WO2021232433A1 - 监听信道的方法、装置、设备及存储介质 - Google Patents

监听信道的方法、装置、设备及存储介质 Download PDF

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Publication number
WO2021232433A1
WO2021232433A1 PCT/CN2020/091919 CN2020091919W WO2021232433A1 WO 2021232433 A1 WO2021232433 A1 WO 2021232433A1 CN 2020091919 W CN2020091919 W CN 2020091919W WO 2021232433 A1 WO2021232433 A1 WO 2021232433A1
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Prior art keywords
channel
indication information
logical channel
monitoring
identifier
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PCT/CN2020/091919
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English (en)
French (fr)
Inventor
李海涛
胡奕
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Oppo广东移动通信有限公司
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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 CN202080100747.8A priority Critical patent/CN115552978B/zh
Priority to PCT/CN2020/091919 priority patent/WO2021232433A1/zh
Publication of WO2021232433A1 publication Critical patent/WO2021232433A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/20Manipulation of established connections
    • H04W76/28Discontinuous transmission [DTX]; Discontinuous reception [DRX]
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • This application relates to the field of communication technologies, and in particular to a method, device, device, and storage medium for monitoring channels.
  • the terminal device monitors PDCCH (Physical Downlink Control Channel) during the DRX active time (DRX active time), and physical downlink control channel).
  • PDCCH Physical Downlink Control Channel
  • a PDCCH skip monitoring mechanism is introduced. That is, when the network device thinks that the terminal device has no uplink and downlink data transmission requirements for a period of time in the future, it can instruct the terminal device to skip by sending a PDCCH skip monitoring indication. PDCCH monitoring after this period of time, so as to achieve the purpose of power saving. Generally, if the terminal device receives the PDCCH skip monitoring indication, it will not monitor the PDCCH during the subsequent PDCCH skip monitoring period, even if the terminal device is in the DRX active period during this PDCCH skip monitoring period.
  • the terminal device itself triggers the uplink transmission and expects a further response from the network device, for example, the terminal device triggers an SR (Scheduling Request).
  • the terminal device since the terminal device will expect a response from the network device, the terminal device will have a need to monitor the PDCCH. If the terminal device is in the PDCCH skip monitoring period at this time, what kind of operation the terminal device should perform becomes a hot research topic.
  • the embodiments of the present application provide a method, device, device, and storage medium for channel monitoring, which can be used to solve the problem of what operation should be performed after the terminal device is in the PDCCH skip monitoring period triggering uplink transmission in the related art.
  • the technical solution is as follows:
  • a method for monitoring a channel includes:
  • the first request is used to request the network device to allocate uplink resources
  • the first configuration information is configuration information associated with the transmission of the first request.
  • a method for monitoring a channel includes:
  • the first configuration information is used for the terminal device to determine whether to resume PDCCH monitoring when the first request corresponding to the first configuration information is triggered through a logical channel during the skip monitoring period of the physical downlink control channel PDCCH.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is configuration information associated with the transmission of the first request.
  • a device for monitoring a channel includes:
  • the determining module is used to determine whether to resume PDCCH monitoring according to the first configuration information if the first request is triggered through the logical channel during the skip monitoring period of the physical downlink control channel PDCCH;
  • the first request is used to request the network device to allocate uplink resources
  • the first configuration information is configuration information associated with the transmission of the first request.
  • a device for monitoring a channel includes:
  • the sending module is used to send the first configuration information to the terminal device
  • the first configuration information is used for the terminal device to determine whether to resume PDCCH monitoring when the first request corresponding to the first configuration information is triggered through a logical channel during the skip monitoring period of the physical downlink control channel PDCCH.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is configuration information associated with the transmission of the first request.
  • a device in another aspect, includes a processor and a memory, the memory stores at least one instruction, and the at least one instruction is used to be executed by the processor to implement any one of the above aspects
  • a computer-readable storage medium stores at least one instruction, and the at least one instruction is configured to be executed by a processor to implement the method provided in any one of the above aspects.
  • a computer program product includes one or more computer programs.
  • the computer program When the computer program is executed by a processor, it is used to implement the monitoring channel provided in any one of the above aspects. Or, implement the channel monitoring method provided by any one of the above-mentioned other aspects.
  • the PDCCH skip monitoring period if the first request is triggered through the logical channel, it is determined whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is configuration information associated with the transmission of the first request. In this way, missed PDCCH monitoring can be avoided.
  • Fig. 1 is a schematic diagram of an implementation environment provided by an exemplary embodiment of the present application
  • Fig. 2 is a flowchart of a method for monitoring a channel provided by an exemplary embodiment of the present application
  • Fig. 3 is a schematic diagram of PDCCH monitoring provided by an exemplary embodiment of the present application.
  • Fig. 4 is a schematic diagram of PDCCH monitoring provided by another exemplary embodiment of the present application.
  • Fig. 5 is a schematic diagram of PDCCH monitoring provided by another exemplary embodiment of the present application.
  • Fig. 6 is a flowchart of a method for monitoring a channel provided by another exemplary embodiment of the present application.
  • FIG. 7 is a schematic structural diagram of an apparatus for monitoring a channel provided by an exemplary embodiment of the present application.
  • FIG. 8 is a schematic structural diagram of an apparatus for monitoring a channel provided by an exemplary embodiment of the present application.
  • Fig. 9 is a schematic structural diagram of a device provided by another exemplary embodiment of the present application.
  • GSM Global System of Mobile communication
  • CDMA Code Division Multiple Access, code division multiple access
  • WCDMA Wideband Code Division Multiple Access
  • GPRS General Packet Radio Service
  • LTE Long Term Evolution
  • FDD Frequency Division Duplex
  • TDD Time Division Duplex system
  • LTE-A Alvanced Long Term Evolution, advanced long-term evolution
  • NR New Redio, new wireless
  • LTE-U LTE-based Access
  • UMTS Universal Mobile Telecommunication System
  • WiMAX Worldwide Wide) Interoperability For Microwave Access, communication systems
  • WLAN Wireless Local Area Networks, wireless local area networks
  • WiFi Wireless FDD
  • LTE Long Term Evolution
  • FDD Frequency Division Duplex
  • TDD Time Division Duplex system
  • LTE-A Alvanced Long Term Evolution, advanced long-term evolution
  • NR New Redio, new wireless
  • LTE-U LTE-based Access
  • UMTS Universal Mobile Telecommunication System
  • WiMAX Worldwide Interoperability For Microwave Access
  • the communication system 100 applied in the embodiment of the present application is shown in FIG. 1.
  • 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 terminals located in the coverage area.
  • the network device 110 may be an eNB (Evolutional Node B, evolved base station), or a wireless controller in CRAN (Cloud Radio Access Network, cloud radio access network), or the network device may be a mobile switch Centers, relay stations, access points, in-vehicle devices, wearable devices, hubs, switches, bridges, routers, network side devices in 5G networks, or network devices in future communication systems, etc.
  • eNB Evolutional Node B, evolved base station
  • CRAN Cloud Radio Access Network
  • the network device may be a mobile switch Centers, relay stations, access points, in-vehicle devices, wearable devices, hubs, switches, bridges, routers, network side devices in 5G networks, or network devices in future communication systems, etc.
  • the communication system 100 also includes at least one terminal device 120 located within the coverage area of the network device 110.
  • the "terminal” used here includes, but is not limited to, connection via wired lines, such as PSTN (Public Switched Telephone Networks), DSL (Digital Subscriber Line), digital cable, and direct cable connection; And/or another data connection/network; and/or via a wireless interface, such as for cellular networks, WLAN, digital TV networks such as DVB-H networks, satellite networks, AM-FM broadcast transmitters; and/or another A device of a terminal that is set to receive/send a communication signal; and/or an IoT (Internet of Things, Internet of Things) device.
  • PSTN Public Switched Telephone Networks
  • DSL Digital Subscriber Line
  • wireless interface such as for cellular networks, WLAN, digital TV networks such as DVB-H networks, satellite networks, AM-FM broadcast transmitters
  • IoT Internet of Things, Internet of Things
  • a terminal 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; PCS (Personal Communications System) 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 GPS (Global Positioning System) receiver; and conventional laptop and/or palm-type receivers or others including radio telephone transceivers Electronic device.
  • PCS Personal Communications System
  • GPS Global Positioning System
  • Terminal can refer to access terminal, UE (User Equipment), user unit, user station, mobile station, mobile station, remote station, remote terminal, mobile device, user terminal, terminal, wireless communication device, user agent or user Device.
  • the access terminal can be a cellular phone, a cordless phone, SIP (Session Initiation Protocol) phone, WLL (Wireless Local Loop, wireless local loop) station, PDA (Personal Digital Assistant, personal digital processing), with wireless communication Functional handheld devices, computing devices or other processing devices connected to wireless modems, in-vehicle devices, wearable devices, terminals in 5G networks, or terminals in the future evolution of PLMN, etc.
  • D2D communication may be performed between the terminal devices 120.
  • the 5G communication system or 5G network may also be referred to as an NR system or NR network.
  • Figure 1 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, for example,
  • it usually includes a first network device and a second network device.
  • the first network device is the source network device and the second network device is the target network device. That is, the terminal switches from the first network device to the second network device. .
  • 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.
  • FIG. 2 is a flowchart of a method for monitoring a channel according to an exemplary embodiment.
  • the method can be applied to the implementation environment shown in FIG. 1 and is mainly executed by a terminal device.
  • the method may include The following steps are implemented:
  • Step 201 During the PDCCH skip monitoring period, if the first request is triggered through the logical channel, determine whether to resume PDCCH monitoring according to the first configuration information, where the first request is used to request the network device to allocate uplink resources, and the first configuration
  • the information is configuration information associated with the transmission of the first request.
  • the logical channel refers to an uplink logical channel.
  • the logical channel may be selected by the terminal device according to actual requirements.
  • the first request is SR (Scheduling Request, scheduling request).
  • the first request is an SR.
  • the first request may also be other requests, which is not limited in the embodiment of the present application.
  • the first configuration information may include configuration information related to the transmission of the first request, for example, may include the logical channel identifier of the logical channel that triggers the transmission of the first request, the request identifier of the first request, and the The requested resource identifier of the requested resource of the first request is transmitted.
  • the request identifier may be used to determine the request configuration information of the first request.
  • the request configuration information includes a prohibition duration, where the prohibition duration is used to indicate how long the second first request is not allowed to be retransmitted.
  • the first request is an SR.
  • the first configuration information may include the following parameters: a scheduling request identifier (SchedulingRequestId), a scheduling request resource identifier (SchedulingRequestResourceId), and a logical channel identifier (LogicalChannelIdentity).
  • the scheduling request identifier is used to indicate the corresponding scheduling request configuration.
  • a scheduling request configuration may include a prohibition duration, where the prohibition duration is used to indicate how long the second scheduling request is not allowed to be retransmitted.
  • the scheduling request resource identifier is used to indicate the corresponding scheduling request resource.
  • each logical channel identifier may indicate a scheduling request identifier, and the logical channel identifier and the scheduling request identifier may have a one-to-one relationship or a many-to-one relationship. That is, one logical channel identifier corresponds to one scheduling request identifier, or multiple logical channel identifiers correspond to one scheduling request identifier.
  • each scheduling request resource identifier may indicate a scheduling request identifier, and the scheduling request resource identifier and the scheduling request identifier may have a one-to-one relationship or a many-to-one relationship. That is, one scheduling request resource identifier corresponds to one scheduling request identifier, or multiple scheduling request resource identifiers correspond to one scheduling request identifier.
  • each scheduling request resource identifier may indicate a PUCCH resource index
  • the scheduling request resource identifier and the PUCCH resource index may have a one-to-one relationship or a many-to-one relationship. That is, one scheduling request resource identifier corresponds to one PUCCH resource index, or multiple scheduling request resource identifiers correspond to one PUCCH resource index.
  • the terminal device can uniquely determine a PUCCH resource index according to the foregoing sets of correspondences, and thereby determine the corresponding PUCCH resource.
  • the first configuration information may be pre-configured by the network device to the terminal device.
  • the first configuration information is configured by the network device through RRC (Radio Resource Control) signaling, or,
  • the first configuration information is configured by the network device through MAC CE (Medium Access Control Control Element, medium access control-control element) signaling.
  • the network device when it determines that the terminal device does not have uplink and downlink data transmission requirements in the next period of time, it will send a PDCCH skip monitoring instruction to the terminal device. Accordingly, the terminal device receives the PDCCH skipping from the network device. Monitor instructions. Further, the network device can also configure the PDCCH skip monitoring duration for the terminal device, that is, configure the terminal device to stop monitoring the PDCCH duration. In this way, the terminal device starts the next symbol after completing the PDCCH reception, and during the subsequent PDCCH skip monitoring period The PDCCH is not monitored on the internal serving cell, even if the terminal device is in the DRX active period.
  • the terminal device itself may trigger the uplink transmission and expect the network device to have a further response. For example, taking the first request as SR as an example, if the terminal device has an uplink transmission When data arrives but is not used for the uplink resources reported by the BSR (Buffer Status Report), the SR is triggered through the logical channel to request the network device to allocate uplink resources for it.
  • BSR Buffer Status Report
  • this step 201 is implemented It can be described as: during the PDCCH skip monitoring period, if the first request is triggered through the logical channel and the first request is in a waiting state, it is determined whether to resume PDCCH monitoring according to the first configuration information.
  • the terminal device Since the terminal device expects the response of the network device after sending the first request, the terminal device has the need for PDCCH monitoring. If the terminal device is in the PDCCH skip monitoring period at this time, the terminal device can determine whether to resume according to the first configuration information PDCCH monitoring, that is, it is determined whether the PDCCH monitoring should be skipped based on the PDCCH skip monitoring instruction previously sent by the network device, or the PDCCH monitoring state needs to be switched to.
  • the terminal device If it is determined to resume PDCCH monitoring, stop the current PDCCH skip monitoring, and start monitoring the PDCCH. That is, the terminal device no longer continues to skip the PDCCH monitoring based on the PDCCH skip monitoring instruction previously sent by the network device, but switches to the state of monitoring the PDCCH.
  • the current PDCCH skip monitoring is continued, that is, the terminal device continues to skip PDCCH monitoring based on the PDCCH skip monitoring instruction previously sent by the network device, that is, PDCCH monitoring is not resumed.
  • the first request is triggered through the logical channel, it is determined whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources.
  • a configuration information is configuration information associated with the transmission of the first request. In this way, missed PDCCH monitoring can be avoided.
  • the method for monitoring the channel may include but is not limited to the following content:
  • Step A1 During the PDCCH skip monitoring period, if the first request is triggered through the logical channel, determine whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is Configuration information associated with the transmission of the first request.
  • the first request is SR.
  • the network device can choose whether to configure the PUCCH resource for transmitting the SR for the uplink logical channel.
  • the network device may configure multiple PUCCH resources for transmitting SR for the terminal device, and the configuration parameters corresponding to each PUCCH resource for transmitting SR include: PUCCH resource period, time slot, time symbol offset, and PUCCH resource index.
  • the terminal device sends the SR on the PUCCH resource for transmitting SR corresponding to the logical channel; otherwise, The terminal initiates a random access procedure.
  • the first configuration information may be pre-configured by the network device to the terminal device.
  • the first configuration information is configured by the network device through RRC signaling, or the first configuration information is configured by the network device. Configured through MAC CE signaling.
  • the first configuration information includes the logical channel identifier of the logical channel.
  • determining whether to resume PDCCH monitoring according to the first configuration information may include: according to indication information associated with the logical channel identifier To determine whether to resume PDCCH monitoring.
  • the indication information is used to indicate whether to allow PDCCH monitoring to be resumed.
  • the indication information includes first indication information or second indication information, where the first indication information is used to indicate that PDCCH monitoring is allowed to be resumed, and the second indication information is used to indicate that PDCCH monitoring is not allowed to resume.
  • the logical channel identifier is used to indicate the type of the logical channel.
  • the type of the logical channel includes a first channel type and a second channel type; the logical channel identifier includes a first channel identifier and a second channel identifier.
  • the first channel identifier is associated with the first channel type, and the first channel identifier is associated with first indication information, the first indication information is used to indicate that PDCCH monitoring is allowed to resume, and the second channel identifier is associated with the second channel type
  • the second channel identifier is associated with the second indication information, and the second indication information is used to indicate that PDCCH monitoring is not allowed to be resumed.
  • the data transmitted by the logical channel corresponding to the first channel type has a relatively high delay requirement
  • the data transmitted by the logical channel corresponding to the second channel type has a relatively low delay requirement.
  • the logical channel corresponding to the first channel type is used to transmit designated service data
  • the logical channel corresponding to the second channel type is used to transmit service data other than the designated service data.
  • the designated business data can be set according to actual needs.
  • the first channel type is a delay-sensitive logical channel
  • the second channel type is a delay-insensitive logical channel
  • the delay-sensitive logical channel has a higher requirement for data transmission delay, and it is usually required to not exceed a certain threshold.
  • the delay-sensitive logical channel is usually used to transmit business data such as instant messaging messages.
  • Delay-insensitive logical channels have relatively low requirements for data transmission delay.
  • delay-insensitive logical channels are usually used to download service data such as videos.
  • the network device may configure the indication information according to the type of the logical channel, and associate the indication information with the logical channel identifier.
  • the logical channel identifier includes the first channel identifier and the second channel identifier, for example,
  • the first channel identifier can be represented by "LC1-1”
  • the second logical channel identifier can be represented by "LC1-2” where the prefix LC1 can be used to indicate the logical channel, and the suffixes "1" and "0" "Is used to indicate the type of the logical channel.
  • the first indication information may be associated with the first channel identifier.
  • the second indication information may be associated with the second channel identifier.
  • the terminal device can determine whether to resume PDCCH monitoring according to the indication information associated with the logical channel identifier of the logical channel.
  • the terminal device determines that the indication information associated with the logical channel identifier is the first indication information, it means that the network device allows the terminal device to resume PDCCH monitoring, that is, PDCCH can be stopped. The monitoring process is skipped. In this case, the terminal device can determine to resume PDCCH monitoring.
  • the second indication information is used to indicate that PDCCH monitoring is not allowed to be resumed
  • the terminal device determines that the indication information associated with the logical channel identifier is the second indication information, it means that the network device does not allow the terminal device to resume PDCCH monitoring, that is, it does not allow the terminal device to resume PDCCH monitoring.
  • the PDCCH skipping monitoring process can be stopped. In this case, the terminal device can determine not to resume PDCCH monitoring.
  • the terminal device determines not to resume PDCCH monitoring, that is, continues to skip PDCCH monitoring based on the PDCCH skip monitoring instruction previously sent by the network device, or it can be understood that the terminal device does not end the timing of the PDCCH skip monitoring duration.
  • the terminal device may determine not to resume PDCCH monitoring.
  • the logical channel triggers the SR, and the terminal device sends the SR on the PUCCH of a serving cell, and then determines the logical channel identifier for the logical channel and whether the network device is configured to allow resume PDCCH monitoring The first instruction information. If the first indication information is configured, the terminal device stops the current PDCCH skipping monitoring, and starts monitoring the PDCCH in the serving cell. Of course, if the second indication information that the PDCCH monitoring is not allowed to be resumed is configured, or no indication information is configured, the terminal device continues to be in the PDCCH skip monitoring state.
  • the terminal device since the network device configures the first indication information for LC1 (first channel identifier), after LC1 triggers SR1, the terminal device resumes PDCCH monitoring. Since the network device has configured the second indication information for LC2 (second channel identifier), after LC2 triggers SR2, the terminal device does not resume PDCCH monitoring.
  • the first request is triggered through the logical channel, it is determined whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is configuration information associated with the transmission of the first request. In this way, missed PDCCH monitoring can be avoided.
  • the method for monitoring the channel may include but is not limited to the following content:
  • Step B1 During the PDCCH skip monitoring period, if the first request is triggered through the logical channel, determine whether to resume PDCCH monitoring according to the first configuration information, where the first request is used to request the network device to allocate uplink resources, and the first configuration
  • the information is configuration information associated with the transmission of the first request.
  • the first request is SR.
  • the network device can choose whether to configure the PUCCH resource for transmitting the SR for the uplink logical channel.
  • the network device may configure multiple PUCCH resources for transmitting SR for the terminal device, and the configuration parameters corresponding to each PUCCH resource for transmitting SR include: PUCCH resource period, time slot, time symbol offset, and PUCCH resource index.
  • the network device can choose whether to configure the PUCCH resource for transmitting the SR for the uplink logical channel.
  • the network equipment can configure multiple PUCCH resources for transmitting SR for the terminal equipment.
  • the terminal device sends the SR on the PUCCH resource for transmitting SR corresponding to the logical channel; otherwise, The terminal initiates a random access procedure.
  • the first configuration information may be pre-configured by the network device to the terminal device.
  • the first configuration information is configured by the network device through RRC signaling, or the first configuration information is configured by the network device. Configured through MAC CE signaling.
  • the scheduling request identifier is used to indicate the corresponding scheduling request configuration, and the scheduling request identifier is associated with the logical channel identifier of the logical channel.
  • the implementation of determining whether to resume PDCCH monitoring by the first configuration information may include: determining whether to resume PDCCH monitoring according to the indication information associated with the scheduling request identifier.
  • the logical channel identifier is used to indicate the type of the logical channel, and the type of the logical channel includes a first channel type and a second channel type.
  • the first channel type is a delay-sensitive logical channel
  • the second channel type is a delay-insensitive logical channel
  • the delay-sensitive logical channel has a higher requirement for data transmission delay, and it is usually required to not exceed a certain threshold.
  • the delay-sensitive logical channel is usually used to transmit business data such as instant messaging messages.
  • Delay-insensitive logical channels have relatively low requirements for data transmission delay.
  • delay-insensitive logical channels are usually used to download service data such as videos.
  • the indication information is used to indicate whether to allow PDCCH monitoring to be resumed.
  • the indication information includes first indication information or second indication information, where the first indication information is used to indicate that PDCCH monitoring is allowed to be resumed, and the second indication information is used to indicate that PDCCH monitoring is not allowed to resume.
  • the network device may configure the indication information according to the type of the logical channel, and associate the indication information with the scheduling request identifier corresponding to the logical channel identifier. For example, for a delay-sensitive logical channel, the first indication information may be associated with the corresponding For example, for a delay-insensitive logical channel, the second indication information may be associated with the corresponding scheduling request identifier. In this way, the terminal device can determine whether to resume PDCCH monitoring according to the indication information associated with the scheduling request identifier.
  • the terminal device determines that the indication information associated with the scheduling request identifier is the first indication information, it means that the network device allows the terminal device to resume PDCCH monitoring, that is, PDCCH can be stopped. The monitoring process is skipped. In this case, the terminal device can determine to resume PDCCH monitoring.
  • the second indication information is used to indicate that it is not allowed to resume PDCCH monitoring
  • the terminal device determines that the indication information associated with the scheduling request identifier is the second indication information, it means that the network device does not allow the terminal device to resume PDCCH monitoring, that is, it does not allow the terminal device to resume PDCCH monitoring.
  • the PDCCH skipping monitoring process can be stopped. In this case, the terminal device can determine not to resume PDCCH monitoring.
  • the network device determines not to resume PDCCH monitoring, that is, continues to skip PDCCH monitoring based on the PDCCH skip monitoring instruction previously sent by the network device, or it can be understood that the terminal device does not end the timing of the PDCCH skip monitoring duration.
  • the terminal device may determine not to resume PDCCH monitoring.
  • the logical channel triggers the SR, and the terminal device sends the SR on the PUCCH of a serving cell to determine whether the scheduling request identifies whether the network device is configured to allow the recovery of PDCCH monitoring.
  • One instruction information If the first indication information is configured, the terminal device stops the current PDCCH skipping monitoring, and starts monitoring the PDCCH in the serving cell. Of course, if the second indication information that the PDCCH monitoring is not allowed to be resumed is configured, or no indication information is configured, the terminal device continues to be in the PDCCH skip monitoring state.
  • the terminal device since the network device configures the first indication information for the resource used by SR1, after the logical channel triggers SR1, the terminal device resumes PDCCH monitoring. Since the network device configures the second indication information for the resource used by SR2, after the logical channel triggers SR2, the terminal device does not resume PDCCH monitoring.
  • the first request is triggered through the logical channel, it is determined whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources.
  • a configuration information is configuration information associated with the transmission of the first request. In this way, missed PDCCH monitoring can be avoided.
  • the method for monitoring the channel may include but is not limited to the following content:
  • Step C1 During the PDCCH skip monitoring period, if the first request is triggered through the logical channel, determine whether to resume PDCCH monitoring according to the first configuration information, where the first request is used to request the network device to allocate uplink resources, and the first configuration
  • the information is configuration information associated with the transmission of the first request.
  • the first request is SR.
  • the network device can choose whether to configure the PUCCH resource for transmitting the SR for the uplink logical channel.
  • the network device may configure multiple PUCCH resources for transmitting SR for the terminal device, and the configuration parameters corresponding to each PUCCH resource for transmitting SR include: PUCCH resource period, time slot, time symbol offset, and PUCCH resource index.
  • the terminal device sends the SR on the PUCCH resource for transmitting SR corresponding to the logical channel; otherwise, The terminal initiates a random access procedure.
  • the first configuration information may be pre-configured by the network device to the terminal device.
  • the first configuration information is configured by the network device through RRC signaling, or the first configuration information is configured by the network device. Configured through MAC CE signaling.
  • the first configuration information includes a scheduling request resource identifier
  • the scheduling request resource identifier is used to indicate a corresponding scheduling request resource
  • the scheduling request resource identifier is associated with the logical channel identifier of the logical channel.
  • the implementation of determining whether to resume PDCCH monitoring according to the first configuration information may include: determining whether to resume PDCCH monitoring according to the indication information associated with the resource identifier of the scheduling request.
  • the logical channel identifier is used to indicate the type of the logical channel, and the type of the logical channel includes a first channel type and a second channel type.
  • the first channel type is a delay-sensitive logical channel
  • the second channel type is.
  • the delay-sensitive logical channel has a higher requirement for data transmission delay, and it is usually required to not exceed a certain threshold.
  • the delay-sensitive logical channel is usually used to transmit business data such as instant messaging messages.
  • Delay-insensitive logical channels have relatively low requirements for data transmission delay.
  • delay-insensitive logical channels are usually used to download service data such as videos.
  • the indication information is used to indicate whether to allow PDCCH monitoring to be resumed.
  • the indication information includes first indication information or second indication information, where the first indication information is used to indicate that PDCCH monitoring is allowed to be resumed, and the second indication information is used to indicate that PDCCH monitoring is not allowed to resume.
  • the network device may configure the indication information according to the type of the logical channel, and associate the indication information with the scheduling request resource identifier corresponding to the logical channel identifier. For example, for a delay-sensitive logical channel, the first indication information may be associated with The corresponding scheduling request resource identifier is associated. For another example, for a delay-insensitive logical channel, the second indication information may be associated with the corresponding scheduling request resource identifier. In this way, the terminal device can determine whether to resume PDCCH monitoring according to the indication information associated with the scheduling request resource identifier.
  • the terminal device determines that the indication information associated with the scheduling request resource identifier is the first indication information, it means that the network device allows the terminal device to resume PDCCH monitoring and can stop The PDCCH skips the monitoring process. In this case, the terminal device can determine to resume PDCCH monitoring.
  • the second indication information is used to indicate that it is not allowed to resume PDCCH monitoring
  • the terminal device determines that the indication information associated with the scheduling request resource identifier is the second indication information, it means that the network device does not allow the terminal device to resume PDCCH monitoring, that is, It is not possible to stop the PDCCH skipping monitoring process. In this case, the terminal device may determine not to resume PDCCH monitoring.
  • the network device determines not to resume PDCCH monitoring, that is, continues to skip PDCCH monitoring based on the PDCCH skip monitoring instruction previously sent by the network device, or it can be understood that the terminal device does not end the timing of the PDCCH skip monitoring duration.
  • the terminal device may determine not to resume PDCCH monitoring.
  • the terminal device during the PDCCH skip monitoring period, the logical channel triggers the SR, and the terminal device sends the SR on the PUCCH of a serving cell to determine whether the network device is configured for the scheduling request resource identifier corresponding to the logical channel identifier
  • the first indication information that allows PDCCH monitoring to be resumed. If the first indication information is configured, the terminal device stops the current PDCCH skipping monitoring, and starts monitoring the PDCCH in the serving cell.
  • the second indication information that the PDCCH monitoring is not allowed to be resumed is configured, or no indication information is configured, the terminal device continues to be in the PDCCH skip monitoring state.
  • the first request is triggered through the logical channel, it is determined whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources.
  • a configuration information is configuration information associated with the transmission of the first request. In this way, missed PDCCH monitoring can be avoided.
  • the method for monitoring the channel may include but is not limited to the following content:
  • Step D1 During the PDCCH skip monitoring period, if the first request is triggered through the logical channel, determine whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is Configuration information associated with the transmission of the first request.
  • the first request is SR.
  • the network device can choose whether to configure the PUCCH resource for transmitting the SR for the uplink logical channel.
  • the network device may configure multiple PUCCH resources for transmitting SR for the terminal device, and the configuration parameters corresponding to each PUCCH resource for transmitting SR include: PUCCH resource period, time slot, time symbol offset, and PUCCH resource index.
  • the terminal device sends the SR on the PUCCH resource for transmitting SR corresponding to the logical channel; otherwise, The terminal initiates a random access procedure.
  • the first configuration information may be pre-configured by the network device to the terminal device.
  • the first configuration information is configured by the network device through RRC signaling, or the first configuration information is configured by the network device. Configured through MAC CE signaling.
  • the first configuration information includes the scheduling limited duration corresponding to the logical channel, and the scheduling limited duration is used to indicate the maximum duration of waiting for the network device to schedule after sending the first request for the logical channel.
  • the specific implementation of determining whether to resume PDCCH monitoring according to the first configuration information may include: determining the remaining PDCCH skip monitoring duration, and determining whether to resume PDCCH monitoring based on the scheduling limited duration and the remaining PDCCH skip monitoring duration .
  • the scheduling limited duration can be compared with the remaining PDCCH skip monitoring duration, and then according to the comparison result, it is determined whether to resume PDCCH monitoring.
  • the specific implementation of determining whether to resume PDCCH monitoring may include: if the scheduling limited duration is less than or equal to the remaining PDCCH skip monitoring duration, determining to restore the PDCCH monitor.
  • the terminal device determines to resume PDCCH monitoring.
  • the specific implementation of determining whether to resume PDCCH monitoring may include: if the scheduling limited duration is greater than the remaining PDCCH skip monitoring duration, determining not to restore the PDCCH monitor.
  • the scheduling limited duration is longer than the remaining PDCCH skip monitoring duration, it means that the remaining PDCCH skip monitoring duration is relatively short. In this case, it indicates that the PDCCH monitoring can be automatically restored to PDCCH monitoring without any more time. Therefore, the terminal equipment It can be determined not to resume PDCCH monitoring.
  • the terminal device since the scheduling limited duration configured by the network device for LC1 is less than the remaining PDCCH skip monitoring duration, after LC1 triggers SR1, the terminal device resumes PDCCH monitoring. Since the scheduling limited duration configured by the network device for LC2 is longer than the remaining PDCCH skip monitoring duration, after LC2 triggers SR2, the terminal device does not resume PDCCH monitoring.
  • the first request is triggered through the logical channel, it is determined whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is configuration information associated with the transmission of the first request. In this way, missed PDCCH monitoring can be avoided.
  • FIG. 6 is a flowchart of a method for monitoring a channel according to another exemplary embodiment.
  • the method can be applied in the above implementation environment and is mainly executed by a network device.
  • the method can include the following implementations step:
  • Step 601 Send the first configuration information to the terminal device.
  • the first configuration information is used for the terminal device to determine whether to resume PDCCH monitoring when the first request corresponding to the first configuration information is triggered through the logical channel during the PDCCH skip monitoring period, and the first request is used to request the network device Allocating uplink resources, where the first configuration information is configuration information associated with the transmission of the first request.
  • the first request is a scheduling request SR.
  • the first configuration information includes the logical channel identifier of the logical channel.
  • the indication information is determined according to the type of the logical channel.
  • the indication information is used to indicate whether the PDCCH monitoring is allowed to resume, and the The indication information is associated with the logical channel identifier.
  • the first configuration information includes a scheduling request identifier
  • the scheduling request identifier is used to indicate a corresponding scheduling request configuration
  • the scheduling request identifier is associated with the logical channel identifier of the logical channel.
  • the indication information is determined according to the type of the logical channel, and the indication information is used to indicate whether to allow PDCCH monitoring to be resumed, and the indication information is associated with the scheduling request identifier.
  • the first configuration information includes a scheduling request resource identifier
  • the scheduling request resource identifier is used to indicate a corresponding scheduling request resource
  • the scheduling request resource identifier is associated with the logical channel identifier of the logical channel.
  • the indication information is determined according to the type of the logical channel, and the indication information is used to indicate whether to allow PDCCH monitoring to be resumed, and the indication information is associated with the scheduling request identifier.
  • the logical channel identifier is used to indicate the type of the logical channel, and the type of the logical channel includes a first channel type and a second channel type.
  • the specific implementation of determining the indication information according to the type of the logical channel may include: if the type of the logical channel is the first channel type, determining that the indication information is the first indication information, and the first indication information is used to indicate permission PDCCH monitoring is resumed; if the type of the logical channel is the second channel type, it is determined that the indication information is the second indication information, and the second indication information is used to indicate that PDCCH monitoring is not allowed to be resumed.
  • the first channel type is a delay-sensitive logical channel
  • the second channel type is a delay-insensitive logical channel
  • the delay-sensitive logical channel has a higher requirement for data transmission delay, and it is usually required to not exceed a certain threshold.
  • the delay-sensitive logical channel is usually used to transmit business data such as instant messaging messages.
  • Delay-insensitive logical channels have relatively low requirements for data transmission delay.
  • delay-insensitive logical channels are usually used to download service data such as videos.
  • the indication information is used to indicate whether to allow PDCCH monitoring to be resumed.
  • the indication information includes first indication information or second indication information, where the first indication information is used to indicate that PDCCH monitoring is allowed to be resumed, and the second indication information is used to indicate that PDCCH monitoring is not allowed to resume.
  • the network device may configure the indication information according to the type of the logical channel, and associate the indication information with the logical channel identifier. For example, for a delay-sensitive logical channel, the first indication information may be associated with the logical channel identifier, and then For example, for a delay-insensitive logical channel, the second indication information may be associated with the logical channel identifier. In this way, the terminal device can determine whether to resume PDCCH monitoring according to the indication information associated with the logical channel identifier.
  • the network device may configure the indication information according to the type of the logical channel, and associate the indication information with the scheduling request identifier corresponding to the logical channel identifier.
  • the first indication information may be Associating with the scheduling request identifier
  • the second indication information may be associated with the scheduling request identifier. In this way, the terminal device can determine whether to resume PDCCH monitoring according to the indication information associated with the scheduling request identifier.
  • the network device may configure the indication information according to the type of the logical channel, and associate the indication information with the scheduling request resource identifier corresponding to the logical channel identifier. For example, for the delay-sensitive logical channel, the first The indication information is associated with the scheduling request resource identifier. For another example, for a delay-insensitive logical channel, the second indication information may be associated with the scheduling request resource identifier. In this way, the terminal device can determine whether to resume PDCCH monitoring according to the indication information associated with the scheduling request resource identifier.
  • the network device may send the first configuration information to the terminal device through RRC signaling; or, the network device may send the first configuration information to the terminal device through MAC CE.
  • the network device sends first configuration information to the terminal device, where the first configuration information is configuration information associated with the first requested transmission.
  • the terminal device triggers the first request for requesting the network device to allocate uplink resources through the logical channel. According to the first configuration information, it can be determined whether to resume PDCCH monitoring. In this way, missed PDCCH monitoring can be avoided.
  • FIG. 7 is a schematic structural diagram of an apparatus for monitoring a channel according to an exemplary embodiment.
  • the apparatus may be configured in a terminal device, and the apparatus may include:
  • the determining module 710 is configured to determine whether to resume PDCCH monitoring according to the first configuration information if the first request is triggered through the logical channel during the skip monitoring period of the physical downlink control channel PDCCH; wherein, the first request is used to request a network device Allocating uplink resources, where the first configuration information is configuration information associated with the transmission of the first request.
  • the first configuration information includes the logical channel identifier of the logical channel
  • the determining module 720 is configured to determine whether to resume PDCCH monitoring according to the indication information associated with the logical channel identifier.
  • the first configuration information includes a scheduling request identifier
  • the scheduling request identifier is used to indicate a corresponding scheduling request configuration
  • the scheduling request identifier is associated with the logical channel identifier of the logical channel Associated
  • the determining module 720 is configured to determine whether to resume PDCCH monitoring according to the indication information associated with the scheduling request identifier.
  • the first configuration information includes a scheduling request resource identifier, the scheduling request resource identifier is used to indicate a corresponding scheduling request resource, and the scheduling request resource identifier is related to the logic of the logical channel.
  • Channel identification association ;
  • the determining module 720 is configured to determine whether to resume PDCCH monitoring according to the indication information associated with the resource identifier of the scheduling request.
  • the indication information includes first indication information or second indication information
  • the first indication information is used to indicate that PDCCH monitoring is allowed to be resumed
  • the second indication information is used to indicate that PDCCH monitoring is not allowed to be resumed. Allow to resume PDCCH monitoring.
  • the logical channel identifier is used to indicate the type of the logical channel.
  • the types of the logical channels include a first channel type and a second channel type; the logical channel identifiers include a first channel identifier and a second channel identifier; the first channel identifier Associated with the first channel type, and the first channel identifier is associated with first indication information, the first indication information is used to indicate that PDCCH monitoring is allowed to resume; the second channel identifier is associated with the second channel type And the second channel identifier is associated with second indication information, and the second indication information is used to indicate that PDCCH monitoring is not allowed to be resumed.
  • the first channel type is a delay-sensitive logical channel
  • the second channel type is a delay-insensitive logical channel
  • the first configuration information includes the scheduling limited duration corresponding to the logical channel, and the scheduling limited duration is used to indicate that the network waits for the network after sending the first request to the logical channel.
  • the maximum duration of equipment scheduling is used to indicate that the network waits for the network after sending the first request to the logical channel.
  • the determining module 720 is configured to determine the remaining PDCCH skip monitoring duration; based on the scheduling limited duration and the remaining PDCCH skip monitoring duration, determine whether to resume PDCCH monitoring.
  • the determining module 720 is configured to determine to resume PDCCH monitoring if the limited scheduling duration is less than or equal to the remaining PDCCH skip monitoring duration.
  • the determining module 720 is configured to determine not to resume PDCCH monitoring if the scheduling limited duration is greater than the remaining PDCCH skip monitoring duration.
  • the determining module 720 is further configured to: if it is determined to resume PDCCH monitoring, stop the current PDCCH skip monitoring, and start monitoring the PDCCH.
  • the first configuration information is configured by the network device through radio resource control RRC signaling, or the first configuration information is configured by the network device through the media access control MAC control unit CE Signaling configuration.
  • the first request is a scheduling request SR.
  • the first request is triggered through the logical channel, it is determined whether to resume PDCCH monitoring according to the first configuration information.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is configuration information associated with the transmission of the first request. In this way, missed PDCCH monitoring can be avoided.
  • FIG. 8 is a schematic structural diagram of an apparatus for monitoring a channel according to an exemplary embodiment.
  • the apparatus may be configured in a network device, and the apparatus may include:
  • the sending module 810 is configured to send the first configuration information to the terminal device
  • the first configuration information is used for the terminal device to determine whether to resume PDCCH monitoring when the first request corresponding to the first configuration information is triggered through a logical channel during the skip monitoring period of the physical downlink control channel PDCCH.
  • the first request is used to request the network device to allocate uplink resources, and the first configuration information is configuration information associated with the transmission of the first request.
  • the first configuration information includes the logical channel identifier of the logical channel
  • the sending module 810 is further configured to: determine indication information according to the type of the logical channel, the indication information being used to indicate whether to allow PDCCH monitoring to be resumed; and to associate the indication information with the logical channel identifier.
  • the first configuration information includes a scheduling request identifier
  • the scheduling request identifier is used to indicate a corresponding scheduling request configuration
  • the scheduling request identifier is associated with the logical channel identifier of the logical channel Associated
  • the sending module 810 is further configured to: determine indication information according to the type of the logical channel, the indication information being used to indicate whether PDCCH monitoring is allowed to resume; and to associate the indication information with the scheduling request identifier.
  • the first configuration information includes a scheduling request resource identifier, the scheduling request resource identifier is used to indicate a corresponding scheduling request resource, and the scheduling request resource identifier is associated with the logical channel Logical channel identification association;
  • the sending module 810 is further configured to: determine indication information according to the type of the logical channel, the indication information being used to indicate whether PDCCH monitoring is allowed to resume; and to associate the indication information with the scheduling request identifier.
  • the types of the logical channels include a first channel type and a second channel type
  • the sending module 810 is further configured to: if the type of the logical channel is the first channel Type, determine that the indication information is the first indication information, and the first indication information is used to indicate that PDCCH monitoring is allowed to resume; if the type of the logical channel is the second channel type, determine that the indication information is the second Indication information, where the second indication information is used to indicate that PDCCH monitoring is not allowed to be resumed.
  • the first channel type is a delay-sensitive logical channel
  • the second channel type is a delay-insensitive logical channel
  • the first request is a scheduling request SR.
  • the sending module 810 is configured to:
  • the first configuration information is sent to the terminal device through the media access control MAC control unit CE.
  • the network device sends first configuration information to the terminal device, where the first configuration information is configuration information associated with the transmission of the first request.
  • the terminal device triggers the first request for requesting the network device to allocate uplink resources through the logical channel. According to the first configuration information, it can be determined whether to resume PDCCH monitoring. In this way, missed PDCCH monitoring can be avoided.
  • FIG. 9 shows a schematic structural diagram of a device provided by an exemplary embodiment of the present application.
  • the device may be the foregoing terminal device, or the device may be the foregoing network device.
  • the device may include: a processor 901, a receiver 902, a transmitter 903, a memory 904, and a bus 905.
  • the processor 901 includes one or more processing cores, and the processor 901 executes various functional applications and information processing by running software programs and modules.
  • the receiver 902 and the transmitter 903 may be implemented as a communication component, and the communication component may be a communication chip.
  • the memory 904 is connected to the processor 901 through the bus 905.
  • the memory 904 may be configured to store at least one instruction, and the processor 901 is configured to execute the at least one instruction to implement each step performed by the terminal device in the foregoing method embodiments, or to implement the steps performed by the network device in the foregoing method embodiments. Various steps.
  • the memory 904 can be implemented by any type of volatile or non-volatile storage device or a combination thereof.
  • the volatile or non-volatile storage device includes, but is not limited to: magnetic disks or optical disks, EEPROM (Electrically Erasable Programmable Read -Only Memory, Erasable Programmable Read-Only Memory with Electricity), EPROM (Electrically Programmable Read Only Memory, Erasable Programmable Read-Only Memory), SRAM (Static Random Access Memory), ROM (Read Only Memory, magnetic memory, flash memory, PROM (Programmable Read Only Memory).
  • the present application provides a computer-readable storage medium in which at least one instruction is stored, and the at least one instruction is loaded and executed by the processor to implement the methods provided by the foregoing method embodiments.
  • the present application also provides a computer program product, which when the computer program product runs on a computer, causes the computer to execute the methods provided in the foregoing method embodiments.
  • the program can be stored in a computer-readable storage medium.
  • the storage medium mentioned can be a read-only memory, a magnetic disk or an optical disk, etc.

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Abstract

本申请提供了一种监听信道的方法、装置、设备及存储介质,涉及通信技术领域。所述方法包括:在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。如此,可以避免错过PDCCH监听。

Description

监听信道的方法、装置、设备及存储介质 技术领域
本申请涉及通信技术领域,特别涉及一种监听信道的方法、装置、设备及存储介质。
背景技术
在通信系统中,对于连接态的终端设备,在配置DRX(Discontinuous Reception,非连续接收)的情况下,终端设备在DRX激活期(DRX active time)内监听PDCCH(Physical Downlink Control Channel,物理下行控制信道)。
目前,为了减少终端设备盲检PDCCH,引入了PDCCH跳过监听机制,即当网络设备认为终端设备在未来一段时间没有上下行数据传输需求时,可以通过发送PDCCH跳过监听指示来指示终端设备跳过该段时间的PDCCH监听,从而达到省电目的。通常情况下,若终端设备收到PDCCH跳过监听指示,在随后的PDCCH跳过监听期间内不监听PDCCH,即使终端设备在这段PDCCH跳过监听期间内处于DRX激活期。
然而,在一些场景下,终端设备自身会触发上行传输并期待网络设备有进一步的响应,比如,终端设备触发SR(Scheduling Request,调度请求)。在该种情况下,由于终端设备会期待网络设备的响应,所以使得终端设备会有监听PDCCH的需求。如果此时终端设备正处于PDCCH跳过监听期间,终端设备该执行何种操作成为研究的热点。
发明内容
本申请实施例提供了一种监听信道的方法、装置、设备及存储介质,可以用于解决相关技术中终端设备正处于PDCCH跳过监听期间触发上行传输后该执行何种操作的问题。所述技术方案如下:
一方面,提供了一种监听信道的方法,所述方法包括:
在物理下行控制信道PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听;
其中,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
另一方面,提供了一种监听信道的方法,所述方法包括:
向终端设备发送第一配置信息;
所述第一配置信息用于所述终端设备在物理下行控制信道PDCCH跳过监听期间,在通过逻辑信道触发所述第一配置信息对应的第一请求的情况下确定是否恢复PDCCH监听,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
另一方面,提供了一种监听信道的装置,所述装置包括:
确定模块,用于在物理下行控制信道PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听;
其中,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
另一方面,提供了一种监听信道的装置,所述装置包括:
发送模块,用于向终端设备发送第一配置信息;
所述第一配置信息用于所述终端设备在物理下行控制信道PDCCH跳过监听期间,在通过逻辑信道触发所述第一配置信息对应的第一请求的情况下确定是否恢复PDCCH监听,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
另一方面,提供了一种设备,所述设备包括处理器和存储器,所述存储器存储有至少一条指令,所述至少一条指令用于被所述处理器执行以实现上述一方面中任一项所提供的监听信道的方法,或者,实现上述另一方面中任一项所提供的监听信道的方法。
另一方面,提供了一种计算机可读存储介质,所述计算机可读存储介质存储有至少一条指令,所述至少一条指令用于被处理器执行以实现上述一方面中任一项所提供的监听信道的方法,或者,实现上述另一方面中任一项所提供的监听信道的方法。
另一方面,提供了一种计算机程序产品,所述计算机程序产品包括一个或多个计算机程序,所述计算机程序被处理器执行时,用于实现上述一方面中任一项所提供的监听信道的方法,或者,实现上述另一方面中任一项所提供的监听信道的方法。
本申请实施例提供的技术方案带来的有益效果至少包括:
在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听。其中,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。如此,可以避免错过PDCCH监听。
附图说明
为了更清楚地说明本申请实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本申请一个示例性实施例提供的实施环境的示意图;
图2是本申请一个示例性实施例提供的监听信道的方法的流程图;
图3是本申请一个示例性实施例提供的PDCCH监听的示意图;
图4是本申请另一个示例性实施例提供的PDCCH监听的示意图;
图5是本申请另一个示例性实施例提供的PDCCH监听的示意图;
图6是本申请另一个示例性实施例提供的监听信道的方法的流程图;
图7是本申请一个示例性实施例提供的监听信道的装置结构示意图;
图8是本申请一个示例性实施例提供的监听信道的装置结构示意图;
图9是本申请另一个示例性实施例提供的设备的结构示意图。
具体实施方式
为使本申请的目的、技术方案和优点更加清楚,下面将结合附图对本申请实施方式作进一步地详细描述。
在对本申请实施例提供的监听信道的方法进行详细介绍之前,先对本申请实施例涉及的实施环境进行简单介绍。
本申请实施例的技术方案可以应用于各种通信系统,例如:GSM(Global System of Mobile communication,全球移动通讯)系统、CDMA(Code Division Multiple Access,码分多址)系统、WCDMA(Wideband Code Division Multiple Access,宽带码分多址)系统、GPRS(General Packet Radio Service,通用分组无线业务)、LTE(Long Term Evolution,长期演进)系统、FDD(Frequency Division Duplex,频分双工)系统、TDD(Time Division Duplex,时分双工)系统、LTE-A(Aadvanced Long Term Evolution,先进的长期演进)系统、NR(New Redio,新无线)系统、NR系统的演进系统、LTE-U(LTE-based Access To Unlicensed Spectrum,非授权频段上的LTE)系统、NR-U(NR-based Access To Unlicensed Spectrum,非授权频段上的NR)系统、UMTS(Universal Mobile Telecommunication System,通用移动通信系统)、WiMAX(Worldwide Interoperability For Microwave Access,全球互联微波接入)通信系统、WLAN(Wireless Local Area Networks,无线局域网)、WiFi(Wireless Fidelity,无线保真)、下一代通信系统或其他通信系统等。
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,D2D(Device to Device,设备到设备)通信,M2M(Machine to Machine,机器到机器)通信,MTC(Machine Type Communication,机器类型通信),以及V2V(Vehicle to Vehicle,车辆间)通信等,本申请实施例也可以应用于这些通信系统。
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。
示例性的,本申请实施例应用的通信系统100如图1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进行通信。可选地,该网络设备110可以是eNB(Evolutional Node B,演进型基站),或者是CRAN(Cloud Radio Access Network,云无线接入网络)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通信系统中的网络设备等。
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”包括但不限于经由有线线路连接,如经由PSTN(Public Switched Telephone Networks,公共交换电话网络)、DSL(Digital Subscriber Line,数字用户线路)、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、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/或另一终端的被设置成接收/发送通信信号的装置;和/或IoT(Internet of Things,物联网)设备。被设置成通过无线接口通信的终端可以被称为“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PCS(Personal Communications System,个人通信系统)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GPS(Global Positioning System,全球定位系统)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。终端可以指接入终端、UE(User Equipment,用户设备)、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、SIP(Session Initiation Protocol,会话启动协议)电话、WLL(Wireless Local Loop,无线本地环路)站、PDA(Personal Digital Assistant,个人数字处理)、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网络中的终端或者未来演进的PLMN中的终端等。
可选地,终端设备120之间可以进行D2D通信。
可选地,5G通信系统或5G网络还可以称为NR系统或NR网络。
图1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,譬如,在切换场景中,通常包括第一网络设备和第二网络设备,该第一网络设备为源网络设备,该第二网络设备为目标网络设备,即终端从第一网络设备切换至第二网络设备。
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1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。
在介绍完本申请实施例涉及的实施环境后,接下来将结合附图对本申请实施例提供的监听信道的方法进行详细介绍。
请参考图2,该图2是根据一示例性实施例提供的监听信道的方法流程图,该方法可以应用于上述图1所示的实施环境中,主要由终端设备来执行,该方法可以包括如下几个实现步骤:
步骤201:在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,其中,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。
该逻辑信道是指上行逻辑信道,作为一种示例,该逻辑信道可以由终端设备根据实际需求选择的。
作为一种示例,该第一请求为SR(Scheduling Request,调度请求)。
当然,这里仅是以该第一请求是SR为例进行说明,在其他实施例中,该第一请求还可以为其他请求,本申请实施例对此不做限定。
其中,该第一配置信息可以包括与该第一请求的传输相关的配置信息,譬如,可以包括触发该第一请求传输的逻辑信道的逻辑信道标识、该第一请求的请求标识、以及用于传输该第一请求的请求资源的请求资源标识。其中,该请求标识可以用于确定该第一请求的请求配置信息,譬如,该请求配置信息包括禁止时长,其中,该禁止时长用于指示多少时长内不允许重发第二个第一请求。
示例性的,该第一请求为SR,在该种情况下,该第一配置信息可以包括如下参数:调度请求标识(SchedulingRequestId)、调度请求资源标识(SchedulingRequestResourceId)、逻辑信道标识(LogicalChannelIdentity)。
其中,调度请求标识用于指示对应的调度请求配置。譬如,一种调度请求配置可以包括禁止时长,其中,该禁止时长用于指示多少时长内不允许重发第二个调度请求。
其中,该调度请求资源标识用于指示对应的调度请求资源。
其中,每个逻辑信道标识可以指示一个调度请求标识,逻辑信道标识与调度请求标识可以是一对一的关系,也可以是多对一的关系。即一个逻辑信道标识与一个调度请求标识对应,或者,多个逻辑信道标识与一个调度请求标识对应。
另外,每个调度请求资源标识可以指示一个调度请求标识,调度请求资源标识与调度请求标识可以是一对一的关系,也可以是多对一的关系。即一个调度请求资源标识与一个调度请求标识对应,或者,多个调度请求资源标识与一个调度请求标识对应。
并且,每个调度请求资源标识可以指示一个PUCCH资源索引,调度请求资源标识与PUCCH资源索引可以是一对一的关系,也可以是多对一的关系。即一个调度请求资源标识与一个PUCCH资源索引对应,或者,多个调度请求资源标识与一个PUCCH资源索引对应。
如此,在需要使用PUCCH资源传输第一请求时,根据上述几组对应关系,终端设备可以唯一地确定一个PUCCH资源索引,从而确定对应的PUCCH资源。
其中,该第一配置信息可以是由网络设备预先配置给终端设备的,示例性的,该第一配置信息是由网络设备通过RRC(Radio Resource Control,无线资源控制)信令配置的,或者,该第一配置信息是由网络设备通过MAC CE(Medium Access Control Control Element,媒质接入控制-控制单元)信令配置的。
一般情况下,当网络设备确定终端设备在接下来的一段时间内不存在上下行数据传输需求时,会向终端设备发送PDCCH跳过监听指示,相应的,终端设备接收来自网络设备的PDCCH跳过监听指示。进一步地,网络设备还可以给终端设备配置PDCCH跳过监听时长,即为终端设备配置停止监听PDCCH的时长,如此,终端设备在完成PDCCH接收的下一个符号开始,在随后的PDCCH跳过监听期间内在服务小区上不监听PDCCH,即便终端设备处于DRX激活期。
在一些实施例中,在PDCCH跳过监听期间内,终端设备自身可能会触发上行传输,并期待网络设备能有进一步的响应,比如,以该第一请求为SR为例,若终端设备有上行数据到达但没有用于BSR(Buffer Status Report,缓冲状态上报)上报的上行资源,会通过逻辑信道触发SR,以请求网络设备为其分配上行资源。
需要说明的是,终端设备发送第一请求后,该第一请求处于等待状态,即进入pending状态,譬如,终端设备发送SR后进入pending状态,所以,在一些实施例中,该步骤201的实现可以描述为:在PDCCH跳过监听期间,若通过逻辑信道触发第一请求并且该第一请求处于等待状态,根据第一配置信息,确定是否恢复PDCCH监听。
由于终端设备发送第一请求后会期待网络设备的响应,所以使得终端设备有了PDCCH监听的需求,如果此时终端设备正处于PDCCH跳过监听期间,终端设备可以根据第一配置信息确定是否恢复PDCCH监听,即确定是应该基于网络设备之前发送的PDCCH跳过监听指示继续跳过PDCCH监听,还是需要转换到监听PDCCH的状态。
如果确定恢复PDCCH监听,则停止当前的PDCCH跳过监听,并开始监听PDCCH。也即是,终端设备不再基于网络设备之前发送的PDCCH跳过监听指示继续跳过PDCCH监听,而是转换到监听PDCCH的状态。
不难理解,如果确定不恢复PDCCH监听,则继续当前的PDCCH跳过监听,也即是,终端设备基于网络设备之前发送的PDCCH跳过监听指示继续跳过PDCCH监听,即不恢复PDCCH监听。
在本申请实施例中,在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。如此,可以避免错过PDCCH监听。
在实施中,根据该第一配置信息包括的内容不同,本申请提供的监听信道的具体实现过程不同,接下来将分别通过如下几个实施例分别进行说明。
在一实施例中,该监听信道的方法可以包括但不限于如下内容:
步骤A1:在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。
作为一种示例,该第一请求为SR。
通常情况下,网络设备可以选择是否为上行逻辑信道配置用于传输SR的PUCCH资源。网络设备可以为终端设备配置多个用于传输SR的PUCCH资源,每个用于传输SR的PUCCH资源对应的配置参数包括:PUCCH资源的周期、时隙、时间符号偏移、以及PUCCH资源索引。
在实施中,若逻辑信道触发了SR,如果网络设备为该逻辑信道配置了用于传输SR的PUCCH资源,则终端设备在该逻辑信道对应的用于传输SR的PUCCH资源上发送SR;否则,终端发起随机接入过程。
其中,该第一配置信息可以是由网络设备预先配置给终端设备的,示例性的,该第一配置信息是由网络设备通过RRC信令配置的,或者,该第一配置信息是由网络设备通过MAC CE信令配置的。
作为一种示例,该第一配置信息包括该逻辑信道的逻辑信道标识,在该种情况下,根据第一配置信息确定是否恢复PDCCH监听的具体实现可以包括:根据该逻辑信道标识关联的指示信息,确定是否恢复PDCCH监听。
其中,该指示信息用于指示是否允许恢复PDCCH监听。示例性的,该指示信息包括第一指示信息或第二指示信息,该第一指示信息用于指示允许恢复PDCCH监听,该第二指示信息用于指示不允许恢复PDCCH监听。
作为一种示例,该逻辑信道标识用于指示该逻辑信道的类型。
作为一种示例,该逻辑信道的类型包括第一信道类型和第二信道类型;该逻辑信道标识包括第一信道标识和第二信道标识。该第一信道标识与该第一信道类型关联,且该第一信道标识与第一指示信息关联,该第一指示信息用于指示允许恢复PDCCH监听,该第二信道标识与该第二信道类型关联,且该第二信道标识与第二指示信息关联,该第二指示信息用于指示不允许恢复PDCCH监听。
通常情况下,该第一信道类型对应的逻辑信道所传输的数据对时延要求较高,该第二信道类型对应的逻辑信道所传输的数据对时延要求相对较低。或者,该第一信道类型对应的逻辑信道用于传输指定业务数据,该第二信道类型对应的逻辑信道用于传输除指定业务数据之外的业务数据。其中,该指定业务数据可以根据实际需求进行设置。
作为一种示例,该第一信道类型为时延敏感性逻辑信道,该第二信道类型为时延非敏感性逻辑信道。
其中,时延敏感性逻辑信道对数据传输时延要求较高,通常要求不能超过一定的阈值,譬如,时延敏感性逻辑信道通常用于传输即时通讯消息之类的业务数据。时延非敏感性逻辑信道对数据传输时延要求相对较低一些,譬如,时延非敏感性逻辑信道通常用于下载视频等业务数据。
网络设备可以根据该逻辑信道的类型配置该指示信息,并将该指示信息与逻辑信道标识进行关联,基于所关联的指示信息不同,该逻辑信道标识包括第一信道标识和第二信道标识,譬如,该第一信道标识可以用“LC1-1”表示,该第二逻辑信道标识可以用“LC1-2”表示,其中,前缀LC1可以用于指示该逻辑信道,后缀的“1”和“0”用于指示该逻辑信道的类型。针对时延敏感性逻辑信道,可以将第一指示信息与第一信道标识关联,再如,针对时延非敏感性逻辑信道,可以将第二指示信息与第二信道标识关联。如此,对于终端设备来说,可以根据该逻辑信道的逻辑信道标识关联的指示信息,确定是否恢复PDCCH监听。
由于该第一指示信息用于指示允许恢复PDCCH监听,所以,若终端设备确定该逻辑信道标识关联的指示信息为该第一指示信息,说明网络设备允许该终端设备恢复PDCCH监听,即可以停止PDCCH跳过监听过程,在该种情况下,该终端设备可以确定要恢复PDCCH监听。
由于该第二指示信息用于指示不允许恢复PDCCH监听,所以,若终端设备确定该逻辑信道标识关联的指示信息为该第二指示信息,说明网络设备不允许该终端设备恢复PDCCH监听,即不可以停止PDCCH跳过监听过程,在该种情况下,该终端设备可以确定不恢复PDCCH监听。
作为另一种示例,若不存在与该逻辑信道标识关联的第一指示信息,确定不恢复PDCCH监听。
若不存在与该逻辑信道标识关联的第一指示信息,可以认为网络设备不允许终端设备恢复PDCCH监听,也即是,需要继续遵守PDCCH跳过监听的规则。所以,终端设备确定不恢复PDCCH监听,即基于网络设备之前发送的PDCCH跳过监听指示继续跳过PDCCH监听,或者可以理解为,终端设备不结束PDCCH跳过监听时长的计时。
作为又一种示例,若该第一配置信息中的指示信息域为空,确定不恢复PDCCH监听,其中,该指示信息域用于填充第一指示信息。也就是说,该第一配置信息中用于携带第一指示信息的指示信息域为空,可以认为不允许恢复PDCCH监听,在该种情况下,该终端设备可以确定不恢复PDCCH监听。
也即是,在PDCCH跳过监听期间,逻辑信道触发了SR,终端设备在一个服务小区的PUCCH上发送SR,之后,判断针对该逻辑信道的逻辑信道标识,网络设备是否配置了允许恢复PDCCH监听的第一指示信息。如果配置了第一指示信息,终端设备停止当前的PDCCH跳过监听,并开始在服务小区内监听PDCCH。当然,如果配置了不允许恢复PDCCH监听的第二指示信息,或者未配置有任何指示信息,则终端设备继续处于PDCCH跳过监听的状态。
譬如,如图3所示,由于网络设备为LC1(第一信道标识)配置了第一指示信息,所以, 在LC1触发了SR1后,终端设备恢复PDCCH监听。由于网络设备为LC2(第二信道标识)配置了第二指示信息,所以,在LC2触发了SR2后,终端设备不恢复PDCCH监听。
在本申请实施例中,在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息确定是否恢复PDCCH监听。其中,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。如此,可以避免错过PDCCH监听。
在另一实施例中,该监听信道的方法可以包括但不限于如下内容:
步骤B1:在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,其中,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。
作为一种示例,该第一请求为SR。
通常情况下,网络设备可以选择是否为上行逻辑信道配置用于传输SR的PUCCH资源。网络设备可以为终端设备配置多个用于传输SR的PUCCH资源,每个用于传输SR的PUCCH资源对应的配置参数包括:PUCCH资源的周期、时隙、时间符号偏移、以及PUCCH资源索引。
在本实施例中,网路设备可以选择是否为上行逻辑信道配置用于传输SR的PUCCH资源。网路设备可以为终端设备配置多个用于传输SR的PUCCH资源,么个
在实施中,若逻辑信道触发了SR,如果网络设备为该逻辑信道配置了用于传输SR的PUCCH资源,则终端设备在该逻辑信道对应的用于传输SR的PUCCH资源上发送SR;否则,终端发起随机接入过程。
其中,该第一配置信息可以是由网络设备预先配置给终端设备的,示例性的,该第一配置信息是由网络设备通过RRC信令配置的,或者,该第一配置信息是由网络设备通过MAC CE信令配置的。
作为一种示例,若该第一配置信息包括调度请求标识,该调度请求标识用于指示对应的调度请求配置,该调度请求标识与该逻辑信道的逻辑信道标识关联,在该种情况下,根据第一配置信息确定是否恢复PDCCH监听的实现可以包括:根据该调度请求标识关联的指示信息,确定是否恢复PDCCH监听。
作为一种示例,该逻辑信道标识用于指示该逻辑信道的类型,该逻辑信道的类型包括第一信道类型和第二信道类型。
作为一种示例,该第一信道类型为时延敏感性逻辑信道,该第二信道类型为时延非敏感性逻辑信道。
其中,时延敏感性逻辑信道对数据传输时延要求较高,通常要求不能超过一定的阈值,譬如,时延敏感性逻辑信道通常用于传输即时通讯消息之类的业务数据。时延非敏感性逻辑信道对数据传输时延要求相对较低一些,譬如,时延非敏感性逻辑信道通常用于下载视频等业务数据。
其中,该指示信息用于指示是否允许恢复PDCCH监听。示例性的,该指示信息包括第一指示信息或第二指示信息,该第一指示信息用于指示允许恢复PDCCH监听,该第二指示信息用于指示不允许恢复PDCCH监听。
网络设备可以根据该逻辑信道的类型配置该指示信息,并将该指示信息与该逻辑信道标识对应的调度请求标识进行关联,譬如,针对时延敏感性逻辑信道,可以将第一指示信息与对应的调度请求标识关联,再如,针对时延非敏感性逻辑信道,可以将第二指示信息与对应的调度请求标识关联。如此,对于终端设备来说,可以根据该调度请求标识关联的指示信息,确定是否恢复PDCCH监听。
由于该第一指示信息用于指示允许恢复PDCCH监听,所以,若终端设备确定该调度请求标识关联的指示信息为该第一指示信息,说明网络设备允许该终端设备恢复PDCCH监听,即可以停止PDCCH跳过监听过程,在该种情况下,该终端设备可以确定要恢复PDCCH监 听。
由于该第二指示信息用于指示不允许恢复PDCCH监听,所以,若终端设备确定该调度请求标识关联的指示信息为该第二指示信息,说明网络设备不允许该终端设备恢复PDCCH监听,即不可以停止PDCCH跳过监听过程,在该种情况下,该终端设备可以确定不恢复PDCCH监听。
作为另一种示例,若不存在与该调度请求标识关联的第一指示信息,确定不恢复PDCCH监听。
若不存在与该调度请求标识关联的第一指示信息,可以认为网络设备不允许终端设备恢复PDCCH监听,也即是,需要继续遵守PDCCH跳过监听的规则。所以,终端设备确定不恢复PDCCH监听,即基于网络设备之前发送的PDCCH跳过监听指示继续跳过PDCCH监听,或者可以理解为,终端设备不结束PDCCH跳过监听时长的计时。
作为又一种示例,若该第一配置信息中的指示信息域为空,确定不恢复PDCCH监听,其中,该指示信息域用于填充第一指示信息。也就是说,该第一配置信息中用于携带第一指示信息的指示信息域为空,可以认为不允许恢复PDCCH监听,在该种情况下,该终端设备可以确定不恢复PDCCH监听。
如此,对于终端设备来说,在PDCCH跳过监听期间,逻辑信道触发了SR,终端设备在一个服务小区的PUCCH上发送SR,判断针对该调度请求标识网络设备是否配置了允许恢复PDCCH监听的第一指示信息。如果配置了第一指示信息,终端设备停止当前的PDCCH跳过监听,并开始在服务小区内监听PDCCH。当然,如果配置了不允许恢复PDCCH监听的第二指示信息,或者未配置有任何指示信息,则终端设备继续处于PDCCH跳过监听的状态。
譬如,如图4所示,由于网络设备为SR1所使用的资源配置了第一指示信息,所以,在逻辑信道触发了SR1后,终端设备恢复PDCCH监听。由于网络设备为SR2所使用的资源配置了第二指示信息,所以,在逻辑信道触发了SR2后,终端设备不恢复PDCCH监听。
在本申请实施例中,在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。如此,可以避免错过PDCCH监听。
在另一实施例中,该监听信道的方法可以包括但不限于如下内容:
步骤C1:在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,其中,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。
作为一种示例,该第一请求为SR。
通常情况下,网络设备可以选择是否为上行逻辑信道配置用于传输SR的PUCCH资源。网络设备可以为终端设备配置多个用于传输SR的PUCCH资源,每个用于传输SR的PUCCH资源对应的配置参数包括:PUCCH资源的周期、时隙、时间符号偏移、以及PUCCH资源索引。
在实施中,若逻辑信道触发了SR,如果网络设备为该逻辑信道配置了用于传输SR的PUCCH资源,则终端设备在该逻辑信道对应的用于传输SR的PUCCH资源上发送SR;否则,终端发起随机接入过程。
其中,该第一配置信息可以是由网络设备预先配置给终端设备的,示例性的,该第一配置信息是由网络设备通过RRC信令配置的,或者,该第一配置信息是由网络设备通过MAC CE信令配置的。
作为一种示例,该第一配置信息包括调度请求资源标识,该调度请求资源标识用于指示对应的调度请求资源,该调度请求资源标识与该逻辑信道的逻辑信道标识关联。在该种情况下,根据第一配置信息确定是否恢复PDCCH监听的实现可以包括:根据该调度请求资源标识关联的指示信息,确定是否恢复PDCCH监听。
作为一种示例,该逻辑信道标识用于指示该逻辑信道的类型,该逻辑信道的类型包括第一信道类型和第二信道类型。
作为一种示例,该第一信道类型为时延敏感性逻辑信道,该第二信道类型为。
其中,时延敏感性逻辑信道对数据传输时延要求较高,通常要求不能超过一定的阈值,譬如,时延敏感性逻辑信道通常用于传输即时通讯消息之类的业务数据。时延非敏感性逻辑信道对数据传输时延要求相对较低一些,譬如,时延非敏感性逻辑信道通常用于下载视频等业务数据。
其中,该指示信息用于指示是否允许恢复PDCCH监听。示例性的,该指示信息包括第一指示信息或第二指示信息,该第一指示信息用于指示允许恢复PDCCH监听,该第二指示信息用于指示不允许恢复PDCCH监听。
网络设备可以根据该逻辑信道的类型配置该指示信息,并将该指示信息与该逻辑信道标识对应的调度请求资源标识进行关联,譬如,针对时延敏感性逻辑信道,可以将第一指示信息与对应的调度请求资源标识关联,再如,针对时延非敏感性逻辑信道,可以将第二指示信息与对应的调度请求资源标识关联。如此,对于终端设备来说,可以根据该调度请求资源标识关联的指示信息,确定是否恢复PDCCH监听。
由于该第一指示信息用于指示允许恢复PDCCH监听,所以,若终端设备确定该调度请求资源标识关联的指示信息为该第一指示信息,说明网络设备允许该终端设备恢复PDCCH监听,即可以停止PDCCH跳过监听过程,在该种情况下,该终端设备可以确定要恢复PDCCH监听。
由于该第二指示信息用于指示不允许恢复PDCCH监听,所以,若终端设备确定该调度请求资源标识关联的指示信息为该第二指示信息,说明网络设备不允许该终端设备恢复PDCCH监听,即不可以停止PDCCH跳过监听过程,在该种情况下,该终端设备可以确定不恢复PDCCH监听。
作为另一种示例,若不存在与该调度请求资源标识关联的第一指示信息,确定不恢复PDCCH监听。
若不存在与该调度请求资源标识关联的第一指示信息,可以认为网络设备不允许终端设备恢复PDCCH监听,也即是,需要继续遵守PDCCH跳过监听的规则。所以,终端设备确定不恢复PDCCH监听,即基于网络设备之前发送的PDCCH跳过监听指示继续跳过PDCCH监听,或者可以理解为,终端设备不结束PDCCH跳过监听时长的计时。
作为又一种示例,若该第一配置信息中的指示信息域为空,确定不恢复PDCCH监听,其中,该指示信息域用于填充第一指示信息。也就是说,该第一配置信息中用于携带第一指示信息的指示信息域为空,可以认为不允许恢复PDCCH监听,在该种情况下,该终端设备可以确定不恢复PDCCH监听。
如此,对于终端设备来说,在PDCCH跳过监听期间,逻辑信道触发了SR,终端设备在一个服务小区的PUCCH上发送SR,判断针对该逻辑信道标识对应的调度请求资源标识,网络设备是否配置了允许恢复PDCCH监听的第一指示信息。如果配置了第一指示信息,终端设备停止当前的PDCCH跳过监听,并开始在服务小区内监听PDCCH。当然,如果配置了不允许恢复PDCCH监听的第二指示信息,或者未配置有任何指示信息,则终端设备继续处于PDCCH跳过监听的状态。
在本申请实施例中,在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。如此,可以避免错过PDCCH监听。
在另一实施例中,该监听信道的方法可以包括但不限于如下内容:
步骤D1:在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听,该第一请求用于请求网络设备分配上行资源,该第一配置信息 为与该第一请求的传输关联的配置信息。
作为一种示例,该第一请求为SR。
通常情况下,网络设备可以选择是否为上行逻辑信道配置用于传输SR的PUCCH资源。网络设备可以为终端设备配置多个用于传输SR的PUCCH资源,每个用于传输SR的PUCCH资源对应的配置参数包括:PUCCH资源的周期、时隙、时间符号偏移、以及PUCCH资源索引。
在实施中,若逻辑信道触发了SR,如果网络设备为该逻辑信道配置了用于传输SR的PUCCH资源,则终端设备在该逻辑信道对应的用于传输SR的PUCCH资源上发送SR;否则,终端发起随机接入过程。
其中,该第一配置信息可以是由网络设备预先配置给终端设备的,示例性的,该第一配置信息是由网络设备通过RRC信令配置的,或者,该第一配置信息是由网络设备通过MAC CE信令配置的。
作为一种示例,该第一配置信息包括该逻辑信道对应的调度限定时长,该调度限定时长用于指示针对该逻辑信道发送该第一请求后等待网络设备调度的最大时长。在该种情况下,根据第一配置信息,确定是否恢复PDCCH监听的具体实现可以包括:确定剩余PDCCH跳过监听时长,基于该调度限定时长和该剩余PDCCH跳过监听时长,确定是否恢复PDCCH监听。
示例性地,可以将该调度限定时长与该剩余PDCCH跳过监听时长进行比较,然后根据该比较结果,确定是否恢复PDCCH监听。
作为一种示例,基于该调度限定时长和该剩余PDCCH跳过监听时长,确定是否恢复PDCCH监听的具体实现可以包括:若该调度限定时长小于或等于该剩余PDCCH跳过监听时长,则确定恢复PDCCH监听。
若该调度限定时长小于或等于该剩余PDCCH跳过监听时长,说明剩余PDCCH跳过监听时长较长,在该种情况下,如果不恢复PDCCH监听,将可能错过网络设备的调度。所以,在该种情况下,终端设备确定恢复PDCCH监听。
作为另一种示例,基于该调度限定时长和该剩余PDCCH跳过监听时长,确定是否恢复PDCCH监听的具体实现可以包括:若该调度限定时长大于该剩余PDCCH跳过监听时长,则确定不恢复PDCCH监听。
若该调度限定时长大于该剩余PDCCH跳过监听时长,说明剩余PDCCH跳过监听时长较短,在该种情况下,说明不需要再过多少时间,就可以自动恢复到PDCCH监听,所以,终端设备可以确定不恢复PDCCH监听。
譬如,如图5所示,由于网络设备为LC1配置的调度限定时长小于剩余PDCCH跳过监听时长,所以,在LC1触发了SR1后,该终端设备恢复PDCCH监听。由于网络设备为LC2配置的调度限定时长大于剩余PDCCH跳过监听时长,所以,在LC2触发了SR2后,该终端设备不恢复PDCCH监听。
在本申请实施例中,在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听。其中,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。如此,可以避免错过PDCCH监听。
请参考图6,该图6是根据另一示例性实施例提供的监听信道的方法流程图,该方法可以应用于上述实施环境中,主要由网络设备来执行,该方法可以包括如下几个实现步骤:
步骤601:向终端设备发送第一配置信息。
该第一配置信息用于该终端设备在PDCCH跳过监听期间,在通过逻辑信道触发该第一配置信息对应的第一请求的情况下确定是否恢复PDCCH监听,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。
作为一种示例,该第一请求为调度请求SR。
作为一种示例,该第一配置信息包括逻辑信道的逻辑信道标识,在该种情况下,根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听,将所述指示信息与所述逻辑信道标识关联。
作为一种示例,该第一配置信息包括调度请求标识,该调度请求标识用于指示对应的调度请求配置,该调度请求标识与该逻辑信道的逻辑信道标识关联。在该种情况下,根据逻辑信道的类型,确定指示信息,该指示信息用于指示是否允许恢复PDCCH监听,将该指示信息与该调度请求标识关联。
作为一种示例,该第一配置信息包括调度请求资源标识,该调度请求资源标识用于指示对应的调度请求资源,该调度请求资源标识与该逻辑信道的逻辑信道标识关联。在该种情况下,根据逻辑信道的类型,确定指示信息,该指示信息用于指示是否允许恢复PDCCH监听,将该指示信息与该调度请求标识关联。
作为一种示例,该逻辑信道标识用于指示该逻辑信道的类型,该逻辑信道的类型包括第一信道类型和第二信道类型。
作为一种示例,根据逻辑信道的类型确定指示信息的具体实现可以包括:若该逻辑信道的类型为第一信道类型,确定该指示信息为第一指示信息,该第一指示信息用于指示允许恢复PDCCH监听;若该逻辑信道的类型为第二信道类型,确定该指示信息为第二指示信息,该第二指示信息用于指示不允许恢复PDCCH监听。
作为一种示例,该第一信道类型为时延敏感性逻辑信道,该第二信道类型为时延非敏感性逻辑信道。
其中,时延敏感性逻辑信道对数据传输时延要求较高,通常要求不能超过一定的阈值,譬如,时延敏感性逻辑信道通常用于传输即时通讯消息之类的业务数据。时延非敏感性逻辑信道对数据传输时延要求相对较低一些,譬如,时延非敏感性逻辑信道通常用于下载视频等业务数据。
其中,该指示信息用于指示是否允许恢复PDCCH监听。示例性的,该指示信息包括第一指示信息或第二指示信息,该第一指示信息用于指示允许恢复PDCCH监听,该第二指示信息用于指示不允许恢复PDCCH监听。
网络设备可以根据该逻辑信道的类型配置该指示信息,并将该指示信息与该逻辑信道标识进行关联,譬如,针对时延敏感性逻辑信道,可以将第一指示信息与逻辑信道标识关联,再如,针对时延非敏感性逻辑信道,可以将第二指示信息与逻辑信道标识关联。如此,对于终端设备来说,可以根据该逻辑信道标识关联的指示信息,确定是否恢复PDCCH监听。
或者,网络设备可以根据该逻辑信道的类型配置该指示信息,并将该指示信息与该逻辑信道标识对应的调度请求标识进行关联,譬如,针对时延敏感性逻辑信道,可以将第一指示信息与调度请求标识关联,再如,针对时延非敏感性逻辑信道,可以将第二指示信息与调度请求标识关联。如此,对于终端设备来说,可以根据该调度请求标识关联的指示信息,确定是否恢复PDCCH监听。
再或者,网络设备可以根据该逻辑信道的类型配置该指示信息,并将该指示信息与该逻辑信道标识对应的调度请求资源标识进行关联,譬如,针对时延敏感性逻辑信道,可以将第一指示信息与调度请求资源标识关联,再如,针对时延非敏感性逻辑信道,可以将第二指示信息与调度请求资源标识关联。如此,对于终端设备来说,可以根据该调度请求资源标识关联的指示信息,确定是否恢复PDCCH监听。
在本申请一种可能的实现方式中,网络设备可以通过RRC信令向该终端设备发送该第一配置信息;或者,网络设备可以通过MAC CE向该终端设备发送该第一配置信息。
需要说明的是,网络设备侧的相关实现可以参见上述各个实施例中终端设备侧的相关实现。
在本申请实施例中,网络设备向终端设备发送第一配置信息,该第一配置信息为与该第 一请求的传输关联的配置信息。在PDCCH跳过监听期间,终端设备通过逻辑信道触发用于请求网络设备分配上行资源的第一请求。根据第一配置信息,可以确定是否恢复PDCCH监听。如此,可以避免错过PDCCH监听。
请参考图7,该图7是根据一示例性实施例提供的一种监听信道的装置结构示意图,该装置可以配置于终端设备中,该装置可以包括:
确定模块710,用于在物理下行控制信道PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听;其中,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
在本申请一种可能的实现方式中,所述第一配置信息包括所述逻辑信道的逻辑信道标识;
所述确定模块720用于:根据所述逻辑信道标识关联的指示信息,确定是否恢复PDCCH监听。
在本申请一种可能的实现方式中,所述第一配置信息包括调度请求标识,所述调度请求标识用于指示对应的调度请求配置,所述调度请求标识与所述逻辑信道的逻辑信道标识关联;
所述确定模块720用于:根据所述调度请求标识关联的指示信息,确定是否恢复PDCCH监听。
在本申请一种可能的实现方式中,述第一配置信息包括调度请求资源标识,所述调度请求资源标识用于指示对应的调度请求资源,所述调度请求资源标识与所述逻辑信道的逻辑信道标识关联;
所述确定模块720用于:根据所述调度请求资源标识关联的指示信息,确定是否恢复PDCCH监听。
在本申请一种可能的实现方式中,所述指示信息包括第一指示信息或第二指示信息,所述第一指示信息用于指示允许恢复PDCCH监听,所述第二指示信息用于指示不允许恢复PDCCH监听。
在本申请一种可能的实现方式中,所述逻辑信道标识用于指示所述逻辑信道的类型。
在本申请一种可能的实现方式中,所述逻辑信道的类型包括第一信道类型和第二信道类型;所述逻辑信道标识包括第一信道标识和第二信道标识;所述第一信道标识与所述第一信道类型关联,且所述第一信道标识与第一指示信息关联,所述第一指示信息用于指示允许恢复PDCCH监听;所述第二信道标识与所述第二信道类型关联,且所述第二信道标识与第二指示信息关联,所述第二指示信息用于指示不允许恢复PDCCH监听。
在本申请一种可能的实现方式中,所述第一信道类型为时延敏感性逻辑信道,所述第二信道类型为时延非敏感性逻辑信道。
在本申请一种可能的实现方式中,所述第一配置信息包括所述逻辑信道对应的调度限定时长,所述调度限定时长用于指示针对所述逻辑信道发送所述第一请求后等待网络设备调度的最大时长;
所述确定模块720用于:确定剩余PDCCH跳过监听时长;基于所述调度限定时长和所述剩余PDCCH跳过监听时长,确定是否恢复PDCCH监听。
在本申请一种可能的实现方式中,所述确定模块720用于:若所述调度限定时长小于或等于所述剩余PDCCH跳过监听时长,则确定恢复PDCCH监听。
在本申请一种可能的实现方式中,所述确定模块720用于:若所述调度限定时长大于所述剩余PDCCH跳过监听时长,则确定不恢复PDCCH监听。
在本申请一种可能的实现方式中,所述确定模块720还用于:如果确定恢复PDCCH监听,则停止当前的PDCCH跳过监听,并开始监听PDCCH。
在本申请一种可能的实现方式中,所述第一配置信息是网络设备通过无线资源控制RRC信令配置的,或者,所述第一配置信息是网络设备通过媒质接入控制MAC控制单元CE信令配置的。
在本申请一种可能的实现方式中,所述第一请求为调度请求SR。
在本申请实施例中,在PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听。其中,该第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。如此,可以避免错过PDCCH监听。
请参考图8,该图8是根据一示例性实施例提供的一种监听信道的装置结构示意图,该装置可以配置于网络设备中,该装置可以包括:
发送模块810,用于向终端设备发送第一配置信息;
所述第一配置信息用于所述终端设备在物理下行控制信道PDCCH跳过监听期间,在通过逻辑信道触发所述第一配置信息对应的第一请求的情况下确定是否恢复PDCCH监听,所述第一请求用于请求网络设备分配上行资源,该第一配置信息为与该第一请求的传输关联的配置信息。
在本申请一种可能的实现方式中,所述第一配置信息包括所述逻辑信道的逻辑信道标识;
所述发送模块810还用于:根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;将所述指示信息与所述逻辑信道标识关联。
在本申请一种可能的实现方式中,所述第一配置信息包括调度请求标识,所述调度请求标识用于指示对应的调度请求配置,所述调度请求标识与所述逻辑信道的逻辑信道标识关联;
所述发送模块810还用于:根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;将所述指示信息与所述调度请求标识关联。
在本申请一种可能的实现方式中,所述第一配置信息包括调度请求资源标识,所述调度请求资源标识用于指示对应的调度请求资源,所述调度请求资源标识与所述逻辑信道的逻辑信道标识关联;
所述发送模块810还用于:根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;将所述指示信息与所述调度请求标识关联。
在本申请一种可能的实现方式中,所述逻辑信道的类型包括第一信道类型和第二信道类型,所述发送模块810还用于:若所述逻辑信道的类型为所述第一信道类型,确定所述指示信息为第一指示信息,所述第一指示信息用于指示允许恢复PDCCH监听;若所述逻辑信道的类型为所述第二信道类型,确定所述指示信息为第二指示信息,所述第二指示信息用于指示不允许恢复PDCCH监听。
在本申请一种可能的实现方式中,所述第一信道类型为时延敏感性逻辑信道,所述第二信道类型为时延非敏感性逻辑信道。
在本申请一种可能的实现方式中,所述第一请求为调度请求SR。
在本申请一种可能的实现方式中,所述发送模块810用于:
通过无线资源控制RRC信令向所述终端设备发送所述第一配置信息;或者,
通过媒质接入控制MAC控制单元CE向所述终端设备发送所述第一配置信息。
在本申请实施例中,网络设备向终端设备发送第一配置信息,该第一配置信息为与该第一请求的传输关联的配置信息。在PDCCH跳过监听期间,终端设备通过逻辑信道触发用于请求网络设备分配上行资源的第一请求。根据第一配置信息,可以确定是否恢复PDCCH监听。如此,可以避免错过PDCCH监听。
请参考图9,其示出了本申请一个示例性实施例提供的设备的结构示意图。该设备可以为上述终端设备,或者,该设备可以为上述网络设备。该设备可以包括:处理器901、接收器902、发射器903、存储器904和总线905。
处理器901包括一个或者一个以上处理核心,处理器901通过运行软件程序以及模块,从而执行各种功能应用以及信息处理。
接收器902和发射器903可以实现为一个通信组件,该通信组件可以是一块通信芯片。
存储器904通过总线905与处理器901相连。
存储器904可用于存储至少一个指令,处理器901用于执行该至少一个指令,以实现上述各个方法实施例中的终端设备执行的各个步骤,或者,实现上述各个方法实施例中的网络设备执行的各个步骤。
此外,存储器904可以由任何类型的易失性或非易失性存储设备或者它们的组合实现,易失性或非易失性存储设备包括但不限于:磁盘或光盘,EEPROM(Electrically Erasable Programmable Read-Only Memory,带电可擦除可编程只读存储器),EPROM(Electrically Programmable Read Only Memory,可擦除可编程只读存储器),SRAM(Static Random Access Memory,静态随时存取存储器),ROM(Read Only Memory,只读存储器),磁存储器,快闪存储器,PROM(Programmable Read Only Memory,可编程只读存储器)。
本申请提供了一种计算机可读存储介质,所述存储介质中存储有至少一条指令,所述至少一条指令由所述处理器加载并执行以实现上述各个方法实施例提供的方法。
本申请还提供了一种计算机程序产品,当计算机程序产品在计算机上运行时,使得计算机执行上述各个方法实施例提供的方法。
本领域普通技术人员可以理解实现上述实施例的全部或部分步骤可以通过硬件来完成,也可以通过程序来指令相关的硬件完成,所述的程序可以存储于一种计算机可读存储介质中,上述提到的存储介质可以是只读存储器,磁盘或光盘等。
以上所述仅为本申请的可选实施例,并不用以限制本申请,凡在本申请的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本申请的保护范围之内。

Claims (46)

  1. 一种监听信道的方法,其特征在于,所述方法包括:
    在物理下行控制信道PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听;
    其中,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
  2. 如权利要求1所述的方法,其特征在于,所述第一配置信息包括所述逻辑信道的逻辑信道标识;
    所述根据第一配置信息,确定是否恢复PDCCH监听,包括:
    根据所述逻辑信道标识关联的指示信息,确定是否恢复PDCCH监听。
  3. 如权利要求1所述的方法,其特征在于,所述第一配置信息包括调度请求标识,所述调度请求标识用于指示对应的调度请求配置,所述调度请求标识与所述逻辑信道的逻辑信道标识关联;
    所述根据第一配置信息,确定是否恢复PDCCH监听,包括:
    根据所述调度请求标识关联的指示信息,确定是否恢复PDCCH监听。
  4. 如权利要求1所述的方法,其特征在于,所述第一配置信息包括调度请求资源标识,所述调度请求资源标识用于指示对应的调度请求资源,所述调度请求资源标识与所述逻辑信道的逻辑信道标识关联;
    所述根据第一配置信息,确定是否恢复PDCCH监听,包括:
    根据所述调度请求资源标识关联的指示信息,确定是否恢复PDCCH监听。
  5. 如权利要求2-4中任一项所述的方法,其特征在于,所述指示信息包括第一指示信息或第二指示信息,所述第一指示信息用于指示允许恢复PDCCH监听,所述第二指示信息用于指示不允许恢复PDCCH监听。
  6. 如权利要求2-4中任一项所述的方法,其特征在于,所述逻辑信道标识用于指示所述逻辑信道的类型。
  7. 如权利要求6所述的方法,其特征在于,所述逻辑信道的类型包括第一信道类型和第二信道类型;所述逻辑信道标识包括第一信道标识和第二信道标识;
    所述第一信道标识与所述第一信道类型关联,且所述第一信道标识与第一指示信息关联,所述第一指示信息用于指示允许恢复PDCCH监听;
    所述第二信道标识与所述第二信道类型关联,且所述第二信道标识与第二指示信息关联,所述第二指示信息用于指示不允许恢复PDCCH监听。
  8. 如权利要求7所述的方法,其特征在于,所述第一信道类型为时延敏感性逻辑信道,所述第二信道类型为时延非敏感性逻辑信道。
  9. 如权利要求1所述的方法,其特征在于,所述第一配置信息包括所述逻辑信道对应的调度限定时长,所述调度限定时长用于指示针对所述逻辑信道发送所述第一请求后等待网络设备调度的最大时长;
    所述根据第一配置信息,确定是否恢复PDCCH监听,包括:
    确定剩余PDCCH跳过监听时长;
    基于所述调度限定时长和所述剩余PDCCH跳过监听时长,确定是否恢复PDCCH监听。
  10. 如权利要求9所述的方法,其特征在于,所述基于所述调度限定时长和所述剩余PDCCH跳过监听时长,确定是否恢复PDCCH监听,包括:
    若所述调度限定时长小于或等于所述剩余PDCCH跳过监听时长,则确定恢复PDCCH监听。
  11. 如权利要求9所述的方法,其特征在于,所述基于所述调度限定时长和所述剩余 PDCCH跳过监听时长,确定是否恢复PDCCH监听,包括:
    若所述调度限定时长大于所述剩余PDCCH跳过监听时长,则确定不恢复PDCCH监听。
  12. 如权利要求1-11中任一项所述的方法,其特征在于,所述方法还包括:
    如果确定恢复PDCCH监听,则停止当前的PDCCH跳过监听,并开始监听PDCCH。
  13. 如权利要求1-12中任一项所述的方法,其特征在于,所述第一配置信息是网络设备通过无线资源控制RRC信令配置的,或者,所述第一配置信息是网络设备通过媒质接入控制MAC控制单元CE信令配置的。
  14. 如权利要求1-13中任一项所述的方法,其特征在于,所述第一请求为调度请求SR。
  15. 一种监听信道的方法,其特征在于,所述方法包括:
    向终端设备发送第一配置信息;
    所述第一配置信息用于所述终端设备在物理下行控制信道PDCCH跳过监听期间,在通过逻辑信道触发所述第一配置信息对应的第一请求的情况下确定是否恢复PDCCH监听,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
  16. 如权利要求15所述的方法,其特征在于,所述第一配置信息包括所述逻辑信道的逻辑信道标识;
    所述方法还包括:
    根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;
    将所述指示信息与所述逻辑信道标识关联。
  17. 如权利要求15所述的方法,其特征在于,所述第一配置信息包括调度请求标识,所述调度请求标识用于指示对应的调度请求配置,所述调度请求标识与所述逻辑信道的逻辑信道标识关联;
    所述方法还包括:
    根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;
    将所述指示信息与所述调度请求标识关联。
  18. 如权利要求15所述的方法,其特征在于,所述第一配置信息包括调度请求资源标识,所述调度请求资源标识用于指示对应的调度请求资源,所述调度请求资源标识与所述逻辑信道的逻辑信道标识关联;
    所述方法还包括:
    根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;
    将所述指示信息与所述调度请求标识关联。
  19. 如权利要求16-18中任一项所述的方法,其特征在于,所述逻辑信道的类型包括第一信道类型和第二信道类型,所述根据逻辑信道的类型,确定指示信息,包括:
    若所述逻辑信道的类型为所述第一信道类型,确定所述指示信息为第一指示信息,所述第一指示信息用于指示允许恢复PDCCH监听;
    若所述逻辑信道的类型为所述第二信道类型,确定所述指示信息为第二指示信息,所述第二指示信息用于指示不允许恢复PDCCH监听。
  20. 如权利要求19所述的方法,其特征在于,所述第一信道类型为时延敏感性逻辑信道,所述第二信道类型为时延非敏感性逻辑信道。
  21. 如权利要求15-20中任一项所述的方法,其特征在于,所述第一请求为调度请求SR。
  22. 如权利要求15-21中任一项所述的方法,其特征在于,向终端设备发送第一配置信息,包括:
    通过无线资源控制RRC信令向所述终端设备发送所述第一配置信息;或者,
    通过媒质接入控制MAC控制单元CE向所述终端设备发送所述第一配置信息。
  23. 一种监听信道的装置,其特征在于,所述装置包括:
    确定模块,用于在物理下行控制信道PDCCH跳过监听期间,若通过逻辑信道触发第一请求,根据第一配置信息,确定是否恢复PDCCH监听;
    其中,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
  24. 如权利要求23所述的装置,其特征在于,所述第一配置信息包括所述逻辑信道的逻辑信道标识;
    所述确定模块用于:
    根据所述逻辑信道标识关联的指示信息,确定是否恢复PDCCH监听。
  25. 如权利要求23所述的装置,其特征在于,所述第一配置信息包括调度请求标识,所述调度请求标识用于指示对应的调度请求配置,所述调度请求标识与所述逻辑信道的逻辑信道标识关联;
    所述确定模块用于:
    根据所述调度请求标识关联的指示信息,确定是否恢复PDCCH监听。
  26. 如权利要求23所述的装置,其特征在于,所述第一配置信息包括调度请求资源标识,所述调度请求资源标识用于指示对应的调度请求资源,所述调度请求资源标识与所述逻辑信道的逻辑信道标识关联;
    所述确定模块用于:
    根据所述调度请求资源标识关联的指示信息,确定是否恢复PDCCH监听。
  27. 如权利要求24-26中任一项所述的装置,其特征在于,所述指示信息包括第一指示信息或第二指示信息,所述第一指示信息用于指示允许恢复PDCCH监听,所述第二指示信息用于指示不允许恢复PDCCH监听。
  28. 如权利要求24-26中任一项所述的装置,其特征在于,所述逻辑信道标识用于指示所述逻辑信道的类型。
  29. 如权利要求28所述的装置,其特征在于,所述逻辑信道的类型包括第一信道类型和第二信道类型;所述逻辑信道标识包括第一信道标识和第二信道标识;
    所述第一信道标识与所述第一信道类型关联,且所述第一信道标识与第一指示信息关联,所述第一指示信息用于指示允许恢复PDCCH监听;
    所述第二信道标识与所述第二信道类型关联,且所述第二信道标识与第二指示信息关联,所述第二指示信息用于指示不允许恢复PDCCH监听。
  30. 如权利要求29所述的装置,其特征在于,所述第一信道类型为时延敏感性逻辑信道,所述第二信道类型为时延非敏感性逻辑信道。
  31. 如权利要求23所述的装置,其特征在于,所述第一配置信息包括所述逻辑信道对应的调度限定时长,所述调度限定时长用于指示针对所述逻辑信道发送所述第一请求后等待网络设备调度的最大时长;
    所述确定模块用于:
    确定剩余PDCCH跳过监听时长;
    基于所述调度限定时长和所述剩余PDCCH跳过监听时长,确定是否恢复PDCCH监听。
  32. 如权利要求31所述的装置,其特征在于,所述确定模块用于:
    若所述调度限定时长小于或等于所述剩余PDCCH跳过监听时长,则确定恢复PDCCH监听。
  33. 如权利要求31所述的装置,其特征在于,所述确定模块用于:
    若所述调度限定时长大于所述剩余PDCCH跳过监听时长,则确定不恢复PDCCH监听。
  34. 如权利要求23-33中任一项所述的装置,其特征在于,所述确定模块还用于:
    如果确定恢复PDCCH监听,则停止当前的PDCCH跳过监听,并开始监听PDCCH。
  35. 如权利要求23-34中任一项所述的装置,其特征在于,所述第一配置信息是网络设备通过无线资源控制RRC信令配置的,或者,所述第一配置信息是网络设备通过媒质接入控制MAC控制单元CE信令配置的。
  36. 如权利要求23-35中任一项所述的装置,其特征在于,所述第一请求为调度请求SR。
  37. 一种监听信道的装置,其特征在于,所述装置包括:
    发送模块,用于向终端设备发送第一配置信息;
    所述第一配置信息用于所述终端设备在物理下行控制信道PDCCH跳过监听期间,在通过逻辑信道触发所述第一配置信息对应的第一请求的情况下确定是否恢复PDCCH监听,所述第一请求用于请求网络设备分配上行资源,所述第一配置信息为与所述第一请求的传输关联的配置信息。
  38. 如权利要求37所述的装置,其特征在于,所述第一配置信息包括所述逻辑信道的逻辑信道标识;
    所述发送模块还用于:
    根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;
    将所述指示信息与所述逻辑信道标识关联。
  39. 如权利要求37所述的装置,其特征在于,所述第一配置信息包括调度请求标识,所述调度请求标识用于指示对应的调度请求配置,所述调度请求标识与所述逻辑信道的逻辑信道标识关联;
    所述发送模块还用于:
    根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;
    将所述指示信息与所述调度请求标识关联。
  40. 如权利要求37所述的装置,其特征在于,所述第一配置信息包括调度请求资源标识,所述调度请求资源标识用于指示对应的调度请求资源,所述调度请求资源标识与所述逻辑信道的逻辑信道标识关联;
    所述发送模块还用于:
    根据逻辑信道的类型,确定指示信息,所述指示信息用于指示是否允许恢复PDCCH监听;
    将所述指示信息与所述调度请求标识关联。
  41. 如权利要求38-40中任一项所述的装置,其特征在于,所述逻辑信道的类型包括第一信道类型和第二信道类型,所述发送模块还用于:
    若所述逻辑信道的类型为所述第一信道类型,确定所述指示信息为第一指示信息,所述第一指示信息用于指示允许恢复PDCCH监听;
    若所述逻辑信道的类型为所述第二信道类型,确定所述指示信息为第二指示信息,所述第二指示信息用于指示不允许恢复PDCCH监听。
  42. 如权利要求41所述的装置,其特征在于,所述第一信道类型为时延敏感性逻辑信道,所述第二信道类型为时延非敏感性逻辑信道。
  43. 如权利要求37-42中任一项所述的装置,其特征在于,所述第一请求为调度请求SR。
  44. 如权利要求37-43中任一项所述的装置,其特征在于,所述发送模块用于:
    通过无线资源控制RRC信令向所述终端设备发送所述第一配置信息;或者,
    通过媒质接入控制MAC控制单元CE向所述终端设备发送所述第一配置信息。
  45. 一种设备,其特征在于,所述设备包括处理器和存储器,所述存储器存储有至少一 条指令,所述至少一条指令用于被所述处理器执行以实现权利要求1-14中任一项所提供的监听信道的方法,或者,用于实现权利要求15-22中任一项所提供的监听信道的方法。
  46. 一种计算机可读存储介质,其特征在于,所述计算机可读存储介质存储有至少一条指令,所述至少一条指令用于被处理器执行以实现权利要求1-14中任一项所提供的监听信道的方法,或者,用于实现权利要求15-22中任一项所提供的监听信道的方法。
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