WO2021042913A1 - 处理方法和设备 - Google Patents

处理方法和设备 Download PDF

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Publication number
WO2021042913A1
WO2021042913A1 PCT/CN2020/105214 CN2020105214W WO2021042913A1 WO 2021042913 A1 WO2021042913 A1 WO 2021042913A1 CN 2020105214 W CN2020105214 W CN 2020105214W WO 2021042913 A1 WO2021042913 A1 WO 2021042913A1
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WO
WIPO (PCT)
Prior art keywords
state information
channel state
terminal
reporting
parameter
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PCT/CN2020/105214
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English (en)
French (fr)
Inventor
姜大洁
潘学明
沈晓冬
Original Assignee
维沃移动通信有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 维沃移动通信有限公司 filed Critical 维沃移动通信有限公司
Priority to JP2022514807A priority Critical patent/JP7444974B2/ja
Priority to EP20860328.2A priority patent/EP4027560A4/en
Priority to KR1020227009272A priority patent/KR20220049580A/ko
Priority to BR112022003978A priority patent/BR112022003978A2/pt
Publication of WO2021042913A1 publication Critical patent/WO2021042913A1/zh
Priority to US17/686,564 priority patent/US20220191797A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0053Allocation of signaling, i.e. of overhead other than pilot signals
    • H04L5/0057Physical resource allocation for CQI
    • 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
    • H04W52/0209Power saving arrangements in terminal devices
    • H04W52/0225Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
    • H04W52/0235Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a power saving command
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/0091Signaling for the administration of the divided path
    • H04L5/0094Indication of how sub-channels of the path are allocated
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0048Allocation of pilot signals, i.e. of signals known to the receiver
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0053Allocation of signaling, i.e. of overhead other than pilot signals
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/10Scheduling measurement reports ; Arrangements for measurement reports
    • 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
    • H04W52/0209Power saving arrangements in terminal devices
    • H04W52/0225Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
    • H04W52/0229Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a wanted signal
    • H04W52/0232Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a wanted signal according to average transmission signal activity
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/04TPC
    • H04W52/54Signalisation aspects of the TPC commands, e.g. frame structure
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/23Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/50Allocation or scheduling criteria for wireless resources
    • H04W72/54Allocation or scheduling criteria for wireless resources based on quality criteria
    • H04W72/542Allocation or scheduling criteria for wireless resources based on quality criteria using measured or perceived quality
    • 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

  • the embodiments of the present disclosure relate to the field of communication technology, and in particular to a processing method and device.
  • the terminal will start the duration timer (ONDURATION timer); otherwise, the terminal will skip the duration timer . Therefore, if there is no service for a long time, the terminal will always skip the duration timer (because it does not need to monitor PDCCH), and report channel state information (including channel quality indicator (CQI) and beam related information reporting ) Will not be able to proceed.
  • PDCCH physical downlink control channel
  • An objective of the embodiments of the present disclosure is to provide a processing method and device to solve the problem that the terminal cannot report channel state information for a long time after the energy-saving signal is configured, which may cause the terminal beam or link failure.
  • a processing method which is applied to a terminal, including:
  • the terminal If the terminal is not instructed to monitor the physical downlink control channel for a duration, then report the channel state information according to the first channel state information reporting configuration.
  • the embodiments of the present disclosure also provide a processing method applied to a network device, including:
  • the first signaling indicates the first channel state information reporting configuration configured on the network side; the first channel state information reporting configuration is used for reporting the channel state when the terminal is not instructed to monitor the physical downlink control channel for a duration information.
  • the embodiments of the present disclosure also provide a processing method applied to a terminal, including:
  • the energy-saving signal indicates any of the following: the terminal reports channel state information and does not perform physical downlink control channel monitoring; the terminal performs channel state information reporting and physical downlink control channel monitoring; the terminal does not Report channel state information and perform physical downlink control channel monitoring; the terminal does not report channel state information and does not perform physical downlink control channel monitoring;
  • the energy-saving signal it is determined whether to perform one or more of the following: channel state information reporting; physical downlink control channel monitoring.
  • the embodiments of the present disclosure also provide a processing method applied to a network device, including:
  • the energy-saving signal indicating any of the following: the terminal reports channel state information and does not perform physical downlink control channel monitoring; the terminal performs channel state information reporting and physical downlink control channel monitoring; the terminal does not Reporting channel state information and performing physical downlink control channel monitoring; the terminal does not report channel state information and does not perform physical downlink control channel monitoring.
  • the embodiments of the present disclosure also provide a terminal, including:
  • An obtaining module configured to obtain the first channel state information reporting configuration
  • the first reporting module is configured to report channel state information according to the first channel state information reporting configuration if the terminal is not instructed to monitor the physical downlink control channel for a duration.
  • the implementation of the present disclosure also provides a network device, including:
  • the first sending module is configured to send the first signaling or the association rule between the first channel state information reporting configuration and the second channel state information reporting configuration;
  • the first signaling indicates the first channel state information reporting configuration configured on the network side; the first channel state information reporting configuration is used for reporting the channel state when the terminal is not instructed to monitor the physical downlink control channel for a duration information.
  • the embodiments of the present disclosure also provide a terminal, including:
  • the second receiving module is configured to receive an energy-saving signal, where the energy-saving signal indicates any of the following: the terminal reports channel state information without performing physical downlink control channel monitoring; the terminal performs channel state information reporting and physical downlink control Channel monitoring; the terminal does not report channel state information, but performs physical downlink control channel monitoring; the terminal does not report channel state information, and does not perform physical downlink control channel monitoring;
  • the processing module is configured to determine whether to perform or not perform one or more of the following according to the energy-saving signal: channel state information reporting; physical downlink control channel monitoring.
  • the embodiments of the present disclosure also provide a network device, including:
  • the second sending module is configured to send an energy-saving signal, the energy-saving signal indicating any of the following: the terminal reports channel state information without performing physical downlink control channel monitoring; the terminal performs channel state information reporting and physical downlink control Channel monitoring; the terminal does not report channel state information, but performs physical downlink control channel monitoring; the terminal does not report channel state information, and does not perform physical downlink control channel monitoring.
  • embodiments of the present disclosure also provide a terminal, including: a processor, a memory, and a program stored on the memory and running on the processor, and the program is implemented when the processor is executed.
  • the embodiments of the present disclosure also provide a network device, including: a processor, a memory, and a program stored on the memory and capable of running on the processor.
  • a network device including: a processor, a memory, and a program stored on the memory and capable of running on the processor.
  • the program is executed by the processor, The steps of the processing method as described in the second aspect or the steps of the processing method as described in the fourth aspect are implemented.
  • embodiments of the present disclosure also provide a computer-readable storage medium having a computer program stored on the computer-readable storage medium, and when the computer program is executed by a processor, the steps of the processing method described above are implemented .
  • the problem of terminal beam or link failure that may be caused by the terminal's failure to report channel state information for a long time after the energy-saving signal is configured is avoided, and the uplink is improved. Reliability of transmission.
  • Figure 1 is a schematic diagram of the wake-up signal of CDRX
  • Figure 2 is a schematic diagram of the DRX cycle
  • FIG. 3 is a schematic diagram of the architecture of a wireless communication system according to an embodiment of the disclosure.
  • FIG. 4 is one of the flowcharts of the processing method of the embodiment of the disclosure.
  • FIG. 5 is the second flowchart of the processing method of the embodiment of the disclosure.
  • FIG. 6 is the third flowchart of the processing method of the embodiment of the disclosure.
  • FIG. 7 is the fourth flow chart of the processing method of the embodiment of the disclosure.
  • FIG. 8 is one of the structural diagrams of a terminal according to an embodiment of the disclosure.
  • FIG. 9 is one of the structural diagrams of the network device of the embodiment of the disclosure.
  • FIG. 10 is the second structural diagram of a terminal according to an embodiment of the disclosure.
  • FIG. 11 is the second structural diagram of a network device according to an embodiment of the disclosure.
  • FIG. 12 is the third structural diagram of the terminal of the embodiment of the disclosure.
  • FIG. 13 is the third structural diagram of a network device according to an embodiment of the disclosure.
  • FIG. 14 is one of the schematic diagrams of CSI reporting time according to an embodiment of the disclosure.
  • FIG. 15 is the second schematic diagram of CSI reporting time according to an embodiment of the disclosure.
  • the base station may transmit an energy-saving signal to a terminal (such as user equipment ( User Equipment, UE)) or a group of UEs, and the UE detects the energy-saving signal at a corresponding time.
  • a terminal such as user equipment ( User Equipment, UE)
  • UE User Equipment
  • the UE receives an energy-saving signal, and the energy-saving signal instructs the UE to detect onduration physical downlink control channel (Physical downlink control channel, PDCCH) or instruct the UE to wake up (wake up), then the UE detects the PDCCH or Start the onduraton timer; otherwise, the UE does not detect the PDCCH or skips (does not start) the onduraton timer.
  • PDCCH Physical downlink control channel
  • channel status information reporting can only be performed during CDRX active time (for example, the duration timer is started), and the UE cannot perform channel status outside of active time (for example, the duration timer is not started) Information reported.
  • the energy saving signal can control the duration timer. That is, if the UE receives the PDCCH indicating the detection duration timer from the energy saving signal, the UE will start the duration timer; otherwise, the UE will skip the duration timer.
  • the UE will always skip the duration timer (because there is no need to monitor the PDCCH), and reporting of channel state information (including reporting of channel quality indicators and beam-related information) will not be possible.
  • the UE in the RRC_IDLE state needs to detect the paging signal sent by the base station at a pre-configured time, and detect paging
  • the signal process is as follows:
  • PDCCH corresponding to the temporary radio network identifier (Paging-RNTI, P-RNTI). If the PDCCH is not detected, then enter and end the detection; if the PDCCH is detected, the physical downlink indicated by the PDCCH is further detected For the Physical Downlink Shared Channel (PDSCH), if the detected PDSCH is not the paging signal of the UE, the detection ends; otherwise, the PDSCH detected is the paging signal of the UE.
  • Paging-RNTI temporary radio network identifier
  • P-RNTI temporary radio network identifier
  • the UE in the RRC_IDLE state periodically detects the paging signal, and the probability of receiving the paging signal belonging to the UE is relatively low, and the power consumption of the PDCCH and PDSCH detected each time is large, which is not conducive to the power saving of the terminal.
  • the basic mechanism of DRX is to configure a DRX cycle (cycle) for the UE in the RRC_CONNECTED state.
  • the DRX cycle is composed of "On Duration” and "Opportunity for DRX": During the "On Duration” time, the UE monitors and receives the PDCCH (active period); during the "Opportunity for DRX” time, the UE does not Receive the data of the downlink channel to save power consumption (sleep period).
  • drxStartOffset specifies the starting subframe of the DRX cycle
  • longDRX-Cycle specifies how many subframes a long DRX cycle occupies. Both parameters are determined by the longDRX-CycleStartOffset field.
  • onDurationTimer specifies the number of consecutive subframes (that is, the number of subframes during which the active period lasts) that the PDCCH needs to be monitored starting from the starting subframe of the DRX cycle.
  • a UE when a UE is scheduled to receive or send data in a certain subframe, it is likely to continue to be scheduled in the next few subframes. If you have to wait until the next DRX cycle to receive or send these data, it will Will bring additional delay. In order to reduce this kind of delay, after the UE is scheduled, it will continue to be in the active period, that is, it will continue to monitor the PDCCH during the configured active period.
  • the implementation mechanism is: whenever the UE is scheduled to transmit data initially, a timer (drx-InactivityTimer) will be started (or restarted), and the UE will remain in the active state until the timer expires.
  • drx-InactivityTimer specifies the number of consecutive subframes that are continuously in the active state after the UE successfully decodes a PDCCH indicating the initial transmission of uplink (UL) or downlink (Downlink, DL) user data. That is, the timer is restarted every time the UE has initial transmission data to be scheduled.
  • the base station transmits an energy-saving signal to the UE, and the UE detects the energy-saving signal at a corresponding moment.
  • the energy saving signal indicates that the UE detects the PDCCH at the time of PO, the UE detects the PDCCH;
  • the energy-saving signal does not instruct the UE to detect the PDCCH at the time of PO, then the UE does not detect the PDCCH;
  • detecting energy-saving signals is less complicated and more power-efficient than blindly detecting Paging signals or PDCCH.
  • the above energy-saving signal can be a signal similar to PDCCH, or a sequence-related signal such as Channel State Indication-Reference Signals (CSI-RS), or on-off keying (OOK) signal.
  • CSI-RS Channel State Indication-Reference Signals
  • OK on-off keying
  • words such as “exemplary” or “for example” are used as examples, illustrations, or illustrations. Any embodiment or design solution described as “exemplary” or “for example” in the embodiments of the present disclosure should not be construed as being more optional or more advantageous than other embodiments or design solutions. To be precise, words such as “exemplary” or “for example” are used to present related concepts in a specific manner.
  • LTE Long Time Evolution
  • LTE-A Long Time Evolution
  • CDMA Code Division Multiple Access
  • TDMA Time Division Multiple Access
  • FDMA Frequency Division Multiple Access
  • OFDMA Orthogonal Frequency Division Multiple Access
  • SC-FDMA Single Carrier Frequency Single-carrier Frequency-Division Multiple Access
  • the terms “system” and “network” are often used interchangeably.
  • the CDMA system can implement radio technologies such as CDMA2000 and Universal Terrestrial Radio Access (UTRA).
  • UTRA includes Wideband Code Division Multiple Access (WCDMA) and other CDMA variants.
  • the TDMA system can implement radio technologies such as the Global System for Mobile Communication (GSM).
  • OFDMA system can realize such as Ultra Mobile Broadband (UMB), Evolved UTRA (Evolution-UTRA, E-UTRA), IEEE 802.11 (Wi-Fi), IEEE 802.16 (WiMAX), IEEE 802.20, Flash-OFDM, etc. Radio technology.
  • UMB Ultra Mobile Broadband
  • Evolution-UTRA Evolved UTRA
  • E-UTRA IEEE 802.11
  • WiMAX IEEE 802.16
  • IEEE 802.20 Flash-OFDM
  • Flash-OFDM Flash-OFDM
  • LTE and more advanced LTE are new UMTS versions that use E-UTRA.
  • UTRA, E-UTRA, UMTS, LTE, LTE-A, and GSM are described in documents from an organization named "3rd Generation Partnership Project” (3GPP).
  • CDMA2000 and UMB are described in documents from an organization named “3rd Generation Partnership Project 2" (3GPP2).
  • the techniques described in this article can be used for the systems and radio technologies mentioned above, as well as other systems and radio technologies.
  • FIG. 3 it is a schematic diagram of the architecture of a wireless communication system provided by an embodiment of the present disclosure.
  • the wireless communication system may include: a network device 31 and a terminal 32, the terminal 32 may be denoted as UE32, and the terminal 32 may communicate with the network device 31 (transmit signaling or transmit data).
  • the connection between the above-mentioned various devices may be a wireless connection.
  • a solid line is shown in FIG.
  • the network device 31 provided by the embodiment of the present disclosure may be a base station, which may be a commonly used base station, an evolved node base station (eNB), or a network device in a 5G system (for example, the following Equipment such as next generation node base station (gNB) or transmission and reception point (TRP)).
  • eNB evolved node base station
  • 5G system for example, the following Equipment such as next generation node base station (gNB) or transmission and reception point (TRP)).
  • gNB next generation node base station
  • TRP transmission and reception point
  • the terminal 32 provided in the embodiment of the present disclosure may be a mobile phone, a tablet computer, a notebook computer, an ultra-mobile personal computer (Ultra-Mobile Personal Computer, UMPC), a netbook or a personal digital assistant (Personal Digital Assistant, PDA), and a mobile Internet device (Mobile Internet Device (MID), Wearable Device (Wearable Device), or in-vehicle equipment, etc.
  • UMPC Ultra-mobile Personal Computer
  • PDA Personal Digital Assistant
  • MID Mobile Internet Device
  • Wearable Device Wearable Device
  • in-vehicle equipment etc.
  • an embodiment of the present disclosure provides a processing method, where the execution subject of the method is a terminal, and includes: step 401 and step 402.
  • Step 401 Obtain the first channel state information report configuration
  • obtaining the first channel state information reporting configuration may include the following two ways:
  • the reporting time is outside the activation time of discontinuous reception in the connected state.
  • the association rule indicates that the first channel state information reporting configuration and the associated rules For the corresponding relationship between the second channel state information reporting configuration, the association rule is defined by the protocol or configured on the network side.
  • the association rule includes one or more of the following: (1) the reporting period of the first channel state information is N times the reporting period of the second channel state information, and the N is a positive integer; (2) the first channel state information reporting period is N times the reporting period of the second channel state information; The type of the reported amount of channel state information.
  • the terminal can skip some unimportant channel state information reporting quantities, such as skipping the reference signal received power (CRI-RSRP) indicated by the channel state information reference signal resource and the reference signal received power of the synchronization signal block (ssb- The amount of channel state information reported other than Index-RSRP).
  • Step 402 If the terminal is not instructed to monitor the physical downlink control channel for a duration, it reports the channel state information according to the first channel state information reporting configuration.
  • step 402 may include: if the reporting time of the first channel state information reporting configuration is outside the activation time of the connected state discontinuous reception, reporting the channel state information according to the first channel state information reporting configuration. Referring to FIG. 14, the report time configured according to the first channel state information report is outside the duration.
  • the method shown in FIG. 4 may further include: receiving a second channel state information reporting configuration configured on the network side; if the terminal is instructed to monitor the physical downlink control channel for a duration, according to the first 2.
  • Channel state information reporting configuration reporting channel state information.
  • the physical downlink control channel for which the terminal is not instructed to monitor the duration specifically refers to the physical downlink control channel for which the terminal does not detect an energy-saving signal, or the terminal detects an energy-saving signal, and the energy-saving signal does not indicate the monitoring duration.
  • the specific method is as follows: if the reporting time of the second channel state information reporting configuration is within the active time of discontinuous reception in the connected state, the channel state information is reported according to the second channel state information reporting configuration. Referring to FIG. 15, the report time configured according to the second channel state information report is within the duration.
  • the second channel state information report may be configured to be outside the active time of connected state discontinuous reception. Report channel status information.
  • the first channel state information reporting configuration may be within the activation time of the connected state discontinuous reception Report channel status information.
  • the first channel state information reporting configuration includes one or more of the following:
  • a first parameter where the first parameter represents the reporting period of the first channel state information; for example, the reporting period is 10 time slots;
  • the second parameter, the second parameter represents the first channel state information report quantity (reportQuantity); wherein, the channel state information report quantity includes: the reference signal received power indicated by the channel state information reference signal resource (CRI- RSRP), reference signal received power of the synchronization signal block (ssb-Index-RSRP), channel state information reference signal resource indicator-rank indicator-precoding matrix indicator-channel quality indicator (cri-RI-PMI-CQI), channel status Information reference signal resource indicator-rank indicator-i1 (cri-RI-i1), channel state information reference signal resource indicator-rank indicator-i1-channel quality indicator (cri-RI-i1-CQI), channel state information reference signal resource Indication-Rank Indication-Channel Quality Indication (cri-RI-CQI), Channel State Information Reference Signal Resource Indication-Rank Indication-Layer Indication-Precoding Matrix Indication-Channel Quality Indication (cri-RI-LI-PMI-CQI), etc. .
  • the channel state information report quantity includes: the reference signal received power indicated by the
  • the third parameter represents the first channel state information report configuration type (reportConfigType); wherein, the channel state information report configuration type includes periodic, semi-persistent, and non- Period (aperiodic) and other three types.
  • the fourth parameter represents a reference signal resource associated with the first channel state information report.
  • the reference signal resources include CSI-RS resources used for channel measurement, CSI-RS resources used for interference measurement, and so on.
  • the second channel state information reporting configuration includes one or more of the following:
  • the fifth parameter indicates the reporting period of the second channel state information; for example, the reporting period is 10 time slots;
  • the sixth parameter, the sixth parameter represents the second channel state information reported amount; wherein the channel state information reported amount includes: reference signal received power (CRI-RSRP) indicated by the channel state information reference signal resource, Reference signal received power of synchronization signal block (ssb-Index-RSRP), channel state information reference signal resource indicator-rank indicator-precoding matrix indicator-channel quality indicator (cri-RI-PMI-CQI), channel state information reference signal Resource indicator-rank indicator-i1 (cri-RI-i1), channel state information reference signal resource indicator-rank indicator-i1-channel quality indicator (cri-RI-i1-CQI), channel state information reference signal resource indicator-rank Indication-channel quality indicator (cri-RI-CQI), channel state information reference signal resource indicator-rank indicator-layer indicator-precoding matrix indicator-channel quality indicator (cri-RI-LI-PMI-CQI), etc.
  • CRI-RSRP reference signal received power
  • sb-Index-RSRP Reference signal received power of synchronization signal block
  • the seventh parameter represents the configuration type of the second channel state information reporting.
  • the channel state information reporting configuration type includes three types: periodic (periodic), semi-persistent (semiPersistent), and aperiodic (aperiodic).
  • the eighth parameter represents a reference signal resource associated with the second channel state information report.
  • the reference signal resources include CSI-RS resources used for channel measurement, CSI-RS resources used for interference measurement, and so on.
  • the reporting period of the first channel state information is greater than the reporting period of the second channel state information; and/or the type of the first channel state information reported is greater than the second channel state information reported. Few kinds.
  • the first channel state information report amount includes one or more of the following: (1) CSI-RSRP; (2) ssb-Index-RSRP.
  • the problem of terminal beam or link failure that may be caused by the terminal's failure to report channel state information for a long time after the energy-saving signal is configured is avoided, and the uplink is improved. Reliability of transmission.
  • an embodiment of the present disclosure also provides a processing method, the execution body of the method is a network device, and the method includes: step 501.
  • Step 501 Send the first signaling, or the association rule between the first channel state information reporting configuration and the second channel state information reporting configuration;
  • the first signaling indicates the first channel state information reporting configuration configured on the network side; the first channel state information reporting configuration is used for reporting the channel state when the terminal is not instructed to monitor the physical downlink control channel for a duration information.
  • the method further includes: sending a second channel state information reporting configuration, the second channel state information reporting configuration being used when the terminal is instructed to monitor the physical downlink control channel for a duration of time, reporting the channel status information.
  • association rule indicates the correspondence between the first channel state information reporting configuration and the second channel state information reporting configuration.
  • the association rule can be defined by the protocol or configured on the network side.
  • the association rule may include one or more of the following: (1) The reporting period of the first channel state information is N times the reporting period of the second channel state information, where N is a positive integer; (2) ) The type of the reported amount of the first channel state information.
  • the terminal may skip some unimportant channel state information reporting volume, for example, skipping the channel state information reporting volume other than cri-RSRP and ssb-Index-RSRP.
  • the first channel state information reporting configuration includes one or more of the following:
  • a first parameter where the first parameter indicates a reporting period of the first channel state information
  • the second channel state information reporting configuration includes one or more of the following:
  • a fifth parameter where the fifth parameter represents the reporting period of the second channel state information
  • the reporting period of the first channel state information is greater than the reporting period of the second channel state information; and/or the type of the first channel state information reported is greater than the second channel state information reported. Few kinds.
  • the first channel state information report amount includes one or more of the following: (1) CSI-RSRP; (2) ssb-Index-RSRP.
  • the problem of terminal beam or link failure that may be caused by the terminal's failure to report channel state information for a long time after the energy-saving signal is configured is avoided, and the uplink is improved. Reliability of transmission.
  • an embodiment of the present disclosure also provides a processing method, where the execution subject of the method is a terminal, and includes: step 601 and step 602.
  • Step 601 Receive an energy-saving signal, the energy-saving signal indicates any of the following: (1) The terminal reports channel state information without performing physical downlink control channel monitoring; (2) The terminal performs channel state information reporting and physical downlink control Channel monitoring; (3) The terminal does not report channel state information, but performs physical downlink control channel monitoring; (4) The terminal does not report channel state information, and does not perform physical downlink control channel monitoring;
  • Step 602 According to the energy-saving signal, determine whether to perform one or more of the following: (1) report channel state information; (2) physical downlink control channel monitoring.
  • the channel state information reporting time is within the connected state discontinuous reception period associated with the energy saving signal, or the channel state information reporting time is before the connected state discontinuous reception duration associated with the energy saving signal.
  • the method when the energy-saving signal instructs the terminal to report channel state information, the method further includes: reporting the channel state information according to a third channel state information reporting configuration configured on the network side.
  • the third channel state information reporting configuration can be a periodic channel state information reporting configuration, and the reporting period, reporting volume, and reporting configuration type in the third channel state information reporting configuration can adopt configurations in related technologies. , I will not repeat it here.
  • the energy-saving signal is used to indicate channel state information reporting and physical downlink control channel monitoring to avoid the problem of terminal beam or link failure that may be caused by the terminal's failure to report channel state information for a long time after the energy-saving signal is configured , Improve the reliability of uplink transmission.
  • an embodiment of the present disclosure also provides a processing method, where the execution subject of the method is a network device, and includes: step 701.
  • Step 701 Send an energy-saving signal, the energy-saving signal indicates any of the following: (1) The terminal reports channel state information and does not perform physical downlink control channel monitoring; (2) The terminal performs channel state information reporting and physical downlink control channel monitoring; ( 3) The terminal does not report channel state information, but performs physical downlink control channel monitoring; (4) The terminal does not report channel state information, and does not perform physical downlink control channel monitoring.
  • the channel state information reporting time is within the connected state discontinuous reception period associated with the energy saving signal, or the channel state information reporting time is within the connected state discontinuous reception period associated with the energy saving signal Before the duration.
  • the energy-saving signal is used to indicate channel state information reporting and physical downlink control channel monitoring to avoid the problem of terminal beam or link failure that may be caused by the terminal's failure to report channel state information for a long time after the energy-saving signal is configured , Improve the reliability of uplink transmission.
  • Example 1 Example 2, Example 3, and Example 4.
  • Example 1 The UE newly configures the channel state information report configuration (CSI-ReportConfig) outside the active time (active time), and the UE only reports the CSI outside the active time.
  • CSI-ReportConfig channel state information report configuration
  • the CSI-ReportConfig is only outside the active time, and the CSI-ReportConfig includes at least the following parameters:
  • the report configuration type indicates the period of the CSI report.
  • Report Quantity which indicates the type of CSI reported quantity, such as cri-RI-PMI-CQI, cri-RSRP, etc.
  • Example 2 The CSI report outside the active time has associated information with the CSI report in the active time (or called the first rule), and the UE only reports the CSI outside the active time.
  • the CSI-ReportConfig other than the specific active time is not configured, but the associated information is defined.
  • the associated information may include: (1) The period of the CSI-Report outside the active time is N times the period of the CSI-Report in the configured active time, and N is a positive integer; and/or, (2) the UE skips a certain Some unimportant CSI reports, for example, skip CSI reports except cri-RSRP and ssb-Index-RSRP.
  • the period of the CSI-Report other than the configured active time of the UE is greater than the period of the CSI-Report within the configured active time.
  • the CSI-Report quantity other than the active time configured for the UE only includes'cri-RSRP' and/or'ssb-Index-RSRP', while the quantity of the CSI-Report within the configured active time includes more items. .
  • Example 3 Instruct the UE to report CSI through an energy-saving signal.
  • the energy saving signal instructs the UE to perform any of the following:
  • the time domain resources reported by the CSI may be: (1) only within the active time, for example, on duration (onduration timer); (2) only outside the active time.
  • the UE determines whether to perform CSI reporting and/or PDCCH monitoring according to the instructions of the energy-saving signal.
  • the energy saving signal may carry an indication instructing the UE to perform only CSI reporting but no PDCCH monitoring.
  • Example 4 Reduce the CSI report in the active time.
  • Reduce the CSI report in the active time for example: increase the period of the report, reduce the content of the report, etc.
  • the base station configures two sets of CSI reporting configurations for the UE, where the reporting period of the first set is longer than that of the second set, and/or the first set has fewer types of reports than the second set,
  • the first set of reported quantity (reportQuantity) only includes'cri-RSRP' and/or'ssb-Index-RSRP'.
  • CSI resource configuration contains only non-zero power CSI-RS (Non-Zero Power CSI-RS, NZP-CSI-RS) resources, and/or synchronization signal block (Synchronization Signal and PBCH block, SSB) Resources;
  • CSI reporting can be extended to CSI reporting, and/or CSI measurement, such as beam measurement;
  • Active time refers to DRX active time.
  • the embodiment of the present disclosure also provides a terminal. Since the principle of the terminal to solve the problem is similar to the processing method in the embodiment of the present disclosure, the implementation of the terminal can refer to the implementation of the method, and the repetition will not be repeated.
  • an embodiment of the present disclosure further provides a terminal, and the terminal 800 includes:
  • the obtaining module 801 is configured to obtain the first channel state information reporting configuration
  • the first reporting module 802 is configured to report channel state information according to the first channel state information reporting configuration if the terminal is not instructed to monitor the physical downlink control channel for a duration.
  • the terminal 800 further includes:
  • the first receiving module is configured to receive the second channel state information reporting configuration configured on the network side;
  • a second reporting module configured to report channel state information according to the second channel state information reporting configuration if the terminal is instructed to monitor the physical downlink control channel for a duration
  • the first reporting module 802 is further configured to: if the reporting time configured for the first channel state information reporting is outside the activation time of the connected state discontinuous reception, then according to the first channel state information Report configuration and report channel status information.
  • the second reporting module is further configured to: if the reporting time of the second channel state information reporting configuration is within the active time of the connected state discontinuous reception, then according to the second channel state information reporting configuration , Report channel status information.
  • the acquiring module 801 is further configured to: receive first signaling, the first signaling indicating a first channel state information reporting configuration configured on the network side, and the first channel state information reporting configuration indicating the The reporting time of the first channel state information is outside the active time of discontinuous reception in the connected state.
  • the acquiring module 801 is further configured to: determine the first channel state information reporting configuration according to the second channel state information reporting configuration and association rules; wherein, the association rule represents the first channel The corresponding relationship between the state information reporting configuration and the second channel state information reporting configuration, and the association rule is defined by the protocol or configured on the network side.
  • the association rule includes one or more of the following:
  • the reporting period of the first channel state information is N times the reporting period of the second channel state information, and the N is a positive integer;
  • the type of the reported amount of the first channel state information is the type of the reported amount of the first channel state information.
  • the first channel state information reporting configuration includes one or more of the following:
  • a first parameter where the first parameter indicates a reporting period of the first channel state information
  • a second parameter where the second parameter represents the amount of the first channel state information reported
  • a third parameter where the third parameter represents the first channel state information reporting configuration type
  • a fourth parameter where the fourth parameter indicates a reference signal resource associated with the first channel state information report.
  • the second channel state information reporting configuration includes one or more of the following:
  • a fifth parameter where the fifth parameter indicates a reporting period of the second channel state information
  • a sixth parameter where the sixth parameter represents the amount of the second channel state information reported
  • a seventh parameter where the seventh parameter represents the configuration type of the second channel state information reporting
  • An eighth parameter where the eighth parameter represents a reference signal resource associated with the second channel state information report.
  • the reporting period of the first channel state information is greater than the reporting period of the second channel state information; and/or the type of the first channel state information reported is greater than the second channel state information reported. Few kinds.
  • the first channel state information reported amount includes one or more of the following: reference signal received power indicated by the channel state information reference signal resource; reference signal received power of the synchronization signal block.
  • the terminal provided in the embodiment of the present disclosure can execute the embodiment shown in FIG. 4, and its implementation principles and technical effects are similar, and details are not described in this embodiment here.
  • the embodiment of the present disclosure also provides a network device. Since the principle of the network device to solve the problem is similar to the processing method in the embodiment of the present disclosure, the implementation of the network device can refer to the implementation of the method, and the repetition will not be repeated.
  • an embodiment of the present disclosure also provides a network device, and the network device 900 includes:
  • the first sending module 901 is configured to send first signaling, or an association rule between the first channel state information reporting configuration and the second channel state information reporting configuration;
  • the first signaling indicates the first channel state information reporting configuration configured on the network side; the first channel state information reporting configuration is used for reporting the channel state when the terminal is not instructed to monitor the physical downlink control channel for a duration information.
  • the first sending module 901 is further configured to: send a second channel state information reporting configuration; the second channel state information reporting configuration is used when the terminal is instructed to monitor the physical downlink control channel for a duration , Report channel status information.
  • the association rule includes one or more of the following:
  • the reporting period of the first channel state information is N times the reporting period of the second channel state information, and the N is a positive integer;
  • the type of the reported amount of the first channel state information is the type of the reported amount of the first channel state information.
  • the first channel state information reporting configuration includes one or more of the following:
  • a first parameter where the first parameter indicates a reporting period of the first channel state information
  • a second parameter where the second parameter represents the amount of the first channel state information reported
  • a third parameter where the third parameter represents the first channel state information reporting configuration type
  • a fourth parameter where the fourth parameter indicates a reference signal resource associated with the first channel state information report.
  • the second channel state information reporting configuration includes one or more of the following:
  • a fifth parameter where the fifth parameter indicates a reporting period of the second channel state information
  • a sixth parameter where the sixth parameter represents the amount of the second channel state information reported
  • a seventh parameter where the seventh parameter represents the configuration type of the second channel state information reporting
  • An eighth parameter where the eighth parameter represents a reference signal resource associated with the second channel state information report.
  • the reporting period of the first channel state information is greater than the reporting period of the second channel state information; and/or the type of the first channel state information reported is greater than the second channel state information reported. Few kinds.
  • the first channel state information reported amount includes one or more of the following: reference signal received power indicated by the channel state information reference signal resource; reference signal received power of the synchronization signal block.
  • the network device provided by the embodiment of the present disclosure may execute the embodiment shown in FIG. 5, and its implementation principles and technical effects are similar, and details are not described herein again in this embodiment.
  • the embodiment of the present disclosure also provides a terminal. Since the principle of the terminal to solve the problem is similar to the processing method in the embodiment of the present disclosure, the implementation of the terminal can refer to the implementation of the method, and the repetition will not be repeated.
  • an embodiment of the present disclosure further provides a terminal, and the terminal 1000 includes:
  • the second receiving module 1001 is configured to receive an energy-saving signal, the energy-saving signal indicating any of the following: the terminal reports channel state information without performing physical downlink control channel monitoring; the terminal performs channel state information reporting and physical downlink Control channel monitoring; the terminal does not report channel state information, but performs physical downlink control channel monitoring; the terminal does not report channel state information, and does not perform physical downlink control channel monitoring;
  • the processing module 1002 is configured to determine whether to perform or not perform one or more of the following according to the energy-saving signal: channel state information reporting; physical downlink control channel monitoring.
  • the channel state information reporting time is within the connected state discontinuous reception period associated with the energy-saving signal, or
  • the channel state information reporting time is before the connection state discontinuous reception duration associated with the energy-saving signal.
  • the terminal 1000 further includes: a third reporting module, configured to report the channel state information according to the third channel state information reporting configuration configured on the network side when the energy-saving signal instructs the terminal to report the channel state information.
  • the terminal provided by the embodiment of the present disclosure can execute the embodiment shown in FIG. 6 above, and its implementation principles and technical effects are similar, and details are not described in this embodiment here.
  • the embodiment of the present disclosure also provides a network device. Since the principle of the network device to solve the problem is similar to the processing method in the embodiment of the present disclosure, the implementation of the network device can refer to the implementation of the method, and the repetition will not be repeated.
  • an embodiment of the present disclosure also provides a network device, and the network device 1100 includes:
  • the second sending module 1101 is configured to send an energy-saving signal, where the energy-saving signal indicates any of the following: the terminal reports channel state information without performing physical downlink control channel monitoring; the terminal performs channel state information reporting and physical downlink Control channel monitoring; the terminal does not report channel state information, but performs physical downlink control channel monitoring; the terminal does not report channel state information, and does not perform physical downlink control channel monitoring.
  • the channel state information reporting time is within the connected state discontinuous reception period associated with the energy-saving signal, or
  • the channel state information reporting time is before the connection state discontinuous reception duration associated with the energy-saving signal.
  • the network device provided in the embodiment of the present disclosure can execute the embodiment shown in FIG. 7 above, and its implementation principles and technical effects are similar, and details are not described in this embodiment here.
  • the terminal 1200 shown in FIG. 12 includes: at least one processor 1201, a memory 1202, at least one network interface 1204, and a user interface 1203.
  • the various components in the terminal 1200 are coupled together through the bus system 1205.
  • the bus system 1205 is used to implement connection and communication between these components.
  • the bus system 1205 also includes a power bus, a control bus, and a status signal bus.
  • various buses are marked as the bus system 1205 in FIG. 12.
  • the user interface 1203 may include a display, a keyboard, or a pointing device (for example, a mouse, a trackball (trackball), a touch panel, or a touch screen, etc.).
  • a pointing device for example, a mouse, a trackball (trackball), a touch panel, or a touch screen, etc.
  • the memory 1202 in the embodiment of the present disclosure may be a volatile memory or a non-volatile memory, or may include both volatile and non-volatile memory.
  • the non-volatile memory can be read-only memory (Read-Only Memory, ROM), programmable read-only memory (Programmable ROM, PROM), erasable programmable read-only memory (Erasable PROM, EPROM), and electrically available Erase programmable read-only memory (Electrically EPROM, EEPROM) or flash memory.
  • the volatile memory may be random access memory (Random Access Memory, RAM), which is used as an external cache.
  • RAM static random access memory
  • DRAM dynamic random access memory
  • DRAM synchronous dynamic random access memory
  • SDRAM double data rate synchronous dynamic random access memory
  • Double Data rate SDRAM DDRSDRAM
  • enhanced SDRAM ESDRAM
  • Synchlink DRAM SLDRAM
  • Direct Rambus RAM DRRAM
  • the memory 1202 of the system and method described in the embodiments of the present disclosure is intended to include, but is not limited to, these and any other suitable types of memory.
  • the memory 1202 stores the following elements, executable modules or data structures, or a subset of them, or an extended set of them: the operating system 12021 and the application 12022.
  • the operating system 12021 includes various system programs, such as a framework layer, a core library layer, a driver layer, etc., for implementing various basic services and processing hardware-based tasks.
  • the application program 12022 includes various application programs, such as a media player (Media Player), a browser (Browser), etc., which are used to implement various application services.
  • a program that implements the method of the embodiment of the present disclosure may be included in the application program 12022.
  • the terminal provided in the embodiment of the present disclosure can execute the foregoing processing method embodiment, and its implementation principles and technical effects are similar, and details are not described herein again in this embodiment.
  • FIG. 13 is a structural diagram of a network device applied in an embodiment of the present disclosure.
  • the network device 1300 includes a processor 1301, a transceiver 1302, a memory 1303, and a bus interface.
  • the processor 1301 Can be responsible for managing the bus architecture and general processing.
  • the memory 1303 may store data used by the processor 1301 when performing operations.
  • the network device 1300 further includes: a computer program stored in the memory 1303 and capable of running on the processor 1301. The computer program is executed by the processor 1301 to implement the method shown in FIG. 5 or FIG. 7 Steps in.
  • the bus architecture may include any number of interconnected buses and bridges. Specifically, one or more processors represented by the processor 1301 and various circuits of the memory represented by the memory 1303 are linked together.
  • the bus architecture can also link various other circuits such as peripheral devices, voltage regulators, power management circuits, etc., which are all known in the art, and therefore, will not be further described herein.
  • the bus interface provides the interface.
  • the transceiver 1302 may be a plurality of elements, that is, including a transmitter and a receiver, and provide a unit for communicating with various other devices on the transmission medium.
  • the network device provided in the embodiment of the present disclosure can execute the foregoing processing method embodiment, and its implementation principle and technical effect are similar, and details are not described herein again in this embodiment.
  • the steps of the method or algorithm described in connection with the disclosure of the present disclosure may be implemented in a hardware manner, or may be implemented in a manner in which a processor executes software instructions.
  • the software instructions can be composed of corresponding software modules, and the software modules can be stored in RAM, flash memory, ROM, EPROM, EEPROM, registers, hard disks, mobile hard disks, read-only optical disks, or any other form of storage medium known in the art.
  • An exemplary storage medium is coupled to the processor, so that the processor can read information from the storage medium and can write information to the storage medium.
  • the storage medium may also be an integral part of the processor.
  • the processor and the storage medium may be located in the ASIC.
  • the ASIC may be located in the core network interface device.
  • the processor and the storage medium may also exist as discrete components in the core network interface device.
  • the functions described in the present disclosure can be implemented by hardware, software, firmware, or any combination thereof.
  • these functions can be stored in a computer-readable medium or transmitted as one or more instructions or codes on the computer-readable medium.
  • the computer-readable medium includes a computer storage medium and a communication medium, where the communication medium includes any medium that facilitates the transfer of a computer program from one place to another.
  • the storage medium may be any available medium that can be accessed by a general-purpose or special-purpose computer.
  • the embodiments of the present disclosure can be provided as a method, a system, or a computer program product. Therefore, the embodiments of the present disclosure may adopt the form of a complete hardware embodiment, a complete software embodiment, or an embodiment combining software and hardware. Moreover, the embodiments of the present disclosure may adopt the form of a computer program product implemented on one or more computer-usable storage media (including but not limited to disk storage, CD-ROM, optical storage, etc.) containing computer-usable program codes.
  • computer-usable storage media including but not limited to disk storage, CD-ROM, optical storage, etc.
  • These computer program instructions can be provided to the processor of a general-purpose computer, a special-purpose computer, an embedded processor, or other programmable data processing equipment to generate a machine, so that the instructions executed by the processor of the computer or other programmable data processing equipment are generated It is a device that realizes the functions specified in one process or multiple processes in the flowchart and/or one block or multiple blocks in the block diagram.
  • These computer program instructions can also be stored in a computer-readable memory that can guide a computer or other programmable data processing equipment to work in a specific manner, so that the instructions stored in the computer-readable memory produce an article of manufacture including the instruction device.
  • the device implements the functions specified in one process or multiple processes in the flowchart and/or one block or multiple blocks in the block diagram.
  • These computer program instructions can also be loaded on a computer or other programmable data processing equipment, so that a series of operation steps are executed on the computer or other programmable equipment to produce computer-implemented processing, so as to execute on the computer or other programmable equipment.
  • the instructions provide steps for implementing the functions specified in one process or multiple processes in the flowchart and/or one block or multiple blocks in the block diagram.

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Abstract

本公开实施例提供一种处理方法和设备,该方法包括:获取第一信道状态信息上报配置;如果终端没有被指示需要监听持续时间的物理下行控制信道,则根据第一信道状态信息上报配置,上报信道状态信息。

Description

处理方法和设备
相关申请的交叉引用
本申请主张在2019年9月6日在中国提交的中国专利申请号No.201910844605.1的优先权,其全部内容通过引用包含于此。
技术领域
本公开实施例涉及通信技术领域,具体涉及一种处理方法和设备。
背景技术
如果终端收到的节能信号指示检测持续时间计时器的物理下行控制信道(Physical Downlink Control Channel,PDCCH),那么终端将启动持续时间计时器(ONDURATION timer);否则,终端将跳过持续时间计时器。因此,如果很长时间内都没有业务,终端将一直跳过持续时间计时器(因为不需要监听PDCCH),信道状态信息上报(包括信道质量指示(Channel quality indicator,CQI)和波束相关信息的上报)也将无法进行。
然而,长时间无法进行信道状态信息上报将影响波束管理的过程,可能导致终端波束或链路失败。
发明内容
本公开实施例的一个目的在于提供一种处理方法和设备,解决终端在配置了节能信号后长时间无法进行信道状态信息上报,可能导致终端波束或链路失败的问题。
第一方面,提供一种处理方法,应用于终端,包括:
获取第一信道状态信息上报配置;
如果所述终端没有被指示需要监听持续时间的物理下行控制信道,则根据所述第一信道状态信息上报配置,上报信道状态信息。
第二方面,本公开实施例还提供一种处理方法,应用于网络设备,包括:
发送第一信令,或第一信道状态信息上报配置与第二信道状态信息上报 配置之间的关联规则;
其中,所述第一信令指示网络侧配置的第一信道状态信息上报配置;所述第一信道状态信息上报配置用于终端没有被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
第三方面,本公开实施例还提供一种处理方法,应用于终端,包括:
接收节能信号,所述节能信号指示以下任一项:所述终端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听;
根据所述节能信号,确定进行或不进行以下一项或多项:信道状态信息上报;物理下行控制信道监听。
第四方面,本公开实施例还提供一种处理方法,应用于网络设备,包括:
发送节能信号,所述节能信号指示以下任一项:所述终端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听。
第五方面,本公开实施例还提供一种终端,包括:
获取模块,用于获取第一信道状态信息上报配置;
第一上报模块,用于如果所述终端没有被指示需要监听持续时间的物理下行控制信道,则根据所述第一信道状态信息上报配置,上报信道状态信息。
第六方面,本公开实施还提供一种网络设备,包括:
第一发送模块,用于发送第一信令,或第一信道状态信息上报配置与第二信道状态信息上报配置之间的关联规则;
其中,所述第一信令指示网络侧配置的第一信道状态信息上报配置;所述第一信道状态信息上报配置用于终端没有被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
第七方面,本公开实施例还提供一种终端,包括:
第二接收模块,用于接收节能信号,所述节能信号指示以下任一项:所述终端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听;
处理模块,用于根据所述节能信号,确定进行或不进行以下一项或多项:信道状态信息上报;物理下行控制信道监听。
第八方面,本公开实施例还提供一种网络设备,包括:
第二发送模块,用于发送节能信号,所述节能信号指示以下任一项:所述终端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听。
第九方面,本公开实施例还提供一种终端,包括:处理器、存储器及存储在所述存储器上并可在所述处理器上运行的程序,所述程序被所述处理器执行时实现如第一方面所述的处理方法的步骤,或者如第三方面所述的处理方法的步骤。
第十方面,本公开实施例还提供一种网络设备,包括:处理器、存储器及存储在所述存储器上并可在所述处理器上运行的程序,所述程序被所述处理器执行时实现如第二方面所述的处理方法的步骤,或者如第四方面所述的处理方法的步骤。
第十一方面,本公开实施例还提供一种计算机可读存储介质,所述计算机可读存储介质上存储有计算机程序,所述计算机程序被处理器执行时实现如上所述的处理方法的步骤。
在本公开实施例中,通过在激活时间之外进行信道状态信息上报,避免由于终端在配置节能信号后长时间无法进行信道状态信息上报,可能导致的终端波束或链路失败的问题,提高上行传输的可靠性。
附图说明
通过阅读下文可选实施方式的详细描述,各种其他的优点和益处对于本领域普通技术人员将变得清楚明了。附图仅用于示出可选实施方式的目的,而并不认为是对本公开的限制。而且在整个附图中,用相同的参考符号表示相同的部件。在附图中:
图1为CDRX的唤醒信号的示意图;
图2为DRX周期的示意图;
图3为本公开实施例的无线通信系统的架构示意图;
图4为本公开实施例的处理方法的流程图之一;
图5为本公开实施例的处理方法的流程图之二;
图6为本公开实施例的处理方法的流程图之三;
图7为本公开实施例的处理方法的流程图之四;
图8为本公开实施例的终端的结构图之一;
图9为本公开实施例的网络设备的结构图之一;
图10为本公开实施例的终端的结构图之二;
图11为本公开实施例的网络设备的结构图之二;
图12为本公开实施例的终端的结构图之三
图13为本公开实施例的网络设备的结构图之三;
图14为本公开实施例的CSI上报时间的示意图之一;
图15为本公开实施例的CSI上报时间的示意图之二。
具体实施方式
为了便于理解本公开实施例下面介绍几个技术点:
(1)RRC连接态的节能信号。
在无线资源控制(Radio Resource Control,RRC)_连接态的连接态非连续性接收(Connected DRX,CDRX)周期,在持续时间(onduration)之前,基站可能传输节能信号给一个终端(例如用户设备(User Equipment,UE))或者一组UE,UE在相应时刻检测该节能信号。
参见图1,如果UE接收到节能信号,且该节能信号指示该UE检测 onduration的物理下行控制信道(Physical downlink control channel,PDCCH)或者指示该UE醒(wake up),那么UE检测所述PDCCH或启动持续时间计时器(onduraton timer);否则,UE不检测所述PDCCH或跳过(不启动)持续时间计时器。
目前,信道状态信息上报(CSI report)只能在CDRX激活时间(active time)(例如持续时间计时器启动了)进行,UE在active time之外(例如持续时间计时器没有启动)无法进行信道状态信息上报。
节能信号可以控制持续时间计时器。即:如果UE收到节能信号的指示检测持续时间计时器的PDCCH,那么UE将启动持续时间计时器;否则,UE将跳过持续时间计时器。
因此,如果很长时间内都没有业务,UE将一直跳过持续时间计时器(因为不需要监听PDCCH),信道状态信息上报(包括信道质量指示和波束相关信息的上报)也将无法进行。
然而,长时间无法进行信道状态信息上报将影响波束管理的过程,可能导致UE波束或链路失败。
(2)RRC空闲(RRC_IDLE)状态下的非连续性接收(Discontinuous Reception,DRX)。
在长期演进(Long Term Evolution,LTE)或第五代移动通信(fifth generation,5G)系统中,处于RRC_IDLE状态下的UE需要在预配置的时间上检测基站发送的寻呼信号,而检测寻呼信号的过程如下:
盲检测寻呼无线网络临时标识(Paging-RNTI,P-RNTI)对应的PDCCH,如果没有检测到该PDCCH,则进入结束本次检测;如果检测到PDCCH存在,则进一步检测该PDCCH指示的物理下行共享信道(Physical Downlink Shared Channel,PDSCH),如果检测出的PDSCH不是本UE的寻呼信号,则结束检测;否则,检测出的PDSCH是本用户的寻呼信号。
在RRC_IDLE状态下的UE定期的检测寻呼信号,而接收到属于本UE的寻呼信号的概率是比较低的,而每次检测的PDCCH和PDSCH的功耗较大,不利于终端省电。
(3)RRC connected状态的DRX。
DRX的基本机制是为处于RRC_CONNECTED状态的UE配置一个DRX周期(cycle)。DRX cycle由“On Duration”和“DRX的机会(Opportunity for DRX)”组成:在“On Duration”的时间内,UE监听并接收PDCCH(激活期);在“Opportunity for DRX”时间内,UE不接收下行信道的数据以节省功耗(休眠期)。
从图2可以看出,在时域上,时间被划分成一个个连续的DRX Cycle。
drxStartOffset指定DRX cycle的起始子帧,longDRX-Cycle指定了一个长(long)DRX cycle占多少个子帧,这两个参数都是由longDRX-CycleStartOffset字段确定的。onDurationTimer指定了从DRX cycle的起始子帧算起,需要监听PDCCH的连续子帧数(即激活期持续的子帧数)。
在大多数情况下,当一个UE在某个子帧被调度并接收或发送数据后,很可能在接下来的几个子帧内继续被调度,如果要等到下一个DRX cycle再来接收或发送这些数据将会带来额外的延迟。为了降低这类延迟,UE在被调度后,会持续位于激活期,即会在配置的激活期内持续监听PDCCH。其实现机制是:每当UE被调度以初传数据时,就会启动(或重启)一个定时器(drx-InactivityTimer),UE将一直位于激活态直到该定时器超时。drx-InactivityTimer指定了当UE成功解码一个指示初传的上行(Uplink,UL)或下行(Downlink,DL)用户数据的PDCCH后,持续位于激活态的连续子帧数。即每当UE有初传数据被调度,该定时器就重启一次。
为了在上述两种DRX下进一步节省盲检测寻呼(Paging)信号或PDCCH的功耗,提出了唤醒信号(wake-up signal,WUS)和睡眠信号(统称为节能信号(power saving signal))的概念。
(4)RRC_IDLE或者RRC非激活(RRC_inactive)状态的节能信号:
在idle状态每一个寻呼(Paging)周期,在寻呼时机(Paging Occasion,PO)之前,基站传输一个节能信号给UE,UE在相应时刻检测该节能信号。
如果该节能信号指示UE检测PO时刻的PDCCH,那么UE检测PDCCH;
如果该节能信号没有指示UE检测PO时刻的PDCCH,那么UE不检测PDCCH;
可选的,检测节能信号相比盲检测Paging信号或PDCCH复杂度更低且更为 省电。
上述的节能信号可以是类似PDCCH的信号,也可以是序列相关的信号如信道状态信息参考信号(Channel State Indication-Reference Signals,CSI-RS),或者是开关键控(on-off keying,OOK)信号。
下面将结合本公开实施例中的附图,对本公开实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例是本公开一部分实施例,而不是全部的实施例。基于本公开中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本公开保护的范围。
本申请的说明书和权利要求书中的术语“包括”以及它的任何变形,意图在于覆盖不排他的包含,例如,包含了一系列步骤或单元的过程、方法、系统、产品或设备不必限于清楚地列出的那些步骤或单元,而是可包括没有清楚地列出的或对于这些过程、方法、产品或设备固有的其它步骤或单元。此外,说明书以及权利要求中使用“和/或”表示所连接对象的至少其中之一,例如A和/或B,表示包含单独A,单独B,以及A和B都存在三种情况。
在本公开实施例中,“示例性的”或者“例如”等词用于表示作例子、例证或说明。本公开实施例中被描述为“示例性的”或者“例如”的任何实施例或设计方案不应被解释为比其它实施例或设计方案更可选或更具优势。确切而言,使用“示例性的”或者“例如”等词旨在以具体方式呈现相关概念。
本文所描述的技术不限于长期演进型(Long Time Evolution,LTE)/LTE的演进(LTE-Advanced,LTE-A)系统,并且也可用于各种无线通信系统,诸如码分多址(Code Division Multiple Access,CDMA)、时分多址(Time Division Multiple Access,TDMA)、频分多址(Frequency Division Multiple Access,FDMA)、正交频分多址(Orthogonal Frequency Division Multiple Access,OFDMA)、单载波频分多址(Single-carrier Frequency-Division Multiple Access,SC-FDMA)和其他系统。
术语“系统”和“网络”常被可互换地使用。CDMA系统可实现诸如CDMA2000、通用地面无线电接入(Universal Terrestrial Radio Access,UTRA)等无线电技术。UTRA包括宽带CDMA(Wideband Code Division Multiple  Access,WCDMA)和其他CDMA变体。TDMA系统可实现诸如全球移动通信系统(Global System for Mobile Communication,GSM)之类的无线电技术。OFDMA系统可实现诸如超移动宽带(Ultra Mobile Broadband,UMB)、演进型UTRA(Evolution-UTRA,E-UTRA)、IEEE 802.11(Wi-Fi)、IEEE 802.16(WiMAX)、IEEE 802.20、Flash-OFDM等无线电技术。UTRA和E-UTRA是通用移动电信系统(Universal Mobile Telecommunications System,UMTS)的部分。LTE和更高级的LTE(如LTE-A)是使用E-UTRA的新UMTS版本。UTRA、E-UTRA、UMTS、LTE、LTE-A以及GSM在来自名为“第三代伙伴项目”(3rd Generation Partnership Project,3GPP)的组织的文献中描述。CDMA2000和UMB在来自名为“第三代伙伴项目2”(3GPP2)的组织的文献中描述。本文所描述的技术既可用于以上提及的系统和无线电技术,也可用于其他系统和无线电技术。
下面结合附图介绍本公开的实施例。本公开实施例提供的一种处理方法和设备可以应用于无线通信系统中。参考图3,为本公开实施例提供的一种无线通信系统的架构示意图。如图3所示,该无线通信系统可以包括:网络设备31和终端32,终端32可以记做UE32,终端32可以与网络设备31通信(传输信令或传输数据)。在实际应用中上述各个设备之间的连接可以为无线连接,为了方便直观地表示各个设备之间的连接关系,图3中采用实线示意。
本公开实施例提供的网络设备31可以为基站,该基站可以为通常所用的基站,也可以为演进型基站(evolved node base station,eNB),还可以为5G系统中的网络设备(例如,下一代基站(next generation node base station,gNB)或发送和接收点(transmission and reception point,TRP))等设备。
本公开实施例提供的终端32可以为手机、平板电脑、笔记本电脑、超级移动个人计算机(Ultra-Mobile Personal Computer,UMPC)、上网本或者个人数字助理(Personal Digital Assistant,PDA)、移动上网装置(Mobile Internet Device,MID)、可穿戴式设备(Wearable Device)或车载设备等。
参见图4,本公开实施例提供一种处理方法,该方法的执行主体为终端, 包括:步骤401、步骤402。
步骤401:获取第一信道状态信息上报配置;
可选地,获取第一信道状态信息上报配置可以包括以下两种方式:
基于显式指示的方式:接收第一信令,所述第一信令指示网络侧配置的第一信道状态信息上报配置,所述第一信道状态信息上报配置指示所述第一信道状态信息的上报时间在连接态非连续性接收的激活时间之外。
基于隐式指示的方式:根据所述第二信道状态信息上报配置和关联规则,确定所述第一信道状态信息上报配置;其中,所述关联规则表示所述第一信道状态信息上报配置与所述第二信道状态信息上报配置之间的对应关系,所述关联规则为协议定义的或者网络侧配置的。
其中,关联规则包括以下一项或多项:(1)第一信道状态信息的上报周期是所述第二信道状态信息的上报周期的N倍,所述N为正整数;(2)第一信道状态信息上报量的类型。例如,终端可以跳过某些不重要的信道状态信息上报量,例如跳过除信道状态信息参考信号资源指示的参考信号接收功率(CRI-RSRP)和同步信号块的参考信号接收功率(ssb-Index-RSRP)之外的信道状态信息上报量。
步骤402:如果终端没有被指示需要监听持续时间的物理下行控制信道,则根据所述第一信道状态信息上报配置,上报信道状态信息。
在一些实施方式中,步骤402可以包括:如果第一信道状态信息上报配置的上报时间在连接态非连续性接收的激活时间之外,则根据第一信道状态信息上报配置,上报信道状态信息。参见图14,根据第一信道状态信息上报配置的上报时间在持续时间外。
在一些实施方式中,图4所示的方法还可以包括:接收网络侧配置的第二信道状态信息上报配置;如果所述终端被指示需要监听持续时间的物理下行控制信道,则根据所述第二信道状态信息上报配置,上报信道状态信息。终端没有被指示需要监听持续时间的物理下行控制信道具体是指:终端没有检测到节能信号,或者终端检测到节能信号,且所述节能信号没有指示监听持续时间的物理下行控制信道。
具体方式如下:如果第二信道状态信息上报配置的上报时间在连接态非连续性接收的激活时间内,则根据第二信道状态信息上报配置,上报信道状态信息。参见图15,根据第二信道状态信息上报配置的上报时间在持续时间内。
可选地,如果第二信道状态信息上报配置的上报时间在连接态非连续性接收的激活时间之外时,可以根据第二信道状态信息上报配置在连接态非连续性接收的激活时间之外上报信道状态信息。
可选地,如果第一信道状态信息上报配置的上报时间在连接态非连续性接收的激活时间之内时,可以根据第一信道状态信息上报配置在连接态非连续性接收的激活时间之内上报信道状态信息。
在一些实施方式中,所述第一信道状态信息上报配置包括以下一项或多项:
(1)第一参数,所述第一参数表示所述第一信道状态信息的上报周期;例如,上报周期为10个时隙;
(2)第二参数,所述第二参数表示所述第一信道状态信息上报量(reportQuantity);其中,信道状态信息上报量包括:信道状态信息参考信号资源指示的参考信号接收功率(CRI-RSRP),同步信号块的参考信号接收功率(ssb-Index-RSRP),信道状态信息参考信号资源指示-秩指示-预编码矩阵指示-信道质量指示(cri-RI-PMI-CQI),信道状态信息参考信号资源指示-秩指示-i1(cri-RI-i1),信道状态信息参考信号资源指示-秩指示-i1-信道质量指示(cri-RI-i1-CQI),信道状态信息参考信号资源指示-秩指示-信道质量指示(cri-RI-CQI),信道状态信息参考信号资源指示-秩指示-层指示-预编码矩阵指示-信道质量指示(cri-RI-LI-PMI-CQI)等。
(3)第三参数,所述第三参数表示所述第一信道状态信息上报配置类型(reportConfigType);其中,信道状态信息上报配置类型包括周期的(periodic),半持续的(semiPersistent),非周期(aperiodic)等三种。
(4)第四参数,所述第四参数表示所述第一信道状态信息上报关联的参考信号资源。其中,所述参考信号资源包括用于信道测量的CSI-RS资源,用于干扰测量的CSI-RS资源等。
在一些实施方式中,所述第二信道状态信息上报配置包括以下一项或多项:
(1)第五参数,所述第五参数表示所述第二信道状态信息的上报周期;例如,上报周期为10个时隙;
(2)第六参数,所述第六参数表示所述第二信道状态信息上报量;其中,信道状态信息上报量包括:信道状态信息参考信号资源指示的参考信号接收功率(CRI-RSRP),同步信号块的参考信号接收功率(ssb-Index-RSRP),信道状态信息参考信号资源指示-秩指示-预编码矩阵指示-信道质量指示(cri-RI-PMI-CQI),信道状态信息参考信号资源指示-秩指示-i1(cri-RI-i1),信道状态信息参考信号资源指示-秩指示-i1-信道质量指示(cri-RI-i1-CQI),信道状态信息参考信号资源指示-秩指示-信道质量指示(cri-RI-CQI),信道状态信息参考信号资源指示-秩指示-层指示-预编码矩阵指示-信道质量指示(cri-RI-LI-PMI-CQI)等。
(3)第七参数,所述第七参数表示所述第二信道状态信息上报配置类型。其中,信道状态信息上报配置类型包括周期的(periodic),半持续的(semiPersistent),非周期(aperiodic)等三种。
(4)第八参数,所述第八参数表示所述第二信道状态信息上报关联的参考信号资源。其中,所述参考信号资源包括用于信道测量的CSI-RS资源,用于干扰测量的CSI-RS资源等。
在一些实施方式中,所述第一信道状态信息的上报周期大于第二信道状态信息的上报周期;和/或,所述第一信道状态信息上报量的种类比第二信道状态信息上报量的种类少。
在一些实施方式中,第一信道状态信息上报量包括以下一项或多项:(1)CSI-RSRP;(2)ssb-Index-RSRP。
在本公开实施例中,通过在激活时间之外进行信道状态信息上报,避免由于终端在配置节能信号后长时间无法进行信道状态信息上报,可能导致的终端波束或链路失败的问题,提高上行传输的可靠性。
参见图5,本公开实施例还提供一种处理方法,该方法的执行主体为网络设备,该方法包括:步骤501。
步骤501:发送第一信令,或第一信道状态信息上报配置与第二信道状态信息上报配置之间的关联规则;
其中,所述第一信令指示网络侧配置的第一信道状态信息上报配置;所述第一信道状态信息上报配置用于终端没有被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
在一些实施方式中,所述方法还包括:发送第二信道状态信息上报配置,所述第二信道状态信息上报配置用于所述终端被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
进一步地,所述关联规则表示所述第一信道状态信息上报配置与所述第二信道状态信息上报配置之间的对应关系。该关联规则可以是协议定义的或者网络侧配置的。
可选地,关联规则可以包括以下一项或多项:(1)第一信道状态信息的上报周期是所述第二信道状态信息的上报周期的N倍,所述N为正整数;(2)第一信道状态信息上报量的类型。例如,终端可以跳过某些不重要的信道状态信息上报量,例如跳过除cri-RSRP和ssb-Index-RSRP之外的信道状态信息上报量。
在一些实施方式中,所述第一信道状态信息上报配置包括以下一项或多项:
(1)第一参数,所述第一参数表示所述第一信道状态信息的上报周期;
(2)第二参数,所述第二参数表示所述第一信道状态信息上报量(reportQuantity);
(3)第三参数,所述第三参数表示所述第一信道状态信息上报配置类型(reportConfigType);
(4)第四参数,所述第四参数表示所述第一信道状态信息上报关联的参考信号资源。
在一些实施方式中,所述第二信道状态信息上报配置包括以下一项或多项:
(1)第五参数,所述第五参数表示所述第二信道状态信息的上报周期;
(2)第六参数,所述第六参数表示所述第二信道状态信息上报量;
(3)第七参数,所述第七参数表示所述第二信道状态信息上报配置类型。
(4)第八参数,所述第八参数表示所述第二信道状态信息上报关联的参考信号资源。
在一些实施方式中,所述第一信道状态信息的上报周期大于第二信道状态信息的上报周期;和/或,所述第一信道状态信息上报量的种类比第二信道状态信息上报量的种类少。
在一些实施方式中,第一信道状态信息上报量包括以下一项或多项:(1)CSI-RSRP;(2)ssb-Index-RSRP。
在本公开实施例中,通过在激活时间之外进行信道状态信息上报,避免由于终端在配置节能信号后长时间无法进行信道状态信息上报,可能导致的终端波束或链路失败的问题,提高上行传输的可靠性。
参见图6,本公开实施例还提供一种处理方法,该方法的执行主体为终端,包括:步骤601和步骤602。
步骤601:接收节能信号,该节能信号指示以下任一项:(1)终端进行信道状态信息上报,不进行物理下行控制信道监听(monitoring);(2)终端进行信道状态信息上报和物理下行控制信道监听;(3)所述终端不进行信道状态信息上报,进行物理下行控制信道监听;(4)所述终端不进行信道状态信息上报,不进行物理下行控制信道监听;
步骤602:根据节能信号,确定进行或不进行以下一项或多项:(1)信道状态信息上报;(2)物理下行控制信道监听。
在一些实施方式中,信道状态信息上报时间在节能信号关联的连接态非连续性接收周期内,或者信道状态信息上报时间在节能信号关联的连接态非连续性接收持续时间之前。
在一些实施方式中,在节能信号指示终端进行信道状态信息上报时,所述方法还包括:根据网络侧配置的第三信道状态信息上报配置进行所述信道状态信息上报。
可以理解的是,第三信道状态信息上报配置可以为一种周期性的信道状态信息上报配置,第三信道状态信息上报配置中的上报周期、上报量和上报配置类型可以采用相关技术中的配置,在此不再敷述。
在本公开实施例中,通过节能信号指示信道状态信息上报、物理下行控制信道监听,避免由于终端在配置节能信号后长时间无法进行信道状态信息上报,可能导致的终端波束或链路失败的问题,提高上行传输的可靠性。
参见图7,本公开实施例还提供一种处理方法,该方法的执行主体为网络设备,包括:步骤701。
步骤701:发送节能信号,节能信号指示以下任一项:(1)终端进行信道状态信息上报,不进行物理下行控制信道监听;(2)终端进行信道状态信息上报和物理下行控制信道监听;(3)所述终端不进行信道状态信息上报,进行物理下行控制信道监听;(4)所述终端不进行信道状态信息上报,不进行物理下行控制信道监听。
在一些实施方式中,所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收周期内,或者所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收持续时间之前。
在本公开实施例中,通过节能信号指示信道状态信息上报、物理下行控制信道监听,避免由于终端在配置节能信号后长时间无法进行信道状态信息上报,可能导致的终端波束或链路失败的问题,提高上行传输的可靠性。
下面结合示例1、示例2、示例3和示例4介绍本公开的实施例。
示例1:UE新配置激活时间(active time)之外的信道状态信息上报配置(CSI-ReportConfig),UE只在active time外上报CSI。
例如,为UE新配置CSI-ReportConfig,该CSI-Report只在active time之外,CSI-ReportConfig包括至少以下参数:
(1)上报配置类型(reportConfigType),指示CSI report的周期。
(2)上报量(reportQuantity),指示CSI的上报量的类型,例如cri-RI-PMI-CQI,cri-RSRP等。
示例2:active time之外的CSI report与active time内的CSI report有关联信息(或者称为第一规则),UE只在active time外上报CSI。
在本示例中,不配置具体的active time之外的CSI-ReportConfig,而是定义关联信息。
例如,关联信息可以包括:(1)active time之外的CSI-Report周期 是配置的active time内的CSI-Report的周期的N倍,N是正整数;和/或,(2)UE跳过某些不重要的CSI report,例如,跳过除cri-RSRP和ssb-Index-RSRP之外的CSI report。
例如,UE被配置的active time之外的CSI-Report周期大于配置的active time内的CSI-Report的周期。
又例如,UE被配置的active time之外的CSI-Report quantity只包括'cri-RSRP'和/或'ssb-Index-RSRP',而配置的active time内的CSI-Report的quantity包括更多项。
示例3:通过节能信号指示UE进行CSI上报。
节能信号指示UE执行以下任意一项:
(1)只进行CSI上报,但是不进行PDCCH monitoring;
(2)进行CSI上报和PDCCH monitoring;
(3)不进行CSI上报,但是进行PDCCH monitoring;
(4)不进行CSI上报,不进行PDCCH monitoring
可选地,CSI上报的时域资源可以在:(1)只在Active time内,例如,持续时间(onduration timer);(2)只在Active time外。
UE根据节能信号的指示确定进行或不进行CSI上报和/或PDCCH monitoring。
示例性地,当网络希望触发CSI上报,但是为了仅保持波束精度,在下一个DRX持续时间没有PDCCH监听,节能信号可以携带指示UE仅执行CSI上报但没有PDCCH监视的指示。
示例4:减少active time内的CSI report。
减少active time内的CSI report,例如:增加report的周期,减少report的内容等。
示例性地,基站给UE配置了两套CSI上报配置,其中第一套相比第二套的上报周期更长,和/或,第一套相比第二套的上报量的类型更少,比如,第一套的上报量(reportQuantity)只包括'cri-RSRP'和/或'ssb-Index-RSRP'。当UE检测到节能信号指示要监听onduration的PDCCH,则根据第二套CSI上报配置上报CSI;否则,根据第一套CSI上报配置上报CSI。
需要说明的是,在上述示例1至示例4中:
(1)CSI资源配置(ResourceConfig)仅包含非零功率CSI-RS(Non-Zero Power CSI-RS,NZP-CSI-RS)资源,和/或,同步信号块(Synchronization Signal and PBCH block,SSB)资源;
(2)CSI上报可以扩展为CSI上报,和/或,CSI测量(measurement),例如波束测量(beam measurement);
(3)active time指DRX active time。
本公开实施例中还提供了一种终端,由于终端解决问题的原理与本公开实施例中处理方法相似,因此该终端的实施可以参见方法的实施,重复之处不再敷述。
参见图8,本公开实施例还提供一种终端,该终端800包括:
获取模块801,用于获取第一信道状态信息上报配置;
第一上报模块802,用于如果所述终端没有被指示需要监听持续时间的物理下行控制信道,则根据所述第一信道状态信息上报配置,上报信道状态信息。
在一些实施方式中,终端800还包括:
第一接收模块,用于接收网络侧配置的第二信道状态信息上报配置;
第二上报模块,用于如果所述终端被指示需要监听持续时间的物理下行控制信道,则根据所述第二信道状态信息上报配置,上报信道状态信息;
在一些实施方式中,第一上报模块802进一步用于:如果所述第一信道状态信息上报配置的上报时间在连接态非连续性接收的激活时间之外,则根据所述第一信道状态信息上报配置,上报信道状态信息。
在一些实施方式中,第二上报模块进一步用于:如果所述第二信道状态信息上报配置的上报时间在连接态非连续性接收的激活时间内,则根据所述第二信道状态信息上报配置,上报信道状态信息。
在一些实施方式中,获取模块801进一步用于:接收第一信令,所述第一信令指示网络侧配置的第一信道状态信息上报配置,所述第一信道状态信息上报配置指示所述第一信道状态信息的上报时间在连接态非连续性接收的激活时间之外。
在一些实施方式中,获取模块801进一步用于:根据所述第二信道状态信息上报配置和关联规则,确定所述第一信道状态信息上报配置;其中,所述关联规则表示所述第一信道状态信息上报配置与所述第二信道状态信息上报配置之间的对应关系,所述关联规则为协议定义的或者网络侧配置的。
在一些实施方式中,所述关联规则包括以下一项或多项:
所述第一信道状态信息的上报周期是所述第二信道状态信息的上报周期的N倍,所述N为正整数;
所述第一信道状态信息上报量的类型。
在一些实施方式中,所述第一信道状态信息上报配置包括以下一项或多项:
第一参数,所述第一参数表示所述第一信道状态信息的上报周期;
第二参数,所述第二参数表示所述第一信道状态信息上报量;
第三参数,所述第三参数表示所述第一信道状态信息上报配置类型;
第四参数,所述第四参数表示所述第一信道状态信息上报关联的参考信号资源。
在一些实施方式中,所述第二信道状态信息上报配置包括以下一项或多项:
第五参数,所述第五参数表示所述第二信道状态信息的上报周期;
第六参数,所述第六参数表示所述第二信道状态信息上报量;
第七参数,所述第七参数表示所述第二信道状态信息上报配置类型;
第八参数,所述第八参数表示所述第二信道状态信息上报关联的参考信号资源。
在一些实施方式中,所述第一信道状态信息的上报周期大于第二信道状态信息的上报周期;和/或,所述第一信道状态信息上报量的种类比第二信道状态信息上报量的种类少。
在一些实施方式中,所述第一信道状态信息上报量包括以下一项或多项:信道状态信息参考信号资源指示的参考信号接收功率;同步信号块的参考信号接收功率。
本公开实施例提供的终端,可以执行上述如图4所示的实施例,其实现原理和技术效果类似,本实施例此处不再赘述。
本公开实施例中还提供了一种网络设备,由于网络设备解决问题的原理与本公开实施例中处理方法相似,因此该网络设备的实施可以参见方法的实施,重复之处不再敷述。
参见图9,本公开实施例还提供一种网络设备,该网络设备900包括:
第一发送模块901,用于发送第一信令,或第一信道状态信息上报配置与第二信道状态信息上报配置之间的关联规则;
其中,所述第一信令指示网络侧配置的第一信道状态信息上报配置;所述第一信道状态信息上报配置用于终端没有被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
在一些实施方式中,第一发送模块901还用于:发送第二信道状态信息上报配置;所述第二信道状态信息上报配置用于所述终端被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
在一些实施方式中,所述关联规则包括以下一项或多项:
所述第一信道状态信息的上报周期是所述第二信道状态信息的上报周期的N倍,所述N为正整数;
所述第一信道状态信息上报量的类型。
在一些实施方式中,所述第一信道状态信息上报配置包括以下一项或多项:
第一参数,所述第一参数表示所述第一信道状态信息的上报周期;
第二参数,所述第二参数表示所述第一信道状态信息上报量;
第三参数,所述第三参数表示所述第一信道状态信息上报配置类型;
第四参数,所述第四参数表示所述第一信道状态信息上报关联的参考信号资源。
在一些实施方式中,所述第二信道状态信息上报配置包括以下一项或多项:
第五参数,所述第五参数表示所述第二信道状态信息的上报周期;
第六参数,所述第六参数表示所述第二信道状态信息上报量;
第七参数,所述第七参数表示所述第二信道状态信息上报配置类型;
第八参数,所述第八参数表示所述第二信道状态信息上报关联的参考信号资源。
在一些实施方式中,所述第一信道状态信息的上报周期大于第二信道状态信息的上报周期;和/或,所述第一信道状态信息上报量的种类比第二信道状态信息上报量的种类少。
在一些实施方式中,所述第一信道状态信息上报量包括以下一项或多项:信道状态信息参考信号资源指示的参考信号接收功率;同步信号块的参考信号接收功率。
本公开实施例提供的网络设备,可以执行上述如图5所示的实施例,其实现原理和技术效果类似,本实施例此处不再赘述。
本公开实施例中还提供了一种终端,由于终端解决问题的原理与本公开实施例中处理方法相似,因此该终端的实施可以参见方法的实施,重复之处不再敷述。
参见图10,本公开实施例还提供一种终端,该终端1000包括:
第二接收模块1001,用于接收节能信号,所述节能信号指示以下任一项:所述终端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听;
处理模块1002,用于根据所述节能信号,确定进行或不进行以下一项或多项:信道状态信息上报;物理下行控制信道监听。
在一些实施方式中,所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收周期内,或者
所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收持续时间之前。
在一些实施方式中,终端1000还包括:第三上报模块,用于在节能信号指示终端进行信道状态信息上报时,根据网络侧配置的第三信道状态信息上报配置进行所述信道状态信息上报。
本公开实施例提供的终端,可以执行上述如图6所示的实施例,其实现原理和技术效果类似,本实施例此处不再赘述。
本公开实施例中还提供了一种网络设备,由于网络设备解决问题的原理与本公开实施例中处理方法相似,因此该网络设备的实施可以参见方法的实施,重复之处不再敷述。
参见图11,本公开实施例还提供一种网络设备,该网络设备1100包括:
第二发送模块1101,用于发送节能信号,所述节能信号指示以下任一项:所述终端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听。
在一些实施方式中,所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收周期内,或者
所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收持续时间之前。
本公开实施例提供的网络设备,可以执行上述如图7所示的实施例,其实现原理和技术效果类似,本实施例此处不再赘述。
如图12所示,图12所示的终端1200包括:至少一个处理器1201、存储器1202、至少一个网络接口1204和用户接口1203。终端1200中的各个组件通过总线系统1205耦合在一起。可理解,总线系统1205用于实现这些组件之间的连接通信。总线系统1205除包括数据总线之外,还包括电源总线、控制总线和状态信号总线。但是为了清楚说明起见,在图12中将各种总线都标为总线系统1205。
其中,用户接口1203可以包括显示器、键盘或者点击设备(例如,鼠标,轨迹球(trackball)、触感板或者触摸屏等。
可以理解,本公开实施例中的存储器1202可以是易失性存储器或非易失性存储器,或可包括易失性和非易失性存储器两者。其中,非易失性存储器可以是只读存储器(Read-Only Memory,ROM)、可编程只读存储器(Programmable ROM,PROM)、可擦除可编程只读存储器(Erasable PROM, EPROM)、电可擦除可编程只读存储器(Electrically EPROM,EEPROM)或闪存。易失性存储器可以是随机存取存储器(Random Access Memory,RAM),其用作外部高速缓存。通过示例性但不是限制性说明,许多形式的RAM可用,例如静态随机存取存储器(Static RAM,SRAM)、动态随机存取存储器(Dynamic RAM,DRAM)、同步动态随机存取存储器(Synchronous DRAM,SDRAM)、双倍数据速率同步动态随机存取存储器(Double Data rate SDRAM,DDRSDRAM)、增强型同步动态随机存取存储器(Enhanced SDRAM,ESDRAM)、同步连接动态随机存取存储器(Synchlink DRAM,SLDRAM)和直接内存总线随机存取存储器(Direct Rambus RAM,DRRAM)。本公开实施例描述的系统和方法的存储器1202旨在包括但不限于这些和任意其它适合类型的存储器。
在一些实施方式中,存储器1202保存了如下的元素,可执行模块或者数据结构,或者他们的子集,或者他们的扩展集:操作系统12021和应用程序12022。
其中,操作系统12021,包含各种系统程序,例如框架层、核心库层、驱动层等,用于实现各种基础业务以及处理基于硬件的任务。应用程序12022,包含各种应用程序,例如媒体播放器(Media Player)、浏览器(Browser)等,用于实现各种应用业务。实现本公开实施例方法的程序可以包含在应用程序12022中。
在本公开的一个实施例中,通过调用存储器1202保存的程序或指令,具体的,可以是应用程序12022中保存的程序或指令,执行时实现以上图4或图6所示方法的步骤。
本公开实施例提供的终端,可以执行上述处理方法实施例,其实现原理和技术效果类似,本实施例此处不再赘述。
请参阅图13,图13是本公开实施例应用的网络设备的结构图,如图13所示,网络设备1300包括:处理器1301、收发机1302、存储器1303和总线接口,其中,处理器1301可以负责管理总线架构和通常的处理。存储器1303可以存储处理器1301在执行操作时所使用的数据。
在本公开的一个实施例中,网络设备1300还包括:存储在存储器上1303并可在处理器1301上运行的计算机程序,计算机程序被处理器1301执行时实现以上图5或图7所示方法中的步骤。
在图13中,总线架构可以包括任意数量的互联的总线和桥,具体由处理器1301代表的一个或多个处理器和存储器1303代表的存储器的各种电路链接在一起。总线架构还可以将诸如外围设备、稳压器和功率管理电路等之类的各种其他电路链接在一起,这些都是本领域所公知的,因此,本文不再对其进行进一步描述。总线接口提供接口。收发机1302可以是多个元件,即包括发送机和接收机,提供用于在传输介质上与各种其他装置通信的单元。
本公开实施例提供的网络设备,可以执行上述处理方法实施例,其实现原理和技术效果类似,本实施例此处不再赘述。
结合本公开公开内容所描述的方法或者算法的步骤可以硬件的方式来实现,也可以是由处理器执行软件指令的方式来实现。软件指令可以由相应的软件模块组成,软件模块可以被存放于RAM、闪存、ROM、EPROM、EEPROM、寄存器、硬盘、移动硬盘、只读光盘或者本领域熟知的任何其它形式的存储介质中。一种示例性的存储介质耦合至处理器,从而使处理器能从该存储介质读取信息,且可向该存储介质写入信息。当然,存储介质也可以是处理器的组成部分。处理器和存储介质可以位于ASIC中。另外,该ASIC可以位于核心网接口设备中。当然,处理器和存储介质也可以作为分立组件存在于核心网接口设备中。
本领域技术人员应该可以意识到,在上述一个或多个示例中,本公开所描述的功能可以用硬件、软件、固件或它们的任意组合来实现。当使用软件实现时,可以将这些功能存储在计算机可读介质中或者作为计算机可读介质上的一个或多个指令或代码进行传输。计算机可读介质包括计算机存储介质和通信介质,其中通信介质包括便于从一个地方向另一个地方传送计算机程序的任何介质。存储介质可以是通用或专用计算机能存取的任何可用介质。
以上所述的具体实施方式,对本公开的目的、技术方案和有益效果进行了进一步详细说明,所应理解的是,以上所述仅为本公开的具体实施方式而已,并不用于限定本公开的保护范围,凡在本公开的技术方案的基础之上, 所做的任何修改、等同替换、改进等,均应包括在本公开的保护范围之内。
本领域内的技术人员应明白,本公开实施例可提供为方法、系统、或计算机程序产品。因此,本公开实施例可采用完全硬件实施例、完全软件实施例、或结合软件和硬件方面的实施例的形式。而且,本公开实施例可采用在一个或多个其中包含有计算机可用程序代码的计算机可用存储介质(包括但不限于磁盘存储器、CD-ROM、光学存储器等)上实施的计算机程序产品的形式。
本公开实施例是参照根据本公开实施例的方法、设备(系统)、和计算机程序产品的流程图和/或方框图来描述的。应理解可由计算机程序指令实现流程图和/或方框图中的每一流程和/或方框、以及流程图和/或方框图中的流程和/或方框的结合。可提供这些计算机程序指令到通用计算机、专用计算机、嵌入式处理机或其他可编程数据处理设备的处理器以产生一个机器,使得通过计算机或其他可编程数据处理设备的处理器执行的指令产生用于实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的装置。
这些计算机程序指令也可存储在能引导计算机或其他可编程数据处理设备以特定方式工作的计算机可读存储器中,使得存储在该计算机可读存储器中的指令产生包括指令装置的制造品,该指令装置实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能。
这些计算机程序指令也可装载到计算机或其他可编程数据处理设备上,使得在计算机或其他可编程设备上执行一系列操作步骤以产生计算机实现的处理,从而在计算机或其他可编程设备上执行的指令提供用于实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的步骤。
显然,本领域的技术人员可以对本公开实施例进行各种改动和变型而不脱离本公开的精神和范围。这样,倘若本公开实施例的这些修改和变型属于本公开权利要求及其等同技术的范围之内,则本公开也意图包含这些改动和变型在内。

Claims (30)

  1. 一种处理方法,应用于终端,包括:
    获取第一信道状态信息上报配置;
    如果所述终端没有被指示需要监听持续时间的物理下行控制信道,则根据所述第一信道状态信息上报配置,上报信道状态信息。
  2. 根据权利要求1所述的方法,还包括:
    接收网络侧配置的第二信道状态信息上报配置;
    如果所述终端被指示需要监听持续时间的物理下行控制信道,则根据所述第二信道状态信息上报配置,上报信道状态信息。
  3. 根据权利要求1所述的方法,其中,如果所述终端被指示需要监听持续时间的物理下行控制信道,则根据所述第二信道状态信息上报配置,上报信道状态信息,包括:
    如果所述第二信道状态信息上报配置的上报时间在连接态非连续性接收的激活时间内,则根据所述第二信道状态信息上报配置,上报信道状态信息。
  4. 根据权利要求1所述的方法,其中,如果所述终端没有被指示需要监听持续时间的物理下行控制信道,则根据所述第一信道状态信息上报配置,上报信道状态信息,包括:
    如果所述第一信道状态信息上报配置的上报时间在连接态非连续性接收的激活时间之外,则根据所述第一信道状态信息上报配置,上报信道状态信息。
  5. 根据权利要求1所述的方法,其中,获取第一信道状态信息上报配置,包括:
    接收第一信令,所述第一信令指示网络侧配置的第一信道状态信息上报配置。
  6. 根据权利要求2所述的方法,其中,获取第一信道状态信息上报配置,包括:
    根据所述第二信道状态信息上报配置和关联规则,确定所述第一信道状态信息上报配置;其中,所述关联规则表示所述第一信道状态信息上报配置 与所述第二信道状态信息上报配置之间的对应关系,所述关联规则为协议定义的或者网络侧配置的。
  7. 根据权利要求6所述的方法,其中,所述关联规则包括以下一项或多项:
    所述第一信道状态信息的上报周期是所述第二信道状态信息的上报周期的N倍,所述N为正整数;
    所述第一信道状态信息上报量的类型。
  8. 根据权利要求1所述的方法,其中,所述第一信道状态信息上报配置包括以下一项或多项:
    第一参数,所述第一参数表示所述第一信道状态信息的上报周期;
    第二参数,所述第二参数表示所述第一信道状态信息上报量;
    第三参数,所述第三参数表示所述第一信道状态信息上报配置类型;
    第四参数,所述第四参数表示所述第一信道状态信息上报关联的参考信号资源。
  9. 根据权利要求2或8所述的方法,其中,所述第二信道状态信息上报配置包括以下一项或多项:
    第五参数,所述第五参数表示所述第二信道状态信息的上报周期;
    第六参数,所述第六参数表示所述第二信道状态信息上报量;
    第七参数,所述第七参数表示所述第二信道状态信息上报配置类型;
    第八参数,所述第八参数表示所述第二信道状态信息上报关联的参考信号资源。
  10. 根据权利要求9所述的方法,其中,
    所述第一信道状态信息的上报周期大于第二信道状态信息的上报周期;
    和/或,
    所述第一信道状态信息上报量的种类比第二信道状态信息上报量的种类少。
  11. 根据权利要求7或8所述的方法,其中,所述第一信道状态信息上报量包括以下一项或多项:
    信道状态信息参考信号资源指示的参考信号接收功率;
    同步信号块的参考信号接收功率。
  12. 一种处理方法,应用于网络设备,
    发送第一信令,或第一信道状态信息上报配置与第二信道状态信息上报配置之间的关联规则;
    其中,所述第一信令指示网络侧配置的第一信道状态信息上报配置;所述第一信道状态信息上报配置用于终端没有被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
  13. 根据权利要求12所述的方法,还包括:
    发送第二信道状态信息上报配置,所述第二信道状态信息上报配置用于所述终端被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
  14. 根据权利要求12所述的方法,其中,所述关联规则包括以下一项或多项:
    所述第一信道状态信息的上报周期是所述第二信道状态信息的上报周期的N倍,所述N为正整数;
    所述第一信道状态信息上报量的类型。
  15. 根据权利要求12所述的方法,其中,所述第一信道状态信息上报配置包括以下一项或多项:
    第一参数,所述第一参数表示所述第一信道状态信息的上报周期;
    第二参数,所述第二参数表示所述第一信道状态信息上报量;
    第三参数,所述第三参数表示所述第一信道状态信息上报配置类型;
    第四参数,所述第四参数表示所述第一信道状态信息上报关联的参考信号资源。
  16. 根据权利要求13或15所述的方法,其中,所述第二信道状态信息上报配置包括以下一项或多项:
    第五参数,所述第五参数表示所述第二信道状态信息的上报周期;
    第六参数,所述第六参数表示所述第二信道状态信息上报量;
    第七参数,所述第七参数表示所述第二信道状态信息上报配置类型;
    第八参数,所述第八参数表示所述第二信道状态信息上报关联的参考信 号资源。
  17. 根据权利要求16所述的方法,其中,
    所述第一信道状态信息的上报周期大于第二信道状态信息的上报周期;
    和/或,
    所述第一信道状态信息上报量的种类比第二信道状态信息上报量的种类少。
  18. 根据权利要求14、15或17所述的方法,其中,所述第一信道状态信息上报量包括以下一项或多项:
    信道状态信息参考信号资源指示的参考信号接收功率;
    同步信号块的参考信号接收功率。
  19. 一种处理方法,应用于终端,包括:
    接收节能信号,所述节能信号指示以下任一项:所述终端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听;
    根据所述节能信号,确定进行或不进行以下一项或多项:信道状态信息上报;物理下行控制信道监听。
  20. 根据权利要求19所述的方法,其中,
    所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收周期内,或者
    所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收持续时间之前。
  21. 根据权利要求19所述的方法,其中,在所述节能信号指示所述终端进行信道状态信息上报时,所述方法还包括:
    根据网络侧配置的第三信道状态信息上报配置进行所述信道状态信息上报。
  22. 一种处理方法,应用于网络设备,包括:
    发送节能信号,所述节能信号指示以下任一项:终端进行信道状态信息 上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听。
  23. 根据权利要求22所述的方法,其中,
    所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收周期内,或者
    所述信道状态信息上报时间在所述节能信号关联的连接态非连续性接收持续时间之前。
  24. 一种终端,包括:
    获取模块,用于获取第一信道状态信息上报配置;
    第一上报模块,用于如果所述终端没有被指示需要监听持续时间的物理下行控制信道,则根据所述第一信道状态信息上报配置,上报信道状态信息。
  25. 一种网络设备,包括:
    第一发送模块,用于发送第一信令,或第一信道状态信息上报配置与第二信道状态信息上报配置之间的关联规则;
    其中,所述第一信令指示网络侧配置的第一信道状态信息上报配置;所述第一信道状态信息上报配置用于终端没有被指示需要监听持续时间的物理下行控制信道时,上报信道状态信息。
  26. 一种终端,包括:
    第二接收模块,用于接收节能信号,所述节能信号指示以下任一项:所述终端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听;
    处理模块,用于根据所述节能信号,确定进行或不进行以下一项或多项:信道状态信息上报;物理下行控制信道监听。
  27. 一种网络设备,包括:
    第二发送模块,用于发送节能信号,所述节能信号指示以下任一项:终 端进行信道状态信息上报,不进行物理下行控制信道监听;所述终端进行信道状态信息上报和物理下行控制信道监听;所述终端不进行信道状态信息上报,进行物理下行控制信道监听;所述终端不进行信道状态信息上报,不进行物理下行控制信道监听。
  28. 一种终端,包括:处理器、存储器及存储在所述存储器上并可在所述处理器上运行的程序,所述程序被所述处理器执行时实现如权利要求1至11中任一项所述的处理方法的步骤,或者如权利要求19至21中任一项所述的处理方法的步骤。
  29. 一种网络设备,包括:处理器、存储器及存储在所述存储器上并可在所述处理器上运行的程序,所述程序被所述处理器执行时实现如权利要求12至18任一项所述的处理方法的步骤,或者如权利要求22至23任一项所述的处理方法的步骤。
  30. 一种计算机可读存储介质,其中,所述计算机可读存储介质上存储有计算机程序,所述计算机程序被处理器执行时实现如权利要求1至23中任一项所述的处理方法的步骤。
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