WO2021232377A1 - 一种非连续接收的配置方法、电子设备及存储介质 - Google Patents

一种非连续接收的配置方法、电子设备及存储介质 Download PDF

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Publication number
WO2021232377A1
WO2021232377A1 PCT/CN2020/091657 CN2020091657W WO2021232377A1 WO 2021232377 A1 WO2021232377 A1 WO 2021232377A1 CN 2020091657 W CN2020091657 W CN 2020091657W WO 2021232377 A1 WO2021232377 A1 WO 2021232377A1
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Prior art keywords
discontinuous reception
configuration
terminal device
group
drx
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PCT/CN2020/091657
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English (en)
French (fr)
Inventor
胡奕
石聪
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Oppo广东移动通信有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by Oppo广东移动通信有限公司 filed Critical Oppo广东移动通信有限公司
Priority to PCT/CN2020/091657 priority Critical patent/WO2021232377A1/zh
Priority to CN202080099253.2A priority patent/CN115336216A/zh
Publication of WO2021232377A1 publication Critical patent/WO2021232377A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path

Definitions

  • This application relates to the field of wireless communication technologies, and in particular to a discontinuous reception configuration method, electronic equipment, and storage medium.
  • the embodiment of the present application provides a discontinuous reception configuration method, electronic device, and storage medium, and clarifies the configuration of related parameters of the secondary DRX group of the MAC entity.
  • an embodiment of the present application provides a discontinuous reception configuration method, which includes: a terminal device receives first configuration information, where the first configuration information is used to configure a main non-continuous reception for a first MAC entity of the terminal device.
  • a discontinuous reception configuration method which includes: a terminal device receives first configuration information, where the first configuration information is used to configure a main non-continuous reception for a first MAC entity of the terminal device.
  • a continuous receiving group primary DRX group
  • a secondary DRX group is configured for the first MAC entity.
  • an embodiment of the present application provides a discontinuous reception configuration method, including: a network device sends first configuration information, and the first configuration information is used to configure a primary DRX group for a first MAC entity of a terminal device. In this case, configure a secondary DRX group for the first MAC entity.
  • an embodiment of the present application provides a terminal device, the terminal device includes: a receiving unit configured to receive first configuration information, where the first configuration information is used to be a first MAC entity of the terminal device In the case of configuring a primary DRX group, configure a secondary DRX group for the first MAC entity.
  • an embodiment of the present application provides a network device.
  • the network device includes a sending unit configured to send first configuration information, where the first configuration information is used to configure a primary MAC entity for a terminal device.
  • a secondary DRX group is configured for the first MAC entity.
  • an embodiment of the present application provides a terminal device, including a processor and a memory for storing a computer program that can run on the processor, wherein the processor is used to execute the above-mentioned terminal when the computer program is running. The steps of the discontinuous reception configuration method performed by the device.
  • an embodiment of the present application provides a network device, including a processor and a memory for storing a computer program that can run on the processor, wherein the processor is used to execute the above-mentioned network when the computer program is running. The steps of the discontinuous reception configuration method performed by the device.
  • an embodiment of the present application provides a chip, including a processor, configured to call and run a computer program from a memory, so that a device installed with the chip executes the discontinuous reception configuration method performed by the terminal device.
  • an embodiment of the present application provides a chip, including a processor, configured to call and run a computer program from a memory, so that a device installed with the chip executes the discontinuous reception configuration method performed by the network device.
  • an embodiment of the present application provides a storage medium storing an executable program, and when the executable program is executed by a processor, the above-mentioned discontinuous reception configuration method executed by the terminal device is implemented.
  • an embodiment of the present application provides a storage medium storing an executable program, and when the executable program is executed by a processor, the above-mentioned discontinuous reception configuration method executed by the network device is implemented.
  • an embodiment of the present application provides a computer program product, including computer program instructions, which cause a computer to execute the discontinuous reception configuration method performed by the above-mentioned terminal device.
  • an embodiment of the present application provides a computer program product, including computer program instructions that cause a computer to execute the discontinuous reception configuration method performed by the above-mentioned network device.
  • an embodiment of the present application provides a computer program that enables a computer to execute the discontinuous reception configuration method performed by the above-mentioned terminal device.
  • an embodiment of the present application provides a computer program that enables a computer to execute the discontinuous reception configuration method performed by the above-mentioned network device.
  • the discontinuous reception configuration method, electronic device, and storage medium provided in the embodiments of the present application include: a terminal device receives first configuration information, and the first configuration information is used to configure a master for the first MAC entity of the terminal device.
  • a discontinuous reception group configure a secondary discontinuous reception group for the first MAC entity; in this way, the relevant parameter configuration of the secondary DRX group is clarified, for example, the parameter configuration condition of the secondary DRX group is the MAC corresponding to the secondary DRX group
  • the entity is configured with a primary DRX group.
  • FIG. 1 is an optional schematic diagram of a discontinuous reception period according to an embodiment of this application
  • FIG. 2 is a schematic diagram of the composition structure of a communication system according to an embodiment of the application.
  • FIG. 3 is a schematic diagram of an optional processing flow of a discontinuous reception configuration method according to an embodiment of this application;
  • FIG. 4 is a schematic diagram of another optional processing flow of a discontinuous reception configuration method according to an embodiment of the application.
  • FIG. 5 is a schematic diagram of a detailed optional processing flow of a discontinuous reception configuration method according to an embodiment of this application;
  • FIG. 6 is a schematic diagram of an optional composition structure of a terminal device according to an embodiment of the application.
  • FIG. 7 is a schematic diagram of an optional composition structure of a network device according to an embodiment of the application.
  • FIG. 8 is a schematic diagram of the hardware composition structure of an electronic device according to an embodiment of the application.
  • the network equipment can configure the DRX function for the terminal equipment.
  • the terminal device is allowed to monitor the PDCCH non-continuously, so as to achieve the purpose of saving power for the terminal device.
  • Each Medium Access Control (MAC) entity has a DRX configuration;
  • DRX configuration parameters include:
  • DRX-onDuration Timer (drx-onDuration Timer), the duration of the terminal device waking up at the beginning of a DRX cycle (Cycle).
  • DRX deactivation timer (drx-InactivityTimer) when the terminal device receives a PDCCH indicating uplink initial transmission or downlink initial transmission, the terminal device continues to monitor the duration of the PDCCH.
  • Downlink DRX retransmission timer (drx-RetransmissionTimerDL): The terminal device monitors the longest duration of the PDCCH indicating downlink retransmission scheduling. Each downlink HARQ process except the broadcast HARQ process corresponds to a DRX-RetransmissionTimerDL.
  • Uplink DRX retransmission timer (drx-RetransmissionTimerUL): The terminal device monitors the longest duration of the PDCCH indicating uplink retransmission scheduling. Each uplink HARQ process corresponds to a DRX-RetransmissionTimerUL.
  • DRX long cycle start offset (drx-LongCycleStartOffset): used to configure the long DTX cycle (Long DRX cycle), and the subframe offset at which the Long DRX cycle and the short DRX cycle (Short DRX cycle) start.
  • DRX short cycle (drx-ShortCycle): optional configuration.
  • DRX short cycle timer (drx-ShortCycleTimer): the duration of the terminal device in the Short DRX cycle (and not receiving any PDCCH), which is an optional configuration.
  • Downlink discontinuous reception hybrid automatic repeat request round-trip delay timer (drx-HARQ-RTT-TimerDL): The terminal device expects to receive the minimum waiting time required for the PDCCH indicating the downlink scheduling, except for the broadcast HARQ process.
  • One downlink HARQ process corresponds to one DRX-HARQ-RTT-TimerDL;
  • Uplink discontinuous reception hybrid automatic repeat request round-trip delay timer (drx-HARQ-RTT-TimerUL): the minimum waiting time that the terminal device expects to receive the PDCCH indicating the uplink scheduling, and each uplink HARQ process corresponds to a drx -HARQ-RTT-TimerUL.
  • DRX Active Time includes the following situations:
  • a scheduling request (Scheduling Request, SR) is sent on the PUCCH and is in a pending state.
  • the terminal device has not received the PDCCH indication scrambled by the Cell Radio Network Temporary Identifier (C-RNTI) after successfully receiving the random access response. Initial transmission.
  • C-RNTI Cell Radio Network Temporary Identifier
  • a schematic diagram of the DRX cycle of the terminal device determines the time to start the drx-onDurationTimer according to the current short DRX cycle (Short DRX Cycle) or the long DRX cycle (Long DRX Cycle).
  • the specific regulations are as follows:
  • the drx-onDurationTimer is started at a time after drx-SlotOffset slots from the beginning of the current subframe.
  • the NR system further increases the system bandwidth on the basis of the Long Term Evolution (LTE) system.
  • LTE Long Term Evolution
  • the NR system also supports CA technology.
  • the network device can also configure one or more secondary cells (Secondary Cells) for the terminal device through Radio Resource Control (RRC).
  • RRC Radio Resource Control
  • SCell has two states: activated and inactivated.
  • the terminal device can send and receive data on the SCell.
  • the terminal device can monitor the Physical Downlink Control Channel (PDCCH) on the PCell and one or more activated SCells at the same time, and send and receive data, thereby increasing the data transmission rate
  • PDCCH Physical Downlink Control Channel
  • two DRX groups can be configured, namely primary DRX group and secondary DRX group.
  • the network equipment is configured with a set of drx-onDuration Timer and drx-Inactivity Timer for the primary DRX group and the secondary DRX group. That is, for the primary DRX group, the network device configures the corresponding drx-onDuration Timer and drx-Inactivity Timer; for the secondary DRX group, the network device configures the corresponding drx-onDuration Timer and drx-Inactivity Timer.
  • DRX configuration parameters other than drx-onDuration Timer and drx-Inactivity Timer are common configuration parameters of primary DRX group and secondary DRX group. And the NR system does not support cross-carrier scheduling between the primary DRX group and the secondary DRX group.
  • the configuration parameters corresponding to the secondary DRX group have not yet been clarified, such as whether the drx-onDuration Timer and drx-Inactivity Timer corresponding to the secondary DRX group are optional or required parameters; it is unclear whether the drx-onDuration Timer and drx-Inactivity Timer corresponding to the secondary DRX group are optional parameters;
  • the onDuration Timer and drx-Inactivity Timer are scenarios where the parameters are optional, and it is not clear which parameter value the terminal device should use.
  • GSM global system of mobile communication
  • CDMA code division multiple access
  • WCDMA broadband code division multiple access
  • GPRS general packet radio service
  • LTE LTE system
  • FDD frequency division duplex
  • FDD frequency division duplex
  • time division duplex time division duplex
  • LTE-A advanced long term evolution
  • NR new radio
  • NR NR
  • LTE-based access to unlicensed spectrum on unlicensed frequency bands LTE-U
  • NR-based access to unlicensed spectrum, NR-U system on unlicensed frequency bands
  • UMTS universal mobile telecommunication system
  • WiMAX Microwave access
  • WiMAX wireless local area networks
  • WLAN wireless fidelity
  • WiFi next-generation communication systems or other communication systems, etc.
  • the network equipment involved in the embodiments of this application may be a common base station (such as NodeB or eNB or gNB), a new radio controller (NR controller), a centralized network element (centralized unit), a new radio base station, Radio remote module, micro base station, relay, distributed unit, reception point (transmission reception point, TRP), transmission point (transmission point, TP), or any other equipment.
  • a common base station such as NodeB or eNB or gNB
  • NR controller new radio controller
  • a centralized network element centralized unit
  • a new radio base station Radio remote module
  • micro base station relay, distributed unit, reception point (transmission reception point, TRP), transmission point (transmission point, TP), or any other equipment.
  • TRP transmission reception point
  • TP transmission point
  • the terminal device may be any terminal.
  • the terminal device may be a user equipment for machine-type communication. That is to say, the terminal equipment can also be referred to as user equipment UE, mobile station (mobile station, MS), mobile terminal (mobile terminal), terminal (terminal), etc., and the terminal device can be accessed via a radio access network.
  • network, RAN communicates with one or more core networks.
  • the terminal device can be a mobile phone (or called a "cellular" phone), a computer with a mobile terminal, etc., for example, the terminal device can also be a portable or pocket-sized , Handheld, computer built-in or vehicle-mounted mobile devices that exchange language and/or data with the wireless access network.
  • the terminal device may be a user equipment for machine-type communication. That is to say, the terminal equipment can also be referred to as user equipment UE, mobile station (mobile station, MS), mobile terminal (mobile terminal), terminal (terminal), etc., and the terminal device can be accessed via a radio access network.
  • network, RAN
  • network equipment and terminal equipment can be deployed on land, including indoor or outdoor, handheld or vehicle-mounted; they can also be deployed on water; they can also be deployed on airborne aircraft, balloons, and satellites.
  • the embodiments of the present application do not limit the application scenarios of network equipment and terminal equipment.
  • communication between network equipment and terminal equipment and between terminal equipment and terminal equipment can be carried out through licensed spectrum, or through unlicensed spectrum, or through licensed spectrum and terminal equipment at the same time. Unlicensed spectrum for communication.
  • Between network equipment and terminal equipment and between terminal equipment and terminal equipment can communicate through the frequency spectrum below 7 gigahertz (gigahertz, GHz), can also communicate through the frequency spectrum above 7 GHz, and can also use the frequency spectrum below 7 GHz and Communication is performed in the frequency spectrum above 7GHz.
  • the embodiment of the present application does not limit the spectrum resource used between the network device and the terminal device.
  • D2D device to device
  • M2M machine to machine
  • MTC machine type communication
  • V2V vehicle to vehicle
  • the communication system 100 applied in the embodiment of the present application is shown in FIG. 2.
  • the communication system 100 may include a network device 110, and the network device 110 may be a device that communicates with a terminal device 120 (or called a communication terminal or terminal).
  • the network device 110 may provide communication coverage for a specific geographic area, and may communicate with terminal devices located in the coverage area.
  • the network device 110 may be a base station (Base Transceiver Station, BTS) in a GSM system or a CDMA system, a base station (NodeB, NB) in a WCDMA system, or an evolved base station in an LTE system (Evolutional Node B, eNB or eNodeB), or the wireless controller in the Cloud Radio Access Network (CRAN), or the network equipment can be a mobile switching center, a relay station, an access point, a vehicle-mounted device, Wearable devices, hubs, switches, bridges, routers, network-side devices in 5G networks, or network devices in the future evolution of the Public Land Mobile Network (PLMN), etc.
  • BTS Base Transceiver Station
  • NodeB, NB base station
  • LTE Long Term Evolutional Node B
  • eNB evolved base station
  • CRAN Cloud Radio Access Network
  • the network equipment can be a mobile switching center, a relay station, an access point, a vehicle-mounted device, Wearable devices, hubs, switches
  • the communication system 100 also includes at least one terminal device 120 located within the coverage area of the network device 110.
  • the "terminal equipment” used here includes but is not limited to connection via wired lines, such as via Public Switched Telephone Networks (PSTN), Digital Subscriber Line (DSL), digital cable, and direct cable connection ; And/or another data connection/network; and/or via a wireless interface, such as for cellular networks, wireless local area networks (WLAN), digital TV networks such as DVB-H networks, satellite networks, AM- FM broadcast transmitter; and/or another terminal device that is set to receive/send communication signals; and/or Internet of Things (IoT) equipment.
  • PSTN Public Switched Telephone Networks
  • DSL Digital Subscriber Line
  • WLAN wireless local area networks
  • IoT Internet of Things
  • a terminal device set to communicate through a wireless interface may be referred to as a "wireless communication terminal", a “wireless terminal” or a “mobile terminal”.
  • mobile terminals include, but are not limited to, satellite or cellular phones; Personal Communications System (PCS) terminals that can combine cellular radio phones with data processing, fax, and data communication capabilities; can include radio phones, pagers, Internet/intranet PDA with internet access, web browser, memo pad, calendar, and/or Global Positioning System (GPS) receiver; and conventional laptop and/or palmtop receivers or others including radio telephone transceivers Electronic device.
  • PCS Personal Communications System
  • GPS Global Positioning System
  • Terminal equipment can refer to access terminals, user equipment (UE), user units, user stations, mobile stations, mobile stations, remote stations, remote terminals, mobile equipment, user terminals, terminals, wireless communication equipment, user agents, or User device.
  • the access terminal can be a cellular phone, a cordless phone, a Session Initiation Protocol (SIP) phone, a wireless local loop (Wireless Local Loop, WLL) station, a personal digital processing (Personal Digital Assistant, PDA), with wireless communication Functional handheld devices, computing devices or other processing devices connected to wireless modems, in-vehicle devices, wearable devices, terminal devices in 5G networks, or terminal devices in the future evolution of PLMN, etc.
  • SIP Session Initiation Protocol
  • WLL Wireless Local Loop
  • PDA Personal Digital Assistant
  • the terminal devices 120 may perform direct terminal connection (Device to Device, D2D) communication.
  • D2D Direct terminal connection
  • the 5G system or 5G network may also be referred to as a New Radio (NR) system or NR network.
  • NR New Radio
  • Figure 2 exemplarily shows one network device and two terminal devices.
  • the communication system 100 may include multiple network devices and the coverage of each network device may include other numbers of terminal devices. The embodiment does not limit this.
  • the communication system 100 may also include other network entities such as a network controller and a mobility management entity, which are not limited in the embodiment of the present application.
  • network entities such as a network controller and a mobility management entity, which are not limited in the embodiment of the present application.
  • the devices with communication functions in the network/system in the embodiments of the present application may be referred to as communication devices.
  • the communication device may include a network device 110 having a communication function and a terminal device 120.
  • the network device 110 and the terminal device 120 may be the specific devices described above, which will not be repeated here.
  • the communication device may also include other devices in the communication system 100, such as network controllers, mobility management entities and other network entities, which are not limited in the embodiment of the present application.
  • An optional processing flow of the discontinuous reception configuration method provided in the embodiment of the present application, as shown in FIG. 3, includes the following steps:
  • Step S201 The terminal device receives first configuration information, where the first configuration information is used to configure a secondary DRX group for the first MAC entity in the case of configuring a primary DRX group for the first MAC entity of the terminal device.
  • the first configuration information is carried in RRC information.
  • the terminal device in the CA scenario, includes a MAC entity; in the case that the network device has configured the primary DRX group for the first MAC entity of the terminal device, the first configuration information may be used as the first MAC entity.
  • the MAC entity configures the secondary DRX group. It can be understood that the condition for the network device to configure the secondary DRX group for the first MAC entity is that the primary DRX group has been configured for the first MAC entity.
  • the configuration parameters of the secondary DRX group are optional configuration parameters; that is, the network device may configure the secondary DRX group for the MAC entity of the terminal device, or may not configure the secondary DRX group for the MAC entity of the terminal device.
  • the configuration parameters of the secondary DRX group include at least: a discontinuous reception duration timer (drx-ondurationTimer) and/or a discontinuous reception deactivation timer (drx-InactivityTimer). It should be understood that, in addition to drx-ondurationTimer and drx-InactivityTimer, the configuration parameters of the secondary DRX group may also include other DRX-related parameters, such as drx-SlotOffset, or drx-RetransmissionTimer.
  • drx-ondurationTimer a discontinuous reception duration timer
  • drx-InactivityTimer discontinuous reception deactivation timer
  • the configuration parameters of the secondary DRX group may also include other DRX-related parameters, such as drx-SlotOffset, or drx-RetransmissionTimer.
  • the network device can only configure drx-ondurationTimer for the secondary DRX group of the first MAC entity of the terminal device, or the network device can also be the first MAC entity of the terminal device.
  • the secondary DRX group only configures drx-InactivityTimer, or the network device can also configure drx-ondurationTimer and drx-InactivityTimer for the secondary DRX group of the first MAC entity of the terminal device.
  • the method further includes:
  • Step S202 In the case that the first configuration information does not include at least one configuration parameter of the secondary DRX group, the terminal device determines the primary DRX group of the first MAC entity for the first configuration information
  • the configuration value of the at least one configuration parameter that is not included in the configuration parameter is the configuration value of the configuration parameter of the secondary DRX group.
  • the terminal device determines to use the configuration value of drx-onDurationTimer in the primary DRX group configuration of the first MAC entity as the secondary The duration of the drx-onDurationTimer of the DRX group.
  • the terminal device determines to use the configuration value of drx-InactivityTimer in the primary DRX group configuration of the first MAC entity as The duration of the drx-InactivityTimer of the secondary DRX group.
  • Another optional processing procedure of the discontinuous reception configuration method provided in the embodiment of the present application, as shown in FIG. 4, includes the following steps:
  • Step S301 The network device sends first configuration information, where the first configuration information is used to configure a secondary DRX group for the first MAC entity in the case of configuring a primary DRX group for the first MAC entity of the terminal device.
  • the first configuration information is carried in RRC information.
  • the terminal device may be a MAC entity; when the network device has configured the primary DRX group for the first MAC entity of the terminal device, the first configuration information may be used as the first MAC entity.
  • the MAC entity configures the secondary DRX group. It can be understood that the condition for the network device to configure the secondary DRX group for the first MAC entity is that the primary DRX group has been configured for the first MAC entity.
  • the configuration parameters of the secondary DRX group are optional configuration parameters; that is, the network device may configure the secondary DRX group for the MAC entity of the terminal device, or may not configure the secondary DRX group for the MAC entity of the terminal device.
  • the configuration parameters of the secondary DRX group include at least: drx-ondurationTimer and/or drx-InactivityTimer. It should be understood that, in addition to drx-ondurationTimer and drx-InactivityTimer, the configuration parameters of the secondary DRX group may also include other DRX-related parameters, such as drx-SlotOffset, or drx-RetransmissionTimer.
  • the network device can only configure drx-ondurationTimer for the secondary DRX group of the first MAC entity of the terminal device, or the network device can also be the first MAC entity of the terminal device.
  • the secondary DRX group only configures drx-InactivityTimer, or the network device can also configure drx-ondurationTimer and drx-InactivityTimer for the secondary DRX group of the first MAC entity of the terminal device.
  • a detailed optional processing flow of the discontinuous reception configuration method provided in the embodiment of the present application, as shown in FIG. 5, includes the following steps:
  • Step S401 The network device sends RRC configuration information to the terminal device.
  • the RRC configuration information is used to configure a primary DRX group and a secondary DRX group for a MAC entity of the terminal device.
  • condition for the network device to configure the secondary DRX group for the MAC entity of the terminal device is that the secondary DRX group has been configured for the MAC entity.
  • the configuration parameters of the primary DRX group include at least drx-InactivityTimer and drx-onDurationTimer.
  • the drx-InactivityTimer and drx-onDurationTimer are mandatory parameters; the mandatory parameters can be understood as parameters that the network device must configure for the terminal device.
  • the configuration parameters of the secondary DRX group include at least drx-InactivityTimer and drx-onDurationTimer.
  • the drx-InactivityTimer and drx-onDurationTimer are optional parameters; the optional parameters can be understood as parameters that can be configured by the network device for the terminal device, or may not be configured for the terminal device.
  • Step S402 The terminal device determines the configuration parameters of the secondary DRX group.
  • the terminal device uses the duration of drx-onDurationTimer in the configuration of the secondary DRX group as the secondary DRX.
  • the duration of the group's drx-onDurationTimer If the configuration of the secondary DRX group does not include the drx-onDurationTimer parameter, the terminal device uses the duration of the drx-onDurationTimer in the configuration of the primary DRX group as the duration of the drx-onDurationTimer of the secondary DRX group.
  • the terminal device uses the duration of the drx-InactivityTimer in the configuration of the secondary DRX group as the secondary DRX The duration of the group's drx-InactivityTimer. If the configuration of the secondary DRX group does not include the drx-InactivityTimer parameter, the terminal device uses the duration of the drx-InactivityTimer in the primary DRX group configuration as the duration of the drx-InactivityTimer of the secondary DRX group.
  • the discontinuous reception configuration method provided in the embodiment of the present application clarifies that the configuration condition for configuring a secondary DRX group for a MAC entity of a terminal device is to configure a primary DRX group for the MAC entity. Since the configuration parameters of the secondary DRX group in the embodiment of this application are optional configuration parameters, the flexible configuration of the secondary DRX group is realized. In addition, if the configuration value of a configuration parameter in the secondary DRX group of a MAC entity by the network device is the same as the configuration value of the parameter in the primary DRX group of the MAC entity, the network device may not be in the configuration of the secondary DRX group. Including this parameter, thereby saving signaling overhead.
  • the existing protocol is modified as follows:
  • drxSecondaryGroup-Config a description of "drxSecondaryGroup-Config" is added, drxSecondaryGroup-Config is an optional configuration, and the configuration condition of drxSecondaryGroup-Config is DRX setup; the corresponding protocol can be modified to:
  • DRX-Setup describes that if the DRX configuration exists, this field is optional and M is required, otherwise the gao field does not exist; corresponding
  • the agreement can be modified to:
  • DRXSecondaryGroup-Config is used to configure the relevant parameters of the secondary DRX group; as shown below :
  • the description of "DRXSecondaryGroup-config” can be added on the basis of related protocols, such as adding "drx-InactivityTimer” and "drx-onDurationTimer” in "DRXSecondaryGroup-config” If the drx-InactivityTimer field in the secondary DRX group does not exist, the terminal device uses the drx-InactivityTimer configuration in IE DRX-Config; if the drx-OndurationTimer field in the secondary DRX group does not exist, the terminal device uses IE DRX The configuration of drx-OndurationTimer in Config; as shown below:
  • An optional structural schematic diagram of the terminal device 500 includes:
  • the receiving unit 501 is configured to receive first configuration information, where the first configuration information is used to configure a secondary DRX group for the first MAC entity in the case of configuring a primary DRX group for the first MAC entity of the terminal device .
  • the configuration parameters of the secondary DRX group are optional configuration parameters.
  • the configuration parameters of the secondary DRX group include at least: a discontinuous reception duration timer and/or a discontinuous reception deactivation timer.
  • the terminal device 500 further includes a processing unit 502 configured to determine the first MAC when at least one configuration parameter of the secondary DRX group is not included in the first configuration information
  • the configuration value of the entity's primary DRX group for the at least one configuration parameter not included in the first configuration information is the configuration value of the configuration parameter of the secondary DRX group.
  • the processing unit 502 is configured to determine the status of the first MAC entity when the discontinuous reception duration timer of the secondary DRX group is not included in the first configuration information
  • the configuration value of the discontinuous reception duration timer of the primary DRX group is the configuration value of the discontinuous reception duration timer of the secondary DRX group.
  • the processing unit is configured to determine the status of the first MAC entity when the discontinuous reception deactivation timer of the secondary DRX group is not included in the first configuration information
  • the configuration value of the discontinuous reception deactivation timer of the primary DRX group is the configuration value of the discontinuous reception deactivation timer of the secondary DRX group.
  • the first configuration information is carried in radio resource control RRC information.
  • a schematic diagram of the optional composition structure of the network device 600, as shown in FIG. 7, includes:
  • the sending unit 601 is configured to send first configuration information, where the first configuration information is used to configure a secondary DRX group for the first MAC entity in the case of configuring a primary DRX group for the first MAC entity of the terminal device.
  • the configuration parameters of the secondary DRX group are optional configuration parameters.
  • the configuration parameters of the secondary DRX group include at least: a discontinuous reception duration timer and/or a discontinuous reception deactivation timer.
  • the first configuration information is carried in RRC information.
  • An embodiment of the present application further provides a terminal device, including a processor and a memory for storing a computer program that can run on the processor, wherein the processor is used to execute the above-mentioned terminal device when the computer program is running. Steps of discontinuous reception configuration method.
  • An embodiment of the present application also provides a network device, including a processor and a memory for storing a computer program that can run on the processor, where the processor is used to execute the above-mentioned network device when the computer program is running. Steps of discontinuous reception configuration method.
  • An embodiment of the present application also provides a chip, including a processor, configured to call and run a computer program from a memory, so that a device installed with the chip executes the discontinuous reception configuration method performed by the terminal device.
  • An embodiment of the present application also provides a chip, including a processor, configured to call and run a computer program from a memory, so that a device installed with the chip executes the discontinuous reception configuration method performed by the network device.
  • the embodiment of the present application further provides a storage medium storing an executable program, and when the executable program is executed by a processor, the discontinuous reception configuration method executed by the terminal device described above is implemented.
  • the embodiment of the present application also provides a storage medium storing an executable program, and when the executable program is executed by a processor, it realizes the discontinuous reception configuration method executed by the above-mentioned network device.
  • An embodiment of the present application also provides a computer program product, including computer program instructions, which cause a computer to execute the discontinuous reception configuration method performed by the above-mentioned terminal device.
  • An embodiment of the present application also provides a computer program product, including computer program instructions, which cause a computer to execute the discontinuous reception configuration method performed by the above-mentioned network device.
  • the embodiment of the present application also provides a computer program that enables a computer to execute the discontinuous reception configuration method performed by the terminal device described above.
  • An embodiment of the present application also provides a computer program that enables a computer to execute the discontinuous reception configuration method performed by the above-mentioned network device.
  • FIG. 8 is a schematic diagram of the hardware composition structure of an electronic device (terminal device or network device) according to an embodiment of the present application.
  • the electronic device 700 includes: at least one processor 701, a memory 702, and at least one network interface 704.
  • the various components in the electronic device 700 are coupled together through the bus system 705.
  • the bus system 705 is used to implement connection and communication between these components.
  • the bus system 705 also includes a power bus, a control bus, and a status signal bus.
  • various buses are marked as the bus system 705 in FIG. 8.
  • the memory 702 may be a volatile memory or a non-volatile memory, and may also include both volatile and non-volatile memory.
  • non-volatile memory can be ROM, Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), and electrically erasable Programmable read-only memory (EEPROM, Electrically Erasable Programmable Read-Only Memory), magnetic random access memory (FRAM, ferromagnetic random access memory), flash memory (Flash Memory), magnetic surface memory, optical disk, or CD-ROM (CD) -ROM, Compact Disc Read-Only Memory); Magnetic surface memory can be disk storage or tape storage.
  • the volatile memory may be a random access memory (RAM, Random Access Memory), which is used as an external cache.
  • RAM random access memory
  • SRAM static random access memory
  • SSRAM synchronous static random access memory
  • Synchronous Static Random Access Memory Synchronous Static Random Access Memory
  • DRAM Dynamic Random Access Memory
  • SDRAM Synchronous Dynamic Random Access Memory
  • DDRSDRAM Double Data Rate Synchronous Dynamic Random Access Memory
  • ESDRAM Enhanced Synchronous Dynamic Random Access Memory
  • SLDRAM synchronous connection dynamic random access memory
  • DRRAM Direct Rambus Random Access Memory
  • the memory 702 described in the embodiment of the present application is intended to include, but is not limited to, these and any other suitable types of memory.
  • the memory 702 in the embodiment of the present application is used to store various types of data to support the operation of the electronic device 700.
  • Examples of such data include: any computer program used to operate on the electronic device 700, such as the application program 7022.
  • the program for implementing the method of the embodiment of the present application may be included in the application program 7022.
  • the method disclosed in the foregoing embodiment of the present application may be applied to the processor 701 or implemented by the processor 701.
  • the processor 701 may be an integrated circuit chip with signal processing capabilities. In the implementation process, the steps of the foregoing method can be completed by an integrated logic circuit of hardware in the processor 701 or instructions in the form of software.
  • the aforementioned processor 701 may be a general-purpose processor, a digital signal processor (DSP, Digital Signal Processor), or other programmable logic devices, discrete gates or transistor logic devices, discrete hardware components, and the like.
  • the processor 701 may implement or execute the methods, steps, and logical block diagrams disclosed in the embodiments of the present application.
  • the general-purpose processor may be a microprocessor or any conventional processor or the like.
  • the steps of the method disclosed in the embodiments of the present application may be directly embodied as being executed and completed by a hardware decoding processor, or executed and completed by a combination of hardware and software modules in the decoding processor.
  • the software module may be located in a storage medium, and the storage medium is located in the memory 702.
  • the processor 701 reads the information in the memory 702 and completes the steps of the foregoing method in combination with its hardware.
  • the electronic device 700 may be used by one or more application specific integrated circuits (ASIC, Application Specific Integrated Circuit), DSP, programmable logic device (PLD, Programmable Logic Device), and complex programmable logic device (CPLD). , Complex Programmable Logic Device), FPGA, general-purpose processor, controller, MCU, MPU, or other electronic components to implement the foregoing method.
  • ASIC Application Specific Integrated Circuit
  • DSP digital signal processor
  • PLD programmable logic device
  • CPLD complex programmable logic device
  • FPGA field-programmable Logic Device
  • controller MCU
  • MPU or other electronic components to implement the foregoing method.
  • These computer program instructions can also be stored in a computer-readable memory that can direct a computer or other programmable data processing equipment to work in a specific manner, so that the instructions stored in the computer-readable memory produce an article of manufacture including the instruction device.
  • the device implements the functions specified in one process or multiple processes in the flowchart and/or one block or multiple blocks in the block diagram.
  • These computer program instructions can also be loaded on a computer or other programmable data processing equipment, so that a series of operation steps are executed on the computer or other programmable equipment to produce computer-implemented processing, so as to execute on the computer or other programmable equipment.
  • the instructions provide steps for implementing the functions specified in one process or multiple processes in the flowchart and/or one block or multiple blocks in the block diagram.

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Abstract

本申请公开了一种非连续接收的配置方法,包括:终端设备接收第一配置信息,所述第一配置信息用于在为所述终端设备的第一媒体接入控制(MAC)实体配置主非连续接收组的情况下,为所述第一MAC实体配置辅非连续接收组。本申请还公开了另一种非连续接收的配置方法、电子设备及存储介质。

Description

一种非连续接收的配置方法、电子设备及存储介质 技术领域
本申请涉及无线通信技术领域,尤其涉及一种非连续接收的配置方法、电子设备及存储介质。
背景技术
在新无线(New Radio,NR)系统中,针对载波聚合(Carrier Aggregation,CA)的场景,媒体接入控制(Media Access Control,MAC)实体的辅非连续接收组(secondary Discontinuous Reception group,secondary DRX group)的相关参数配置尚未明确。
发明内容
本申请实施例提供一种非连续接收的配置方法、电子设备及存储介质,明确了MAC实体的secondary DRX group的相关参数配置。
第一方面,本申请实施例提供一种非连续接收的配置方法,包括:终端设备接收第一配置信息,所述第一配置信息用于在为所述终端设备的第一MAC实体配置主非连续接收组(primary DRX group)的情况下,为所述第一MAC实体配置secondary DRX group。
第二方面,本申请实施例提供一种非连续接收的配置方法,包括:网络设备发送第一配置信息,所述第一配置信息用于在为终端设备的第一MAC实体配置primary DRX group的情况下,为所述第一MAC实体配置secondary DRX group。
第三方面,本申请实施例提供一种终端设备,所述终端设备包括:接收单元,配置为接收第一配置信息,所述第一配置信息用于在为所述终端设备的第一MAC实体配置primary DRX group的情况下,为所述第一MAC实体配置secondary DRX group。
第四方面,本申请实施例提供一种网络设备,所述网络设备包括:发送单元,配置为发送第一配置信息,所述第一配置信息用于在为终端设备的第一MAC实体配置primary DRX group的情况下,为所述第一MAC实体配置secondary DRX group。
第五方面,本申请实施例提供一种终端设备,包括处理器和用于存储能够在处理器上运行的计算机程序的存储器,其中,所述处理器用于运行所述计算机程序时,执行上述终端设备执行的非连续接收的配置方法的步骤。
第六方面,本申请实施例提供一种网络设备,包括处理器和用于存储能够在处理器上运行的计算机程序的存储器,其中,所述处理器用于运行所述计算机程序时,执行上述网络设备执行的非连续接收的配置方法的步骤。
第七方面,本申请实施例提供一种芯片,包括:处理器,用于从存储器中调用并运行计算机程序,使得安装有所述芯片的设备执行上述终端设备执行的非连续接收的配置方法。
第八方面,本申请实施例提供一种芯片,包括:处理器,用于从存储器中调用并运行计算机程序,使得安装有所述芯片的设备执行上述网络设备执行的非连续接收的配置方法。
第九方面,本申请实施例提供一种存储介质,存储有可执行程序,所述可执行程序被处理器执行时,实现上述终端设备执行的非连续接收的配置方法。
第十方面,本申请实施例提供一种存储介质,存储有可执行程序,所述可执行程序被处理器执行时,实现上述网络设备执行的非连续接收的配置方法。
第十一方面,本申请实施例提供一种计算机程序产品,包括计算机程序指令,该计算机程序指令使得计算机执行上述终端设备执行的非连续接收的配置方法。
第十二方面,本申请实施例提供一种计算机程序产品,包括计算机程序指令,该计算机程序指令使得计算机执行上述网络设备执行的非连续接收的配置方法。
第十三方面,本申请实施例提供一种计算机程序,所述计算机程序使得计算机执行上述终端设备执行的非连续接收的配置方法。
第十四方面,本申请实施例提供一种计算机程序,所述计算机程序使得计算机执行上述网络设备执行的非连续接收的配置方法。
本申请实施例提供的非连续接收的配置方法、电子设备及存储介质,包括:终端设备接收第一配置信息,所述第一配置信息用于在为所述终端设备的第一MAC实体配置主非连续接收组的情况下,为所述第一MAC实体配置辅非连续接收组;如此,明确了secondary DRX group的相关参数配置,如secondary DRX group的参数配置条件是为secondary DRX group对应的MAC实体配置了primary DRX group。
附图说明
图1为本申请实施例非连续接收周期的一种可选示意图;
图2为本申请实施例通信系统的组成结构示意图;
图3为本申请实施例非连续接收的配置方法的一种可选处理流程示意图;
图4为本申请实施例非连续接收的配置方法的另一种可选处理流程示意图;
图5为本申请实施例非连续接收的配置方法的一种详细可选处理流程示意图;
图6为本申请实施例终端设备的一种可选组成结构示意图;
图7为本申请实施例网络设备的一种可选组成结构示意图;
图8为本申请实施例电子设备的硬件组成结构示意图。
具体实施方式
为了能够更加详尽地了解本申请实施例的特点和技术内容,下面结合附图对本申请实施例的实现进行详细阐述,所附附图仅供参考说明之用,并非用来限定本申请实施例。
在NR系统中,网络设备可以为终端设备配置DRX功能。使终端设备非连续地监听PDCCH,进而达到终端设备省电的目的。每个媒体接入控制(Medium Access Control,MAC)实体有一个DRX配置;DRX的配置参数包括:
1)DRX持续定时器(drx-onDuration Timer),在一个DRX周期(Cycle)的开始 终端设备醒来的持续时间。
2)DRX时隙偏移(drx-SlotOffset),终端设备启动drx-onDuration Timer的时延。
3)DRX去激活定时器(drx-InactivityTimer),当终端设备收到一个指示上行初传或者下行初传的PDCCH后,终端设备继续监听PDCCH的持续时间。
4)下行DRX重传定时器(drx-RetransmissionTimerDL):终端设备监听指示下行重传调度的PDCCH的最长持续时间。除广播HARQ进程之外的每个下行HARQ进程对应一个DRX–RetransmissionTimerDL。
5)上行DRX重传定时器(drx-RetransmissionTimerUL):终端设备监听指示上行重传调度的PDCCH的最长持续时间。每个上行HARQ进程对应一个DRX-RetransmissionTimerUL。
6)DRX长周期起始偏移(drx-LongCycleStartOffset):用于配置长DTX周期(Long DRX cycle),以及Long DRX cycle和短DRX周期(Short DRX Cycle)开始的子帧偏移。
7)DRX短周期(drx-ShortCycle):为可选配置。
8)DRX短周期定时器(drx-ShortCycleTimer):终端设备处于Short DRX cycle(并且没有接收到任何PDCCH)的持续时间,为可选配置。
9)下行非连续接收混合自动重传请求往返时延定时器(drx-HARQ-RTT-TimerDL):终端设备期望接收到指示下行调度的PDCCH需要的最少等待时间,除广播HARQ进程之外的每个下行HARQ进程对应一个DRX-HARQ-RTT-TimerDL;
10)上行非连续接收混合自动重传请求往返时延定时器(drx-HARQ-RTT-TimerUL):终端设备期望接收到指示上行调度的PDCCH需要的最少等待时间,每个上行HARQ进程对应一个drx-HARQ-RTT-TimerUL。
如果终端设备配置了DRX,则终端设备需要在DRX Active Time监听PDCCH。DRX Active Time包括如下几种情况:
1)下述5个定时器中的任何一个定时器正在运行:drx-onDurationTimer、drx-InactivityTimer、drx–RetransmissionTimerDL、drx-RetransmissionTimerUL以及ra-ContentionResolutionTimer。
2)在PUCCH上发送了调度请求(Scheduling Request,SR)并处于待处理(pending)状态。
3)在基于竞争的随机接入过程中,终端设备在成功接收到随机接入响应后还没有接收到小区无线网络临时标识(Cell Radio Network Temporary Identifier,C-RNTI)加扰的PDCCH指示的一次初始传输。
终端设备的DRX周期示意图,如图1所示,终端设备根据当前处于短DRX周期(Short DRX Cycle)或长DRX周期(Long DRX Cycle),来决定启动drx-onDurationTimer的时间,具体规定如下:
1)如果终端设备当前处于Short DRX Cycle,并且当前子帧满足[(SFN×10)+subframe number]modulo(drx-ShortCycle)=(drx-StartOffset)modulo(drx-ShortCycle);或者
2)如果终端设备当前处于Long DRX Cycle,并且当前子帧满足[(SFN×10)+ subframe number]modulo(drx-LongCycle)=drx-StartOffset:
则在当前子帧开始的drx-SlotOffset个slot之后的时刻启动drx-onDurationTimer。
为了能够提供更高的数据传输速率,提升用户体验,NR系统在长期演进(Long Term Evolution,LTE)系统的基础上进一步增大了系统带宽。在NR系统中,对于6GHz以下频段,单载波支持的最大带宽为100MHz;对于6GHz以上频段,单载波支持的最大带宽为400MHz。与LTE系统相同,NR系统也支持CA技术。对于支持CA特性的终端设备,该终端设备除了有一个主小区(Primary Cell,PCell),网络设备通过无线资源控制(Radio Resource Control,RRC)还可以为终端设备配置一个或者多个辅小区(Secondary Cell,SCell)。SCell有激活和非激活两种状态。只有当SCell处于激活状态时,终端设备才可以在SCell上进行数据的发送和接收。终端设备可以同时在PCell和激活的一个或者多个SCell上监听物理下行控制信道(Physical Downlink Control Channel,PDCCH),并进行数据的发送和接收,从而提升数据传输速率
在NR CA场景下,针对一个MAC实体,可以配置两个DRX组(DRX group),分别是primary DRX group和secondary DRX group。网络设备为primary DRX group和secondary DRX group各配置一套drx-onDuration Timer和drx-Inactivity Timer。即针对primary DRX group,网络设备配置对应的drx-onDuration Timer和drx-Inactivity Timer;针对secondary DRX group,网络设备配置对应的drx-onDuration Timer和drx-Inactivity Timer。除drx-onDuration Timer和drx-Inactivity Timer以外的DRX配置参数为primary DRX group和secondary DRX group的公共配置参数。且NR系统不支持primary DRX group和secondary DRX group之间的跨载波调度。
但是,针对secondary DRX group对应的配置参数的一些属性尚未明确,如secondary DRX group对应的drx-onDuration Timer和drx-Inactivity Timer属于可选参数还是必选参数尚未明确;针对secondary DRX group对应的drx-onDuration Timer和drx-Inactivity Timer属于可选参数的场景,终端设备应该使用哪个参数值也尚未明确。
本申请实施例的技术方案可以应用于各种通信系统,例如:全球移动通讯(global system of mobile communication,GSM)系统、码分多址(code division multiple access,CDMA)系统、宽带码分多址(wideband code division multiple access,WCDMA)系统、通用分组无线业务(general packet radio service,GPRS)、LTE系统、LTE频分双工(frequency division duplex,FDD)系统、LTE时分双工(time division duplex,TDD)系统、先进的长期演进(advanced long term evolution,LTE-A)系统、新无线(new radio,NR)系统、NR系统的演进系统、非授权频段上的LTE(LTE-based access to unlicensed spectrum,LTE-U)系统、非授权频段上的NR(NR-based access to unlicensed spectrum,NR-U)系统、通用移动通信系统(universal mobile telecommunication system,UMTS)、全球互联微波接入(worldwide interoperability for microwave access,WiMAX)通信系统、无线局域网(wireless local area networks,WLAN)、无线保真(wireless fidelity,WiFi)、下一代通信系统或其他通信系统等。
本申请实施例描述的系统架构以及业务场景是为了更加清楚的说明本申请实施例的技术方案,并不构成对于本申请实施例提供的技术方案的限定,本领域普通技术人员可知,随着网络架构的演变和新业务场景的出现,本申请实施例提供的技术方案对于类 似的技术问题,同样适用。
本申请实施例中涉及的网络设备,可以是普通的基站(如NodeB或eNB或者gNB)、新无线控制器(new radio controller,NR controller)、集中式网元(centralized unit)、新无线基站、射频拉远模块、微基站、中继(relay)、分布式网元(distributed unit)、接收点(transmission reception point,TRP)、传输点(transmission point,TP)或者任何其它设备。本申请的实施例对网络设备所采用的具体技术和具体设备形态不做限定。为方便描述,本申请所有实施例中,上述为终端设备提供无线通信功能的装置统称为网络设备。
在本申请实施例中,终端设备可以是任意的终端,比如,终端设备可以是机器类通信的用户设备。也就是说,该终端设备也可称之为用户设备UE、移动台(mobile station,MS)、移动终端(mobile terminal)、终端(terminal)等,该终端设备可以经无线接入网(radio access network,RAN)与一个或多个核心网进行通信,例如,终端设备可以是移动电话(或称为“蜂窝”电话)、具有移动终端的计算机等,例如,终端设备还可以是便携式、袖珍式、手持式、计算机内置的或者车载的移动装置,它们与无线接入网交换语言和/或数据。本申请实施例中不做具体限定。
可选的,网络设备和终端设备可以部署在陆地上,包括室内或室外、手持或车载;也可以部署在水面上;还可以部署在空中的飞机、气球和人造卫星上。本申请的实施例对网络设备和终端设备的应用场景不做限定。
可选的,网络设备和终端设备之间以及终端设备和终端设备之间可以通过授权频谱(licensed spectrum)进行通信,也可以通过非授权频谱(unlicensed spectrum)进行通信,也可以同时通过授权频谱和非授权频谱进行通信。网络设备和终端设备之间以及终端设备和终端设备之间可以通过7吉兆赫(gigahertz,GHz)以下的频谱进行通信,也可以通过7GHz以上的频谱进行通信,还可以同时使用7GHz以下的频谱和7GHz以上的频谱进行通信。本申请的实施例对网络设备和终端设备之间所使用的频谱资源不做限定。
通常来说,传统的通信系统支持的连接数有限,也易于实现,然而,随着通信技术的发展,移动通信系统将不仅支持传统的通信,还将支持例如,设备到设备(device to device,D2D)通信,机器到机器(machine to machine,M2M)通信,机器类型通信(machine type communication,MTC),以及车辆间(vehicle to vehicle,V2V)通信等,本申请实施例也可以应用于这些通信系统。
示例性的,本申请实施例应用的通信系统100,如图2所示。该通信系统100可以包括网络设备110,网络设备110可以是与终端设备120(或称为通信终端、终端)通信的设备。网络设备110可以为特定的地理区域提供通信覆盖,并且可以与位于该覆盖区域内的终端设备进行通信。可选地,该网络设备110可以是GSM系统或CDMA系统中的基站(Base Transceiver Station,BTS),也可以是WCDMA系统中的基站(NodeB,NB),还可以是LTE系统中的演进型基站(Evolutional Node B,eNB或eNodeB),或者是云无线接入网络(Cloud Radio Access Network,CRAN)中的无线控制器,或者该网络设备可以为移动交换中心、中继站、接入点、车载设备、可穿戴设备、集线器、交换机、网桥、路由器、5G网络中的网络侧设备或者未来演进的公共陆地移动网络(Public Land Mobile Network,PLMN)中的网络设备等。
该通信系统100还包括位于网络设备110覆盖范围内的至少一个终端设备120。作为在此使用的“终端设备”包括但不限于经由有线线路连接,如经由公共交换电话网络(Public Switched Telephone Networks,PSTN)、数字用户线路(Digital Subscriber Line,DSL)、数字电缆、直接电缆连接;和/或另一数据连接/网络;和/或经由无线接口,如,针对蜂窝网络、无线局域网(Wireless Local Area Network,WLAN)、诸如DVB-H网络的数字电视网络、卫星网络、AM-FM广播发送器;和/或另一终端设备的被设置成接收/发送通信信号的装置;和/或物联网(Internet of Things,IoT)设备。被设置成通过无线接口通信的终端设备可以被称为“无线通信终端”、“无线终端”或“移动终端”。移动终端的示例包括但不限于卫星或蜂窝电话;可以组合蜂窝无线电电话与数据处理、传真以及数据通信能力的个人通信系统(Personal Communications System,PCS)终端;可以包括无线电电话、寻呼机、因特网/内联网接入、Web浏览器、记事簿、日历以及/或全球定位系统(Global Positioning System,GPS)接收器的PDA;以及常规膝上型和/或掌上型接收器或包括无线电电话收发器的其它电子装置。终端设备可以指接入终端、用户设备(User Equipment,UE)、用户单元、用户站、移动站、移动台、远方站、远程终端、移动设备、用户终端、终端、无线通信设备、用户代理或用户装置。接入终端可以是蜂窝电话、无绳电话、会话启动协议(Session Initiation Protocol,SIP)电话、无线本地环路(Wireless Local Loop,WLL)站、个人数字处理(Personal Digital Assistant,PDA)、具有无线通信功能的手持设备、计算设备或连接到无线调制解调器的其它处理设备、车载设备、可穿戴设备、5G网络中的终端设备或者未来演进的PLMN中的终端设备等。
可选地,终端设备120之间可以进行终端直连(Device to Device,D2D)通信。
可选地,5G系统或5G网络还可以称为新无线(New Radio,NR)系统或NR网络。
图2示例性地示出了一个网络设备和两个终端设备,可选地,该通信系统100可以包括多个网络设备并且每个网络设备的覆盖范围内可以包括其它数量的终端设备,本申请实施例对此不做限定。
可选地,该通信系统100还可以包括网络控制器、移动管理实体等其他网络实体,本申请实施例对此不作限定。
应理解,本申请实施例中网络/系统中具有通信功能的设备可称为通信设备。以图2示出的通信系统100为例,通信设备可包括具有通信功能的网络设备110和终端设备120,网络设备110和终端设备120可以为上文所述的具体设备,此处不再赘述;通信设备还可包括通信系统100中的其他设备,例如网络控制器、移动管理实体等其他网络实体,本申请实施例中对此不做限定。
本申请实施例提供的非连续接收的配置方法的一种可选处理流程,如图3所示,包括以下步骤:
步骤S201,终端设备接收第一配置信息,所述第一配置信息用于在为所述终端设备的第一MAC实体配置primary DRX group的情况下,为所述第一MAC实体配置secondary DRX group。
在一些实施例中,所述第一配置信息携带于RRC信息中。
在一些实施例中,在CA场景下,终端设备包括一个MAC实体;网络设备在已经为终端设备的第一MAC实体配置了primary DRX group的情况下,可以通过第一配置 信息为所述第一MAC实体配置secondary DRX group。可以理解为,网络设备为第一MAC实体配置secondary DRX group的条件是已经为第一MAC实体配置了primary DRX group。
在一些实施例中,所述secondary DRX group的配置参数为可选配置参数;即网络设备可以为终端设备的MAC实体配置secondary DRX group,也可以不为终端设备的MAC实体配置secondary DRX group。
在一些实施例中,secondary DRX group的配置参数至少包括:非连续接收持续定时器(drx-ondurationTimer)和/或非连续接收去激活定时器(drx-InactivityTimer)。应理解,secondary DRX group的配置参数除了drx-ondurationTimer和drx-InactivityTimer,还可以包括其他与DRX相关的参数,如drx-SlotOffset、或drx-RetransmissionTimer等参数。
由于secondary DRX group的配置参数为可选配置参数,因此,网络设备可以为终端设备的第一MAC实体的secondary DRX group仅配置drx-ondurationTimer,或者网络设备也可以为终端设备的第一MAC实体的secondary DRX group仅配置drx-InactivityTimer,或者网络设备还可以为终端设备的第一MAC实体的secondary DRX group配置drx-ondurationTimer和drx-InactivityTimer。
在一些实施例中,所述方法还包括:
步骤S202,在所述第一配置信息中未包括所述secondary DRX group的至少一个配置参数的情况下,所述终端设备确定所述第一MAC实体的primary DRX group的针对所述第一配置信息中未包括的所述至少一个配置参数的配置值,为所述secondary DRX group的配置参数的配置值。
举例来说,若第一配置信息中没有包含第一MAC实体的secondary DRX group的drx-onDurationTimer参数,则终端设备确定使用第一MAC实体的primary DRX group配置中的drx-onDurationTimer的配置值作为secondary DRX group的drx-onDurationTimer的时长。
再举例来说,若第一配置信息中没有包含第一MAC实体的secondary DRX group的drx-InactivityTimer参数,则终端设备确定使用第一MAC实体的primary DRX group配置中的drx-InactivityTimer的配置值作为secondary DRX group的drx-InactivityTimer的时长。
本申请实施例提供的非连续接收的配置方法的另一种可选处理流程,如图4所示,包括以下步骤:
步骤S301,网络设备发送第一配置信息,所述第一配置信息用于在为终端设备的第一MAC实体配置primary DRX group的情况下,为所述第一MAC实体配置secondary DRX group。
在一些实施例中,所述第一配置信息携带于RRC信息中。
在一些实施例中,在CA场景下,终端设备可以一个MAC实体;网络设备在已经为终端设备的第一MAC实体配置了primary DRX group的情况下,可以通过第一配置信息为所述第一MAC实体配置secondary DRX group。可以理解为,网络设备为第一MAC实体配置secondary DRX group的条件是已经为第一MAC实体配置了primary  DRX group。
在一些实施例中,所述secondary DRX group的配置参数为可选配置参数;即网络设备可以为终端设备的MAC实体配置secondary DRX group,也可以不为终端设备的MAC实体配置secondary DRX group。
在一些实施例中,secondary DRX group的配置参数至少包括:drx-ondurationTimer和/或drx-InactivityTimer。应理解,secondary DRX group的配置参数除了drx-ondurationTimer和drx-InactivityTimer,还可以包括其他与DRX相关的参数,如drx-SlotOffset、或drx-RetransmissionTimer等参数。
由于secondary DRX group的配置参数为可选配置参数,因此,网络设备可以为终端设备的第一MAC实体的secondary DRX group仅配置drx-ondurationTimer,或者网络设备也可以为终端设备的第一MAC实体的secondary DRX group仅配置drx-InactivityTimer,或者网络设备还可以为终端设备的第一MAC实体的secondary DRX group配置drx-ondurationTimer和drx-InactivityTimer。
本申请实施例提供的非连续接收的配置方法的一种详细可选处理流程,如图5所示,包括以下步骤:
步骤S401,网络设备向终端设备发送RRC配置信息。
在一些实施例中,RRC配置信息用于为终端设备的一个MAC实体配置primary DRX group和secondary DRX group。
在一些实施例中,网络设备为终端设备的MAC实体配置secondary DRX group的条件是已经为该MAC实体配置secondary DRX group。
在一些实施例中,primary DRX group的配置参数至少包括drx-InactivityTimer和drx-onDurationTimer。其中,所述drx-InactivityTimer和drx-onDurationTimer为必选参数;必选参数可以理解为网络设备一定要为终端设备配置的参数。
在一些实施例中,secondary DRX group的配置参数至少包括drx-InactivityTimer和drx-onDurationTimer。其中,所述drx-InactivityTimer和drx-onDurationTimer为可选参数;可选参数可以理解为网络设备可以为终端设备配置的参数,也可以不为终端设备配置的参数。
步骤S402,终端设备确定secondary DRX group的配置参数。
在一些实施例中,针对drx-onDurationTimer的定时器时长,若secondary DRX group的配置中包含了drx-onDurationTimer参数,则终端设备使用所述secondary DRX group的配置中的drx-onDurationTimer的时长作为secondary DRX group的drx-onDurationTimer的时长。若secondary DRX group的配置中没有包含drx-onDurationTimer参数,则终端设备使用primary DRX group配置中的drx-onDurationTimer的时长作为secondary DRX group的drx-onDurationTimer的时长。
在一些实施例中,针对drx-InactivityTimer的定时器时长,若secondary DRX group的配置中包含了drx-InactivityTimer参数,则终端设备使用所述secondary DRX group的配置中的drx-InactivityTimer的时长作为secondary DRX group的drx-InactivityTimer的时长。若secondary DRX group的配置中没有包含drx-InactivityTimer参数,则终端设备使用primary DRX group配置中的drx-InactivityTimer的时长作为secondary DRX group 的drx-InactivityTimer的时长。
本申请实施例提供的非连续接收的配置方法,明确了为终端设备的一个MAC实体配置secondary DRX group的配置条件是为该MAC实体配置了primary DRX group。由于本申请实施例中secondary DRX group的配置参数为可选配置参数,因此实现了对secondary DRX group的灵活配置。并且,若网络设备对一个MAC实体的secondary DRX group中某个配置参数的配置值与该MAC实体的primary DRX group中该参数的配置值相同的情况下网络设备可以在secondary DRX group的配置中不包含该参数,进而节省信令开销。
基于本申请实施例提供的非连续接收的配置方法,对现有协议进行如下修改:
1)对于“MAC-CellGroupConfig”
中的“MAC-CellGroupConfig information element”,增加了针对“drxSecondaryGroup-Config”的描述,drxSecondaryGroup-Config为可选配置,drxSecondaryGroup-Config的配置条件为DRX setup;相应的协议可以修改为:
Figure PCTCN2020091657-appb-000001
Figure PCTCN2020091657-appb-000002
2)对于“MAC-CellGroupConfig field descriptions”中增加了“drxSecondaryGroup-Config-r16”的描述,对于CA的终端设备,在同时为该终端设备配置FR1小区和FR2小区的情况下,按照TS38.321[3]配置secondary DRXgroup,相应的协议可以修改为:
Figure PCTCN2020091657-appb-000003
3)对于“Conditional Presence”中增加了和“DRX-Setup”的描述,DRX-Setup描述为,如果DRX配置存在,则该域是可选的,且需要M,否则垓域不存在;相应的协议可以修改为:
Figure PCTCN2020091657-appb-000004
现有协议中,DRX的配置为:
Figure PCTCN2020091657-appb-000005
Figure PCTCN2020091657-appb-000006
Figure PCTCN2020091657-appb-000007
4)基于本申请实施例提供的非连续接收的配置方法,可在相关协议的基础上增加关于“DRXSecondaryGroup-Config”的描述,IE DRXSecondaryGroup-Config用于配置secondary DRX group的相关参数;如下所示:
Figure PCTCN2020091657-appb-000008
相关协议中,DRX配置的域描述,如下所示:
Figure PCTCN2020091657-appb-000009
5)基于本申请实施例提供的非连续接收的配置方法,可在相关协议的基础上增加“DRXSecondaryGroup-config”的描述,如增加“DRXSecondaryGroup-config”中“drx-InactivityTimer”和“drx-onDurationTimer”的描述,如果secondary DRX group中drx-InactivityTimer的域不存在,终端设备利用IE DRX-Config中的drx-InactivityTimer的配置;如果secondary DRX group中drx-OndurationTimer的域不存在,终端设备利用IE DRX-Config中的drx-OndurationTimer的配置;如下所示:
Figure PCTCN2020091657-appb-000010
为实现上述非连续接收的配置方法,本申请实施例提供一种终端设备,所述终端设备500的一种可选组成结构示意图,如图6所示,包括:
接收单元501,配置为接收第一配置信息,所述第一配置信息用于在为所述终端设备的第一MAC实体配置primary DRX group的情况下,为所述第一MAC实体配置secondary DRX group。
在一些实施例中,所述secondary DRX group的配置参数为可选配置参数。
在一些实施例中,所述secondary DRX group的配置参数至少包括:非连续接收持续定时器和/或非连续接收去激活定时器。
在一些实施例中,所述终端设备500还包括:处理单元502,配置为在所述第一配置信息中未包括所述secondary DRX group的至少一个配置参数的情况下,确定所述第一MAC实体的primary DRX group的针对所述第一配置信息中未包括的所述至少一个配置参数的配置值,为所述secondary DRX group的配置参数的配置值。
在一些实施例中,所述处理单元502,配置为在所述第一配置信息中未包括所述所述secondary DRX group的非连续接收持续定时器的情况下,确定所述第一MAC实体的primary DRX group的非连续接收持续定时器的配置值,为所述secondary DRX group的非连续接收持续定时器的配置值。
在一些实施例中,所述处理单元,配置为在所述第一配置信息中未包括所述所述secondary DRX group的非连续接收去激活定时器的情况下,确定所述第一MAC实体的primary DRX group的非连续接收去激活定时器的配置值,为所述secondary DRX group的非连续接收去激活定时器的配置值。
在一些实施例中,所述第一配置信息携带于无线资源控制RRC信息中。
为实现上述非连续接收的配置方法,本申请实施例提供一种网络设备,所述网络设备600的可选组成结构示意图,如图7所示,包括:
发送单元601,配置为发送第一配置信息,所述第一配置信息用于在为终端设备的第一MAC实体配置primary DRX group的情况下,为所述第一MAC实体配置secondary DRX group。
在一些实施例中,所述secondary DRX group的配置参数为可选配置参数。
在一些实施例中,所述secondary DRX group的配置参数至少包括:非连续接收持续定时器和/或非连续接收去激活定时器。
在一些实施例中,所述第一配置信息携带于RRC信息中。
本申请实施例还提供一种终端设备,包括处理器和用于存储能够在处理器上运行的计算机程序的存储器,其中,所述处理器用于运行所述计算机程序时,执行上述终端设备执行的非连续接收的配置方法的步骤。
本申请实施例还提供一种网络设备,包括处理器和用于存储能够在处理器上运行的计算机程序的存储器,其中,所述处理器用于运行所述计算机程序时,执行上述网络设备执行的非连续接收的配置方法的步骤。
本申请实施例还提供一种芯片,包括:处理器,用于从存储器中调用并运行计算机程序,使得安装有所述芯片的设备执行上述终端设备执行的非连续接收的配置方法。
本申请实施例还提供一种芯片,包括:处理器,用于从存储器中调用并运行计算机程序,使得安装有所述芯片的设备执行上述网络设备执行的非连续接收的配置方法。
本申请实施例还提供一种存储介质,存储有可执行程序,所述可执行程序被处理器执行时,实现上述终端设备执行的非连续接收的配置方法。
本申请实施例还提供一种存储介质,存储有可执行程序,所述可执行程序被处理器执行时,实现上述网络设备执行的非连续接收的配置方法。
本申请实施例还提供一种计算机程序产品,包括计算机程序指令,该计算机程序指令使得计算机执行上述终端设备执行的非连续接收的配置方法。
本申请实施例还提供一种计算机程序产品,包括计算机程序指令,该计算机程序指令使得计算机执行上述网络设备执行的非连续接收的配置方法。
本申请实施例还提供一种计算机程序,所述计算机程序使得计算机执行上述终端设备执行的非连续接收的配置方法。
本申请实施例还提供一种计算机程序,所述计算机程序使得计算机执行上述网络设备执行的非连续接收的配置方法。
图8是本申请实施例的电子设备(终端设备或网络设备)的硬件组成结构示意图,电子设备700包括:至少一个处理器701、存储器702和至少一个网络接口704。电子设备700中的各个组件通过总线系统705耦合在一起。可理解,总线系统705用于实现这些组件之间的连接通信。总线系统705除包括数据总线之外,还包括电源总线、控制总线和状态信号总线。但是为了清楚说明起见,在图8中将各种总线都标为总线系统705。
可以理解,存储器702可以是易失性存储器或非易失性存储器,也可包括易失性和非易失性存储器两者。其中,非易失性存储器可以是ROM、可编程只读存储器(PROM,Programmable Read-Only Memory)、可擦除可编程只读存储器(EPROM,Erasable Programmable Read-Only Memory)、电可擦除可编程只读存储器(EEPROM,Electrically Erasable Programmable Read-Only Memory)、磁性随机存取存储器(FRAM,ferromagnetic random access memory)、快闪存储器(Flash Memory)、磁表面存储器、光盘、或只读光盘(CD-ROM,Compact Disc Read-Only Memory);磁表面存储器可以是磁盘存储器或磁带存储器。易失性存储器可以是随机存取存储器(RAM,Random Access Memory),其用作外部高速缓存。通过示例性但不是限制性说明,许多形式的RAM可用,例如静态随机存取存储器(SRAM,Static Random Access Memory)、同步静态随机存取存储器(SSRAM,Synchronous Static Random Access Memory)、动态随机存取存储器(DRAM, Dynamic Random Access Memory)、同步动态随机存取存储器(SDRAM,Synchronous Dynamic Random Access Memory)、双倍数据速率同步动态随机存取存储器(DDRSDRAM,Double Data Rate Synchronous Dynamic Random Access Memory)、增强型同步动态随机存取存储器(ESDRAM,Enhanced Synchronous Dynamic Random Access Memory)、同步连接动态随机存取存储器(SLDRAM,SyncLink Dynamic Random Access Memory)、直接内存总线随机存取存储器(DRRAM,Direct Rambus Random Access Memory)。本申请实施例描述的存储器702旨在包括但不限于这些和任意其它适合类型的存储器。
本申请实施例中的存储器702用于存储各种类型的数据以支持电子设备700的操作。这些数据的示例包括:用于在电子设备700上操作的任何计算机程序,如应用程序7022。实现本申请实施例方法的程序可以包含在应用程序7022中。
上述本申请实施例揭示的方法可以应用于处理器701中,或者由处理器701实现。处理器701可能是一种集成电路芯片,具有信号的处理能力。在实现过程中,上述方法的各步骤可以通过处理器701中的硬件的集成逻辑电路或者软件形式的指令完成。上述的处理器701可以是通用处理器、数字信号处理器(DSP,Digital Signal Processor),或者其他可编程逻辑器件、分立门或者晶体管逻辑器件、分立硬件组件等。处理器701可以实现或者执行本申请实施例中的公开的各方法、步骤及逻辑框图。通用处理器可以是微处理器或者任何常规的处理器等。结合本申请实施例所公开的方法的步骤,可以直接体现为硬件译码处理器执行完成,或者用译码处理器中的硬件及软件模块组合执行完成。软件模块可以位于存储介质中,该存储介质位于存储器702,处理器701读取存储器702中的信息,结合其硬件完成前述方法的步骤。
在示例性实施例中,电子设备700可以被一个或多个应用专用集成电路(ASIC,Application Specific Integrated Circuit)、DSP、可编程逻辑器件(PLD,Programmable Logic Device)、复杂可编程逻辑器件(CPLD,Complex Programmable Logic Device)、FPGA、通用处理器、控制器、MCU、MPU、或其他电子元件实现,用于执行前述方法。
本申请是参照根据本申请实施例的方法、设备(系统)、和计算机程序产品的流程图和/或方框图来描述的。应理解可由计算机程序指令实现流程图和/或方框图中的每一流程和/或方框、以及流程图和/或方框图中的流程和/或方框的结合。可提供这些计算机程序指令到通用计算机、专用计算机、嵌入式处理机或其他可编程数据处理设备的处理器以产生一个机器,使得通过计算机或其他可编程数据处理设备的处理器执行的指令产生用于实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的装置。
这些计算机程序指令也可存储在能引导计算机或其他可编程数据处理设备以特定方式工作的计算机可读存储器中,使得存储在该计算机可读存储器中的指令产生包括指令装置的制造品,该指令装置实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能。
这些计算机程序指令也可装载到计算机或其他可编程数据处理设备上,使得在计算机或其他可编程设备上执行一系列操作步骤以产生计算机实现的处理,从而在计算机或其他可编程设备上执行的指令提供用于实现在流程图一个流程或多个流程和/或方框图 一个方框或多个方框中指定的功能的步骤。
应理解,本申请中术语“系统”和“网络”在本文中常被可互换使用。本申请中术语“和/或”,仅仅是一种描述关联对象的关联关系,表示可以存在三种关系,例如,A和/或B,可以表示:单独存在A,同时存在A和B,单独存在B这三种情况。另外,本申请中字符“/”,一般表示前后关联对象是一种“或”的关系。
以上所述,仅为本申请的较佳实施例而已,并非用于限定本申请的保护范围,凡在本申请的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本申请的保护范围之内。

Claims (32)

  1. 一种非连续接收的配置方法,所述方法包括:
    终端设备接收第一配置信息,所述第一配置信息用于在为所述终端设备的第一媒体接入控制MAC实体配置主非连续接收组的情况下,为所述第一MAC实体配置辅非连续接收组。
  2. 根据权利要求1所述的方法,其中,所述辅非连续接收组的配置参数为可选配置参数。
  3. 根据权利要求1或2所述的方法,其中,所述辅非连续接收组的配置参数至少包括:
    非连续接收持续定时器和/或非连续接收去激活定时器。
  4. 根据权利要求1至3任一项所述的方法,其中,所述方法还包括:
    在所述第一配置信息中未包括所述辅非连续接收组的至少一个配置参数的情况下,所述终端设备确定所述第一MAC实体的主非连续接收组的针对所述第一配置信息中未包括的所述至少一个配置参数的配置值,为所述辅非连续接收组的配置参数的配置值。
  5. 根据权利要求4所述的方法,其中,在所述第一配置信息中未包括所述所述辅非连续接收组的非连续接收持续定时器的情况下,所述终端设备确定所述第一MAC实体的主非连续接收组的非连续接收持续定时器的配置值,为所述辅非连续接收组的非连续接收持续定时器的配置值。
  6. 根据权利要求4或5所述的方法,其中,在所述第一配置信息中未包括所述所述辅非连续接收组的非连续接收去激活定时器的情况下,所述终端设备确定所述第一MAC实体的主非连续接收组的非连续接收去激活定时器的配置值,为所述辅非连续接收组的非连续接收去激活定时器的配置值。
  7. 根据权利要求1至6任一项所述的方法,其中,所述第一配置信息携带于无线资源控制RRC信息中。
  8. 一种非连续接收的配置方法,所述方法包括:
    网络设备发送第一配置信息,所述第一配置信息用于在为终端设备的第一媒体接入控制MAC实体配置主非连续接收组的情况下,为所述第一MAC实体配置辅非连续接收组。
  9. 根据权利要求8所述的方法,其中,所述辅非连续接收组的配置参数为可选配 置参数。
  10. 根据权利要求8或9所述的方法,其中,所述辅非连续接收组的配置参数至少包括:
    非连续接收持续定时器和/或非连续接收去激活定时器。
  11. 根据权利要求8至10任一项所述的方法,其中,所述第一配置信息携带于无线资源控制RRC信息中。
  12. 一种终端设备,所述终端设备包括:
    接收单元,配置为接收第一配置信息,所述第一配置信息用于在为所述终端设备的第一媒体接入控制MAC实体配置主非连续接收组的情况下,为所述第一MAC实体配置辅非连续接收组。
  13. 根据权利要求12所述的终端设备,其中,所述辅非连续接收组的配置参数为可选配置参数。
  14. 根据权利要求12或13所述的终端设备,其中,所述辅非连续接收组的配置参数至少包括:
    非连续接收持续定时器和/或非连续接收去激活定时器。
  15. 根据权利要求12至14任一项所述的终端设备,其中,所述终端设备还包括:
    处理单元,配置为在所述第一配置信息中未包括所述辅非连续接收组的至少一个配置参数的情况下,确定所述第一MAC实体的主非连续接收组的针对所述第一配置信息中未包括的所述至少一个配置参数的配置值,为所述辅非连续接收组的配置参数的配置值。
  16. 根据权利要求15所述的终端设备,其中,所述处理单元,配置为在所述第一配置信息中未包括所述所述辅非连续接收组的非连续接收持续定时器的情况下,确定所述第一MAC实体的主非连续接收组的非连续接收持续定时器的配置值,为所述辅非连续接收组的非连续接收持续定时器的配置值。
  17. 根据权利要求15或16所述的终端设备,其中,所述处理单元,配置为在所述第一配置信息中未包括所述所述辅非连续接收组的非连续接收去激活定时器的情况下,确定所述第一MAC实体的主非连续接收组的非连续接收去激活定时器的配置值,为所述辅非连续接收组的非连续接收去激活定时器的配置值。
  18. 根据权利要求12至17任一项所述的终端设备,其中,所述第一配置信息携带于无线资源控制RRC信息中。
  19. 一种网络设备,其中,所述网络设备包括:
    发送单元,配置为发送第一配置信息,所述第一配置信息用于在为终端设备的第一媒体接入控制MAC实体配置主非连续接收组的情况下,为所述第一MAC实体配置辅非连续接收组。
  20. 根据权利要求19所述的网络设备,其中,所述辅非连续接收组的配置参数为可选配置参数。
  21. 根据权利要求19或20所述的网络设备,其中,所述辅非连续接收组的配置参数至少包括:
    非连续接收持续定时器和/或非连续接收去激活定时器。
  22. 根据权利要求19至21任一项所述的网络设备,其中,所述第一配置信息携带于无线资源控制RRC信息中。
  23. 一种终端设备,包括处理器和用于存储能够在处理器上运行的计算机程序的存储器,其中,
    所述处理器用于运行所述计算机程序时,执行权利要求1至7任一项所述的非连续接收的配置方法的步骤。
  24. 一种网络设备,包括处理器和用于存储能够在处理器上运行的计算机程序的存储器,其中,
    所述处理器用于运行所述计算机程序时,执行权利要求8至11任一项所述的非连续接收的配置方法的步骤。
  25. 一种存储介质,存储有可执行程序,所述可执行程序被处理器执行时,实现权利要求1至7任一项所述的非连续接收的配置方法。
  26. 一种存储介质,存储有可执行程序,所述可执行程序被处理器执行时,实现权利要求8至11任一项所述的非连续接收的配置方法。
  27. 一种计算机程序产品,包括计算机程序指令,该计算机程序指令使得计算机执行如权利要求1至7任一项所述的非连续接收的配置方法。
  28. 一种计算机程序产品,包括计算机程序指令,该计算机程序指令使得计算机执行如权利要求8至11任一项所述的非连续接收的配置方法。
  29. 一种计算机程序,所述计算机程序使得计算机执行如权利要求1至7任一项所述的非连续接收的配置方法。
  30. 一种计算机程序,所述计算机程序使得计算机执行如权利要求8至11任一项 所述的非连续接收的配置方法。
  31. 一种芯片,包括:处理器,用于从存储器中调用并运行计算机程序,使得安装有所述芯片的设备执行如权利要求1至7任一项所述的非连续接收的配置方法。
  32. 一种芯片,包括:处理器,用于从存储器中调用并运行计算机程序,使得安装有所述芯片的设备执行如权利要求8至11任一项所述的非连续接收的配置方法。
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