收所述用户设备根据所述组呼消息以及所述组呼参 数发送的组呼消息的响应。 In one aspect, a method for group call is provided, including: configuring a group context for a user equipment; transmitting a message of a full-band uplink channel quality sounding to the user equipment; and receiving a full-band uplink channel quantity that is sent by the user equipment a response of the sounding signal, the response is sent by the user equipment according to the message of the full-band uplink channel quality detection; and updating the group context according to the response of the full-band uplink channel quality sounding signal, the updating The group context includes a group call parameter, the group call parameter is configured to receive a group call message and send a response; send a message carrying the group call parameter to the user equipment; and send the message to the user equipment according to the updated group context Sending a group call message; receiving a response of the group call message sent by the user equipment according to the group call message and the group call parameter.
另一方面, 提供了一种组呼的方法, 包括: 接收基站发送的全频带上 行信道质量探测的消息; 根据所述全频带上行信道质量探测的消息, 向所 述基站发送携带全频带上行信道质量探测信号的响应; 接收所述基站发送 的携带组呼参数的消息, 所述组呼参数用于接收组呼消息并发送响应; 存 储所述组呼参数, 并在空闲态时仍保持所述组呼参数; 根据所存储的所述 组呼参数, 接收所述基站发送的组呼消息, 并向所述基站发送所述组呼消 息的响应。 In another aspect, a method for group call is provided, including: receiving a message of a full-band uplink channel quality sounding sent by a base station; and transmitting, by using the message of the full-band uplink channel quality sounding, a full-band uplink channel to the base station a response of the quality detection signal; receiving a message carrying the group call parameter sent by the base station, the group call parameter is used to receive the group call message and send a response; storing the group call parameter, and remaining in the idle state And receiving, according to the stored group call parameter, a group call message sent by the base station, and sending a response of the group call message to the base station.
另一方面, 提供了一种组呼的设备, 包括: 配置模块, 用于为用户设 备配置组上下文; 收发模块, 用于向所述用户设备发送全频带上行信道质 量探测的消息; 和用于接收所述用户设备发送的携带全频带上行信道质量 探测信号的响应, 所述响应为所述用户设备根据所述全频带上行信道质量 探测的消息发送的; 处理模块, 用于根据所述收发模块接收的所述携带全 频带上行信道质量探测信号的响应, 更新所迷配置模块配置的组上下文, 所述更新的组上下文包括组呼参数, 所述组呼参数用于接收组呼消息并发 送响应; 所述收发模块, 用于向所述用户设备发送所述组呼参数的消息 , 所述组呼参数为所述处理模块更新的所述组上下文中包括的; 所述收发模 块, 用于根据所述处理模块更新的所述组上下文向所述用户设备发送组呼
消息; 所述收发模块, 用于接收所述用户设备根据所述组呼消息以及所述 组呼参数发送的组呼消息的响应。 On the other hand, a device for providing a group call includes: a configuration module, configured to configure a group context for the user equipment; a transceiver module, configured to send a message of the full-band uplink channel quality detection to the user equipment; Receiving, by the user equipment, a response that carries a full-band uplink channel quality sounding signal, where the response is sent by the user equipment according to the message of the full-band uplink channel quality detection; and the processing module is configured to use, according to the transceiver module Receiving the response of the full-band uplink channel quality sounding signal, updating the group context configured by the configuration module, the updated group context includes a group call parameter, and the group call parameter is used to receive the group call message and send the response The transceiver module is configured to send the message of the group call parameter to the user equipment, where the group call parameter is included in the group context updated by the processing module, and the transceiver module is configured to The group context updated by the processing module sends a group call to the user equipment The transceiver module is configured to receive a response of the group call message sent by the user equipment according to the group call message and the group call parameter.
另一方面, 提供了一种组呼的设备, 包括: 收发模块, 用于接收基站 发送全频带上行信道质量探测的消息, 根据所述全频带上行信道质量探测 的消息, 向所述基站发送携带全频带上行信道质量探测信号的响应; 所述 收发模块, 用于接收所述基站发送的携带组呼参数的消息, 所述组呼参数 用于接收组呼消息并发送响应, 所述组呼参数包含在所述基站更新的組上 下文中; 存储模块, 用于存储所述收发模块接收的组呼参数, 并在空闲态 时仍保持所述组呼参数; 所述收发模块, 用于根据所述存储模块所存储的 所述组呼参数, 接收所述基站发送的组呼消息, 并向所述基站发送所述组 呼消息的响应。 On the other hand, a device for providing a group call includes: a transceiver module, configured to receive a message that the base station sends a full-band uplink channel quality probe, and send the bearer to the base station according to the message of the full-band uplink channel quality detection. a response of the full-band uplink channel quality sounding signal; the transceiver module is configured to receive a message that carries the group call parameter sent by the base station, where the group call parameter is used to receive the group call message and send a response, where the group call parameter Included in the group context updated by the base station; a storage module, configured to store a group call parameter received by the transceiver module, and still maintain the group call parameter when in an idle state; The group call parameter stored by the storage module receives a group call message sent by the base station, and sends a response of the group call message to the base station.
本发明实施例可以根据用户设备的低移动性, 通过配置全频带上行信 道质量探测 (sounding )进行初始的 MCS ( Modulation Coding Scheme, 调 制编码方式)选择, 根据所有用户设备选择的 MC S, 进行静态 RB ( Radio Bearer, 无线承载)分组并配置组上下文, 并使用户设备在转入 IDLE (空 闲) 态后仍然保存组上下文, 再结合按序接入, 使得用户设备收到上报要 求时按序、按静态配置进行数据传输,从而实现无需进行 RB的配置及重配, 也无需 PDCCH ( physical downlink control channel, 物理下行控制信道)调 度过程, 极大地节省了信令交互, 并且基站(eNB )可以通过维护组上下文 的方式, 相比于为每个用户设备维护一个上下文, 大大节省了开销。 附图说明 为了更清楚地说明本发明实施例的技术方案, 下面将对实施例或现有 技术描述中所需要使用的附图作简单地介绍, 显而易见地, 下面描述中的 附图仅仅是本发明的一些实施例, 对于本领域普通技术人员来讲, 在不付 出创造性劳动的前提下, 还可以根据这些附图获得其他的附图。 The embodiment of the present invention can perform initial MCS (Modulation Coding Scheme) selection by configuring full-band uplink channel quality sounding according to the low mobility of the user equipment, and perform static according to the MC S selected by all user equipments. The RB (Radio Bearer) grouping and configuring the group context, and the user equipment still saves the group context after being transferred to the IDLE state, and then sequentially connected, so that the user equipment receives the report request in order, Data transmission is performed according to the static configuration, so that the RB configuration and reconfiguration are not required, and the PDCCH (physical downlink control channel) scheduling process is not required, which greatly saves signaling interaction, and the base station (eNB) can pass The way the group context is maintained is much less expensive than maintaining a context for each user device. BRIEF DESCRIPTION OF THE DRAWINGS In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the embodiments or the prior art description will be briefly described below. Obviously, the drawings in the following description are only the present drawings. Some embodiments of the invention may be obtained by those of ordinary skill in the art from the drawings without departing from the scope of the invention.
图 1是根据本发明实施例组呼的方法 100的流程图。 1 is a flow diagram of a method 100 of group calling in accordance with an embodiment of the present invention.
图 2是根据本发明实施例组呼的另一方法 200的流程图。 2 is a flow diagram of another method 200 of group call in accordance with an embodiment of the present invention.
图 3是根据本发明实施例组呼的方法的时序图。 3 is a timing diagram of a method of group call in accordance with an embodiment of the present invention.
图 4是根据本发明实施例组呼的设备的框图。
图 5是根据本发明另一实施例组呼的设备的框图。 4 is a block diagram of an apparatus for group call in accordance with an embodiment of the present invention. Figure 5 is a block diagram of an apparatus for group call in accordance with another embodiment of the present invention.
图 6是根据本发明实施例组呼的另一设备的框图。 6 is a block diagram of another device for group call in accordance with an embodiment of the present invention.
图 7是根据本发明另一实施例组呼的另一设备的框图。 7 is a block diagram of another device for group call in accordance with another embodiment of the present invention.
具体实施方式 detailed description
下面将结合本发明实施例中的附图, 对本发明实施例中的技术方案进 行清楚、 完整地描述, 显然, 所描述的实施例是本发明一部分实施例, 而 不是全部的实施例。 基于本发明中的实施例, 本领域普通技术人员在没有 做出创造性劳动前提下所获得的所有其他实施例, 都属于本发明保护的范 围。 The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.
本发明的技术方案, 可以应用于各种通信系统, 例如: 宽带码分多址 ( WCDMA, Wideband Code Division Multiple Access Wireless ) , 通用分组 无线业务(GPRS, General Packet Radio Service ) , 长期演进(LTE, Long Term Evolution )等。 The technical solution of the present invention can be applied to various communication systems, such as: Wideband Code Division Multiple Access (WCDMA), General Packet Radio Service (GPRS), Long Term Evolution (LTE, Long Term Evolution) and so on.
用户设备 (UE , User Equipment ) , 也可称之为移动终端 (Mobile Terminal )、移动用户设备等,可以经无线接入网(例如, RAN, Radio Access Network )与一个或多个核心网进行通信, 用户设备可以是移动终端, 如移 动电话(或称为"蜂窝"电话)和具有移动终端的计算机, 例如, 可以是便携 式、 袖珍式、 手持式、 计算机内置的或者车载的移动装置, 也可以是低移 动性的机器类通信(MTC, Machine Type Communication )终端设备, 它们 与无线接入网交换语言和 /或数据。 A user equipment (UE, User Equipment), which may also be called a mobile terminal (Mobile Terminal), a mobile user equipment, or the like, may communicate with one or more core networks via a radio access network (eg, RAN, Radio Access Network). The user equipment may be a mobile terminal, such as a mobile phone (or "cellular" phone) and a computer with a mobile terminal, for example, a mobile device that can be portable, pocket-sized, handheld, built-in or in-vehicle, or It is a low mobility machine type communication (MTC) terminal device that exchanges language and/or data with a radio access network.
基站, 可以是 UMTS中的基站(NodeB ) , 还可以是 LTE中的演进型基 站(eNB或 e-NodeB, evolutional Node B ) , 本发明并不限定, 但为描述方 便, 下述实施例以 eNB为例进行说明。 The base station may be a base station (NodeB) in the UMTS, or may be an evolved base station (eNB or e-NodeB, evolved Node B) in the LTE. The present invention is not limited, but for convenience of description, the following embodiments are used as an eNB. Give an example for explanation.
图 1是根据本发明实施例组呼的方法 100的流程图。 方法 100可以由无线 通信系统中的基站实现。 1 is a flow diagram of a method 100 of group calling in accordance with an embodiment of the present invention. Method 100 can be implemented by a base station in a wireless communication system.
如图 1所示的方法 100包括: The method 100 shown in Figure 1 includes:
110, 为用户设备配置组上下文。 110. Configure a group context for the user equipment.
对于 M2M设备来说, 由于业务单一, 由 MTC 服务器或核心网网元为 基站配置分组信息, 例如指示基站将智能电表分为一组, 基站据此信息进 行组上下文的初始配置, 也可以直接将分组信息配置给基站, 基站配置组 上下文。
可以通过接收用户设备发送携带机器类通信标识 (MTC indicator)的消 息, 确定用户设备是同一组的用户设备。 此外, 也可以通过用户设备的接 入点号码 ( APN, Access Point Number ) 、 特定号段的国际移动用户标识 ( IMSI, International Mobile Subscriber Identity )等其他信息来确定。 本发 明实施例对此不做限定。 For the M2M device, because the service is single, the MTC server or the core network element configures the group information for the base station, for example, instructs the base station to group the smart meters into groups, and the base station performs the initial configuration of the group context according to the information, and may directly The packet information is configured to the base station, and the base station configures the group context. The receiving user equipment sends a message carrying a machine type communication identifier (MTC indicator) to determine that the user equipment is the same group of user equipment. In addition, it may also be determined by other information such as an access point number (APN, Access Point Number) of the user equipment, and an International Mobile Subscriber Identity (IMSI) of a specific number segment. This embodiment of the present invention does not limit this.
表 1是本发明实施例中组上下文的例子。 其中的各种参数仅是出于说明 的方便进行的举例, 不同的实施方式中可以以不同的方式定义参数, 此外 不同实施例中可以包括但不限于所示参数中的一个或多个。 根据参数的定 义, 通过不同参数的组合可以得出不同实施方式所需的共同参数, 本发明 实施例对此不做限定, 只要能够实现本发明实施例, 各种实现方式均在本 发明 护范围之内。 Table 1 is an example of a group context in an embodiment of the present invention. The various parameters therein are merely examples for convenience of description, and the parameters may be defined in different manners in different embodiments, and may include, but are not limited to, one or more of the illustrated parameters in different embodiments. According to the definition of the parameters, the common parameters required by the different embodiments may be obtained by the combination of the different parameters. The embodiments of the present invention are not limited thereto, as long as the embodiments of the present invention can be implemented, various implementation manners are in the scope of the present invention. within.
组上下文包括所有用户设备的公共信息: 组 ID、 机器类通信标识、 组 连续寻呼次数、 组初始接入时间偏移和组呼时刻以及针对每个用户设备的 序号及资源分配信息表。 其中, The group context includes common information of all user equipments: group ID, machine type communication identity, group consecutive paging times, group initial access time offset and group call time, and sequence number and resource allocation information table for each user equipment. among them,
组连续寻呼次数: 基站向用户设备所在的组发送組呼消息的次数。
组初始接入时间偏移: 用于标识组呼消息是哪一次组呼消息。 如果组 连续寻呼次数是 3次, 则第一次组呼消息中携带的组初始接入时间偏置设为 3 , 第二次组呼消息中则设为 2, 第三次组呼消息中则设为 1。 Group consecutive paging times: The number of times the base station sends a group call message to the group where the user equipment is located. Group initial access time offset: Used to identify which group call message the group call message is. If the number of consecutive pagings in the group is 3, the initial access time offset carried in the first group call message is set to 3, and the second group call message is set to 2, in the third group call message. Then set to 1.
组呼时刻: 基站发送组呼消息的时刻。 Group call time: The time when the base station sends a group call message.
序号及资源分配信息表包括一个或多个专属无线承载序号的序号信息 和资源信息, 其中资源信息包括: 专属 RB参数信息、 专属时间窗长度、 专 属前导码和前导码最大传输次数; 序号信息包括: 用户设备 ID、 组内序号 和传输成功标识位。 初始设置时, 序号信息的内容是空的。 The sequence number and resource allocation information table includes sequence number information and resource information of one or more dedicated radio bearer sequence numbers, where the resource information includes: dedicated RB parameter information, dedicated time window length, dedicated preamble, and maximum number of preamble transmissions; : User equipment ID, intra-group number, and transmission success flag. At the initial setting, the contents of the serial number information are empty.
专属 RB参数信息: 专属无线承载序号对应的参数信息, RBS2置中 RLC (无线链路控制, Radio Link Control )和 MAC ( Media Access Control, 介 质访问控制)层配置的所有参数, 限定具体物理层传输的时频资源块和调 制编码信息。 Exclusive RB parameter information: Parameter information corresponding to the specific radio bearer sequence number. RBS2 sets all the parameters of the RLC (Radio Link Control) and MAC (Media Access Control) layer configuration, and defines the specific physical layer transmission. Time-frequency resource blocks and modulation coding information.
专属时间窗长度: 规定了每个用户设备在专用时频资源上从发送专属 前导码到数据发送完成的持续时间或仅指数据发送完成的持续时间。 Dedicated time window length: Specifies the duration of each user equipment on the dedicated time-frequency resource from the transmission of the dedicated preamble to the completion of the data transmission or only the duration of the data transmission completion.
前导码最大发送次数: 允许每个用户设备发送专属前导码的最大发送 次数。 Maximum number of preambles sent: The maximum number of times each user equipment is allowed to send a dedicated preamble.
用户设备 ID: 可以是每个用户设备的 IMSI ( International Mobile Subscriber Identity, 国际移动用户标识) , 也可用其他专属静态标识 TMSI ( Temporary Mobile Subscriber Identity,临时移动用户标识)或(>1;11( Global User Temporary Identity, 全球用户临时标识 )代替。 User equipment ID: It can be the IMSI (International Mobile Subscriber Identity) of each user equipment. It can also be used as other temporary static identification TMSI (Temporary Mobile Subscriber Identity) or (>1;11 (Global User Temporary Identity, global user temporary identifier).
专属无线承载序号: 所有用户设备进行全频带上行信道质量探测 ( sounding ) 以进行初始的 MCS (调制编码方式)选择后, 根据所有设备所选 择的 MCS, 进行静态 RB分组后的组序号。 Exclusive radio bearer sequence number: All user equipments perform full-band uplink channel quality sounding (sounding) to perform initial MCS (modulation and coding) selection, and then perform group numbering after static RB grouping according to the MCS selected by all devices.
组内序号: 每个用户设备以专属无线承载序号进行再次分组后的组内 序号。 In-group serial number: The serial number of each group after each user equipment is regrouped by the exclusive radio bearer sequence number.
传输成功标识位: 该信息为了标记传输成功的用户设备。 例如, 成功 发送数据的用户设备的传输成功标志位信息可以设置为真(true ) , 发送数 据失败的用户设备的传输成功标志位信息可以设置为假( false ) Transmission success flag: This message is used to mark the user equipment that was successfully transmitted. For example, the transmission success flag information of the user equipment that successfully transmitted the data can be set to true (true), and the transmission success flag information of the user equipment that failed to send the data can be set to false (false).
不同专属无线承载序号下各项专属资源, 例如专属 RB参数信息、 专属 前导码和 /或专属时间窗长度不相同,其他如前导码最大传输次数可以相同。 The exclusive resources of different exclusive radio bearer sequence numbers, such as exclusive RB parameter information, dedicated preamble and/or dedicated time window, are different. Others, such as the maximum number of preamble transmissions, may be the same.
120, 向用户设备发送全频带上行信道质量探测 (sounding ) 的消息。
130, 接收用户设备发送的携带全频带上行信道质量探测信号的响应, 所述响应为用户设备根据全频带上行信道质量探测的消息发送的。 120. Send a message of full-band uplink channel quality sounding to the user equipment. 130. Receive, by the user equipment, a response that carries a full-band uplink channel quality sounding signal, where the response is sent by the user equipment according to the full-band uplink channel quality detection message.
140, 根据携带全频带上行信道质量探测信号的响应, 更新组上下文, 更新的组上下文包括组呼参数, 所述组呼参数用于接收组呼消息并发送响 应。 140. Update a group context according to a response carrying a full-band uplink channel quality sounding signal, where the updated group context includes a group call parameter, where the group call parameter is used to receive a group call message and send a response.
根据全频带上行信道质量探测信号选择用户设备的调制编码方式, 根 据所选择的调制编码方式为用户设备进行静态 RB分組。 The modulation coding mode of the user equipment is selected according to the full-band uplink channel quality sounding signal, and the user equipment is subjected to static RB grouping according to the selected modulation and coding mode.
对分组后的用户设备进行组上文中的序号及资源分配信息表的更新, 包括为用户设备分配组内序号、 加入用户设备 ID、 为传输成功标识位赋值, 由此建立各种参数的对应关系。 The grouping of the user equipment is performed by updating the sequence number and the resource allocation information table in the group, including assigning the intra-group serial number to the user equipment, adding the user equipment ID, and assigning a value to the transmission success identification bit, thereby establishing correspondence between various parameters. .
是本发明实施例的更新的组上下文的例子。 组 ID、 MTC标识、 组连续寻呼次数、 组初始接入时间偏移和组呼时刻 序号及资源分配信息表 Is an example of an updated group context of an embodiment of the present invention. Group ID, MTC ID, group consecutive paging times, group initial access time offset, and group call time sequence number and resource allocation information table
RB1 (专属无线^^ 序号 1 ) RB1 (exclusive wireless ^^ serial number 1)
资源信息 专属 RB参数信息 1、 专属时间窗长度 Resource information Exclusive RB parameter information 1. Exclusive time window length
1、 专属前导码 1和前导码最大传输次数 序号信息 组内序 用户设 传输成 号 1 备 ID 功标志位 组内序 用户设 传输成 号 2 备 ID 功标志位 组内序 用户设 传输成 号 3 备 ID 功标志位 1. Exclusive preamble 1 and preamble maximum transmission times serial number in the information group, the user is set to transmit the number 1 and the standby ID is set in the function group. The user is set to transmit the number 2. The standby ID is set in the function group. 3 standby ID function flag
RB2 (专属无线承 ^ 序号 2 ) RB2 (exclusive wireless carrier ^ serial number 2)
资源信息 专属 RB参数信息 2、 专属时间窗长度 Resource information Exclusive RB parameter information 2. Dedicated time window length
2、 专属前导码 2和前导码最大传输次数
序号信息 组内序 用户设 传输成 号 1 备 ID 功标志位 组内序 用户设 传输成 号 2 备 ID 功标志位 组内序 用户设 传输成 号 3 备 ID 功标志位 2, the exclusive preamble 2 and the maximum number of preamble transmissions In the serial number information group, the sequence user is transmitted to the number 1. The standby ID is set in the function group. The user is set to transmit the number 2. The standby ID is set in the function group. The user is set to transmit the number 3.
RB3 (专属无线 7 序号 3 ) RB3 (exclusive wireless 7 serial number 3)
150, 向用户设备发送携带组呼参数的消息。 150. Send a message carrying the group call parameter to the user equipment.
组呼参数可以包括组 ID、 专属无线承载参数信息、 组内序号, 专属前 导码、 前导码最大发送次数、 专属时间窗长度、 组呼时刻和组连续寻呼次 数等。 The group call parameters may include group ID, dedicated radio bearer parameter information, intra-group serial number, dedicated preamble, maximum number of preamble transmissions, dedicated time window length, group call time, and group consecutive paging times.
160, 根据更新的组上下文向用户设备发送组呼消息。 160. Send a group call message to the user equipment according to the updated group context.
根据更新的组上下文, 计算最近的组呼时刻, 在所述组呼时刻, 向用 户设备发送组呼消息。 组呼消息可以携带组 ID、 组初始接入时间偏移等。 Based on the updated group context, the most recent group call time is calculated, and at the group call time, a group call message is sent to the user equipment. The group call message can carry the group ID, the initial access time offset of the group, and the like.
170, 接收用户设备根据组呼消息和組呼参数发送的組呼消息的响应。 当组呼参数包括专属前导码时, 接收用户设备发送的专属前导码; 根 据接收到的专属前导码向用户设备发送携带同步信息的消息; 接收用户设 备根据同步信息发送的数据。 170. Receive a response of the group call message sent by the user equipment according to the group call message and the group call parameter. And receiving, by the user equipment, a message carrying the synchronization information according to the received dedicated preamble; and receiving the data sent by the user equipment according to the synchronization information.
将成功发送数据的用户设备的传输成功标志位信息设置为真; 重置无 线链路控制层协议 ( RLC, Radio Link Control )和介质访问控制 (MAC, Set the transmission success flag information of the user equipment that successfully transmitted data to true; reset the Radio Link Control Protocol (RLC) and media access control (MAC,
Media Access Control ) 实体, 以接收其他用户设备的组呼消息的响应。 Media Access Control ) An entity that receives responses to group call messages from other user devices.
根据上述技术方案, 本发明实施例可以根据用户设备的低移动性, 通 过配置全频带上行信道质量探测进行初始的 MCS选择, 根据所有用户设备
选择的 MCS, 进行静态 RB分组并配置组上下文, 并使用户设备在转入 IDLE 态后仍然保存组上下文, 再结合按序接入, 使得用户设备收到上报要求时 按序、 按静态配置进行数据传输, 从而实现无需进行 RB的配置及重配, 也 无需 PDCCH调度过程, 极大地节省了信令交互, 并且基站可以通过维护组 上下文的方式, 相比于为每个用户设备维护一个上下文, 大大节省了开销。 According to the foregoing technical solution, the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, according to all user equipments. The selected MCS performs static RB grouping and configures the group context, and the user equipment still saves the group context after being transferred to the IDLE state, and then combines the sequential access, so that the user equipment receives the reporting request in order, according to the static configuration. Data transmission, thereby eliminating the need for RB configuration and reconfiguration, and without the PDCCH scheduling process, greatly saving signaling interaction, and the base station can maintain a context for each user equipment by maintaining the group context. Significant savings in overhead.
图 2是根据本发明实施例组呼的方法 200的流程图。 方法 200可以由无线 通信系统中的用户设备实现。 2 is a flow diagram of a method 200 of group calling in accordance with an embodiment of the present invention. Method 200 can be implemented by a user equipment in a wireless communication system.
如图 2所示的方法 200包括: The method 200 shown in Figure 2 includes:
210, 接收基站发送的全频带上行信道质量探测 (sounding ) 的消息。 210. Receive a message of a full-band uplink channel quality sounding sent by a base station.
220, 根据所述全频带上行信道质量探测的消息, 向所述基站发送携带 全频带上行信道质量探测信号的响应。 220. Send, according to the message of the full-band uplink channel quality detection, a response carrying the full-band uplink channel quality sounding signal to the base station.
230, 接收基站发送的携带组呼参数的消息, 所述组呼参数用于接收组 呼消息并发送响应。 230. Receive, by the base station, a message that carries a group call parameter, where the group call parameter is used to receive a group call message and send a response.
240, 存储組呼参数, 并在空闲态时仍保持所述组呼参数。 240, storing a group call parameter, and maintaining the group call parameter while in an idle state.
组呼参数可以包括组 ID、 组连续寻呼次数、 专属无线承载序号、 专属 无线承载参数信息、 专属时间窗长度、 专属前导码、 前导码最大传输次数 和组内序号等。 The group call parameters may include group ID, group consecutive paging times, dedicated radio bearer sequence number, dedicated radio bearer parameter information, dedicated time window length, dedicated preamble, preamble maximum transmission number, and intra-group number.
250, 根据所存储的组呼参数, 接收基站发送的組呼消息, 并向基站发 送组呼消息的响应。 250. Receive, according to the stored group call parameter, a group call message sent by the base station, and send a response to the group call message to the base station.
根据组呼时刻对应的接收时间接收基站发送的组呼消息。 The group call message sent by the base station is received according to the receiving time corresponding to the group call time.
当组呼参数包括组 ID、 组内序号、 专属时间窗长度、 前导码最大传输 次数、 专属前导码和专属 RB参数信息时, 当接收到基站发送的组呼消息, 且组呼消息携带的组 ID与存储的组呼参数中的组 ID相同时, 根据组内序号 和专属时间窗长度计算组呼消息的响应的发起接入时刻。 When the group call parameter includes the group ID, the intra-group serial number, the dedicated time window length, the maximum number of preamble transmissions, the dedicated preamble, and the dedicated RB parameter information, when the group call message sent by the base station is received, and the group call message carries the group When the ID is the same as the group ID in the stored group call parameter, the originating access time of the response of the group call message is calculated according to the intra-group serial number and the exclusive time window length.
在发起接入时刻, 根据前导码最大传输次数, 向基站发送专属前导码, 直到收到携带同步信息的消息或达到前导码最大传输次数。 发送专属前导 码时可以以单位传输时间间隔( TTI, Transmission Time Interval )连续发送, 通常首次发送的功率以缺省功率首发, 后续的功率逐级上升。 作为不同的 实施例, 以所存储的上一次成功发送消息时所记录的功率递减一级的功率 首次发送专属前导码, 并存储本次成功发送消息时的功率以备下次响应时 使用。
收到基站根据接收到的专属前导码后发送的携带同步信息的消息后, 根据同步信息和专属 RB参数信息, 发送数据。 At the time of initiating the access, according to the maximum number of transmissions of the preamble, the dedicated preamble is sent to the base station until the message carrying the synchronization information is received or the maximum number of transmissions of the preamble is reached. When a dedicated preamble is sent, it can be continuously transmitted in a unit transmission time interval (TTI). Usually, the power transmitted for the first time is started with the default power, and the subsequent power is increased step by step. As a different embodiment, the dedicated preamble is sent for the first time with the stored power decremented by one power at the time of successfully transmitting the message, and the power at the time of successfully transmitting the message is stored for use in the next response. After receiving the message carrying the synchronization information sent by the base station according to the received dedicated preamble, the data is sent according to the synchronization information and the dedicated RB parameter information.
数据发送成功后或发送时间达到专属时间窗长度, 用户设备进入空闲 态。 After the data is sent successfully or the sending time reaches the length of the dedicated time window, the user equipment enters the idle state.
根据上述技术方案, 本发明实施例可以根据用户设备的低移动性, 通 过配置全频带上行信道质量探测进行初始的 MCS选择, 根据所有用户设备 选择的 MCS, 进行静态 RB分组并配置组上下文, 并使用户设备在转入 IDLE 态后仍然保存组上下文, 再结合按序接入, 使得用户设备收到上报要求时 按序、 按静态配置进行数据传输, 从而实现无需进行 RB的配置及重配, 也 无需 PDCCH调度过程, 极大地节省了信令交互, 并且基站可以通过维护组 上下文的方式, 相比于为每个用户设备维护一个上下文, 大大节省了开销。 According to the foregoing technical solution, the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, perform static RB grouping and configure group context according to MCS selected by all user equipments, and After the user equipment is transferred to the IDLE state, the group context is still saved, and the user equipment is connected in order, so that the user equipment performs data transmission in sequence and in a static configuration when receiving the report request, thereby implementing configuration and reconfiguration of the RB. The PDCCH scheduling process is also not required, which greatly saves signaling interaction, and the base station can save the overhead by maintaining the context of the group compared to maintaining a context for each user equipment.
图 3是根据本发明另一实施例組呼的方法的时序图。 3 is a timing diagram of a method of group call in accordance with another embodiment of the present invention.
301, 基站为 MTC用户设备配置组上下文。 301. The base station configures a group context for the MTC user equipment.
根据本发明实施例的组上下文的例子参见表 1。 其中的各种信息仅是出 于说明的方便进行的举例, 不同的实施方式中可以以不同的方式定义信息。 See Table 1 for an example of a group context in accordance with an embodiment of the present invention. The various information therein is merely an example of convenience for illustration, and information may be defined in different ways in different embodiments.
303 , MTC用户设备上电后, 按照一般用户设备的方式发起接入, 发送 前导码, 得到 TA ( Timing Advance, 发送时间提前量)后发送 RRC连接请 求( RRCConnectionRequest ) 消息, 消息可以携带指出 MTC用户设备的分 类的 MTC标识符( MTC indicator ) 。 303. After the MTC user equipment is powered on, the MTC user device initiates the access according to the manner of the general user equipment, sends the preamble, and obtains a TA (Timing Advance), and then sends an RRC Connection Request (RRCConnectionRequest) message, and the message can carry the MTC user. The MTC identifier of the device's classification ( MTC indicator ).
305 , 基站收到后, 获取 MTC标识符, 并反馈 RRC连接建立 ( RRCConnectionSetup ) 消息, 其中该 RRC连接建立消息要求 MTC用户设 备进行全频带上行信道质量探测 (sounding ) 。 305. After receiving, the base station acquires an MTC identifier, and feeds back an RRC Connection Setup (RRC ConnectionSetup) message, where the RRC connection setup message requires the MTC user equipment to perform full-band uplink channel quality sounding.
307 , 收到 RRC连接建立消息后, MTC用户设备反馈 RRC连接建立完成 ( RRCConnectionSetupComplete )消息, 消息携带全频带上行信道质量探测 信号 ( Sounding RS ) 。 307. After receiving the RRC connection setup message, the MTC user equipment feeds back an RRC Connection Setup Complete (RRCConnectionSetupComplete) message, where the message carries a full-band uplink channel quality sounding signal (Sounding RS).
309, 基站收到 RRC连接建立完成消息后, 基于全频带上行信道质量探 测信号为该 UE分配组内序号, 并更新组上下文中的更新序号及资源分配信 息表, 其中, 传输成功标志位设为假, 示例参见表 2。 309. After receiving the RRC connection setup complete message, the base station allocates the intra-group sequence number to the UE based on the full-band uplink channel quality sounding signal, and updates the update sequence number and the resource allocation information table in the group context, where the transmission success flag is set to False, see Table 2 for an example.
311 , 基站 向 MTC用 户 设备发送 RRC 连接 重 新 配 置 ( RRCConnection econfiguration ) 消息, 该消息携带更新的组上下文中的 用于接收组呼消息并发送响应的组呼参数, 消息中增加的内容如下表 3所
MTC特定信息( MTCSpecificInfo ) 311. The base station sends an RRC connection reconfiguration (RRCConnection econfiguration) message to the MTC user equipment, where the message carries the group call parameter for receiving the group call message and sending the response in the updated group context, and the content added in the message is as follows: MTC specific information ( MTCSpecificInfo )
组 ID ( groupID ) Group ID ( groupID )
组连续寻呼次数 ( groupPagingTimes ) Group consecutive paging times ( groupPagingTimes )
专属无线承载序号对应的信息 ( RBInfo ) Information corresponding to the exclusive radio bearer sequence number ( RBInfo )
专属无线承载参数 ( BPara ) Exclusive radio bearer parameters (BPara)
组内序号 (SequencelD ) Group number (SequencelD)
专属前导码 Exclusive preamble
前导码最大发送次数 Preamble maximum number of transmissions
专属时间窗长度 Exclusive time window length
组呼时刻 Group call moment
313 , MTC用户设备接收 RRC连接重新配置消息, 该消息携带组上下文 中的用于接收组呼消息并发送响应的组呼参数, 存储组呼参数以作为重新 配置的参数。 313. The MTC user equipment receives an RRC connection reconfiguration message, where the message carries a group call parameter in the group context for receiving the group call message and sending a response, and stores the group call parameter as a reconfigured parameter.
315, MTC用 户 设备向基站反馈 RRC连接重新配置完成 ( RRCConnectionReconfigurationComplete ) 消息。 315. The MTC user equipment feeds back a RRC Connection Reconfiguration Complete (RRCConnectionReconfigurationComplete) message to the base station.
317 , MTC用户设备与基站之间执行与一般用户设备相同的连接释放过 程, 保存所存储的组呼参数, 并利用组 ID采用与基站相同方式计算接收组 呼消息的时刻, 之后进入空闲 (idle ) 态, 监听组呼消息, 根据计算的接收 组呼消息的时刻以便醒来连续接收组呼消息。 317: The MTC user equipment and the base station perform the same connection release process as the general user equipment, save the stored group call parameters, and calculate the time of receiving the group call message in the same manner as the base station by using the group ID, and then enter idle (idle) In the state, the group call message is received, and the group call message is continuously received according to the calculated time of receiving the group call message.
至此, 单个 MTC UE的接入及序号分配过程完成, 所有 MTC UE均按照 上述流程执行, 后续为组呼寻呼及响应过程。 So far, the access and sequence number assignment process of a single MTC UE is completed, and all MTC UEs are executed according to the above procedure, followed by a group call paging and response process.
319, 基站触发组呼, 计算最近的组呼时刻, 并发送组呼消息, 组呼消 息携 以下内容如下表 4所示: 組呼清单 ( groupPagingList ) 319. The base station triggers the group call, calculates the latest group call time, and sends a group call message, and the group call message carries the following content as shown in Table 4 below: group call list (groupPagingList)
組 ID ( groupID ) 必选参数 ( MD ) 组初始接入时间偏移 必选数据 ( MD )
I ( initialAccessTimeOffset ) | | 如果组连续寻呼次数是 3次, 则第一次组呼时, 组初始接入时间偏移设 为 3, 第二次设为 2, 第三次设为 1。 这样 MTC用户设备可以获知收到的是第 几次组呼消息, 从而通过计算保证上传的发起接入时刻同组呼消息要求的 时间一致。 Group ID (groupID) Required Parameter (MD) Group Initial Access Time Offset Required Data (MD) I ( initialAccessTimeOffset ) | | If the group consecutive paging times is 3 times, the first group access time is set to 3 for the first group call, 2 for the second time, and 1 for the third time. In this way, the MTC user equipment can learn that the first group call message is received, so as to ensure that the time of the initiated initiating access time is the same as the time required for the group call message.
321, MTC UE在接收组呼消息的时刻醒来接收组呼消息, 若检测到组 呼消息, 则确定组呼消息中的組 ID与存储的組呼参数中组 ID是否相同, 若 相同, 则依据组内序号 (sequencelD ) 、 专属无线承载序号、 专属 RB参数 信息、 专属时间窗长度等资源配置, 计算发起接入时刻: The MTC UE wakes up to receive the group call message at the time of receiving the group call message, and if the group call message is detected, determines whether the group ID in the group call message is the same as the group ID in the stored group call parameter, and if they are the same, According to the sequence number of the group (sequencelD), the exclusive radio bearer sequence number, the exclusive RB parameter information, and the dedicated time window length, calculate the initiating access time:
发起接入时刻 = ( sequencelD- 1 ) 专属时间窗长度 Initiating access time = ( sequencelD-1) dedicated time window length
323 , MTC用户设备在发起接入时刻使用组呼参数中配置的专属前导码 发送专属前导码。 323. The MTC user equipment sends a dedicated preamble by using a dedicated preamble configured in the group call parameter at the time of initiating the access.
其中, 专属前导码的发送方式可以以单位 TTI连续发送专属前导码, 并 依次攀升一级( step ) 功率, 以便于网絡检测, 直至收到携带同步信息的 RA (Random Access Response, 随机接入响应)消息或达到专属前导码攀升 到前导码最大发送次数, 若达到前导码最大发送次数仍未收到 RAR, 则转 入异常处理。 The dedicated preamble transmission mode may continuously send the dedicated preamble in unit TTI, and sequentially increase the power of the first step (step) to facilitate network detection until the RA (Random Access Response) carrying the synchronization information is received. The message or the exclusive preamble is climbed to the maximum number of transmissions of the preamble. If the RAR is not received after the maximum number of preamble transmissions, the exception processing is performed.
325 , 基站收到 MTC用户设备发送的专属前导码后, 反馈携带同步信息 的 RAR消息, 并准备开始接收数据 325. After receiving the dedicated preamble sent by the MTC user equipment, the base station feeds back the RAR message carrying the synchronization information, and prepares to start receiving data.
327, MTC用户设备根据同步信息确定 TA后, 在专属 RB参数信息配置 中定义的固定的时间间隔后开始发送数据。 327. After determining the TA according to the synchronization information, the MTC user equipment starts to send data after a fixed time interval defined in the configuration of the dedicated RB parameter information.
329 , 数据发送完成或专属时间窗长度到时, 则 MTC用户设备重新转入 空闲态。 本次上 4艮数据完成, 继续监听组呼消息。 329. When the data transmission is completed or the dedicated time window is long, the MTC user equipment is re-entered into the idle state. This time, the data is completed, and the group call message continues to be monitored.
331 , 基站完成单个 MTC UE的数据接收后, 将该 MTC UE的传输成功 标志位置位为真, 并重置 RLC、 MAC等实体。 由此以备下一个 MTC用户设 备的数据接收。 331. After completing the data reception by the single MTC UE, the base station sets the transmission success flag of the MTC UE to be true, and resets an entity such as an RLC or a MAC. This will prepare the data for the next MTC user device.
所有 MTC用户设备的发送周期均过后, 对传输失败的 MTC用户设备执 行异常处理。 之后, 置位所有 MTC用户设备的传输成功标志位为假, 本次 上报过程结束。 After the sending period of all MTC user equipments expires, the MTC user equipment that failed to transmit is processed abnormally. After that, the transmission success flag of all MTC user equipments is set to false, and the reporting process ends.
对 MTC用户设备的异常处理可以是执行一般用户设备的单独呼叫过 程。
根据上述技术方案, 本发明实施例可以根据用户设备的低移动性, 通 过配置全频带上行信道质量探测进行初始的 MCS选择, 根据所有用户设备 选择的 MCS, 进行静态 RB分组并配置组上下文, 并使用户设备在转入 IDLE 态后仍然保存组上下文, 再结合按序接入, 使得用户设备收到上报要求时 按序、 按静态配置进行数据传输, 从而实现无需进行 RB的配置及重配, 也 无需 PDCCH调度过程, 极大地节省了信令交互, 并且基站可以通过维护组 上下文的方式, 相比于为每个用户设备维护一个上下文, 大大节省了开销。 The exception handling for the MTC user equipment may be a separate call procedure to perform a general user equipment. According to the foregoing technical solution, the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, perform static RB grouping and configure group context according to MCS selected by all user equipments, and After the user equipment is transferred to the IDLE state, the group context is still saved, and the user equipment is connected in order, so that the user equipment performs data transmission in sequence and in a static configuration when receiving the report request, thereby implementing configuration and reconfiguration of the RB. The PDCCH scheduling process is also not required, which greatly saves signaling interaction, and the base station can save the overhead by maintaining the context of the group compared to maintaining a context for each user equipment.
图 4是根据本发明实施例组呼的设备 40的框图, 包括: 4 is a block diagram of a device 40 for group calling in accordance with an embodiment of the present invention, including:
配置模块 41 , 用于为用户设备配置组上下文; a configuration module 41, configured to configure a group context for the user equipment;
收发模块 42 , 用于向所述用户设备发送全频带上行信道质量探测的消 息; 和用于接收所述用户设备发送的携带全频带上行信道质量探测信号的 响应, 所述响应为所述用户设备 4艮据所述全频带上行信道质量探测的消息 发送的; The transceiver module 42 is configured to send a message of the full-band uplink channel quality detection to the user equipment, and a response for receiving the full-band uplink channel quality sounding signal sent by the user equipment, where the response is the user equipment 4, according to the message of the full-band uplink channel quality detection;
处理模块 43 , 用于根据所述收发模块接收的所述携带全频带上行信道 质量探测信号的响应, 更新所述配置模块配置的组上下文, 所述更新的组 上下文包括组呼参数, 所述组呼参数用于接收组呼消息并发送响应; The processing module 43 is configured to update, according to the response that the full-band uplink channel quality sounding signal is received by the transceiver module, a group context configured by the configuration module, where the updated group context includes a group call parameter, the group The call parameter is used to receive the group call message and send a response;
所述收发模块 42, 用于向所述用户设备发送所述组呼参数的消息, 所 述组呼参数为所述处理模块更新的所述组上下文中包括的; The transceiver module 42 is configured to send, to the user equipment, a message of the group call parameter, where the group call parameter is included in the group context updated by the processing module;
所述收发模块 42 , 用于根据所述处理模块更新的所述组上下文向所述 用户设备发送组呼消息; The transceiver module 42 is configured to send a group call message to the user equipment according to the group context updated by the processing module;
所述收发模块 42, 用于接收所述用户设备根据所述组呼消息以及所述 组呼参数发送的组呼消息的响应。 。 The transceiver module 42 is configured to receive a response of the group call message sent by the user equipment according to the group call message and the group call parameter. .
设备 40实现了方法 100, 具体细节不再赘述。 The device 40 implements the method 100, and details are not described again.
根据上述技术方案, 本发明实施例可以根据用户设备的低移动性, 通 过配置全频带上行信道质量探测进行初始的 MCS选择, 根据所有用户设备 选择的 MCS, 进行静态 RB分组并配置组上下文, 并使用户设备在转入 IDLE 态后仍然保存组上下文, 再结合按序接入, 使得用户设备收到上报要求时 按序、 按静态配置进行数据传输, 从而实现无需进行 RB的配置及重配, 也 无需 PDCCH调度过程, 极大地节省了信令交互, 并且基站可以通过维护组 上下文的方式, 相比于为每个用户设备维护一个上下文, 大大节省了开销。 According to the foregoing technical solution, the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, perform static RB grouping and configure group context according to MCS selected by all user equipments, and After the user equipment is transferred to the IDLE state, the group context is still saved, and the user equipment is connected in order, so that the user equipment performs data transmission in sequence and in a static configuration when receiving the report request, thereby implementing configuration and reconfiguration of the RB. The PDCCH scheduling process is also not required, which greatly saves signaling interaction, and the base station can save the overhead by maintaining the context of the group compared to maintaining a context for each user equipment.
其中, 所述收发模块 42还用于从所述用户设备接收机器类通信标识;
所述配置模块 41具体用于根据所述收发模块从所述用户设备接收的机 器类通信标识, 为所述用户设备配置组上下文。 The transceiver module 42 is further configured to receive a communication identifier from the user equipment. The configuration module 41 is specifically configured to configure a group context for the user equipment according to the machine type communication identifier received by the transceiver module from the user equipment.
其中, 所述处理模块 43具体用于: The processing module 43 is specifically configured to:
根据所述全频带上行信道质量探测信号选择所述用户设备的调制编码 方式, 根据所选择的调制编码方式为所述用户设备进行静态无线承载分组, 对所述分组后的用户设备进行序号及资源分配信息表的更新, 对应地存储 組 ID、 用户设备 ID、 专属无线承载序号、 组内序号和传输成功标志位信息 的对应关系。 Selecting a modulation and coding mode of the user equipment according to the full-band uplink channel quality detection signal, performing a static radio bearer packet for the user equipment according to the selected modulation and coding mode, and performing sequence number and resource on the grouped user equipment. The update of the allocation information table correspondingly stores the correspondence between the group ID, the user equipment ID, the dedicated radio bearer sequence number, the intra-group sequence number, and the transmission success flag bit information.
如图 5所示, 进一步, 所述设备 40还包括计算模块 44, 用于根据所述处 理模块更新的组上下文, 计算最近的组呼时刻; As shown in FIG. 5, the device 40 further includes a calculating module 44, configured to calculate a latest group call time according to the group context updated by the processing module;
所述收发模块 42用于在所述计算模块计算出的所述组呼时刻, 向所述 用户设备发送组呼消息。 The transceiver module 42 is configured to send a group call message to the user equipment at the group call time calculated by the computing module.
其中, 所述收发模块 42具体用于: The transceiver module 42 is specifically configured to:
当所述组呼参数包括专属前导码时, 接收所述用户设备发送的所述专 属前导码, 根据接收到的所述专属前导码向所述用户设备发送携带同步信 息的消息, 接收所述用户设备根据所述同步信息发送的数据。 Receiving the dedicated preamble sent by the user equipment, and sending the message carrying the synchronization information to the user equipment according to the received preamble, and receiving the user The data sent by the device according to the synchronization information.
进一步, 所述处理模块 43还用于将成功发送所述数据的所述用户设备 的传输成功标志位信息设置为真, 重置无线链路控制层协议和介质访问控 制实体。 Further, the processing module 43 is further configured to set the transmission success flag information of the user equipment that successfully sends the data to true, and reset the radio link control layer protocol and the medium access control entity.
其中, 所述处理模块 43更新的组上下文包括: The group context updated by the processing module 43 includes:
组 ID、 机器类通信标识、 组连续寻呼次数、 组初始接入时间偏移、 组 呼时刻和序号及资源分配信息表, 其中, 所述序号及资源分配信息表包括 一个或多个专属无线承载序号的序号信息和资源信息, a group ID, a machine type communication identifier, a group consecutive page number, a group initial access time offset, a group call time and a sequence number, and a resource allocation information table, wherein the sequence number and resource allocation information table includes one or more exclusive wireless Carry serial number information and resource information of the serial number,
所述专属无线承载序号的序号信息和资源信息中的资源信息包括: 专 属 RB参数信息、 专属时间窗长度、 专属前导码和前导码最大传输次数; 所述专属无线承载序号的序号信息和资源信息中的序号信息包括: 用 户设备 ID、 组内序号和传输成功标识位。 The serial number information of the exclusive radio bearer sequence number and the resource information in the resource information include: dedicated RB parameter information, dedicated time window length, dedicated preamble, and maximum number of preamble transmissions; sequence number information and resource information of the dedicated radio bearer sequence number The serial number information in the following includes: user equipment ID, intra-group serial number, and transmission success identification bit.
图 6是根据本发明实施例组呼的另一设备 50的框图, 包括: 6 is a block diagram of another device 50 for group call in accordance with an embodiment of the present invention, including:
收发模块 51 , 用于接收基站发送全频带上行信道质量探测的消息, 根 据所述全频带上行信道质量探测的消息, 向所述基站发送携带全频带上行 信道质量探测信号的响应;
所述收发模块 51, 用于接收所述基站发送的携带组呼参数的消息, 所 述组呼参数用于接收组呼消息并发送响应; The transceiver module 51 is configured to receive a message that the base station sends the full-band uplink channel quality detection, and send a response that carries the full-band uplink channel quality detection signal to the base station according to the message of the full-band uplink channel quality detection. The transceiver module 51 is configured to receive a message that carries a group call parameter sent by the base station, where the group call parameter is used to receive a group call message and send a response;
存储模块 52, 用于存储所述收发模块接收的组呼参数, 并在空闲态时 仍保持所述组呼参数; a storage module 52, configured to store a group call parameter received by the transceiver module, and maintain the group call parameter when in an idle state;
所述收发模块 51, 用于根据所述存储模块所存储的所述组呼参数, 接 收所述基站发送的组呼消息 , 并向所述基站发送所述组呼消息的响应。 The transceiver module 51 is configured to receive, according to the group call parameter stored by the storage module, a group call message sent by the base station, and send a response of the group call message to the base station.
设备 50实现了方法 200, 具体细节不再赘述。 The device 50 implements the method 200, and details are not described again.
根据上述技术方案, 本发明实施例可以根据用户设备的低移动性, 通 过配置全频带上行信道质量探测进行初始的 MCS选择, 根据所有用户设备 选择的 MCS, 进行静态 RB分组并配置組上下文, 并使用户设备在转入 IDLE 态后仍然保存组上下文, 再结合按序接入, 使得用户设备收到上报要求时 按序、 按静态配置进行数据传输, 从而实现无需进行 RB的配置及重配, 也 无需 PDCCH调度过程, 极大地节省了信令交互, 并且基站可以通过维护组 上下文的方式, 相比于为每个用户设备维护一个上下文, 大大节省了开销。 According to the foregoing technical solution, the embodiment of the present invention can perform initial MCS selection by configuring full-band uplink channel quality detection according to low mobility of the user equipment, perform static RB grouping and configure group context according to MCS selected by all user equipments, and After the user equipment is transferred to the IDLE state, the group context is still saved, and the user equipment is connected in order, so that the user equipment performs data transmission in sequence and in a static configuration when receiving the report request, thereby implementing configuration and reconfiguration of the RB. The PDCCH scheduling process is also not required, which greatly saves signaling interaction, and the base station can save the overhead by maintaining the context of the group compared to maintaining a context for each user equipment.
进一步, 所述收发模块 51还用于向基站发送携带机器类通信标识的消 息, 以使得所述用户设备配置组上下文。 Further, the transceiver module 51 is further configured to send a message carrying a machine type communication identifier to the base station, so that the user equipment configures a group context.
其中, 所述收发模块 51具体用于当所述组呼参数包括组 ID、 组内序号、 专属时间窗长度、前导码最大传输次数、专属前导码和专属 RB参数信息时, 接收到所述基站发送的所述组呼消息, 且所述组呼消息携带的组 ID与存储 的所述组 ID相同时, 才艮据组内信号和专属时间窗长度计算所述组呼消息的 响应的发起接入时刻; 在所述发起接入时刻, 根据所述前导码最大传输次 数, 向所述基站以单位传输时间间隔连续发送所述专属前导码, 直到收到 携带同步信息的消息或达到所述前导码最大传输次数; 在收到所述基站根 据接收到的所述专属前导码后发送的携带同步信息的消息后, 根据所述同 步消息和所述专属 RB参数信息, 向所述基站发送数据。 The transceiver module 51 is specifically configured to: when the group call parameter includes a group ID, a group serial number, a dedicated time window length, a preamble maximum transmission number, a dedicated preamble, and exclusive RB parameter information, receiving the base station. When the group call message is sent, and the group ID carried by the group call message is the same as the stored group ID, the response of the group call message is calculated according to the intra-group signal and the dedicated time window length. At the time of initiating access, according to the maximum number of transmissions of the preamble, continuously transmitting the dedicated preamble to the base station at a unit transmission time interval until receiving a message carrying synchronization information or reaching the preamble a maximum number of transmissions of the code; after receiving the message carrying the synchronization information sent by the base station according to the received exclusive preamble, transmitting data to the base station according to the synchronization message and the dedicated RB parameter information.
其中, 所述收发模块 51以所存储的上一次成功发送消息时所记录的功 率递减一级的功率首次发送所述专属前导码, 并存储本次成功发送消息时 的功率。 The transceiver module 51 firstly transmits the dedicated preamble with the power of one level decremented when the last successfully transmitted message is stored, and stores the power when the message is successfully transmitted.
如图 7所示, 进一步, 所述设备 50还包括: As shown in FIG. 7, the device 50 further includes:
处理模块 53, 用于所述响应发送成功后或发送时间达到所述专属时间 窗长度, 所述设备进入空闲态。
本领域普通技术人员可以意识到, 结合本文中所公开的实施例描述的 各示例的模块及算法步骤, 能够以电子硬件、 或者计算机软件和电子硬件 的结合来实现。 这些功能究竟以硬件还是软件方式来执行, 取决于技术方 案的特定应用和设计约束条件。 专业技术人员可以对每个特定的应用来使 用不同方法来实现所描述的功能, 但是这种实现不应认为超出本发明的范 围。 The processing module 53 is configured to: after the response is successfully sent or the sending time reaches the length of the dedicated time window, the device enters an idle state. Those of ordinary skill in the art will appreciate that the modules and algorithm steps of the various examples described in connection with the embodiments disclosed herein can be implemented in electronic hardware, or a combination of computer software and electronic hardware. Whether these functions are performed in hardware or software depends on the specific application and design constraints of the solution. A person skilled in the art can use different methods to implement the described functions for each particular application, but such implementation should not be considered to be beyond the scope of the present invention.
所属领域的技术人员可以清楚地了解到, 为描述的方便和简洁, 上述 描述的系统、 设备和模块的具体工作过程, 可以参考前述方法实施例中的 对应过程, 在此不再赘述。 A person skilled in the art can clearly understand that, for the convenience and brevity of the description, the specific working process of the system, the device and the module described above can refer to the corresponding process in the foregoing method embodiment, and details are not described herein again.
在本申请所提供的几个实施例中, 应该理解到, 所揭露的系统、 设备 和方法, 可以通过其它的方式实现。 例如, 以上所描述的设备实施例仅仅 是示意性的, 例如, 所述模块的划分, 仅仅为一种逻辑功能划分, 实际实 现时可以有另外的划分方式, 例如多个模块或組件可以结合或者可以集成 到另一个系统, 或一些特征可以忽略, 或不执行。 另一点, 所显示或讨论 的相互之间的耦合或直接耦合或通信连接可以是通过一些接口, 设备或模 块的间接耦合或通信连接, 可以是电性, 机械或其它的形式。 In the several embodiments provided herein, it should be understood that the disclosed systems, devices, and methods may be implemented in other ways. For example, the device embodiments described above are only schematic. For example, the division of the modules is only a logical function division. In actual implementation, there may be another division manner, for example, multiple modules or components may be combined or Can be integrated into another system, or some features can be ignored, or not executed. In addition, the coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or module, and may be electrical, mechanical or otherwise.
所述作为分离部件说明的模块可以是或者也可以不是物理上分开的, 作为模块显示的部件可以是或者也可以不是物理模块, 即可以位于一个地 方, 或者也可以分布到多个网络模块上。 可以根据实际的需要选择其中的 部分或者全部模块来实现本实施例方案的目的。 The modules described as separate components may or may not be physically separate. The components displayed as modules may or may not be physical modules, that is, may be located in one place, or may be distributed to multiple network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
另外, 在本发明各个实施例中的各功能模块可以集成在一个处理模块 中, 也可以是各个模块单独物理存在, 也可以两个或两个以上模块集成在 一个模块中。 In addition, each functional module in each embodiment of the present invention may be integrated into one processing module, or each module may exist physically separately, or two or more modules may be integrated into one module.
所述功能如果以软件功能模块的形式实现并作为独立的产品销售或使 用时, 可以存储在一个计算机可读取存储介质中。 根据这样的理解, 本发 明的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的 部分可以以软件产品的形式体现出来, 该计算机软件产品存储在一个存储 介盾中, 包括若干指令用以使得一台计算机设备(可以是个人计算机, 服 务器, 或者网络设备等)执行本发明各个实施例所述方法的全部或部分步 骤。而前述的存储介质包括: U盘、移动硬盘、只读存储器(ROM, Read-Only Memory )、 随机存取存诸器( RAM, Random Access Memory )、 磁碟或者
光盘等各种可以存储程序代码的介质。 The functions, if implemented in the form of software functional modules and sold or used as separate products, may be stored in a computer readable storage medium. According to the understanding, the part of the technical solution of the present invention that contributes in essence or to the prior art or the part of the technical solution can be embodied in the form of a software product, which is stored in a storage medium shield. A number of instructions are included to cause a computer device (which may be a personal computer, server, or network device, etc.) to perform all or part of the steps of the methods described in various embodiments of the present invention. The foregoing storage medium includes: a USB flash drive, a mobile hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or A variety of media such as optical discs that can store program code.
以上所述, 仅为本发明的具体实施方式, 但本发明的保护范围并不局 限于此, 任何熟悉本技术领域的技术人员在本发明揭露的技术范围内, 可 轻易想到变化或替换, 都应涵盖在本发明的保护范围之内。 因此, 本发明 的保护范围应所述以权利要求的保护范围为准。
The above is only the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention. It should be covered by the scope of the present invention. Therefore, the scope of the invention should be determined by the scope of the claims.
Claims
1、 一种組呼的方法, 其特征在于, 包括: A method for group call, characterized in that it comprises:
为用户设备配置组上下文; Configuring a group context for the user device;
向所述用户设备发送全频带上行信道质量探测的消息; Transmitting a message of the full-band uplink channel quality detection to the user equipment;
接收所述用户设备发送的携带全频带上行信道质量探测信号的响应, 所述响应为所述用户设备根据所述全频带上行信道质量探测的消息发送 的; Receiving, by the user equipment, a response that carries a full-band uplink channel quality sounding signal, where the response is sent by the user equipment according to the message of the full-band uplink channel quality detection;
根据所述携带全频带上行信道质量探测信号的响应, 更新所述组上下 文, 所述更新的组上下文包括组呼参数, 所述组呼参数用于接收组呼消息 并发送响应; Updating the group context according to the response of the full-band uplink channel quality sounding signal, where the updated group context includes a group call parameter, and the group call parameter is used to receive a group call message and send a response;
向所述用户设备发送携带所述组呼参数的消息; Sending, to the user equipment, a message carrying the group call parameter;
根据所述更新的组上下文向所述用户设备发送组呼消息; Sending a group call message to the user equipment according to the updated group context;
接收所述用户设备根据所述组呼消息以及所述组呼参数发送的组呼消 息的响应。 Receiving a response of the user equipment according to the group call message and the group call message sent by the group call parameter.
2、 根据权利要求 1所述的方法, 其特征在于, 所述为用户设备配置组 上下文包括: 2. The method according to claim 1, wherein the configuring the group context for the user equipment comprises:
根据从所述用户设备接收的机器类通信标识, 为所述用户设备配置组 上下文。 A group context is configured for the user equipment based on the machine type communication identification received from the user equipment.
3、 根据权利要求 1或 2所述的方法, 其特征在于, 所述根据所述携带全 频带上行信道质量探测信号的响应, 更新所述組上下文包括: The method according to claim 1 or 2, wherein the updating the group context according to the response of the full-band uplink channel quality sounding signal comprises:
根据所述全频带上行信道质量探测信号选择所述用户设备的调制编码 方式, 根据所选择的调制编码方式为所述用户设备进行静态无线承载分组; 对所述分组后的用户设备进行序号及资源分配信息表的更新, 对应地 存储组 ID、 用户设备 ID、 专属无线承载序号、 组内序号和传输成功标志位 信息。 Selecting a modulation and coding mode of the user equipment according to the full-band uplink channel quality detection signal, performing a static radio bearer packet for the user equipment according to the selected modulation and coding mode, and performing sequence number and resource on the grouped user equipment. The update of the allocation information table correspondingly stores the group ID, the user equipment ID, the exclusive radio bearer sequence number, the intra-group sequence number, and the transmission success flag bit information.
4、 根据权利要求 1至 3任一项权利要求所述的方法, 其特征在于, 所述 根据所述更新的组上下文向所述用户设备发送组呼消息包括; The method according to any one of claims 1 to 3, wherein the sending a group call message to the user equipment according to the updated group context comprises:
根据所述更新的组上下文, 计算最近的组呼时刻, 在所述最近的组呼 时刻, 向所述用户设备发送组呼消息。 And calculating, according to the updated group context, a latest group call time, and sending a group call message to the user equipment at the latest group call time.
5、 根据权利要求 1至 4任一项权利要求所述的方法, 其特征在于, 当所 述组呼参数包括专属前导码时, 所述接收所述用户设备根据所述组呼消息 以及所述组呼参数发送的所述组呼消息的响应包括: The method according to any one of claims 1 to 4, wherein, when the group call parameter includes a dedicated preamble, the receiving the user equipment according to the group call message and the The response of the group call message sent by the group call parameter includes:
接收所述用户设备发送的所述专属前导码; Receiving the dedicated preamble sent by the user equipment;
根据接收到的所述专属前导码向所述用户设备发送携带同步信息的消 息; Sending a message carrying the synchronization information to the user equipment according to the received dedicated preamble;
接收所述用户设备根据所述同步信息发送的数据。 Receiving data sent by the user equipment according to the synchronization information.
6、 根据权利要求 1至 5任一项权利要求所述的方法, 其特征在于, 所述 方法还包括: The method according to any one of claims 1 to 5, wherein the method further comprises:
将成功发送所述数据的所述用户设备的传输成功标志位信息设置为 真; Setting the transmission success flag bit information of the user equipment that successfully sends the data to true;
重置无线链路控制层协议和介质访问控制实体。 Reset the radio link control layer protocol and media access control entity.
7、 根据权利要求 1至 6任一项权利要求所述的方法, 其特征在于, 所述 更新的组上下文包括: The method according to any one of claims 1 to 6, wherein the updated group context comprises:
组 ID、 机器类通信标识、 组连续寻呼次数、 组初始接入时间偏移、 组 呼时刻和序号及资源分配信息表, 其中, 所迷序号及资源分配信息表包括 一个或多个专属无线承载序号的序号信息和资源信息, Group ID, machine type communication identifier, group consecutive paging times, group initial access time offset, group call time and sequence number, and resource allocation information table, wherein the sequence number and resource allocation information table includes one or more exclusive wireless Carry serial number information and resource information of the serial number,
所述专属无线承载序号的序号信息和资源信息中的资源信息包括: 专 属 RB参数信息、 专属时间窗长度> 专属前导码和前导码最大传输次数; 所述专属无线承载序号的序号信息和资源信息中的序号信息包括: 用 户设备 ID、 组内序号和传输成功标识位。 The serial number information of the exclusive radio bearer sequence number and the resource information in the resource information include: dedicated RB parameter information, dedicated time window length > dedicated preamble and preamble maximum transmission times; sequence number information and resource information of the exclusive radio bearer sequence number The serial number information in the following includes: user equipment ID, intra-group serial number, and transmission success identification bit.
8、 一种组呼的方法, 其特征在于, 包括: 8. A method for group call, characterized in that:
接收基站发送的全频带上行信道质量探测的消息; Receiving a message of the full-band uplink channel quality detection sent by the base station;
根据所述全频带上行信道质量探测的消息, 向所述基站发送携带全频 带上行信道质量探测信号的响应; And transmitting, according to the message of the full-band uplink channel quality detection, a response carrying the full-band uplink channel quality detection signal to the base station;
接收所述基站发送的携带組呼参数的消息, 所述组呼参数用于接收组 呼消息并发送响应; Receiving, by the base station, a message carrying a group call parameter, where the group call parameter is used to receive a group call message and send a response;
存储所述组呼参数, 并在空闲态时仍保持所述组呼参数; And storing the group call parameter, and maintaining the group call parameter when in an idle state;
根据所存储的所述组呼参数, 接收所述基站发送的组呼消息, 并向所 述基站发送所述组呼消息的响应。 And receiving, according to the stored group call parameter, a group call message sent by the base station, and sending a response of the group call message to the base station.
9、 根据权利要求 8所述的方法, 其特征在于, 所述方法还包括: 向基站发送携带机器类通信标识的消息, 以使得所述用户设备配置组 上下文。 The method according to claim 8, wherein the method further comprises: A message carrying a machine type communication identity is sent to the base station to cause the user equipment to configure a group context.
10、 根据权利要求 8至 9所述的方法, 其特征在于, 当所述组呼参数包 括组 ID、 组内序号、 专属时间窗长度、 前导码最大传输次数、 专属前导码 和专属 RB参数信息时, 所述根据所存储的所述组呼参数, 向所述基站发送 所述组呼消息的响应包括: The method according to any one of claims 8 to 9, wherein the group call parameters include a group ID, a group serial number, a dedicated time window length, a preamble maximum transmission number, a dedicated preamble, and a dedicated RB parameter information. And sending, by the base station according to the stored group call parameters, the response to the group call message to the base station includes:
当接收到所述基站发送的所述组呼消息, 且所述组呼消息携带的组 ID 与存储的所述组 ID相同时, 根据所述组内序号和所述专属时间窗长度, 计 算所述组呼消息的响应的发起接入时刻; When receiving the group call message sent by the base station, and the group ID carried by the group call message is the same as the stored group ID, calculating the location according to the group serial number and the exclusive time window length Initiating an access time of the response of the group call message;
在所述发起接入时刻, 根据所述前导码最大传输次数, 向所述基站以 单位传输时间间隔连续发送所述专属前导码, 直到收到携带同步信息的消 息或达到所述前导码最大传输次数; And sending, according to the maximum number of transmission times of the preamble, the dedicated preamble to the base station at a unit transmission time interval until receiving a message carrying synchronization information or reaching the maximum transmission of the preamble Number of times
在收到所述基站根据接收到的所述专属前导码后发送的携带同步信息 的消息后, 根据所述同步消息和所述专属 RB参数信息, 向所述基站发送数 据。 After receiving the message carrying the synchronization information sent by the base station according to the received preamble, the data is sent to the base station according to the synchronization message and the dedicated RB parameter information.
11、 根据权利要求 10所述的方法, 其特征在于, 所述单位传输时间间 隔连续发送所述专属前导码包括: The method according to claim 10, wherein the continuously transmitting the dedicated preamble in the unit transmission time interval comprises:
以所存储的上一次成功发送消息时所记录的功率递减一级的功率首次 发送所述专属前导码, 并存储本次成功发送消息时的功率。 The dedicated preamble is first transmitted with the stored power decremented by one power at the time of the last successful transmission of the message, and the power at the time of successfully transmitting the message is stored.
12、 根据权利要求 10所述的方法, 其特征在于, 所述方法还包括: 所述响应发送成功后或发送时间达到专属时间窗长度, 进入空闲态。 The method according to claim 10, wherein the method further comprises: entering the idle state after the response is successfully sent or the sending time reaches a dedicated time window length.
13、 一种组呼的设备, 其特征在于, 包括: 13. A device for group call, characterized in that:
配置模块, 用于为用户设备配置组上下文; a configuration module, configured to configure a group context for the user equipment;
收发模块, 用于向所述用户设备发送全频带上行信道质量探测的消息; 和用于接收所述用户设备发送的携带全频带上行信道质量探测信号的响 应, 所述响应为所述用户设备根据所述全频带上行信道质量探测的消息发 送的; a transceiver module, configured to send a message of the full-band uplink channel quality detection to the user equipment, and a response for receiving the full-band uplink channel quality sounding signal sent by the user equipment, where the response is The message of the full-band uplink channel quality detection is sent;
处理模块, 用于根据所述收发模块接收的所述携带全频带上行信道质 量探测信号的响应, 更新所述配置模块配置的组上下文, 所述更新的组上 下文包括组呼参数, 所述组呼参数用于接收组呼消息并发送响应; a processing module, configured to update, according to the response that the full-band uplink channel quality sounding signal is received by the transceiver module, a group context configured by the configuration module, where the updated group context includes a group call parameter, the group call The parameter is used to receive a group call message and send a response;
所述收发模块, 用于向所述用户设备发送携带所述组呼参数的消息, 所述组呼参数为所述处理模块更新的所述组上下文中包括的; The transceiver module is configured to send a message carrying the group call parameter to the user equipment, The group call parameter is included in the group context updated by the processing module;
所述收发模块, 用于根据所述处理模块更新的所述组上下文向所述用 户设备发送组呼消息; The transceiver module is configured to send a group call message to the user equipment according to the group context updated by the processing module;
所述收发模块, 用于接收所述用户设备根据所述组呼消息以及所述组 呼参数发送的组呼消息的响应。 The transceiver module is configured to receive a response of the group call message sent by the user equipment according to the group call message and the group call parameter.
14、 根据权利要求 13所述的设备, 其特征在于, 14. Apparatus according to claim 13 wherein:
所述收发模块还用于从所述用户设备接收机器类通信标识; The transceiver module is further configured to receive a communication identifier from the user equipment;
所述配置模块具体用于根据所述收发模块从所述用户设备接收的机器 类通信标识, 为所述用户设备配置组上下文。 The configuration module is specifically configured to configure a group context for the user equipment according to the machine type communication identifier received by the transceiver module from the user equipment.
15、 根据权利要求 13或 14所述的设备, 其特征在于, 所述处理模块具 体用于: The device according to claim 13 or 14, wherein the processing module is specifically configured to:
根据所述全频带上行信道质量探测信号选择所述用户设备的调制编码 方式 , 根据所选择的调制编码方式为所述用户设备进行静态无线承载分组, 对所述分组后的用户设备进行序号及资源分配信息表的更新, 对应地存储 组 ID、 用户设备 ID、 专属无线承载序号、 组内序号和传输成功标志位信息 的对应关系。 Selecting a modulation and coding mode of the user equipment according to the full-band uplink channel quality detection signal, performing a static radio bearer packet for the user equipment according to the selected modulation and coding mode, and performing sequence number and resource on the grouped user equipment. The update of the allocation information table correspondingly stores the correspondence between the group ID, the user equipment ID, the dedicated radio bearer sequence number, the intra-group sequence number, and the transmission success flag bit information.
16、 根据权利要求 13至 15任一项权利要求所述的设备, 其特征在于, 所述设备还包括计算模块, 用于根据所述处理模块更新的组上下文, 计算 最近的组呼时刻; The device according to any one of claims 13 to 15, wherein the device further comprises: a calculating module, configured to calculate a latest group call time according to the group context updated by the processing module;
所述收发模块用于在所述计算模块计算出的所述组呼时刻, 向所述用 户设备发送组呼消息。 The transceiver module is configured to send a group call message to the user equipment at the group call time calculated by the computing module.
17、 根据权利要求 13-16任一项权利要求所述的设备, 其特征在于, 所 述收发模块具体用于: The device according to any one of claims 13-16, wherein the transceiver module is specifically configured to:
当所述组呼参数包括专属前导码时, 接收所述用户设备发送的所述专 属前导码, 根据接收到的所述专属前导码向所述用户设备发送携带同步信 息的消息, 接收所述用户设备根据所述同步信息发送的数据。 Receiving the dedicated preamble sent by the user equipment, and sending the message carrying the synchronization information to the user equipment according to the received preamble, and receiving the user The data sent by the device according to the synchronization information.
18、 根据权利要求 13至 17任一项权利要求所述的设备, 其特征在于, 所述处理模块还用于将成功发送所述数据的所述用户设备的传输成功 标志位信息设置为真, 重置无线链路控制层协议和介质访问控制实体。 The device according to any one of claims 13 to 17, wherein the processing module is further configured to set a transmission success flag bit information of the user equipment that successfully sends the data to true, Reset the radio link control layer protocol and media access control entity.
19、 根据权利要求 13至 18任一项权利要求所述的设备, 其特征在于, 所述处理模块更新的组上下文包括: 组 ID、 机器类通信标识、 组连续寻呼次数、 组初始接入时间偏移、 组 呼时刻和序号及资源分配信息表, 其中, 所述序号及资源分配信息表包括 一个或多个专属无线承载序号的序号信息和资源信息, The device according to any one of claims 13 to 18, wherein the group context updated by the processing module comprises: a group ID, a machine type communication identifier, a group consecutive page number, a group initial access time offset, a group call time and a sequence number, and a resource allocation information table, wherein the sequence number and resource allocation information table includes one or more exclusive wireless Carry serial number information and resource information of the serial number,
所述专属无线承载序号的序号信息和资源信息中的资源信息包括: 专 属 RB参数信息、 专属时间窗长度, 专属前导码和前导码最大传输次数; 所述专属无线承载序号的序号信息和资源信息中的序号信息包括: 用 户设备 ID、 组内序号和传输成功标识位。 The serial number information of the exclusive radio bearer sequence number and the resource information in the resource information include: dedicated RB parameter information, dedicated time window length, dedicated preamble and preamble maximum transmission times; sequence number information and resource information of the exclusive radio bearer sequence number The serial number information in the following includes: user equipment ID, intra-group serial number, and transmission success identification bit.
20、 一种组呼的设备, 其特征在于, 包括: 20. A device for group call, characterized in that:
收发模块, 用于接收基站发送全频带上行信道质量探测的消息, 根据 所述全频带上行信道质量探测的消息, 向所述基站发送携带全频带上行信 道质量探测信号的响应; a transceiver module, configured to receive a message that the base station sends the full-band uplink channel quality detection, and send a response carrying the full-band uplink channel quality detection signal to the base station according to the message of the full-band uplink channel quality detection;
所述收发模块, 用于接收所述基站发送的携带组呼参数的消息, 所述 组呼参数用于接收組呼消息并发送响应; The transceiver module is configured to receive a message that carries a group call parameter sent by the base station, where the group call parameter is used to receive a group call message and send a response;
存储模块, 用于存储所述收发模块接收的组呼参数, 并在空闲态时仍 保持所述组呼参数; a storage module, configured to store a group call parameter received by the transceiver module, and maintain the group call parameter when in an idle state;
所述收发模块, 用于根据所述存储模块所存储的所述组呼参数, 接收 所述基站发送的组呼消息, 并向所述基站发送所述组呼消息的响应。 The transceiver module is configured to receive a group call message sent by the base station according to the group call parameter stored by the storage module, and send a response of the group call message to the base station.
21、 根据权利要求 20所述的设备, 其特征在于, 21. Apparatus according to claim 20 wherein:
所述收发模块还用于向基站发送携带机器类通信标识的消息, 以使得 所述用户设备配置组上下文。 The transceiver module is further configured to send a message carrying a machine type communication identifier to the base station, so that the user equipment configures a group context.
22、 根据权利要求 20至 21所述的设备, 其特征在于, 22. Apparatus according to any of claims 20 to 21, characterized in that
所述收发模块具体用于当所述组呼参数包括组 ID、 组内序号、 专属时 间窗长度、 前导码最大传输次数、 专属前导码和专属 RB参数信息时, 接收 到所述基站发送的所述组呼消息, 且所述组呼消息携带的组 ID与存储的所 述组 ID相同时, 根据组内信号和专属时间窗长度计算所述组呼消息的响应 的发起接入时刻; The transceiver module is specifically configured to: when the group call parameter includes a group ID, a group serial number, a dedicated time window length, a preamble maximum transmission number, a dedicated preamble, and a dedicated RB parameter information, receive the location sent by the base station And when the group ID carried by the group call message is the same as the stored group ID, calculating an initiation access time of the response of the group call message according to the intra-group signal and the dedicated time window length;
在所述发起接入时刻, 根据所述前导码最大传输次数, 向所述基站以 单位传愉时间间隔连续发送所述专属前导码, 直到收到携带同步信息的消 息或达到所述前导码最大传输次数; And sending, according to the maximum number of transmission times of the preamble, the dedicated preamble to the base station at a unit transmission time interval until receiving the message carrying the synchronization information or reaching the maximum of the preamble Number of transmissions;
在收到所述基站根据接收到的所述专属前导码后发送的携带同步信息 的消息后, 根据所述同步消息和所述专属 RB参数信息, 向所述基站发送数 据。 After receiving the message carrying the synchronization information sent by the base station according to the received preamble, according to the synchronization message and the dedicated RB parameter information, sending the number to the base station According to.
23、 根据权利要求 22所述的设备, 其特征在于, 所述收发模块以所存 储的上一次成功发送消息时所记录的功率递减一级的功率首次发送所述专 属前导码, 并存储本次成功发送消息时的功率。 The device according to claim 22, wherein the transceiver module first transmits the dedicated preamble with a power of one level of power stored when the last successful transmission of the message is stored, and stores the current preamble. The power at which the message was successfully sent.
24、 根据权利要求 22所述的设备, 其特征在于, 所述设备还包括: 处理模块, 用于所述响应发送成功后或发送时间达到所述专属时间窗 长度, 使得所述设备进入空闲态。 The device according to claim 22, wherein the device further comprises: a processing module, configured to: after the response is successfully sent, or the sending time reaches the length of the dedicated time window, so that the device enters an idle state .
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CN105554903A (en) * | 2014-11-04 | 2016-05-04 | 北京信威通信技术股份有限公司 | Method for lagged entrance to grouping calling by UE in IDLE state |
CN105554708B (en) * | 2014-11-04 | 2019-02-22 | 北京信威通信技术股份有限公司 | IDLE state UE lags the methods, devices and systems exhaled into group |
CN107534998A (en) * | 2015-05-20 | 2018-01-02 | 华为技术有限公司 | MTC device cut-in method, base station and system |
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