WO2021135579A1 - 非连续接收状态配置方法、终端及网络侧设备 - Google Patents
非连续接收状态配置方法、终端及网络侧设备 Download PDFInfo
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- WO2021135579A1 WO2021135579A1 PCT/CN2020/124235 CN2020124235W WO2021135579A1 WO 2021135579 A1 WO2021135579 A1 WO 2021135579A1 CN 2020124235 W CN2020124235 W CN 2020124235W WO 2021135579 A1 WO2021135579 A1 WO 2021135579A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/28—Discontinuous transmission [DTX]; Discontinuous reception [DRX]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0212—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave
- H04W52/0216—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave using a pre-established activity schedule, e.g. traffic indication frame
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
- H04W52/0235—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a power saving command
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/27—Transitions between radio resource control [RRC] states
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Definitions
- the present disclosure relates to the field of communication technology, and in particular to a discontinuous reception state configuration method, terminal and network side equipment.
- DRX discontinuous reception
- UE user equipment
- DRX duration timer drx-OndurationTimer
- drx-InactivityTimer the DRX inactive timer
- the base station cannot indicate that a DRX packet of this UE enters the DRX inactive state.
- the embodiments of the present disclosure provide a discontinuous reception state configuration method, terminal, and network-side equipment to solve the problem that the DRX inactive state indication method in the related technology can only be targeted at the terminal, resulting in a relatively single DRX inactive state indication method, which cannot meet the needs of all terminals.
- a discontinuous reception state configuration method which is applied to a terminal, and includes:
- the method before the receiving the instruction information sent by the network side device, the method further includes:
- Receive DRX parameters and group related information configured by the network side device for the terminal
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter.
- the DRX packet corresponding to a parameter.
- the instruction information is sent through one of the following:
- Radio resource control RRC signaling
- the configuring the at least one first DRX packet to enter the DRX inactive state includes at least one of the following:
- the embodiment of the present disclosure also provides a discontinuous reception state configuration method, which is applied to a network side device, and includes:
- the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters the DRX inactive state.
- the method before the sending instruction information to the terminal, the method further includes:
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter The corresponding DRX packet.
- the method before the sending instruction information to the terminal, the method further includes:
- the network side device determines at least one first DRX packet that enters the DRX inactive state.
- the instruction information is sent through one of the following:
- Radio resource control RRC signaling
- the embodiments of the present disclosure also provide a terminal, including: a transceiver, a memory, a processor, and a program stored on the memory and running on the processor; the processor executes the following steps when the program is executed :
- indication information sent by a network-side device, where the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters a DRX inactive state
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter.
- the DRX packet corresponding to a parameter.
- the instruction information is sent through one of the following:
- Radio resource control RRC signaling
- the processor implements at least one of the following steps when executing the program for configuring the at least one first DRX packet to enter the DRX inactive state:
- the embodiment of the present disclosure also provides a network side device, including: a transceiver, a memory, a processor, and a program stored on the memory and running on the processor; the processor executes the program when the program is executed The following steps:
- the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters the DRX inactive state.
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter The corresponding DRX packet.
- the network side device determines at least one first DRX packet that enters the DRX inactive state.
- the instruction information is sent through one of the following:
- Radio resource control RRC signaling
- the embodiment of the present disclosure also provides a computer-readable storage medium on which a computer program is stored, and when the computer program is executed by a processor, the above-mentioned discontinuous reception state configuration method is implemented.
- the embodiment of the present disclosure also provides a terminal, including:
- the first receiving module is configured to receive indication information sent by the network side device, where the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters the DRX inactive state;
- the configuration module is configured to configure the at least one first DRX packet to enter the DRX inactive state according to the instruction information.
- the embodiment of the present disclosure also provides a network side device, including:
- the sending module is used to send instruction information to the terminal
- the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters the DRX inactive state.
- the network side device instructs the terminal to enter at least one first DRX packet into the DRX inactive state, and the terminal configures the first DRX packet to enter the DRX inactive state according to the instructions of the network side device, so that the terminal can target a specific DRX packet Entering the DRX inactive state, enriches the DRX inactive state indication methods, and meets the all-round needs of the terminal.
- Figure 1 shows a schematic diagram of the DRX format
- FIG. 2 shows one of the schematic flowcharts of a discontinuous reception state configuration method according to an embodiment of the present disclosure
- Figure 3 shows one of the schematic diagrams of examples of MAC CE format
- Figure 4 shows the second schematic diagram of an example of the MAC CE format
- FIG. 5 shows the second schematic flowchart of the discontinuous reception state configuration method according to an embodiment of the present disclosure
- FIG. 6 shows a schematic diagram of modules of a terminal according to an embodiment of the present disclosure
- FIG. 7 shows a structural diagram of a terminal according to an embodiment of the present disclosure
- FIG. 8 shows a schematic diagram of modules of a network side device in an embodiment of the present disclosure
- Fig. 9 shows a structural diagram of a network-side device according to an embodiment of the present disclosure.
- DRX is introduced.
- This method allows the User Equipment (UE, also known as the terminal) to periodically enter the sleep state at certain times and does not listen to the Physical Downlink Control Channel (PDCCH) subframes/slots. When it needs to listen, it wakes up from the sleep state, so that the UE can save power.
- UE User Equipment
- PDCCH Physical Downlink Control Channel
- DRX can reduce UE power consumption, so DRX is very meaningful.
- the implementation of the DRX mechanism in the idle state and the connected state is different. Relatively speaking, the DRX mechanism in the connected state is shown in Figure 1.
- the period of time identifying the "duration” is the time for the UE to monitor the downlink PDCCH subframe. During this time, the UE is in an awake state.
- the period of time identifying the “DRX opportunity” is the time when DRX may enter sleep, that is, the time during which the UE may enter sleep without monitoring the PDCCH subframe in order to save power. During this period, the UE may enter the DRX active state due to UL transmission.
- the duration timer (onDurationTimer) specifies the number of consecutive subframes (that is, the number of subframes during which the active period lasts) that the PDCCH needs to be monitored from the start subframe of the DRX cycle. Within the time that onDurationTimer is turned on, the UE enters the DRX active state.
- the DRX inactivity timer (drx-InactivityTimer) specifies the number of consecutive subframes that are continuously in the active state after the UE successfully decodes a PDCCH indicating the initial transmission of uplink (UL) or downlink (DL) user data. That is, the timer is restarted every time the UE has initial transmission data to be scheduled or sent. (Note: This is the initial transmission and not the retransmission). Within the time that drx-InactivityTimer is turned on, the UE enters the DRX active state.
- Long/short DRX cycle (Long/short DRX cycle): Sometimes, the arrival of services is bursty, and the service interval may increase after a period of transmission. Therefore, the long/short DRX cycle mechanism is introduced in the DRX mechanism .
- the UE uses the short DRX cycle and starts/restarts the short DRX cycle timer.
- the short DRX cycle timer expires, the UE enters the long DRX cycle.
- FR1 is what we usually call sub 6GHz, the part below 6GHz, which will be the current mainstream application range of 5G.
- the FR2 range is mainly high frequency, which is what we usually call millimeter waves. It has weak penetration, but the bandwidth is very sufficient, there are no interference sources, the frequency spectrum is clean, and future applications are also very extensive.
- FR2 has a higher frequency, a larger bandwidth, a wider subcarrier space (SCS), and a shorter time slot can be selected. On the FR2, it can carry a larger throughput business, so that the transmission ends faster.
- SCS subcarrier space
- Two sets of DRX can be configured under the same Media Access Control (MAC) entity, that is, different DRX configurations are configured for FR1 and FR2 respectively.
- MAC Media Access Control
- the allowable onDurationTimer and drx-InactivityTimer are different.
- the onDurationTimer and drx-InactivityTimer on FR2 are shorter, which is more energy-efficient in the frequency band of FR2.
- the embodiments of the present disclosure provide a discontinuous reception state configuration method, terminal and Network side equipment.
- the discontinuous reception state configuration method of the embodiment of the present disclosure, applied to a terminal includes:
- Step 21 Receive the instruction information sent by the network side device
- the indication information is used to indicate that at least one first discontinuous reception (DRX) packet of the terminal enters the DRX inactive state;
- Step 22 Configure the at least one first DRX packet to enter the DRX inactive state according to the instruction information.
- the network side device needs to send a DRX packet indicating to enter the DRX inactive state to the terminal, and the terminal stops the network side device according to the instructions of the network side device
- the timer corresponding to the indicated DRX packet can be used to change the state of the DRX packet, so that the state can be changed for the DRX packet, which improves the flexibility of state update.
- configuring the at least one first DRX packet to enter the DRX inactive state includes at least one of the following:
- configuring the at least one first DRX packet to enter the DRX inactive state may also include:
- the indication information may be sent by one of a medium access control layer control unit (MAC CE), downlink control information (DCI), and radio resource control (RRC) signaling.
- MAC CE medium access control layer control unit
- DCI downlink control information
- RRC radio resource control
- the indication information can carry clear DRX group information, and it can also carry the serving cell identity or carrier identity.
- the terminal can determine which DRX group it corresponds to by using the serving cell identity or carrier identity.
- the instruction information carries DRX group information
- the discontinuous reception state configuration method further includes:
- Receive DRX parameters and group related information configured by the network side device for the terminal
- the group related information includes: DRX group.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- one target DRX packet information corresponds to one DRX packet, and there are several target DRX packet information in the indication information, and the terminal can determine that the network side device indicates several DRX packets to enter the DRX inactive state.
- the target DRX group information includes: identification information corresponding to the target DRX group, for example, the index of the group or the ID of the group.
- the implementation process of the network side device is mainly as follows:
- Step 1 The network side device configures DRX parameters for the terminal and configures DRX packets.
- Step 2 The network side device judges that there is no data in the buffer of the first logical channel of the terminal, or the network side device does not have downlink data for the terminal, thereby determining at least one first DRX packet that can enter the DRX inactive state, and sending it to the terminal.
- the first signaling carrying indication information is sent to the terminal, and the indication information is used to instruct to stop the DRX ondurationTimer and the DRX packet of the DRX inactivityTimer.
- the first signaling may be MAC CE, DCI, or RRC signaling.
- the first signaling includes DRX group information that enters the DRX inactive state.
- the DRX group information may include identification information corresponding to the DRX group.
- the DRX group information may further include information corresponding to the DRX group. Serving cell ID or carrier ID.
- the network side device configures N groups of DRX for the terminal, where N is an integer greater than or equal to 2. It should be noted that the range of N in the embodiment of the present disclosure is only an example and is not limited to greater than or equal to 2. The specific range of N in the embodiment does not constitute a limit.
- the network side device performs a number for each DRX group, and the number information is: DRX group 0, numbered 0; DRX group 1, numbered 1; ........DRX group N-1, numbered N-1 .
- the first signaling includes an index M, where M is an integer greater than or equal to 0 and less than N. Used to indicate that the DRX group is M, and the DRX group numbered M stops DRX ondurationTimer, and DRX inactivityTimer.
- the format of the MAC CE is shown in FIG. 3, where LCID is a logical channel number used to indicate the MAC CE, and GID represents the group number of the DRX group.
- LCID is a logical channel number used to indicate the MAC CE
- GID represents the group number of the DRX group.
- 2 bits which can indicate 4 groups, including 0(00), 1(01), 2(10), 3(11).
- the bit length of the GID can also be extended, which is not limited in the embodiment of the present disclosure.
- it may also be a bitmap mode, which is not limited in the embodiment of the present disclosure.
- the identification information corresponding to the DRX packet is carried in the DCI (that is, in this case, the DRX packet information only includes the corresponding DRX packet)
- the DCI may be an energy-saving signal. The function of the energy-saving signal is to indicate whether the terminal device opens the DRX duration timer.
- the implementation process of the terminal is mainly as follows:
- Step 1 The terminal receives the DRX parameters configured by the network side device and the DRX packet.
- Step 2 The terminal receives the first signaling sent by the network side, and according to the first signaling, stops the DRX ondurationTimer and the DRX inactivityTimer of the DRX packet indicated by the indication information carried in the first signaling.
- the terminal will also receive the same information as to what information the network-side device sends, that is, the information sending and receiving between the two is consistent.
- the network side device configures N groups of DRX for the terminal, where N is an integer greater than or equal to 2. It should be noted that the range of N in the embodiment of the present disclosure is only an example and is not limited to greater than or equal to 2. The specific scope of N is not restricted in the section.
- the network side device assigns a number to each DRX group, the number information is: DRX group 0, numbered 0; DRX group 1, numbered 1;...DRX group N-1, numbered N-1 .
- MAC CE When using MAC CE to send indication information, MAC CE includes index M, where M is an integer greater than or equal to 0 and less than N, used to indicate that the DRX group is M, the DRX group numbered M is stopped DRX ondurationTimer, and DRX inactivityTimer .
- the terminal After receiving the indication information carried by the MAC CE, the terminal only stops DRX ondurationTimer and DRX inactivityTimer on the DRX packet indicated by the indication information, so that the corresponding DRX packet enters the DRX inactive state.
- the indication information carries the serving cell identity or carrier identity
- the discontinuous reception state configuration method further includes:
- Receive DRX parameters and group related information configured by the network side device for the terminal
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group.
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target first parameter
- the first DRX group is a DRX group corresponding to the target first parameter.
- one target first parameter corresponds to one DRX packet
- the corresponding relationship between the target first parameter and the DRX packet can be used to determine which DRX packets are specifically instructed by the network side device to enter the DRX inactive state.
- the implementation process of the network side device is mainly as follows:
- Step 1 The network side device configures DRX parameters for the terminal, and configures the DRX group and the serving cell identity or carrier identity corresponding to the DRX group.
- Step 2 The network side device judges that there is no data in the buffer of the first logical channel of the terminal, or the network side has no downlink data for the terminal, thereby determining at least one first DRX packet that can enter the DRX inactive state, and sending it to the terminal.
- the first signaling of the indication information is given to the terminal, and the indication information is used to indicate to stop the DRX ondurationTimer and the DRX packet of the DRX inactivityTimer.
- the first signaling may be MAC CE, DCI, or RRC signaling.
- the first signaling includes a serving cell identity or a carrier identity.
- the network side device configures N groups of DRX for the terminal, where N is an integer greater than or equal to 2.
- the network side device configures the serving cell corresponding to each DRX group, for example, the ID of the serving cell corresponding to DRX group 0/the ID of the carrier is 0, 1, ..., P, the ID of the serving cell corresponding to DRX group 1/the ID of the carrier is P+1, P+2,..., Q; specifically, both P and Q are integers greater than or equal to zero.
- the first signaling includes the serving cell identity or carrier identity, for example, DRX group 0 corresponds to part or all of the serving cell/carrier, and DRX group 1 corresponds to part or all of the serving cell/carrier.
- the length of the bits used to indicate the serving cell identity/carrier identity can also be extended, which is not limited in the embodiment of the present disclosure.
- the indication information carried in the DCI can only include the identity of the serving cell/carrier (for example, ID information).
- the implementation process of the terminal is mainly as follows:
- Step 1 The terminal receives the DRX parameters configured by the network side device, the DRX packet, and the serving cell identity or carrier identity corresponding to the DRX packet.
- Step 2 The terminal receives the first signaling sent by the network side device, and determines the DRX packet that enters the DRX inactive state according to the serving cell identity or the carrier identity indicated by the indication information carried in the first signaling.
- Step 3 The terminal turns off the DRX ondurationTimer and DRX inactivityTimer corresponding to the DRX packet according to the DRX packet indicated by the indication information, so that the corresponding DRX packet enters the DRX inactive state.
- the terminal will receive the same information as the information sent by the network-side device, that is, the information sending and receiving between the two is consistent.
- the embodiments of the present disclosure can control specific DRX packets or DRX packets corresponding to specific cells/carriers to turn off DRX ondurationTimer and DRX inactivityTimer, thereby enriching DRX inactive state indication methods and meeting all-round needs of the terminal.
- the discontinuous reception state configuration method of the embodiment of the present disclosure, applied to a network side device includes:
- Step 51 Send instruction information to the terminal
- the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters the DRX inactive state.
- the method further includes:
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter The corresponding DRX packet.
- the method further includes:
- the network side device determines at least one first DRX packet that enters the DRX inactive state.
- the indication information is sent through one of the media access control layer control unit MAC CE, downlink control information DCI, and radio resource control RRC signaling.
- an embodiment of the present disclosure provides a terminal 60, including:
- the first receiving module 61 is configured to receive indication information sent by a network side device, where the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters the DRX inactive state;
- the configuration module 62 is configured to configure the at least one first DRX packet to enter the DRX inactive state according to the instruction information.
- the method further includes:
- the second receiving module is configured to receive DRX parameters and group related information configured by the network side device for the terminal;
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter.
- the DRX packet corresponding to a parameter.
- the indication information is sent through one of the media access control layer control unit MAC CE, downlink control information DCI, and radio resource control RRC signaling.
- the configuration module 62 configures the at least one first DRX packet to enter the DRX inactive state to achieve at least one of the following:
- this terminal embodiment is a terminal corresponding to the foregoing method embodiment one-to-one, and all implementation manners in the foregoing method embodiment are applicable to the terminal embodiment, and the same technical effect can also be achieved.
- an embodiment of the present disclosure further provides a terminal 70, including a processor 71, a transceiver 72, a memory 73, and a program stored on the memory 73 and running on the processor 71; wherein
- the transceiver 72 is connected to the processor 71 and the memory 73 through a bus interface, where the processor 71 is used to read a program in the memory and execute the following process:
- the indication information sent by the network-side device, where the indication information is used to indicate that at least one first discontinuously received DRX packet of the terminal enters the DRX inactive state;
- the bus architecture may include any number of interconnected buses and bridges. Specifically, one or more processors represented by the processor 71 and various circuits of the memory represented by the memory 73 are linked together.
- the bus architecture can also link various other circuits such as peripheral devices, voltage regulators, power management circuits, etc., which are all known in the art, and therefore, will not be further described herein.
- the bus interface provides the interface.
- the transceiver 72 may be a plurality of elements, that is, including a transmitter and a transceiver, and provide a unit for communicating with various other devices on a transmission medium.
- the user interface 74 may also be an interface capable of externally connecting internally required equipment, and the connected equipment includes but not limited to a keypad, a display, a speaker, a microphone, a joystick, etc.
- the processor 71 is responsible for managing the bus architecture and general processing, and the memory 73 can store data used by the processor 71 when performing operations.
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter.
- the DRX packet corresponding to a parameter.
- the indication information is sent through one of the media access control layer control unit MAC CE, downlink control information DCI, and radio resource control RRC signaling.
- the processor implements at least one of the following steps when executing the program for configuring the at least one first DRX packet to enter the DRX inactive state:
- the embodiments of the present disclosure also provide a computer-readable storage medium on which a computer program is stored, wherein the computer program implements the steps of the discontinuous reception state configuration method applied to the terminal when the computer program is executed by the processor.
- an embodiment of the present disclosure provides a network side device 80, including:
- the sending module 81 is used to send instruction information to the terminal;
- the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters the DRX inactive state.
- the method further includes:
- the parameter configuration module is used to configure DRX parameters and group related information for the terminal;
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter The corresponding DRX packet.
- the method further includes:
- the determining module is configured to determine at least one first DRX packet that enters the DRX inactive state when it is determined that there is no data in the buffer of the first logical channel of the terminal and/or the network side device does not have downlink data for the terminal .
- the indication information is sent through one of the media access control layer control unit MAC CE, downlink control information DCI, and radio resource control RRC signaling.
- the network-side device embodiment is a one-to-one corresponding to the above-mentioned method embodiment. All implementations in the above-mentioned method embodiment are applicable to the network-side device embodiment, and the same can be achieved. Technical effect.
- an embodiment of the present disclosure also provides a network side device 90, including a processor 91, a transceiver 92, a memory 93, and a program stored on the memory 93 and running on the processor 91
- the transceiver 92 is connected to the processor 91 and the memory 93 through a bus interface, wherein the processor 91 is used to read the program in the memory and perform the following process:
- the indication information is used to indicate that at least one first discontinuous reception DRX packet of the terminal enters the DRX inactive state.
- the bus architecture may include any number of interconnected buses and bridges, and specifically one or more processors represented by the processor 91 and various circuits of the memory represented by the memory 93 are linked together.
- the bus architecture can also link various other circuits such as peripheral devices, voltage regulators, power management circuits, etc., which are all known in the art, and therefore, will not be further described herein.
- the bus interface provides the interface.
- the transceiver 92 may be a plurality of elements, that is, including a transmitter and a transceiver, and provide a unit for communicating with various other devices on the transmission medium.
- the processor 91 is responsible for managing the bus architecture and general processing, and the memory 93 can store data used by the processor 91 when performing operations.
- the group related information includes: a DRX group, or the group related information includes: a DRX group and a first parameter corresponding to the DRX group;
- the first parameter includes: a serving cell identity or a carrier identity.
- the indication information includes at least one target DRX group information
- the first DRX group is a DRX group determined by the target DRX group information.
- the target DRX group information includes: identification information corresponding to the target DRX group.
- the group-related information includes: a DRX group and a first parameter corresponding to the DRX group
- the indication information includes at least one target first parameter
- the first DRX group is the target first parameter The corresponding DRX packet.
- the network side device determines at least one first DRX packet that enters the DRX inactive state.
- the indication information is sent through one of the media access control layer control unit MAC CE, downlink control information DCI, and radio resource control RRC signaling.
- the network side device can be the base station (BTS) in Global System of Mobile Communications (GSM) or Code Division Multiple Access (CDMA), or it can be broadband code division multiple access.
- the base station (NodeB, NB) in the address (Wideband Code Division Multiple Access, WCDMA) can also be an evolved base station (Evolutional Node B, eNB or eNodeB) in LTE, or a relay station or access point, or in the future 5G network
- the base station ng-NB Next Generation Node B
- a centralized control unit Central Unit, CU
- DU distributed control unit
- the embodiments described in the embodiments of the present disclosure may be implemented by hardware, software, firmware, middleware, microcode, or a combination thereof.
- units, modules, sub-units, and sub-modules can be implemented in one or more application specific integrated circuits (ASIC), digital signal processors (Digital Signal Processing, DSP), and digital signal processing equipment (DSP Device).
- ASIC application specific integrated circuits
- DSP Digital Signal Processing
- DSP Device digital signal processing equipment
- DSPD Digital Signal Processing
- PLD Programmable Logic Device
- FPGA Field-Programmable Gate Array
- general-purpose processors controllers, microcontrollers, microprocessors, and Disclosure of the described functions in other electronic units or combinations thereof.
- the technology described in the embodiments of the present disclosure can be implemented by modules (for example, procedures, functions, etc.) that perform the functions described in the embodiments of the present disclosure.
- the software codes can be stored in the memory and executed by the processor.
- the memory can be implemented in the processor or external to the processor.
- the embodiment of the present disclosure also provides a computer-readable storage medium on which a computer program is stored, wherein the computer program is executed by a processor to implement the steps of the discontinuous reception state configuration method applied to the network side device.
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Abstract
本公开提供了一种非连续接收状态配置方法、终端及网络侧设备。该非连续接收状态配置方法,应用于终端,包括:接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
Description
相关申请的交叉引用
本申请主张在2019年12月31日在中国提交的中国专利申请No.201911422027.9的优先权,其全部内容通过引用包含于此。
本公开涉及通信技术领域,特别涉及一种非连续接收状态配置方法、终端及网络侧设备。
相关技术中的标准中,针对分组的非连续接收(Discontinuous Reception,DRX),需要用户设备(User Equipment,UE,也称终端)分别等待每个DRX组的DRX持续时间定时器(drx-OndurationTimer)以及DRX非激活定时器(drx-InactivityTimer)超时后才能进入到DRX非激活(DRX inactive)状态,而基站无法指示这个UE的一个DRX分组进入到DRX inactive状态。
发明内容
本公开实施例提供一种非连续接收状态配置方法、终端及网络侧设备,以解决相关技术中的DRX inactive状态的指示方式只能针对终端,造成DRX inactive状态指示方式比较单一,不能满足终端全方位需求的问题。
为了解决上述技术问题,本公开实施例提供一种非连续接收状态配置方法,应用于终端,包括:
接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;
根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
可选地,在所述接收网络侧设备发送的指示信息之前,还包括:
接收网络侧设备为终端配置的DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,所述第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,所述第一DRX分组为所述目标第一参数对应的DRX分组。
具体地,所述指示信息通过以下一项发送:
媒体接入控制层控制单元MAC CE;
下行控制信息DCI;
无线资源控制RRC信令。
可选地,所述配置所述至少一个第一DRX分组进入DRX非激活状态,包括以下至少一项:
停止第一DRX分组对应的DRX持续时间定时器;
停止第一DRX分组对应的DRX非激活定时器;
停止第一DRX分组对应的DRX重传定时器。
本公开实施例还提供一种非连续接收状态配置方法,应用于网络侧设备,包括:
发送指示信息给终端;
其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
可选地,在所述发送指示信息给终端之前,还包括:
为终端配置DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,第一DRX分组为所述目标第一参数对应的DRX分组。
可选地,在所述发送指示信息给终端之前,还包括:
在判断终端的第一逻辑信道的缓存中没有数据、和/或网络侧设备没有针对所述终端的下行数据的情况下,确定进入DRX非激活状态的至少一个第一DRX分组。
具体地,所述指示信息通过以下一项发送:
媒体接入控制层控制单元MAC CE;
下行控制信息DCI;
无线资源控制RRC信令。
本公开实施例还提供一种终端,包括:收发机、存储器、处理器及存储在所述存储器上并可在所述处理器上运行的程序;所述处理器执行所述程序时实现以下步骤:
通过收发机接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;
根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
可选地,所述处理器执行所述接收网络侧设备发送的指示信息的程序之前,还实现以下步骤:
通过收发机接收网络侧设备为终端配置的DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包 括至少一个目标DRX分组信息,所述第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,所述第一DRX分组为所述目标第一参数对应的DRX分组。
具体地,所述指示信息通过以下一项发送:
媒体接入控制层控制单元MAC CE;
下行控制信息DCI;
无线资源控制RRC信令。
可选地,所述处理器执行所述配置所述至少一个第一DRX分组进入DRX非激活状态的程序时实现以下步骤中的至少一项:
停止第一DRX分组对应的DRX持续时间定时器;
停止第一DRX分组对应的DRX非激活定时器;
停止第一DRX分组对应的DRX重传定时器。
本公开实施例还提供一种网络侧设备,包括:收发机、存储器、处理器及存储在所述存储器上并可在所述处理器上运行的程序;所述处理器执行所述程序时实现以下步骤:
通过收发机发送指示信息给终端;
其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
可选地,所述处理器执行所述通过收发机发送指示信息给终端的程序之前,还实现以下步骤:
为终端配置DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,第一DRX分组为由所述目标DRX分组信 息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,第一DRX分组为所述目标第一参数对应的DRX分组。
可选地,所述处理器执行所述通过收发机发送指示信息给终端的程序之前,还实现以下步骤:
在判断终端的第一逻辑信道的缓存中没有数据、和/或网络侧设备没有针对所述终端的下行数据的情况下,确定进入DRX非激活状态的至少一个第一DRX分组。
具体地,所述指示信息通过以下一项发送:
媒体接入控制层控制单元MAC CE;
下行控制信息DCI;
无线资源控制RRC信令。
本公开实施例还提供一种计算机可读存储介质,其上存储有计算机程序,所述计算机程序被处理器执行时实现上述的非连续接收状态配置方法。
本公开实施例还提供一种终端,包括:
第一接收模块,用于接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;
配置模块,用于根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
本公开实施例还提供一种网络侧设备,包括:
发送模块,用于发送指示信息给终端;
其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
本公开的有益效果是:
上述方案,通过网络侧设备为终端指示至少一个第一DRX分组进入DRX非激活状态,终端根据网络侧设备的指示配置第一DRX分组进入DRX非激活状态,以此使得终端可以针对特定的DRX分组进入DRX非激活状态,丰 富了DRX非激活状态指示方式,满足了终端全方位需求。
图1表示DRX格式示意图;
图2表示本公开实施例的非连续接收状态配置方法的流程示意图之一;
图3表示MAC CE格式示例示意图之一;
图4表示MAC CE格式示例示意图之二;
图5表示本公开实施例的非连续接收状态配置方法的流程示意图之二;
图6表示本公开实施例的终端的模块示意图;
图7表示本公开实施例的终端的结构图;
图8表示本公开实施例的网络侧设备的模块示意图;
图9表示本公开实施例的网络侧设备的结构图。
为使本公开的目的、技术方案和优点更加清楚,下面将结合附图及具体实施例对本公开进行详细描述。
首先对与本公开实施例中相关的一些概念进行说明如下。
1、非连续接收(Discontinuous Reception,DRX)配置
在第四代和第五代移动通信系统(4G,5G或下一代无线(New radio,NR)系统)中,DRX被引入进来。这种方法可以让用户设备(User Equipment,UE,也称终端)周期性的在某些时候进入睡眠状态,不去侦听物理下行控制信道(Physical Downlink Control Channel,PDCCH)子帧/时隙,而需要侦听的时候,则从睡眠状态中唤醒,这样就可以使UE达到省电的目的。特别是对时延要求较低,但功耗要求较高的UE,DRX能够减少UE功率消耗,因此DRX是很有意义的。
DRX机制在空闲态和连接态下的实现是不同的,相对而言,连接态下的DRX机制如图1所示,标识“持续时间”的这段时间是UE监控下行PDCCH子帧的时间,在这段时间里,UE是处于唤醒状态的。标识“DRX机会”的这段时间是DRX可能进入睡眠时间,即UE可能为了省电,进入了睡眠而不 监控PDCCH子帧的时间,在此期间UE可能因为UL传输进去DRX active状态。从图1中可以看到,用于DRX睡眠的时间越长,UE的功率消耗就越低,但相应的业务传输的时延也会跟着增加。“Opportunity for DRX”也可以描述为DRX关闭(DRX off),或DRX非激活(DRX inactive)状态。
DRX参数解释:
持续时间定时器(onDurationTimer)指定了从DRX周期的起始子帧算起,需要监听PDCCH的连续子帧数(即激活期持续的子帧数)。在onDurationTimer打开的时间内,UE进入DRX active状态。
DRX非激活定时器(drx-InactivityTimer)指定了当UE成功解码一个指示初传的上行(UL)或下行(DL)用户数据的PDCCH后,持续位于激活态的连续子帧数。即每当UE有初传数据被调度或发送时,该定时器就重启一次。(注意:这里是初传而不是重传)。在drx-InactivityTimer打开的时间内,UE进入DRX active状态。
长/短DRX周期(Long/short DRX cycle):有时,业务的到达是突发性的,可能在传输一段时间后,业务间隔变大,所以在DRX机制中,引入了long/short DRX周期机制。在有业务传输的时候,UE使用short DRX cycle,并启动/重启short DRX cycle定时器。当short DRX cycle定时器超时后,UE进入long DRX cycle。
在NR系统中,5G的两个频段区域FR1和FR2。FR1就是我们通常说的sub 6GHz,低于6GHz的部分,这部分将是5G当前的主流应用范围。
由于频率越低,覆盖能力越强,穿透能力越好,但在相关技术中低于3GHz的部分,已经在之前的网络中使用,各国使用状况不同,因此,3.5GHz是5G应用的主流,但同时,3GPP同时划定了其它可用的频段,以便于灵活部署。
FR2范围主要是高频,也就是我们通常说的毫米波,穿透能力较弱,但带宽十分充足,且没有什么干扰源,频谱干净,未来的应用也十分广泛。
FR1和FR2的具体范围如表1所示:
表1
由于FR2的频率更高,因此可以选择更大的带宽,以及更宽的子载波带宽(Subcarrier space,SCS),更短的时隙。而在FR2上可以承载更大吞吐量的业务,从而更快的传输结束。
已经通过在同一个媒体接入控制(Media Access Control,MAC)实体下,可以配置2组DRX,即针对FR1和FR2分别配置不同的DRX配置。这两组DRX配置的参数中,允许onDurationTimer和drx-InactivityTimer是不同的。而FR2上的onDurationTimer和drx-InactivityTimer更短,从而在FR2的频段更节能。
针对相关技术中的DRX inactive状态的指示方式只能针对终端,造成DRX inactive状态指示方式比较单一,不能满足终端全方位需求的问题,本公开实施例提供一种非连续接收状态配置方法、终端及网络侧设备。
如图2所示,本公开实施例的非连续接收状态配置方法,应用于终端,包括:
步骤21,接收网络侧设备发送的指示信息;
需要说明的是,所述指示信息用于指示终端的至少一个第一非连续接收(DRX)分组进入DRX非激活状态;
步骤22,根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
需要说明的是,在需要使终端的某些DRX分组进入DRX非激活状态时,网络侧设备需要发送指示进入DRX非激活状态的DRX分组给终端,终端按照网络侧设备的指示,停止网络侧设备指示的DRX分组对应的定时器,以实现DRX分组的状态的变更,以此可以针对DRX分组进行状态的变更,提升了状态更新的灵活性。
具体地,配置所述至少一个第一DRX分组进入DRX非激活状态,包括以下至少一项:
A11、停止第一DRX分组对应的DRX持续时间定时器;
A12、停止第一DRX分组对应的DRX非激活定时器;
A13、停止第一DRX分组对应的DRX重传定时器。
需要说明的是,在上面A11-A13任一项的基础上,配置所述至少一个第一DRX分组进入DRX非激活状态,还可以包括:
停止第一DRX分组对应的DRX混合自动重新请求往返时延(HARQ RTT)定时器。
需要说明的是,该指示信息可以通过媒体接入控制层控制单元(MAC CE)、下行控制信息(DCI)和无线资源控制(RRC)信令中的一个发送。
需要说明的是,指示信息中可以携带明确的DRX分组信息,也可以携带服务小区标识或载波标识,终端通过该服务小区标识或载波标识可以确定其对应的具体为哪个DRX分组,下面分别从指示信息携带不同内容的角度,对本公开实施例进行具体说明如下。
一、指示信息中携带DRX分组信息
需要说明的是,在此种情况下,在步骤21之前,该非连续接收状态配置方法,还包括:
接收网络侧设备为终端配置的DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组。
具体地,所述指示信息中包括至少一个目标DRX分组信息,所述第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
需要说明的是,此种情况下,一个目标DRX分组信息对应一个DRX分组,指示信息中存在几个目标DRX分组信息,则终端便可以确定网络侧设备指示几个DRX分组进入DRX非激活状态。
具体地,该目标DRX分组信息中包括:目标DRX分组对应的标识信息,例如,分组的索引或分组的ID。
具体地,此种情况下,网络侧设备的实现过程主要为:
步骤一:网络侧设备为终端配置DRX参数,并配置DRX分组。
步骤二:网络侧设备判断终端的第一逻辑信道的缓存中没有数据,或网络侧设备没有针对终端的下行数据,从而确定出能进入DRX非激活状态的至少一个第一DRX分组,向终端发送携带指示信息的第一信令给终端,所述指示信息用于指示停止DRX ondurationTimer,以及DRX inactivityTimer的DRX 分组。
具体地,所述第一信令可以是MAC CE,也可以是DCI,也可以是RRC信令。
具体地,所述第一信令中包括进入DRX非激活状态的DRX分组信息,该DRX分组信息可以包括DRX分组对应的标识信息,可选地,该DRX分组信息还可以进一步包括与DRX分组对应的服务小区标识或载波标识。
例如,网络侧设备为终端配置了N组DRX,其中N为大于或等于2的整数,需要说明的是,本公开实施例中的N的范围只是举例,并不限于大于或等于2,本公开实施例中对N的具体范围并不构成限制。网络侧设备为每个DRX分组执行编号,编号信息为:DRX分组0,编号为0;DRX分组1,编号为1;........DRX分组N-1,编号为N-1。
第一信令中包括索引M,其中M为大于或等于0,小于N的整数。用于表示DRX分组为M,编号为M的DRX分组停止DRX ondurationTimer,以及DRX inactivityTimer。
可选地,在第一信令为MAC CE时,所述MAC CE的格式如图3所示,其中LCID是用于指示所述MAC CE的逻辑信道编号,其中GID表示DRX分组的组号,这里是2个比特,可以指示4个分组,包括0(00),1(01),2(10),3(11)。当然,GID的比特长度还可以扩展,本公开实施例中不做限定。可选地,也可以是比特位图(bitmap)的方式,本公开实施例中也不做限定。
还需要说明的是,当所述第一信令为DCI时,因DCI的长度限制,DCI中携带的是DRX分组对应的标识信息(即在此种情况下,DRX分组信息仅包括DRX分组对应的标识信息),还需要说明的是,该DCI可以是节能信号。节能信号的作用是指示终端设备是否打开DRX持续时间定时器。
具体地,此种情况下,终端的实现过程主要为:
步骤一:终端接收网络侧设备为其配置的DRX参数,以及DRX分组。
步骤二:终端接收网络侧发送的第一信令,并根据所述第一信令,停止所述第一信令中携带的指示信息所指示的DRX分组的DRX ondurationTimer,以及DRX inactivityTimer。
具体地,网络侧设备发送了何种信息,终端也会接收到同样的信息,即二者之间的信息发送与接收是保持一致的。
下面在实际应用中对此种实现方式的具体情况进行说明如下。
网络侧设备为终端配置了N组DRX,其中N为大于或等于2的整数,需要说明的是,本公开实施例中的N的范围只是举例,并不限于大于或等于2,本公开实施例中对N的具体范围并不构成限制。网络侧设备为每个DRX分组分配编号,编号信息为:DRX分组0,编号为0;DRX分组1,编号为1;........DRX分组N-1,编号为N-1。
当采用MAC CE发送指示信息时,MAC CE中包括索引M,其中M为大于或等于0,小于N的整数,用于表示DRX分组为M,编号为M的DRX分组停止DRX ondurationTimer,以及DRX inactivityTimer。
当终端接收到MAC CE承载的指示信息后,只在指示信息指示的DRX分组上停止DRX ondurationTimer,以及DRX inactivityTimer,以此使得相应的DRX分组进入DRX非激活状态。
二、指示信息中携带服务小区标识或载波标识
需要说明的是,在此种情况下,在步骤21之前,该非连续接收状态配置方法,还包括:
接收网络侧设备为终端配置的DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数,具体地,所述第一参数包括:服务小区标识或载波标识。
具体地,所述指示信息中包括至少一个目标第一参数,所述第一DRX分组为所述目标第一参数对应的DRX分组。
需要说明的是,一个目标第一参数对应一个DRX分组,通过目标第一参数与DRX分组的对应关系,便可以确定网络侧设备具体指示哪些DRX分组进入DRX非激活状态。
具体地,此种情况下,网络侧设备的实现过程主要为:
步骤一:网络侧设备为终端配置DRX参数,并配置DRX分组以及DRX分组对应的服务小区标识或载波标识。
步骤二:网络侧设备判断终端的第一逻辑信道的缓存中没有数据,或网 络侧没有针对终端的下行数据,从而确定出能进入DRX非激活状态的至少一个第一DRX分组,向终端发送携带指示信息的第一信令给终端,所述指示信息用于指示停止DRX ondurationTimer,以及DRX inactivityTimer的DRX分组。
具体地,所述第一信令可以是MAC CE,也可以是DCI,也可以是RRC信令。
具体地,所述第一信令中包括服务小区标识或载波标识。
例如,网络侧设备为终端配置了N组DRX,其中N为大于或等于2的整数。网络侧设备配置每个DRX分组对应的服务小区,比如DRX分组0对应的服务小区的ID/载波的ID为0,1,…,P,DRX分组1对应的服务小区的ID/载波的ID为P+1,P+2,……,Q;具体地,P和Q均为大于或等于0的整数。
第一信令中包括服务小区标识或载波标识,比如DRX分组0对应服务小区/载波的部分或全部,DRX分组1对应服务小区/载波的部分或全部。
可选地,在第一信令为MAC CE时,所述MAC CE的格式如图4所示,其中LCID是用于指示所述MAC CE的逻辑信道编号,其中Ci表示服务小区标识/载波标识,其中,i为大于或等于0的整数;这里是以8个服务小区/载波为例,当Ci=1时,表示网络侧设备指示服务小区/载波为Ci对应的DRX分组停止DRX onduration,DRX inactivityTimer。当然,用于表示服务小区标识/载波标识的比特的长度还可以扩展,本公开实施例中不做限定。
还需要说明的是,当所述第一信令为DCI时,因DCI的长度限制,DCI中携带的指示信息中仅可以包括服务小区/载波的标识(例如,ID信息)。
具体地,此种情况下,终端的实现过程主要为:
步骤一:终端接收网络侧设备配置的DRX参数、DRX分组以及DRX分组对应的服务小区标识或载波标识。
步骤二:终端接收网络侧设备发送的第一信令,根据第一信令中携带的指示信息所指示的服务小区标识或载波标识,确定进入DRX非激活态的DRX分组。
步骤三:终端根据指示信息所指示的DRX分组,关闭DRX分组对应的 DRX ondurationTimer,DRX inactivityTimer,以此使得相应的DRX分组进入DRX非激活状态。
这里需要说明的是,网络侧设备发送了何种信息,终端就会接收到同样的信息,即二者之间的信息发送与接收是保持一致的。
综上可知,本公开实施例可以实现控制特定的DRX分组或特定的小区/载波对应的DRX分组关闭DRX ondurationTimer,DRX inactivityTimer,以此丰富了DRX非激活状态指示方式,满足了终端全方位需求。
如图5所示,本公开实施例的非连续接收状态配置方法,应用于网络侧设备,包括:
步骤51,发送指示信息给终端;
其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
可选地,在所述步骤51之前,还包括:
为终端配置DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,第一DRX分组为所述目标第一参数对应的DRX分组。
可选地,在所述步骤51之前,还包括:
在判断终端的第一逻辑信道的缓存中没有数据、和/或网络侧设备没有针对所述终端的下行数据的情况下,确定进入DRX非激活状态的至少一个第一DRX分组。
具体地,所述指示信息通过媒体接入控制层控制单元MAC CE、下行控 制信息DCI和无线资源控制RRC信令中的一个发送。
需要说明的是,上述实施例中所有关于网络侧设备的描述均适用于该非连续接收状态配置方法的实施例中,也能达到与之相同的技术效果。
如图6所示,本公开实施例提供一种终端60,包括:
第一接收模块61,用于接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;
配置模块62,用于根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
可选地,在所述第一接收模块61接收网络侧设备发送的指示信息之前,还包括:
第二接收模块,用于接收网络侧设备为终端配置的DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,所述第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,所述第一DRX分组为所述目标第一参数对应的DRX分组。
具体地,所述指示信息通过媒体接入控制层控制单元MAC CE、下行控制信息DCI和无线资源控制RRC信令中的一个发送。
进一步地,所述配置模块62配置所述至少一个第一DRX分组进入DRX非激活状态,实现以下至少一项:
停止第一DRX分组对应的DRX持续时间定时器;
停止第一DRX分组对应的DRX非激活定时器;
停止第一DRX分组对应的DRX重传定时器。
需要说明的是,该终端实施例是与上述方法实施例一一对应的终端,上述方法实施例中所有实现方式均适用于该终端的实施例中,也能达到相同的技术效果。
如图7所示,本公开实施例还提供一种终端70,包括处理器71、收发机72、存储器73及存储在所述存储器73上并可在所述处理器71上运行的程序;其中,收发机72通过总线接口与处理器71和存储器73连接,其中,所述处理器71用于读取存储器中的程序,执行下列过程:
通过收发机72接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;
根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
需要说明的是,在图7中,总线架构可以包括任意数量的互联的总线和桥,具体由处理器71代表的一个或多个处理器和存储器73代表的存储器的各种电路链接在一起。总线架构还可以将诸如外围设备、稳压器和功率管理电路等之类的各种其他电路链接在一起,这些都是本领域所公知的,因此,本文不再对其进行进一步描述。总线接口提供接口。收发机72可以是多个元件,即包括发送机和收发机,提供用于在传输介质上与各种其他装置通信的单元。针对不同的发送端,用户接口74还可以是能够外接内接需要设备的接口,连接的设备包括但不限于小键盘、显示器、扬声器、麦克风、操纵杆等。处理器71负责管理总线架构和通常的处理,存储器73可以存储处理器71在执行操作时所使用的数据。
可选地,所述处理器执行所述接收网络侧设备发送的指示信息的程序之前,还实现以下步骤:
通过收发机72接收网络侧设备为终端配置的DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包 括至少一个目标DRX分组信息,所述第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,所述第一DRX分组为所述目标第一参数对应的DRX分组。
具体地,所述指示信息通过媒体接入控制层控制单元MAC CE、下行控制信息DCI和无线资源控制RRC信令中的一个发送。
可选地,所述处理器执行所述配置所述至少一个第一DRX分组进入DRX非激活状态的程序时实现以下步骤中的至少一项:
停止第一DRX分组对应的DRX持续时间定时器;
停止第一DRX分组对应的DRX非激活定时器;
停止第一DRX分组对应的DRX重传定时器。
本公开实施例还提供一种计算机可读存储介质,其上存储有计算机程序,其中,所述计算机程序被处理器执行时实现应用于终端的非连续接收状态配置方法的步骤。
如图8所示,本公开实施例提供一种网络侧设备80,包括:
发送模块81,用于发送指示信息给终端;
其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
可选地,在所述发送模块81发送指示信息给终端之前,还包括:
参数配置模块,用于为终端配置DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,第一DRX分组为所述目标第一参数对应的DRX分组。
可选地,在所述发送模块81发送指示信息给终端之前,还包括:
确定模块,用于在判断终端的第一逻辑信道的缓存中没有数据、和/或网络侧设备没有针对所述终端的下行数据的情况下,确定进入DRX非激活状态的至少一个第一DRX分组。
具体地,所述指示信息通过媒体接入控制层控制单元MAC CE、下行控制信息DCI和无线资源控制RRC信令中的一个发送。
需要说明的是,该网络侧设备实施例是与上述方法实施例一一对应的网络侧设备,上述方法实施例中所有实现方式均适用于该网络侧设备的实施例中,也能达到相同的技术效果。
如图9所示,本公开实施例还提供一种网络侧设备90,包括处理器91、收发机92、存储器93及存储在所述存储器93上并可在所述处理器91上运行的程序;其中,收发机92通过总线接口与处理器91和存储器93连接,其中,所述处理器91用于读取存储器中的程序,执行下列过程:
通过收发机92发送指示信息给终端;
其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
需要说明的是,在图9中,总线架构可以包括任意数量的互联的总线和桥,具体由处理器91代表的一个或多个处理器和存储器93代表的存储器的各种电路链接在一起。总线架构还可以将诸如外围设备、稳压器和功率管理电路等之类的各种其他电路链接在一起,这些都是本领域所公知的,因此,本文不再对其进行进一步描述。总线接口提供接口。收发机92可以是多个元件,即包括发送机和收发机,提供用于在传输介质上与各种其他装置通信的单元。处理器91负责管理总线架构和通常的处理,存储器93可以存储处理器91在执行操作时所使用的数据。
可选地,所述处理器执行所述通过收发机发送指示信息给终端的程序之前,还实现以下步骤:
为终端配置DRX参数以及分组相关信息;
其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;
所述第一参数包括:服务小区标识或载波标识。
进一步地,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
具体地,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
进一步地,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,第一DRX分组为所述目标第一参数对应的DRX分组。
可选地,所述处理器执行所述通过收发机发送指示信息给终端的程序之前,还实现以下步骤:
在判断终端的第一逻辑信道的缓存中没有数据、和/或网络侧设备没有针对所述终端的下行数据的情况下,确定进入DRX非激活状态的至少一个第一DRX分组。
具体地,所述指示信息通过媒体接入控制层控制单元MAC CE、下行控制信息DCI和无线资源控制RRC信令中的一个发送。
其中,网络侧设备可以是全球移动通讯(Global System of Mobile communication,GSM)或码分多址(Code Division Multiple Access,CDMA)中的基站(Base Transceiver Station,BTS),也可以是宽带码分多址(Wideband Code Division Multiple Access,WCDMA)中的基站(NodeB,NB),还可以是LTE中的演进型基站(Evolutional Node B,eNB或eNodeB),或者中继站或接入点,或者未来5G网络中的基站ng-NB(Next Generation Node B)或者集中控制单元(Central Unit,CU)或者分布式控制单元(Distribute Unit,DU)等,在此并不限定。
可以理解的是,本公开实施例描述的这些实施例可以用硬件、软件、固件、中间件、微码或其组合来实现。对于硬件实现,单元、模块、子单元和子模块可以实现在一个或多个专用集成电路(Application Specific Integrated Circuits,ASIC)、数字信号处理器(Digital Signal Processing,DSP)、数字信号处理设备(DSP Device,DSPD)、可编程逻辑设备(Programmable Logic Device,PLD)、现场可编程门阵列(Field-Programmable Gate Array,FPGA)、通用处理器、控制器、微控制器、微处理器、用于执行本公开所述功能的其它电子单元或其组合中。
对于软件实现,可通过执行本公开实施例所述功能的模块(例如过程、函数等)来实现本公开实施例所述的技术。软件代码可存储在存储器中并通过处理器执行。存储器可以在处理器中或在处理器外部实现。
本公开实施例还提供一种计算机可读存储介质,其上存储有计算机程序,其中,所述计算机程序被处理器执行时实现应用于网络侧设备的非连续接收状态配置方法的步骤。
以上所述的是本公开的可选的实施方式,应当指出对于本技术领域的普通人员来说,在不脱离本公开所述的原理前提下还可以作出若干改进和润饰,这些改进和润饰也在本公开的保护范围内。
Claims (37)
- 一种非连续接收状态配置方法,应用于终端,包括:接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
- 根据权利要求1所述的非连续接收状态配置方法,其中,在所述接收网络侧设备发送的指示信息之前,还包括:接收网络侧设备为终端配置的DRX参数以及分组相关信息;其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;所述第一参数包括:服务小区标识或载波标识。
- 根据权利要求2所述的非连续接收状态配置方法,其中,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,所述第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
- 根据权利要求3所述的非连续接收状态配置方法,其中,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
- 根据权利要求2所述的非连续接收状态配置方法,其中,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,所述第一DRX分组为所述目标第一参数对应的DRX分组。
- 根据权利要求1所述的非连续接收状态配置方法,其中,所述指示信息通过以下一项发送:媒体接入控制层控制单元MAC CE;下行控制信息DCI;无线资源控制RRC信令。
- 根据权利要求1所述的非连续接收状态配置方法,其中,所述配置所述至少一个第一DRX分组进入DRX非激活状态,包括以下至少一项:停止第一DRX分组对应的DRX持续时间定时器;停止第一DRX分组对应的DRX非激活定时器;停止第一DRX分组对应的DRX重传定时器。
- 一种非连续接收状态配置方法,应用于网络侧设备,包括:发送指示信息给终端;其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
- 根据权利要求8所述的非连续接收状态配置方法,在所述发送指示信息给终端之前,还包括:为终端配置DRX参数以及分组相关信息;其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;所述第一参数包括:服务小区标识或载波标识。
- 根据权利要求9所述的非连续接收状态配置方法,其中,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
- 根据权利要求10所述的非连续接收状态配置方法,其中,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
- 根据权利要求9所述的非连续接收状态配置方法,其中,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,第一DRX分组为所述目标第一参数对应的DRX分组。
- 根据权利要求8所述的非连续接收状态配置方法,在所述发送指示信息给终端之前,还包括:在判断终端的第一逻辑信道的缓存中没有数据、和/或网络侧设备没有针对所述终端的下行数据的情况下,确定进入DRX非激活状态的至少一个第一DRX分组。
- 根据权利要求8所述的非连续接收状态配置方法,其中,所述指示信息通过以下一项发送:媒体接入控制层控制单元MAC CE;下行控制信息DCI;无线资源控制RRC信令。
- 一种终端,包括:收发机、存储器、处理器及存储在所述存储器上并可在所述处理器上运行的程序;其中,所述处理器执行所述程序时实现以下步骤:通过收发机接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
- 根据权利要求15所述的终端,其中,所述处理器执行所述接收网络侧设备发送的指示信息的程序之前,还实现以下步骤:通过收发机接收网络侧设备为终端配置的DRX参数以及分组相关信息;其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;所述第一参数包括:服务小区标识或载波标识。
- 根据权利要求16所述的终端,其中,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,所述第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
- 根据权利要求17所述的终端,其中,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
- 根据权利要求16所述的终端,其中,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,所述第一DRX分组为所述目标第一参数对应的DRX分组。
- 根据权利要求15所述的终端,其中,所述指示信息通过以下一项发送:媒体接入控制层控制单元MAC CE;下行控制信息DCI;无线资源控制RRC信令。
- 根据权利要求15所述的终端,其中,所述处理器执行所述配置所述至少一个第一DRX分组进入DRX非激活状态的程序时实现以下步骤中的至少一项:停止第一DRX分组对应的DRX持续时间定时器;停止第一DRX分组对应的DRX非激活定时器;停止第一DRX分组对应的DRX重传定时器。
- 一种网络侧设备,包括:收发机、存储器、处理器及存储在所述存储器上并可在所述处理器上运行的程序;其中,所述处理器执行所述程序时实现以下步骤:通过收发机发送指示信息给终端;其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
- 根据权利要求22所述的网络侧设备,其中,所述处理器执行所述通过收发机发送指示信息给终端的程序之前,还实现以下步骤:为终端配置DRX参数以及分组相关信息;其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;所述第一参数包括:服务小区标识或载波标识。
- 根据权利要求23所述的网络侧设备,其中,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
- 根据权利要求24所述的网络侧设备,其中,所述目标DRX分组信息包括:目标DRX分组对应的标识信息。
- 根据权利要求23所述的网络侧设备,其中,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,第一DRX分组为所述目标第一参数对应的DRX分组。
- 根据权利要求22所述的网络侧设备,其中,所述处理器执行所述通 过收发机发送指示信息给终端的程序之前,还实现以下步骤:在判断终端的第一逻辑信道的缓存中没有数据、和/或网络侧设备没有针对所述终端的下行数据的情况下,确定进入DRX非激活状态的至少一个第一DRX分组。
- 根据权利要求22所述的网络侧设备,其中,所述指示信息通过以下一项发送:媒体接入控制层控制单元MAC CE;下行控制信息DCI;无线资源控制RRC信令。
- 一种计算机可读存储介质,其上存储有计算机程序,其中,所述计算机程序被处理器执行时实现如权利要求1至14任一项所述的非连续接收状态配置方法。
- 一种终端,包括:第一接收模块,用于接收网络侧设备发送的指示信息,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态;配置模块,用于根据所述指示信息,配置所述至少一个第一DRX分组进入DRX非激活状态。
- 根据权利要求30所述的终端,其中,所述第一接收模块执行所述接收网络侧设备发送的指示信息之前,还用于:接收网络侧设备为终端配置的DRX参数以及分组相关信息;其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;所述第一参数包括:服务小区标识或载波标识。
- 根据权利要求31所述的终端,其中,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,所述第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
- 根据权利要求31所述的终端,其中,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,所述第一DRX分组为所述目标第一参数对应的DRX分组。
- 一种网络侧设备,包括:发送模块,用于发送指示信息给终端;其中,所述指示信息用于指示终端的至少一个第一非连续接收DRX分组进入DRX非激活状态。
- 根据权利要求34所述的网络侧设备,其中,所述发送模块执行所述发送指示信息给终端之前,还用于:为终端配置DRX参数以及分组相关信息;其中,所述分组相关信息包括:DRX分组,或所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数;所述第一参数包括:服务小区标识或载波标识。
- 根据权利要求35所述的网络侧设备,其中,在所述分组相关信息包括:DRX分组时,所述指示信息中包括至少一个目标DRX分组信息,第一DRX分组为由所述目标DRX分组信息确定的DRX分组。
- 根据权利要求35所述的网络侧设备,其中,在所述分组相关信息包括:DRX分组以及与所述DRX分组对应的第一参数时,所述指示信息中包括至少一个目标第一参数,第一DRX分组为所述目标第一参数对应的DRX分组。
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