WO2020119412A1 - 信号接收方法、发送方法、终端和网络侧设备 - Google Patents

信号接收方法、发送方法、终端和网络侧设备 Download PDF

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Publication number
WO2020119412A1
WO2020119412A1 PCT/CN2019/119900 CN2019119900W WO2020119412A1 WO 2020119412 A1 WO2020119412 A1 WO 2020119412A1 CN 2019119900 W CN2019119900 W CN 2019119900W WO 2020119412 A1 WO2020119412 A1 WO 2020119412A1
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Prior art keywords
processing
power consumption
threshold
scheduling information
terminal
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PCT/CN2019/119900
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English (en)
French (fr)
Inventor
杨美英
王磊
王加庆
罗晨
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电信科学技术研究院有限公司
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Application filed by 电信科学技术研究院有限公司 filed Critical 电信科学技术研究院有限公司
Priority to US17/413,440 priority Critical patent/US20220078709A1/en
Priority to EP19894891.1A priority patent/EP3897043A4/en
Publication of WO2020119412A1 publication Critical patent/WO2020119412A1/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
    • H04W52/0209Power saving arrangements in terminal devices
    • H04W52/0212Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave
    • H04W52/0216Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave using a pre-established activity schedule, e.g. traffic indication frame
    • 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
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/26Power supply means, e.g. regulation thereof
    • G06F1/32Means for saving power
    • G06F1/3203Power management, i.e. event-based initiation of a power-saving mode
    • G06F1/3206Monitoring of events, devices or parameters that trigger a change in power modality
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/26Power supply means, e.g. regulation thereof
    • G06F1/32Means for saving power
    • G06F1/3203Power management, i.e. event-based initiation of a power-saving mode
    • G06F1/3234Power saving characterised by the action undertaken
    • G06F1/325Power saving in peripheral device
    • G06F1/3278Power saving in modem or I/O interface
    • 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
    • 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
    • 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
    • H04W52/0248Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal dependent on the time of the day, e.g. according to expected transmission activity
    • 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
    • H04W52/0251Power saving arrangements in terminal devices using monitoring of local events, e.g. events related to user activity
    • H04W52/0258Power saving arrangements in terminal devices using monitoring of local events, e.g. events related to user activity controlling an operation mode according to history or models of usage information, e.g. activity schedule or time of day
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • H04W72/044Wireless resource allocation based on the type of the allocated resource
    • H04W72/0446Resources in time domain, e.g. slots or frames
    • 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
    • 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
    • Y02D10/00Energy efficient computing, e.g. low power processors, power management or thermal management
    • 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 present disclosure relates to the field of communication technologies, and in particular, to a signal receiving method, a sending method, a terminal, and a network side device.
  • network-side devices can flexibly support time-domain resource configuration, for example: support multiple scheduling start positions S, symbol length L, physical downlink sharing The channel (Physical Downlink shared channel, PDSCH) sends a time slot (slot) and the physical downlink control channel (Physical Downlink control channel, PDCCH) sends the slot interval K0, the physical uplink shared channel (Physical uplink link shared channel, PUSCH) sends the slot and The slot interval K2 of the PDCCH transmission slot and so on.
  • the terminal after receiving the PDCCH, the terminal needs to buffer the PDSCH. Even when there is no PDSCH transmission, the buffer of the PDSCH needs to be buffered, resulting in a relatively high power consumption of the terminal.
  • Embodiments of the present disclosure provide a signal receiving method, a sending method, a terminal, and a network-side device to solve the problem of relatively high power consumption of the terminal.
  • An embodiment of the present disclosure provides a signal receiving method, including:
  • the terminal receives the instruction information and data scheduling information sent by the network side device;
  • the terminal enters the energy saving mode or enters the abnormal power consumption mode according to the instruction information, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the terminal When the data transmission time corresponding to the data scheduling information comes, the terminal performs data transmission according to the data scheduling information.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • the time scheduling information indicates that the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information, then whether to enter the energy saving mode or enter the power saving mode is determined according to the last time scheduling information Describe abnormal power consumption modes; or
  • the energy saving instruction enters the energy saving mode, or does not enter the normal power consumption mode, then enters the energy saving mode, or enters the abnormal power consumption mode; or
  • the power saving mode is not entered, or the normal power consumption mode is entered, or according to The time scheduling information corresponding to the data scheduling information determines whether to enter the energy saving mode, or whether to enter the abnormal power consumption mode; or
  • the energy saving instruction does not enter the energy saving mode, or enters the normal power consumption mode, then does not enter the energy saving mode, or enters the normal power consumption mode;
  • the processing capability of the terminal indicates that the processing time of the terminal is higher than the time domain interval, it does not enter the energy saving mode or enters the normal power consumption mode.
  • the processing capacity threshold includes at least one of the following:
  • Processing time capability threshold processing power consumption capability threshold, processing energy capability threshold
  • the processing capacity threshold includes the processing time capacity threshold
  • the power saving mode is entered, or the abnormal power consumption is entered Mode
  • the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is higher than the processing capacity threshold, then do not enter the energy-saving mode, or enter the normal Power consumption mode
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold
  • Enter the energy saving mode or enter the abnormal power consumption mode
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold, if the terminal’s
  • the power saving mode is not entered, or the normal power consumption mode is entered;
  • the processing power threshold includes the processing power consumption capacity threshold or the processing energy capacity threshold
  • the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the energy saving mode is not entered, or the normal power consumption mode is entered;
  • the processing capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold , Or when the processing capability of the terminal is not higher than the processing power consumption capability threshold and the processing energy capability threshold, enter the energy-saving mode, or enter the abnormal power consumption mode; and/or, in the processing The capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is higher than the processing power consumption capability threshold or the processing energy capability threshold, or the terminal When the processing capacity is higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the power saving mode is not entered, or the normal power consumption mode is entered;
  • the processing capacity threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold, Or when the processing capability of the terminal is higher than the processing power consumption capability threshold and the processing energy capability threshold, enter the energy saving mode, or enter the abnormal power consumption mode; and/or, at the processing capability threshold Including the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold, or the terminal’s When the processing capacity is not higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the power saving mode is not entered, or the normal power consumption mode is entered.
  • the instruction information includes:
  • the network side device obtains second indication information according to the first indication information reported by the terminal, and the first indication information and the second indication information are the same or different.
  • the indication information is used to indicate The terminal does not enter the energy saving mode or enters the normal power consumption mode, and the method further includes:
  • the terminal receives the reference signal
  • the indication information is used to instruct the terminal Enter the energy saving mode, or do not enter the normal power consumption mode.
  • the reference signal includes at least one of the following:
  • Channel state indication reference signal (Channel-state indication reference, CSI-RS), tracking reference signal (Tracking reference signal, TRS), broadcast synchronization signal.
  • CSI-RS Channel state indication reference signal
  • TRS tracking reference signal
  • entering the energy saving mode or entering the abnormal power consumption mode includes:
  • Said entering the energy saving mode or entering the abnormal power consumption mode includes:
  • the partial equipment includes at least one of the following:
  • Radio frequency receiving device radio frequency sending device, cache, baseband, and other related devices, wherein the other related devices are communication related devices other than the radio frequency receiving device, the radio frequency sending device, the cache, and the baseband .
  • the indication information is carried on a physical downlink control channel (Physical Downlink Control Channel, PDCCH), a physical downlink shared channel (Physical Downlink Shared Channel, PDSCH), a broadcast synchronization channel, or an energy-saving channel;
  • PDCCH Physical Downlink Control Channel
  • PDSCH Physical Downlink Shared Channel
  • broadcast synchronization channel or an energy-saving channel
  • the energy-saving channel is used to transmit energy-saving signals.
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are carried on the same downlink control information (Downlink control information, DCI); or
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are sent on different DCIs in the same time unit; or
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are sent on different time units, and the time unit of the time unit where the PDCCH carrying the indication information is located is earlier than the data scheduling The time domain position of the time unit where the PDCCH of the information is located.
  • the indication information is indicated by bits; or
  • the indication information is indicated by a scrambling code.
  • An embodiment of the present disclosure also provides a signal transmission method, including:
  • the network side device sends instruction information and data scheduling information to the terminal, where the instruction information is used to indicate whether the terminal enters the energy saving mode or enters the abnormal power consumption mode after receiving the data scheduling information, wherein, the Power consumption in abnormal power consumption mode is lower than normal power consumption mode;
  • the network side device performs data transmission according to the data scheduling information.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • the time scheduling information indication is used to instruct the terminal to follow the last time
  • the scheduling information determines whether to enter the energy-saving mode or whether to enter the abnormal power consumption mode
  • the energy saving instruction is used to instruct the terminal to enter the energy saving mode or enter the abnormal power consumption mode;
  • the time scheduling information is used to instruct the terminal to enter an energy saving mode or enter the abnormal power consumption mode according to the time scheduling information
  • the time domain interval indication is used to instruct the terminal to enter a power saving mode or enter the abnormal power consumption mode according to the time domain interval.
  • the time scheduling information indicates that the time scheduling information corresponding to the data scheduling information is different from the last time scheduling information
  • the time scheduling information is used to indicate that the terminal does not enter the energy saving mode, or Enter the normal power consumption mode, or the time scheduling information is used to instruct the terminal to decide whether to enter the energy saving mode or enter the abnormal power consumption mode according to the time scheduling information corresponding to the data scheduling information;
  • the energy saving instruction does not enter the energy saving mode, or enters the normal power consumption mode, the energy saving instruction is used to instruct the terminal not to enter the energy saving mode, or enter the normal power consumption mode; or
  • the time domain interval indication is used to instruct the terminal not to enter the energy saving mode or enter the normal power consumption mode.
  • the processing capacity threshold includes at least one of the following:
  • Processing time capability threshold processing power consumption capability threshold, processing energy capability threshold
  • the processing time capacity threshold when the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is not higher than the processing time capacity threshold, the processing time capacity threshold is used to indicate entering the energy saving mode , Or enter the abnormal power consumption mode; and/or, if the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is higher than the processing capacity threshold, then The processing time capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the processing power consumption capability threshold or the processing energy capability threshold is used to indicate entering an energy saving mode, or entering the abnormal power consumption mode; and/or, the processing power consumption threshold includes the processing power consumption capability
  • the processing power consumption capability threshold or the processing energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing power threshold includes the processing power consumption capacity threshold or the processing energy capacity threshold, if the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold, Then, the processing power consumption capability threshold or the processing energy capability threshold is used to indicate entering an energy saving mode or entering the abnormal power consumption mode; and/or, the processing power consumption threshold includes the processing power consumption capability threshold Or in the case of the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold, the processing power consumption capability threshold or the processing energy The capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold Or, when the processing capacity of the terminal is not higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the processing power consumption capacity threshold and the processing energy capacity threshold are used to indicate entering the energy saving mode, or Enter the abnormal power consumption mode; and/or, if the processing power threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing power of the terminal is higher than the processing power When the power consumption capability threshold or the processing energy capability threshold, or when the processing capability of the terminal is higher than the processing power consumption capability threshold and the processing energy capability threshold, the processing power consumption capability threshold and the processing The energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capacity threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold
  • the processing power consumption capability threshold and the processing energy capability threshold are used to indicate the entry into the energy saving mode, or the The abnormal power consumption mode; and/or, if the processing power threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing power of the terminal is not higher than the processing power
  • the processing power consumption capability threshold and the processing The energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode.
  • the instruction information includes:
  • the network side device obtains second indication information according to the first indication information reported by the terminal, and the first indication information and the second indication information are the same or different.
  • the indication information is used to indicate The terminal does not enter the energy saving mode or enters the normal power consumption mode, and the method further includes:
  • the network side device sends the reference signal
  • the indication information is used to instruct the terminal Enter the energy saving mode, or do not enter the normal power consumption mode.
  • the reference signal includes at least one of the following:
  • entering the energy saving mode or entering the abnormal power consumption mode includes:
  • Said entering the energy saving mode or entering the abnormal power consumption mode includes:
  • the partial equipment includes at least one of the following:
  • Radio frequency receiving device radio frequency sending device, cache, baseband, and other related devices, wherein the other related devices are communication related devices other than the radio frequency receiving device, the radio frequency sending device, the cache, and the baseband .
  • the indication information is carried on the PDCCH, PDSCH, broadcast synchronization channel or energy-saving channel;
  • the energy-saving channel is used to transmit energy-saving signals.
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are carried on the same downlink control information DCI; or
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are sent on different DCIs in the same time unit; or
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are sent on different time units, and the time unit of the time unit where the PDCCH carrying the indication information is located is earlier than the data scheduling The time domain position of the time unit where the PDCCH of the information is located.
  • the indication information is indicated by bits; or
  • the indication information is indicated by a scrambling code.
  • An embodiment of the present disclosure also provides a terminal, including:
  • the first receiving module is used to receive the indication information and data scheduling information sent by the network side device;
  • An entry module for entering an energy saving mode or an abnormal power consumption mode according to the instruction information, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transmission module is configured to perform data transmission according to the data scheduling information when the data transmission time corresponding to the data scheduling information comes.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • An embodiment of the present disclosure also provides a network side device, including:
  • the first sending module is used to send instruction information and data scheduling information to the terminal, where the instruction information is used to indicate whether the terminal enters the energy saving mode or enters the abnormal power consumption mode after receiving the data scheduling information, wherein, the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transmission module is used for data transmission according to the data scheduling information.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • An embodiment of the present disclosure also provides a terminal, including: a transceiver, a memory, a processor, and a program stored on the memory and executable on the processor,
  • the transceiver is used to receive the indication information and data scheduling information sent by the network side device;
  • the processor is configured to enter a power saving mode or an abnormal power consumption mode according to the instruction information, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transceiver is also used to perform data transmission according to the data scheduling information when the data transmission time corresponding to the data scheduling information arrives;
  • the transceiver is used to receive the indication information and data scheduling information sent by the network side device;
  • the transceiver is further configured to enter an energy saving mode or enter an abnormal power consumption mode according to the instruction information, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transceiver is also used to perform data transmission according to the data scheduling information when the data transmission time corresponding to the data scheduling information comes.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • An embodiment of the present disclosure also provides a network-side device, including: a transceiver, a memory, a processor, and a program stored on the memory and executable on the processor,
  • the transceiver is used to send instruction information and data scheduling information to the terminal, and the instruction information is used to indicate whether the terminal enters the energy-saving mode or enters the abnormal power consumption mode after receiving the data scheduling information, wherein, the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transceiver is also used for data transmission according to the data scheduling information.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • An embodiment of the present disclosure also provides a computer-readable storage medium on which a computer program is stored, which when executed by a processor implements the steps in the signal receiving method provided by the embodiment of the present disclosure, or when the program is executed by a processor The steps in the signal transmission method provided by the embodiments of the present disclosure are implemented.
  • the terminal receives the indication information and data scheduling information sent by the network side device; the terminal enters the energy saving mode or enters the abnormal power consumption mode according to the indication information, wherein, the abnormal power consumption mode The power consumption is lower than the normal power consumption mode; when the data transmission time corresponding to the data scheduling information comes, the terminal performs data transmission according to the data scheduling information. Since the terminal can enter the energy saving mode or the abnormal power consumption mode according to the above instruction information, the power consumption of the terminal can be reduced.
  • FIG. 1 is a schematic diagram of a network structure applicable to an embodiment of the present disclosure
  • FIG. 2 is a flowchart of a signal receiving method provided by an embodiment of the present disclosure
  • FIG. 3 is a flowchart of a signal transmission method provided by an embodiment of the present disclosure.
  • FIG. 4 is a structural diagram of a terminal provided by an embodiment of the present disclosure.
  • FIG. 5 is a structural diagram of another terminal provided by an embodiment of the present disclosure.
  • FIG. 6 is a structural diagram of a network-side device provided by an embodiment of the present disclosure.
  • FIG. 7 is a structural diagram of another network-side device provided by an embodiment of the present disclosure.
  • FIG. 8 is a structural diagram of another terminal provided by an embodiment of the present disclosure.
  • FIG. 9 is a structural diagram of another network-side device provided by an embodiment of the present disclosure.
  • FIG. 1 is a schematic diagram of a network structure applicable to an embodiment of the present disclosure.
  • the terminal 11 may be a user terminal (User Equipment, UE) or other terminals Devices, such as mobile phones, tablet computers (Tablet Personal Computer), laptop computers (Laptop Computer), personal digital assistants (personal digital assistants, PDAs), mobile Internet devices (Mobile Internet Devices (MID) or wearable devices (Wearable Devices) and other terminal-side devices, it should be noted that the specific types of terminals are not limited in the embodiments of the present disclosure.
  • the network-side device 12 may be a base station, such as a macro station, a Long Term Evolution (LTE) base station (evolved Node B, eNB), a fifth generation mobile communication technology (5th generation, 5G), and a new radio interface (New Radio, NR) ) Base station (Node B, NB), etc.; the network-side device can also be a small station, such as a low-power node (LPN), pico, femto, etc., or the network-side device can It is an access point (access point, AP); a base station may also be a network node composed of a central unit (central unit, CU) and multiple transmission and reception points (Transmission Reception Point, TRP) managed and controlled by it. It should be noted that the specific types of network-side devices are not limited in the embodiments of the present disclosure.
  • FIG. 2 is a flowchart of a signal receiving method according to an embodiment of the present disclosure. As shown in FIG. 2, the method includes the following steps:
  • the terminal receives instruction information and data scheduling information sent by the network side device;
  • the terminal enters an energy saving mode or an abnormal power consumption mode according to the instruction information, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the terminal When the data transmission time corresponding to the data scheduling information arrives, the terminal performs data transmission according to the data scheduling information.
  • the terminal may receive the foregoing indication information and data scheduling information through different messages, or different channels, or the same channel, or the same message.
  • the above indication information may indicate whether the terminal enters the energy-saving mode explicitly or implicitly, or whether the terminal enters the abnormal power consumption mode explicitly or implicitly, or whether the terminal enters the normal power consumption mode explicitly or implicitly.
  • the above data scheduling information may be used to schedule the terminal to transmit data, for example, PDCCH signal.
  • the data scheduling information may indicate or include information related to data transmission of the terminal, for example, time scheduling information or frequency domain information of the terminal.
  • the above energy saving mode may be a mode in which some devices are turned off, or a power saving mode such as a sleep mode
  • the above abnormal power consumption mode may be a mode in which the power consumption is lower than the normal power consumption mode
  • the normal power consumption mode may be The power consumption mode of the terminal for data reception, or the power consumption mode for data transmission, or the mode in which the devices that need to be used for data reception are all turned on or the mode in which the devices that are needed for data transmission are all turned on.
  • step 202 after receiving the data scheduling information, enter the energy-saving mode or enter the abnormal power consumption mode according to the instruction information, for example: enter the energy-saving mode or non-normal when the above instruction information meets certain conditions
  • the normal power consumption mode for example, when the indication information implicitly or explicitly indicates entering the power saving mode or the abnormal power consumption mode, enter the power saving mode or the abnormal power consumption mode. Or it may be that, according to the instruction information, it is decided to enter the power saving mode, or when entering the abnormal power consumption mode, enter the power saving mode, or enter the abnormal power consumption mode.
  • Step 203 may be that the terminal recovers from the energy saving mode or the abnormal power consumption mode, for example: entering the normal power consumption mode; or turning on the device turned off in the energy saving mode or the abnormal power consumption mode, so that the data transmission time comes At this time, data transmission is performed according to the data scheduling information.
  • the data transmission time may be the data transmission time indicated by the data scheduling information, for example: the data transmission time indicated by the time scheduling information of the data scheduling information.
  • the data transmission time may be the time indicated by the time scheduling information, or if the instruction information indicates time scheduling information, and the data scheduling information also indicates time scheduling information,
  • the above data transmission time may be the time indicated by one of the two time scheduling information, for example: the two time scheduling information is the same, you can choose one arbitrarily, if the two time scheduling information are different, Then the time scheduling information indicated above shall prevail.
  • the data transmission time may be a data transmission time or a data reception time
  • the data transmission according to the data scheduling information may be a resource (for example, time domain resource and/or frequency) indicated in the data scheduling information Domain resources), for example, data transmission according to data scheduling information, or data reception according to data scheduling information.
  • data transmission may be the transmission of data of a data channel, or may be the transmission of signals of other channels (for example: control signals of control channels), etc., which is not limited.
  • data transmission by the terminal may include:
  • the terminal receives the PDSCH signal or the reference signal;
  • the terminal sends a physical uplink shared channel (Physical Uplink Shared Channel, PUSCH) signal.
  • PUSCH Physical Uplink Shared Channel
  • the terminal may enter the energy saving mode or enter the abnormal power consumption mode, thereby reducing the power consumption of the terminal.
  • the terminal After receiving the data scheduling information, the terminal can turn off the radio frequency and the buffer, go to sleep, and wake up at the configured data or signal reception time to receive, thereby reducing the terminal between receiving data scheduling information and data transmission. Ineffectively reducing the power consumption of the radio frequency receiving device and/or radio frequency transmitting device and the cache.
  • the above indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • the above processing capacity threshold may include at least one numerical value of the processing capacity threshold; similarly, the numerical value of the above processing capacity threshold may be an absolute value, or may be a quantized absolute value, or may be a relative value, which may be a relative value
  • the offset value of the terminal processing capability may be the absolute value or the quantized absolute value, and the entry index value of the offset value relative to the terminal processing capability; where the index entry may be a network-side device and The terminal agrees that it may be configured by radio resource control (radio resource control, RRC).
  • RRC radio resource control
  • the time scheduling information corresponding to the data scheduling information may be the time scheduling information indicated by the data scheduling information, or the time scheduling information associated with the data scheduling information.
  • the previous time scheduling information may be time scheduling information corresponding to the data scheduling information that was received recently before receiving the data scheduling information.
  • the time scheduling information may also be referred to as a time resource, for example, the time scheduling information may be time domain resource allocation (Time Domain Resource Allocation, TDRA) information.
  • TDRA Time Domain Resource Allocation
  • Whether the time scheduling information corresponding to the data scheduling information is the same as the previous time scheduling information may also be referred to as whether the time resource corresponding to the data scheduling information is the same as the time resource of the previous time (or the last time).
  • the time scheduling information may include at least one of K0, K2, S, L, start and length indicator (SLIV); where K0 may be used for PDSCH Slot interval for sending slots and PDCCH, K2 can be used to indicate the slot interval for PUSCH to send slots and PDCCH to send slots, S can be used to indicate the position of the PDSCH or PUSCH starting to send the symbol in the slot, L can identify PDSCH or PUSCH Transmission time.
  • K0 may be used for PDSCH Slot interval for sending slots and PDCCH
  • K2 can be used to indicate the slot interval for PUSCH to send slots and PDCCH to send slots
  • S can be used to indicate the position of the PDSCH or PUSCH starting to send the symbol in the slot
  • L can identify PDSCH or PUSCH Transmission time.
  • whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information may be indicating whether the time scheduling information corresponding to the data scheduling information is partially the same as the last time scheduling information , Or all the same.
  • the above time scheduling information indication may be used to indicate that at least one of K0, K2, S, L, start, and SLIV in the above two time scheduling information is the same.
  • the content indicating the same may be configured through RRC, or may be agreed between the network-side device and the terminal.
  • the RRC configuration time scheduling information indication may be used to indicate whether K0 or K2 or S or L are the same.
  • the above time scheduling information indication may be an identifier, which indicates the same when the identifier is the first value, and indicates different when the identifier is the second value. For example, the identifier 1 indicates the same, and 0 indicates the different.
  • the above energy-saving indication may be an identifier, for example, when the indicator is one, it indicates that the energy-saving mode is entered, or does not enter the normal power consumption mode, and when the second indicator is the two, it indicates that the energy-saving mode is not entered, or enters the normal power consumption mode. It should be noted that, if the terminal is currently in the normal power consumption mode, entering the normal power consumption mode indicates that the mode of the terminal does not change.
  • the above time scheduling information may be the same time scheduling information corresponding to the data scheduling, and of course, may also be different time scheduling information.
  • the above time domain interval indication may be based on orthogonal frequency division multiplexing (Orthogonal Frequency Division Multiplexing, OFDM) symbols or single-carrier orthogonal frequency division multiplexing (Single-carrier Orthogonal Frequency Division Multiplexing, SC-OFDM) symbols as time granularity Numerical value; or it can be a numerical value with slot as the time granularity; it can be an absolute time, for example: seconds, milliseconds, microseconds as the numerical value of time granularity.
  • OFDM Orthogonal Frequency Division Multiplexing
  • SC-OFDM Single-carrier Orthogonal Frequency Division Multiplexing
  • the terminal can be implemented in various ways to indicate whether the terminal enters the energy saving mode or enters the abnormal power consumption mode. It should be noted that the above indication information may be sent dynamically, semi-statically or statically.
  • the time scheduling information indicates that the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information, then whether to enter the energy saving mode is determined according to the last time scheduling information, or Whether to enter the abnormal power consumption mode.
  • the time scheduling information can be used to indicate whether the current time scheduling information is the same as the above time scheduling information, so that after receiving the above data scheduling information, the terminal can directly determine whether to enter according to the previous time scheduling information Energy saving mode, or whether to enter the abnormal power consumption mode.
  • Energy saving mode or whether to enter the abnormal power consumption mode.
  • you can enter the energy-saving mode or enter the abnormal power consumption mode according to the K0, K2, or S of the last time scheduling information for example: when K0 is relatively large, or K2 is relatively large, you can enter the energy-saving mode, or enter The abnormal power consumption mode does not enter the energy-saving mode; otherwise, the starting position of S is at a higher symbol position, then the energy-saving mode can be entered, or the normal power consumption mode can be entered, otherwise, the energy-saving mode is not entered.
  • K0 is relatively large or K2 is relatively large, specifically, it may refer to a configuration in which K0 and K2 are not less than 1.
  • the energy saving instruction enters the energy saving mode, or does not enter the normal power consumption mode, then enters the energy saving mode, or enters the abnormal power consumption mode.
  • the energy saving indication may be configured by the network-side device according to the scheduled time scheduling information (for example: TDRA configuration) and the terminal's processing capability (or called actual processing capability). For example, taking the TDRA configuration as an example, if The starting position of S is at a lower symbol position.
  • TDRA configuration for example: TDRA configuration
  • actual processing capability for example, taking the TDRA configuration as an example, if The starting position of S is at a lower symbol position.
  • the terminal After receiving data scheduling information (for example, PDCCH), the terminal only needs to receive and buffer PDSCH/PUSCH for a short time, and if the terminal turns off the radio frequency receiving device and radio frequency sending device And cache, and the power consumption of the conversion after being turned on is greater than the power consumption of the time interval (gap) between the reception of the PDCCH and the start of receiving the PDSCH, then the network side device can be configured as a flag two to indicate not to enter Energy-saving mode, or enter normal power consumption mode; otherwise, the base station can be configured to indicate one to indicate entering energy-saving mode, or not entering normal power consumption mode.
  • data scheduling information for example, PDCCH
  • the terminal After receiving data scheduling information (for example, PDCCH), the terminal only needs to receive and buffer PDSCH/PUSCH for a short time, and if the terminal turns off the radio frequency receiving device and radio frequency sending device And cache, and the power consumption of the conversion after being turned on is greater than the power consumption of the time interval (gap) between the reception of
  • the base station can be configured to identify two to indicate not to enter the energy-saving mode, or to enter Normal power consumption mode; otherwise, the base station can be configured to indicate one to indicate entering energy-saving mode, or not entering normal power consumption mode; the process requires a longer processing time, specifically, it can be a relative value or an absolute value
  • the comparison may be that the processing time is greater than the average processing time, or that the processing time is greater than N time units.
  • the energy saving instruction can be used for direct instruction, thereby reducing complexity.
  • the power saving mode is entered according to the time scheduling information, or the abnormal power consumption mode is entered.
  • the foregoing entering the energy saving mode according to the time scheduling information, or entering the abnormal power consumption mode may be deciding whether to enter the energy saving mode or entering the abnormal power consumption mode according to the time scheduling information, or may be based on the K0, K2, or S of the time scheduling information enters the energy-saving mode, or enters the abnormal power consumption mode, for example: when K0 is relatively large, or K2 is relatively large, the energy-saving mode can be entered, or the abnormal power consumption can be entered Mode, conversely, do not enter energy-saving mode; or the starting position of S is at a higher symbol position, you can enter energy-saving mode, or enter the normal power consumption mode, otherwise, do not enter energy-saving mode.
  • the scheduling information of the decoded data may not be demodulated before entering the energy-saving mode to further reduce power consumption.
  • entering the energy-saving mode or entering the abnormal power consumption mode according to the time domain interval may be, if the time domain interval is greater than a preset threshold, then enter the energy-saving mode, or enter the abnormal power The power consumption mode, otherwise, does not enter the energy saving mode, or enter the normal power consumption mode. Or, it may be that, according to the processing capability of the terminal and the above-mentioned time domain interval, enter the energy saving mode or enter the abnormal power consumption mode, for example: if the processing capability of the terminal indicates that the processing time of the terminal is not higher than In the time domain interval, the power saving mode is entered, or the abnormal power consumption mode is entered.
  • the network-side device only needs to indicate the above-mentioned time domain interval, and then the terminal can enter the energy-saving mode or enter the abnormal power consumption mode, thereby reducing complexity.
  • the power saving mode is not entered, or the normal power consumption is entered Mode, or decide whether to enter the energy saving mode or enter the abnormal power consumption mode according to the time scheduling information corresponding to the data scheduling information; or
  • the energy saving instruction does not enter the energy saving mode, or enters the normal power consumption mode, then does not enter the energy saving mode, or enters the normal power consumption mode;
  • the processing capability of the terminal indicates that the processing time of the terminal is higher than the time domain interval, it does not enter the energy saving mode or enters the normal power consumption mode.
  • the above-mentioned time scheduling information corresponding to the data scheduling information determines whether to enter the energy-saving mode, or whether to enter the abnormal power consumption mode may be that, when the time scheduling information indicates different conditions, the terminal demodulates the data After the scheduling information, the time scheduling information corresponding to the data scheduling information is obtained, so as to decide whether to enter the energy saving mode or enter the abnormal power consumption mode according to the time scheduling information.
  • the terminal is currently in the normal power consumption mode, the above does not enter the energy-saving mode, or entering the normal power consumption mode may be that the terminal guarantees the normal power consumption mode.
  • the foregoing processing capability threshold includes at least one of the following:
  • Processing time capability threshold processing power consumption capability threshold, processing energy capability threshold
  • the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is not higher than the processing time capacity threshold, then enter the energy-saving mode, or enter the abnormal Power consumption mode; and/or, if the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is higher than the processing capacity threshold, it will not enter the energy-saving mode, or enter all Describe the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold
  • Enter the energy saving mode or enter the abnormal power consumption mode
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold, if the terminal’s
  • the power saving mode is not entered, or the normal power consumption mode is entered;
  • the processing power threshold includes the processing power consumption capacity threshold or the processing energy capacity threshold
  • the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the energy saving mode is not entered, or the normal power consumption mode is entered;
  • the processing capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold , Or when the processing capability of the terminal is not higher than the processing power consumption capability threshold and the processing energy capability threshold, enter the energy-saving mode, or enter the abnormal power consumption mode; and/or, in the processing The capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is higher than the processing power consumption capability threshold or the processing energy capability threshold, or the terminal When the processing capacity is higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the power saving mode is not entered, or the normal power consumption mode is entered;
  • the processing capacity threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold, Or when the processing capability of the terminal is higher than the processing power consumption capability threshold and the processing energy capability threshold, enter the energy saving mode, or enter the abnormal power consumption mode; and/or, at the processing capability threshold Including the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold, or the terminal’s When the processing capacity is not higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the power saving mode is not entered, or the normal power consumption mode is entered.
  • processing capabilities of the terminal may include but not limited to at least one of the following:
  • the ability to handle time the ability to handle power consumption, and the ability to handle energy.
  • the processing capability of the above-mentioned terminal may be a PDCCH-only processing capability, or may be a total PDCCH and other channel/signal processing capability, for example, may be a PDCCH+PDSCH processing capability, may It is the processing capacity of PDCCH + PUSCH, it can be the processing capacity of PDCCH + sounding reference signal (SRS), it can be the processing capacity of PDCCH + CSI-RS, it can be the processing capacity of PDCCH + TRS, it can be the processing capacity of PDCCH + synchronization signal Block (SynchronizationsignalBlock, SSB) processing capacity, and other channels or signals, no limitation on this;
  • SRS sounding reference signal
  • CSI-RS processing capacity of PDCCH + CSI-RS
  • PDCCH + TRS it can be the processing capacity of PDCCH + synchronization signal Block (SynchronizationsignalBlock, SSB) processing capacity, and other channels or signals, no limitation on this;
  • the processing capacity of the terminal may include at least one processing capacity value; the terminal may report at least one processing capacity value to the network-side device according to its processing capacity; specifically, when the terminal supports multiple processing capabilities, it may Configure multiple processing capabilities, one for low-speed data needs, one for mid-speed data needs, and three for high-speed data needs.
  • the low-speed data demand may be a business requirement with low time requirement.
  • the terminal may use a low-speed processor and its surrounding equipment to process signals/channels.
  • the high-speed data demand may be For business requirements with high time requirements, the terminal can use a high-speed processor and its surrounding equipment;
  • the numerical value of the processing capacity of the above terminal may be a quantized value of absolute processing, or may be absolute processing, or may be a relative value, or may be an offset value relative to the processing capacity of the terminal, or may be corresponding to absolute processing after quantization Index entry.
  • the index entry may be agreed upon by the network-side device and the terminal, may be configured by RRC, or may be configured by a medium access control-control unit (Medium access control-control element, MAC-CE).
  • the processing capability of the above-mentioned terminal may be reported by the terminal; or, it may be issued by the network-side device to the terminal and the terminal confirms the reply. Further, the processing capability of the terminal may be statically or semi-statically configured; or, it may be dynamically configured.
  • the above static/semi-static configuration may be configured through RRC signaling, or may be configured by MAC-CE, and the above dynamic configuration may be configured by DCI.
  • the above processing capacity threshold may include at least one processing capacity threshold value; similarly, the above processing capacity threshold value may be an absolute value, or may be an absolute value quantified value, or may be a relative value, may be relative to The offset value of the terminal processing capability, or may be the absolute value or the quantized absolute value, the entry index value relative to the offset value of the terminal processing capability; wherein, the index entry may be the network side device and the terminal Good agreement can be configured by RRC.
  • the above-mentioned processing capability threshold sent by the network side device may be statically, semi-statically configured, or may be dynamically configured.
  • the above-mentioned static, semi-static configuration can be configured through RRC signaling, can be configured through MAC-CE; and the above-mentioned dynamic configuration can be configured through DCI; or the above processing capacity threshold can be static, semi-static and Alternate dynamic configuration.
  • the network side equipment is scheduled for a period of time, and the configuration of TDRA can support the terminal to enter the energy saving mode (for example: turning off the radio frequency receiving device or the radio frequency transmitting device, and the buffered signal or buffered channel), so that the network side device can be static or semi-static Configure a processing capacity threshold one, so that the actual processing capacity of the terminal is always less than the processing capacity threshold one in the time range one, the terminal can enter the energy-saving mode, thereby reducing terminal power consumption; otherwise, the network side device can configure the processing capacity Threshold two, the actual processing capacity of the terminal is always greater than the processing capacity threshold two in the time range one, so that the terminal does not enter the energy-saving mode (for example: do not turn off the radio frequency receiving device and the radio frequency sending device, and buffer the signal or buffer the channel).
  • the energy saving mode for example: turning off the radio frequency receiving device or the radio frequency transmitting device, and the buffered signal or buffered channel
  • the network side device can be static or semi-static Configur
  • the configuration may change, then the network-side device may dynamically configure a processing capability threshold, if the terminal can enter the energy-saving mode, Then, the network-side device may configure a processing capacity threshold one, so that the actual processing capacity of the terminal is less than the processing capacity threshold one, so that the terminal enters the energy-saving mode; otherwise, if the terminal cannot enter the energy-saving mode, the processing capacity threshold configured by the network-side device Second, the actual processing capacity of the terminal is greater than the processing capacity threshold two, so that the terminal does not enter the energy-saving mode.
  • the above processing capability threshold includes at least one of the processing power consumption capability threshold and the processing energy capability threshold. There are two cases that can be configured according to different scenarios or terminal requirements .
  • the terminal can determine whether to enter the energy-saving mode according to the processing capacity, thereby avoiding the lack of processing power of the terminal and entering the energy-saving mode to cause data transmission errors, so as to improve the transmission performance of the terminal, and further reduce the function of the terminal.
  • the terminal's ability to handle power consumption or energy is relatively large, so that the terminal can be configured to enter an energy-saving mode to further reduce the terminal's power consumption.
  • the above indication information includes:
  • the network side device obtains second indication information according to the first indication information reported by the terminal, and the first indication information and the second indication information are the same or different.
  • obtaining the second indication information according to the first indication information may be the second indication information calculated according to the first indication information, for example: the second indication information is obtained through processing by a specific algorithm, and the algorithm may be a pre-protocol between the network side device and the terminal Okay, or it may be defined in the agreement, etc., which is not limited. For example, it may be an alpha filtering algorithm or an averaging algorithm.
  • the network-side device obtains the average value based on the reported first indication information and the historically reported first indication information, which is not specifically limited.
  • the terminal since the indication information is reported by the terminal or calculated based on the report of the terminal, the terminal can enter the energy-saving mode to better meet the needs of the terminal.
  • this is not limited, for example, the above indication information may also be directly configured by the network side device, for example, configured according to the processing capability of the terminal or data scheduling information.
  • the indication information is used to instruct the terminal not to enter the energy saving mode or enter the normal power consumption mode, and the method further includes:
  • the terminal receives the reference signal
  • the indication information is used to instruct the terminal Enter the energy saving mode, or do not enter the normal power consumption mode.
  • the above reference signal may include at least one of the following:
  • the above indication information indication may be an explicit indication, for example: the above indication information includes the energy saving indication described above, or the indication information indication may be an implicit indication, for example: the indication information includes the processing capability threshold described above , Time scheduling information indication, time scheduling information, or time domain interval indication.
  • the energy-saving mode is not entered, or the normal power consumption mode is entered, and the reference signal is received, thereby avoiding that the terminal cannot receive the reference signal and enters the energy-saving mode when the reference signal is not required to be transmitted.
  • Mode or enter the normal power consumption mode, so that the power consumption of the terminal can be reduced.
  • the step of entering the energy-saving mode or entering the abnormal power consumption mode includes:
  • Said entering the energy saving mode or entering the abnormal power consumption mode includes:
  • some of the above devices include but are not limited to at least one of the following:
  • Radio frequency receiving device radio frequency sending device, cache, baseband, and other related devices, wherein the other related devices are communication related devices other than the radio frequency receiving device, the radio frequency sending device, the cache, and the baseband .
  • the above-mentioned part of the device that turns off the terminal may be that the terminal turns off the radio frequency receiving device and/or the radio frequency sending device, and the buffer, does not send or receive signals/channels, and enters the sleep mode.
  • the above energy-saving mode or the above-mentioned abnormal power consumption mode may also be referred to as a sleep mode, where the sleep mode may be that the terminal does not send or receive data, and turns off some devices, for example, it may be radio frequency , The status of the baseband, or other related equipment components.
  • the sleep mode may include: deep sleep (deep sleep) mode, that is, most devices are turned off, such as: radio frequency, baseband, and only keep the basic clock; the above sleep mode may also include: light sleep (light sleep) mode , That is, turn off some devices, such as radio frequency, or part of radio frequency, part of baseband; the above sleep mode may also include: micro sleep (micro sleep) mode, in this mode the terminal can not turn off the device, or turn off the radio frequency receiving device, If data arrives, it can be turned on at any time, or very low delay (for example: ns level) to receive data/signal.
  • deep sleep deep sleep
  • light sleep light sleep
  • micro sleep micro sleep
  • the mode of the terminal may also be divided into: a low power mode (lower power mode), a mode adopting at least one energy-saving technology, and a normal power mode (normal power mode); wherein, the low power mode It may be a mode in which the terminal enters at least one sleep state (where the sleep state here may be the sleep description described above); and the above mode using at least one energy saving technology may be a mode in which the terminal uses energy saving technology, where In the disclosed embodiment, the energy saving technology is not limited, for example, it may be a technology that can save power consumption of the terminal, such as turning off the device or reducing the monitoring frequency.
  • the normal power consumption mode may be a power consumption state of the terminal when the terminal is not configured in the energy saving mode, or a mode in which the terminal is in a normal data/signal receiving state.
  • the indication information is carried on the PDCCH, PDSCH, broadcast synchronization channel, or power saving channel;
  • the energy-saving channel is used to transmit energy-saving signals (power saving signal).
  • the above energy-saving signal may be an existing signal, such as CSI-RS, TRS, SSB, or may be DCI, or may be a sequence, such as a wake-up signal.
  • the above-mentioned indication information can be transmitted in various ways.
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are carried on the same DCI; or
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are sent on different DCIs in the same time unit; or
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are sent on different time units, and the time unit of the time unit where the PDCCH carrying the indication information is located is earlier than the data scheduling The time domain position of the time unit where the PDCCH of the information is located.
  • the above indication information and the data scheduling information carried on the same DCI may be that the same DCI carries the two pieces of information, for example, the indication information is indicated by the scrambling code of the DCI, or may add bits in the DCI Bit to indicate the indication information.
  • the above time unit may be a slot or a subframe, etc., and the sending on the different DCIs may be carrying these two pieces of information through two different DCI allocations.
  • the same DCI or different DCI can be used to send the indication information and the data scheduling information on the same time unit or different time units, thereby achieving the effect of saving transmission resources.
  • the indication information is indicated by bits; or
  • the indication information is indicated by a scrambling code.
  • the above indication information may be carried on any channel, for example, on the PDCCH, PDSCH, broadcast synchronization channel, or energy-saving channel.
  • the indication of the indication information by bits may be to add bits to an existing signal to indicate the indication information, or a newly added signal to indicate the indication information.
  • the above scrambling code indicates that the indication information may be the scrambling code of the existing signal to indicate the above indication information, thereby saving transmission resources, for example, by scrambling in a radio network temporary identifier (RNTI) On DCI.
  • RNTI radio network temporary identifier
  • the processing capacity threshold may be indicated by bits. Specifically, the bits may be added to an existing DCI format; a new DCI may be added to indicate the location
  • the processing capacity threshold, the specific new DCI format may be a group-common DCI or a UE-specific DCI; further, the processing capacity threshold may be indicated by a scrambling code.
  • the scrambling code indication is added to the existing DCI format; the DCI format may be a UE-specific DCI format or a group-common DCI format; the scrambling code may be a defined RNTI agreed upon by the network side device and the terminal sequence;
  • the processing capacity threshold may be indicated by bits, specifically, a bit may be added to the power savings signal; the processing capacity threshold may be indicated by a scrambling code; the scrambling code , May be a defined RNTI sequence agreed upon by the network side device and the terminal.
  • the terminal receives the instruction information and data scheduling information sent by the network side device; after receiving the data scheduling information, the terminal enters the energy saving mode or enters the abnormal power consumption mode according to the instruction information, wherein , The power consumption of the abnormal power consumption mode is lower than the normal power consumption mode; when the data transmission time corresponding to the data scheduling information comes, the terminal performs data transmission according to the data scheduling information. Since the terminal can enter the energy saving mode or the abnormal power consumption mode according to the above instruction information, the power consumption of the terminal can be reduced. In addition, in the embodiments of the present disclosure, since the terminal does not need to report time scheduling information (for example: TDRA), the scheduling of the network side device retains flexibility without causing additional fragmentation and waste of system resources to save resources.
  • time scheduling information for example: TDRA
  • FIG. 3 is a flowchart of a signal transmission method provided by an embodiment of the present disclosure. As shown in FIG. 3, the method includes the following steps:
  • the network-side device sends instruction information and data scheduling information to the terminal.
  • the instruction information is used to indicate whether the terminal enters the energy saving mode or enters the abnormal power consumption mode after receiving the data scheduling information, where, The power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the network side device performs data transmission according to the data scheduling information.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • the time scheduling information indication is used to instruct the terminal to follow the last time
  • the scheduling information determines whether to enter the energy-saving mode or whether to enter the abnormal power consumption mode
  • the energy saving instruction is used to instruct the terminal to enter the energy saving mode or enter the abnormal power consumption mode;
  • the time scheduling information is used to instruct the terminal to enter an energy saving mode or enter the abnormal power consumption mode according to the time scheduling information
  • the time domain interval indication is used to instruct the terminal to enter a power saving mode or enter the abnormal power consumption mode according to the time domain interval.
  • the time scheduling information indicates that the time scheduling information corresponding to the data scheduling information is different from the last time scheduling information
  • the time scheduling information is used to indicate that the terminal does not enter the energy saving mode, or Enter the normal power consumption mode, or the time scheduling information is used to instruct the terminal to decide whether to enter the energy saving mode or enter the abnormal power consumption mode according to the time scheduling information corresponding to the data scheduling information;
  • the energy saving instruction does not enter the energy saving mode, or enters the normal power consumption mode, the energy saving instruction is used to instruct the terminal not to enter the energy saving mode, or enter the normal power consumption mode; or
  • the time domain interval indication is used to instruct the terminal not to enter the energy saving mode or enter the normal power consumption mode.
  • the processing capacity threshold includes at least one of the following:
  • Processing time capability threshold processing power consumption capability threshold, processing energy capability threshold
  • the processing time capacity threshold when the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is not higher than the processing time capacity threshold, the processing time capacity threshold is used to indicate entering the energy saving mode , Or enter the abnormal power consumption mode; and/or, if the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is higher than the processing capacity threshold, then The processing time capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the processing power consumption capability threshold or the processing energy capability threshold is used to indicate entering an energy saving mode, or entering the abnormal power consumption mode; and/or, the processing power consumption threshold includes the processing power consumption capability
  • the processing power consumption capability threshold or the processing energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing power threshold includes the processing power consumption capacity threshold or the processing energy capacity threshold, if the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold, Then, the processing power consumption capability threshold or the processing energy capability threshold is used to indicate entering an energy saving mode or entering the abnormal power consumption mode; and/or, the processing power consumption threshold includes the processing power consumption capability threshold Or in the case of the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold, the processing power consumption capability threshold or the processing energy The capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold Or, when the processing capacity of the terminal is not higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the processing power consumption capacity threshold and the processing energy capacity threshold are used to indicate entering the energy saving mode, or Enter the abnormal power consumption mode; and/or, if the processing power threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing power of the terminal is higher than the processing power When the power consumption capability threshold or the processing energy capability threshold, or when the processing capability of the terminal is higher than the processing power consumption capability threshold and the processing energy capability threshold, the processing power consumption capability threshold and the processing The energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capacity threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold
  • the processing power consumption capability threshold and the processing energy capability threshold are used to indicate the entry into the energy saving mode, or the The abnormal power consumption mode; and/or, if the processing power threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing power of the terminal is not higher than the processing power
  • the processing power consumption capability threshold and the processing The energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode.
  • the instruction information includes:
  • the network side device obtains second indication information according to the first indication information reported by the terminal, and the first indication information and the second indication information are the same or different.
  • the indication information is used to indicate The terminal does not enter the energy saving mode or enters the normal power consumption mode, and the method further includes:
  • the network side device sends the reference signal
  • the indication information is used to instruct the terminal Enter the energy saving mode, or do not enter the normal power consumption mode.
  • the reference signal includes at least one of the following:
  • entering the energy saving mode or entering the abnormal power consumption mode includes:
  • Said entering the energy saving mode or entering the abnormal power consumption mode includes:
  • the partial equipment includes at least one of the following:
  • Radio frequency receiving device radio frequency sending device, cache, baseband, and other related devices, wherein the other related devices are communication related devices other than the radio frequency receiving device, the radio frequency sending device, the cache, and the baseband .
  • the indication information is carried on the PDCCH, PDSCH, broadcast synchronization channel or energy-saving channel;
  • the energy-saving channel is used to transmit energy-saving signals.
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are carried on the same downlink control information DCI; or
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are sent on different DCIs in the same time unit; or
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are sent on different time units, and the time unit of the time unit where the PDCCH carrying the indication information is located is earlier than the data scheduling The time domain position of the time unit where the PDCCH of the information is located.
  • the indication information is indicated by bits; or
  • the indication information is indicated by a scrambling code.
  • this embodiment is an implementation of the network-side device corresponding to the embodiment shown in FIG. 2.
  • this embodiment will not go into details, and the same beneficial effects can also be achieved.
  • the indication information is processing capacity threshold, energy saving indication, time scheduling information indication, time scheduling information, or time domain interval indication
  • the data scheduling information is PDCCH
  • the network side device is a base station
  • the terminal is a UE.
  • the base station configures the threshold of processing capability
  • Step 1 The base station acquires the processing capability of the terminal.
  • the processing capability of the terminal includes at least one of the following processing capabilities, which may be the processing time capability, the power consumption processing capability, or the energy processing capability; otherwise, the embodiments of the present disclosure do not Make a limit
  • the processing capability of the terminal may be a PDCCH-only processing capability, a PDCCH and other channel/signal sum processing capability, specifically, a PDCCH+PDSCH processing capability, or a PDCCH+PUSCH processing capability
  • the processing capacity can be the processing capacity of PDCCH+SRS, the processing capacity of PDCCH+CSI-RS, the processing capacity of PDCCH+TRS, the processing capacity of PDCCH+SSB, other channels or signals. Examples are not limited;
  • the processing capability of the terminal includes at least one value of processing capability; the terminal can report at least one processing capability value to the base station according to its processing capability; specifically, when the terminal supports multiple processing capabilities, multiple processing capabilities can be configured, Processing capacity when dealing with low-speed data needs.
  • First processing ability when processing medium-speed data demands.
  • Second processing ability when processing high-speed data demands.
  • Third, the low-speed data demand can be a business that does not require much time.
  • the UE can use a low-speed processor and its surrounding equipment to process signals/channels.
  • the high-speed data demand can be a business requirement with high time requirements.
  • the UE can use a high-speed processor and its surrounding equipment ;
  • the value of the processing capability of the terminal may be a quantized value of absolute processing, absolute processing, or a relative value, and an offset value relative to the processing capability of the UE may be an index entry corresponding to absolute processing and quantization;
  • the index entry can be agreed between the base station and the terminal, or can be configured by RRC;
  • the processing capability of the terminal may be reported by the terminal; it may be issued by the base station to the terminal and the terminal confirms the reply;
  • the processing capability of the terminal may be static or semi-statically configured; it may be dynamically configured; the static/semi-static configuration may be configured through RRC signaling, or may be configured by MAC-CE; the dynamic Configuration can be DCI configuration.
  • Step 2 The base station configures the processing capacity threshold.
  • the processing capability threshold may include at least one of the following processing capabilities, which may be a processing time capability threshold, may be a power consumption capability threshold, or may be an energy capability threshold; otherwise, the present disclosure is implemented Examples are not limited;
  • the processing capacity threshold specifically, includes at least one processing capacity threshold value; the processing capacity threshold value may be an absolute value, may be an absolute value quantified value, may be a relative value, relative to the UE processing capacity
  • the offset value may be the absolute value, the absolute value of the quantized value, and the entry index value of the offset value relative to the processing capacity of the UE; the index entry may be agreed between the base station and the terminal, or may be RRC Configured
  • the base station configuration processing capability threshold may be static, semi-statically configured, or dynamically configured; the static, semi-statically configured, may be configured through RRC signaling, or may be configured through MAC-CE;
  • the dynamic configuration may be configured through DCI; it may be static, semi-static, and dynamic configuration alternate;
  • the base station configuration processing capability threshold may be reported by the UE to the base station, the base station may be configured according to the threshold reported by the UE, or may be an identifier configured by the base station based on the reported threshold as input and processed by the base station. , The identifier may be directly configured according to the reported threshold value of the UE, or may be obtained by the base station averaging the reported threshold value and the historically reported threshold value.
  • the TDRA configuration can support the terminal to turn off the radio frequency receiving device or the radio frequency transmitting device, and buffer the signal/channel.
  • the base station can configure a processing capability threshold of one statically or semi-statically, so that the terminal’s actual Processing is always less than the processing capacity threshold one in the time range one, the terminal can turn off the radio frequency receiving device or radio frequency transmitting device, and buffer the signal/channel, thereby reducing UE power consumption; otherwise, the processing capacity threshold configured by the base station is two, The actual processing of the terminal is always greater than the processing capacity threshold two in the time range one, so that the terminal does not turn off the radio frequency transceiver and buffer the signal/channel;
  • the base station can dynamically configure a processing capability threshold, if the terminal can turn off If the radio frequency receiving device or radio frequency transmitting device is switched off and the buffered signal/channel is entered into the sleep mode, the base station configures a processing capability threshold of one, so that the actual processing of the terminal is less than the processing capability threshold of one, so that the UE turns off the radio frequency receiving device or radio frequency
  • the processing capacity threshold configured by the base station is two, and the actual processing of the terminal is greater than the processing Capability threshold two, so that the UE does not turn off the radio frequency receiving device or radio frequency transmitting device, and the buffered signal/channel enters the sleep
  • the base station can configure a processing capability threshold so that the UE does not turn off radio frequency transceiver or buffer channels/signals; specifically, the CSI-RS, TRS, and SSB (broadcast synchronization channel) can be acyclically configured or cyclically configured; when there is no CSI-RS, TRS, or SSB transmission, the UE can configure a processing capability threshold of one.
  • the base station configures the processing capability threshold of the UE as the processing capability threshold two.
  • the terminal turns off the radio frequency receiving device or the radio frequency sending device, and the buffer, and does not perform signal/channel transmission and reception, and can enter the sleep mode.
  • the sleep mode may be that the UE does not send or receive data, and turns off some devices.
  • the device may be a state of radio frequency, baseband, or other related device components.
  • the UE in deep sleep mode, the UE turns off most devices, such as radio frequency and baseband, and only keeps the basic clock; in light sleep mode, the UE turns off some devices, such as radio frequency, or part of radio frequency, and part of baseband ; Micro sleep mode, the UE does not turn off the device, or turn off the RF receiving device, if data arrives, it can be at any time, or a very low delay, for example, nanosecond (ns) level, open to receive data/signal .
  • ns nanosecond
  • the different modes that the UE can divide are: low power mode (lower power mode), energy saving mode (power efficient mode), normal power mode (normal power mode); where the low power mode can be entered by the UE At least one sleep mode; the energy-saving mode can be a mode in which the UE adopts at least one energy-saving technology; the normal power consumption mode can be the power consumption state of the UE without the energy-saving mode configured by the UE, or the normal data of the UE/ Mode in signal receiving state.
  • Step 3 The base station sends the processing capability threshold.
  • the processing capability threshold can be carried on the PDCCH channel and dynamically indicated by DCI; it can be carried on the PDSCH channel and indicated by RRC signaling; it can be carried on the broadcast synchronization channel and indicated by RRC signaling; the other carries RRC information
  • the signal/channel of the order is not limited in the embodiment of the present disclosure; it can be carried in a power saving channel, which is semi-statically or dynamically indicated by power saving signaling.
  • the power saving signal may be an existing signal, such as CSI-RS, TRS, and SSB may be DCI, or may be a sequence, such as a wake-up signal.
  • the PDCCH channel bearer can indicate the processing capacity threshold by bits. Specifically, bits can be added to the existing DCI format; a new DCI format can be added to indicate the processing capacity threshold, specifically new
  • the DCI format may be a group-common DCI or a UE-specific DCI; further, the processing capability threshold may be indicated by a scrambling code. Specifically, it may be in an existing DCI format Add scrambling code indication; the DCI format may be a UE-specific DCI format or a group-common DCI format; the scrambling code may be a defined RNTI sequence agreed between the base station and the UE;
  • the power saving channel bearer may indicate the processing capacity threshold by bits. Specifically, a bit may be added to the power savings signal; the processing power threshold may be indicated by a scrambling code; the scrambling code may be Defined RNTI sequence agreed between the base station and the UE;
  • the RNTI may be a hexadecimal sequence from 0 to 65535.
  • Step 4 The base station sends the PDCCH.
  • the PDCCH is used to indicate the time scheduling information of the terminal.
  • the base station sends the PDCCH and the processing capacity threshold; if the processing capacity threshold is carried on the same DCI as the terminal data scheduling, for example, the processing capacity threshold is scrambled on the DCI in the manner of RNTI scrambling, or Yes, the processing capacity threshold is carried on the same slot as the terminal data scheduling and sending, for example, the processing capacity threshold is carried on different DCIs in the same slot, or is carried on the same slot in the manner of RNTI scrambling On different DCIs, the base station can send the PDCCH and the processing capability threshold.
  • Step 5 The base station sends CSI-RS, TRS, SSB or PDSCH, or receives PUSCH.
  • the PDSCH or PUSCH may be sent or received according to the PDCCH time scheduling information described in step 4.
  • the CSI-RS or TRS and SSB may be sent according to the PDCCH scheduling or trigger identifier described in step 4.
  • the base station configures whether the terminal turns off the radio frequency receiving device or the radio frequency sending device, and the identifier of the buffered signal/channel, where the above energy-saving indicator may be the identifier.
  • Step 1 The base station configures the terminal to turn off the radio frequency receiving device or the radio frequency sending device, and buffers the signal/channel identification.
  • the terminal turns off the radio frequency receiving device or radio frequency sending device, and the identifier of the buffered signal/channel. If the identifier is configured as one, the UE turns off the radio frequency receiving device or radio frequency sending device, and the buffered signal/channel; if all If the identification is configured as identification two, the UE does not turn off the radio frequency receiving device or the radio frequency sending device, and the buffered signal/channel.
  • the base station is configured to turn off the radio frequency receiving device or the radio frequency sending device, and the identifier of the buffered signal/channel may be reported by the UE to the base station, the base station may input the identifier according to the UE, or the base station may input the identifier according to the reported identifier, and pass the base station The identifier configured after the algorithm is processed.
  • the base station may determine the configuration identification one or two according to the scheduled TDRA configuration and the actual processing capability of the UE; the processing capability of the terminal includes at least one of the following processing capabilities, time processing capability, and processing
  • the power consumption capability and the processing energy consumption capability are not limited by other embodiments of the present disclosure.
  • the base station can be configured as identification two; otherwise, the base station can Configure to identify one;
  • the base station can be configured as identification two; otherwise, it can be configured as identification one;
  • the long processing time may specifically be a relative value or an absolute value comparison.
  • the processing time may be greater than the average processing time, or the processing time may be greater than N time units.
  • the base station can configure the identifier so that the UE does not turn off radio frequency transceiver or buffer channels/signals; specifically, the above CSI -RS, TRS, SSB can be acyclically configured, can be periodically configured; when there is no CSI-RS, TRS, SSB transmission, the UE can configure the identifier as the identifier one, when CSI-RS, TRS, SSB When sending is needed, the base station configures the identifier of the UE as the identifier two.
  • the terminal turns off the radio frequency receiving device or radio frequency sending device, and the buffer, and does not perform signal/channel transmission and reception, and can enter the sleep mode.
  • the sleep mode may be that the UE does not send or receive data, and turns off some devices.
  • the device may be a state of radio frequency, baseband, or other related device components.
  • the UE turns off most devices, such as radio frequency and baseband, and only keeps the basic clock; in light sleep mode, the UE turns off some devices, such as radio frequency, or part of radio frequency, and part of baseband ; Micro sleep mode, the UE does not turn off the device, or turn off the radio frequency receiving device, if data arrives, it can be at any time, or a very low delay, for example, ns level, open to receive data/signal.
  • the different modes that the UE can divide are: low power mode (lower power mode), energy saving mode (power efficient mode), normal power mode (normal power mode); where the low power mode can be entered by the UE At least one sleep mode; the energy-saving mode can be a mode in which the UE uses at least one energy-saving technology; the normal power consumption mode can be the power consumption state of the UE when the UE is not configured in the energy-saving mode, or the UE is in normal data/ Mode in signal receiving state.
  • Step 2 The base station sends the identifier described in step 1
  • the identifier described in step 1 can be carried on the PDCCH channel and dynamically indicated by DCI; it can be carried on the PDSCH channel and indicated by RRC signaling or MAC-CE; it can be carried on the broadcast synchronization channel and indicated by RRC signaling; other bearers
  • the signal/channel of the RRC signaling is not limited in the embodiments of the present disclosure; it can be carried in the power saving channel, which is semi-static or dynamic indication through power saving signaling;
  • the power saving signal may be an existing signal, such as CSI-RS, TRS, SSB, may be DCI, or may be a sequence, such as wake-up signal.
  • the PDCCH channel bearer can indicate the processing capacity threshold by bits. Specifically, bits can be added to the existing DCI format; a new DCI format can be added to indicate the processing capacity threshold, specifically new
  • the DCI format can be group-common DCI or UE-specific DCI; further, the processing capacity threshold can be indicated by a scrambling code. Specifically, a scrambling code indication can be added to the existing DCI format;
  • the DCI format may be a UE-specific DCI format or a group-common DCI format; the scrambling code may be a defined RNTI sequence agreed between the base station and the UE;
  • the power saving channel bearer may indicate the processing capacity threshold by bits. Specifically, a bit may be added to the power savings signal; the processing power threshold may be indicated by a scrambling code; the scrambling code may be Defined RNTI sequence agreed between the base station and the UE;
  • the RNTI may be a hexadecimal sequence from 0 to 65535.
  • Step 3 The base station sends the PDCCH.
  • the PDCCH is used to indicate the time scheduling information of the terminal.
  • the base station sends the PDCCH and the identifier described in step 1; if the identifier carried in step 1 is carried on the same DCI as the data scheduling of the terminal, for example, the processing capability threshold is scrambled on the DCI by RNTI, or Yes, the identifier mentioned in step 1 is carried on the same slot as the terminal data scheduling and transmission. For example, the identifier mentioned in step 1 is carried on different DCI in the same slot, or it is carried on the same slot in the manner of RNTI scrambling On different DCIs, the base station can send the PDCCH and the identifier.
  • Step 4 The base station sends CSI-RS, TRS, SSB, PDSCH, or receives PUSCH.
  • the PDSCH, or PUSCH is sent or received according to the PDCCH time scheduling information described in step 4.
  • the CSI-RS, TRS, and SSB are sent according to the PDCCH scheduling or trigger identifier described in step 4.
  • the base station configures an identifier of whether the scheduled time resource is the same as the latest time resource, for example: the above time scheduling information indication.
  • Step 1 The base station configures whether the scheduled time resource is the same as the last time resource
  • the time resource may include at least one of K0, K2, S, L, and SLIV; K0 or K2 is used to indicate the slot interval of the PDSCH or PUSCH transmission slot and PDCCH transmission slot; S is used to indicate the PDSCH or PUSCH start transmission The position of the symbol in the slot; L identifies the PDSCH or PUSCH transmission duration.
  • the identifier of whether the time resource configured by the base station is the same as the last time resource may be reported by the UE to the base station, the base station may input the identifier according to the UE, or the base station may input the identifier according to the reported identifier, and process the base station algorithm The configured ID.
  • the time resources are the same, and at least one of K0, K2, S, L, and SLIV may be the same. Specifically, it can be configured through RRC; it can also be agreed between the base station and the terminal.
  • Step 2 The base station sends the identifier described in step 1
  • step 2 in Embodiment 2 is the same as step 2 in Embodiment 2, and details are not described here.
  • Step 3 In Step 3, the base station sends the PDCCH.
  • step 3 in Embodiment 2 is the same as step 3 in Embodiment 2, and details are not described here.
  • Step 4 The base station sends CSI-RS, TRS, SSB, PDSCH, or receives PUSCH.
  • Step 4 in Implementation 2 is the same as Step 4 in Implementation 2, and is not repeated here.
  • the base station configures TDRA, for example: the above time scheduling information.
  • Step 1 The base station configures TDRA information. specific:
  • the information of the TDRA may include at least one of K0, K2, S, L, and SLIV.
  • K0 or K2 is used to indicate the slot interval of the PDSCH or PUSCH transmission slot and PDCCH transmission slot;
  • S is used to indicate the start of the PDSCH or PUSCH The position of the symbol in the sent slot;
  • L indicates the transmission duration of the PDSCH or PUSCH.
  • the TDRA configuration information of the base station may be reported by the UE to the base station, the base station may report the TDRA information according to the UE, or may be the TDRA information configured by the base station based on the reported TDRA information and processed by the base station algorithm.
  • Step 2 The base station sends the TDRA information described in Step 1
  • step 2 in Embodiment 2 is the same as step 2 in Embodiment 2, and details are not described here.
  • Step 3 The base station sends the PDCCH.
  • step 3 in Embodiment 2 is the same as step 3 in Embodiment 2, and details are not described here.
  • the TDRA information carried by the PDCCH in step 3 and the TDRA information configuration in step 2 are the same; if the UE receives the TDRA information and steps indicated by the PDCCH If the TDRA information configuration described in 2 is different, the UE receives the TDRA information described in step 2.
  • Step 4 The base station sends CSI-RS, TRS, SSB, PDSCH, or receives PUSCH.
  • Step 4 in Implementation 2 is the same as Step 4 in Implementation 2, and is not repeated here.
  • the base station configures a time-domain gap between PDCCH reception and PDSCH reception, for example, the above-mentioned time-domain interval indication.
  • Step 1 The base station configures the time-domain gap between the PDCCH reception and the PDSCH reception.
  • the time-domain gap between the PDCCH reception and the PDSCH reception may be the time-domain gap between the PDCCH reception and the PDSCH start reception; the time-domain gap between the PDCCH reception end and the PDSCH start reception;
  • the gap in the time domain may be a value with OFDM symbol or SC-OFDM symbol as time granularity; it may be a value with slot as time granularity; it may be an absolute time, for example, seconds, milliseconds, microseconds as time granularity Value.
  • the base station configures the time-domain gap between the PDCCH reception and the PDSCH reception, which may be reported by the UE to the base station.
  • the base station may use the time-domain gap information reported by the UE, or the base station may use the reported gap information as input and process it through the base station algorithm. After the gap value.
  • Step 2 The base station sends the time-domain gap described in Step 1
  • step 2 in Embodiment 2 is the same as step 2 in Embodiment 2, and details are not described here.
  • Step 3 In Step 3, the base station sends the PDCCH.
  • step 3 in Embodiment 2 is the same as step 3 in Embodiment 2, and details are not described here.
  • Step 4 The base station sends CSI-RS, TRS, SSB, PDSCH, or receives PUSCH.
  • Step 4 in Implementation 2 is the same as Step 4 in Implementation 2, and is not repeated here.
  • the terminal receives a threshold of processing capability
  • Step 1 The terminal reports processing capabilities.
  • the processing capability of the terminal includes at least one of the following processing capabilities, which may be the processing time capability, the power consumption processing capability, or the energy processing capability; otherwise, the embodiments of the present disclosure do not Make a limit
  • the processing capability of the terminal may be a PDCCH-only processing capability, a PDCCH and other channel/signal sum processing capability, specifically, a PDCCH+PDSCH processing capability, or a PDCCH+PUSCH processing capability
  • the processing capacity can be the processing capacity of PDCCH+SRS, the processing capacity of PDCCH+CSI-RS, the processing capacity of PDCCH+TRS, the processing capacity of PDCCH+SSB, other channels or signals. Examples are not limited;
  • the processing capability of the terminal includes at least one value of processing capability; the terminal can report at least one processing capability value to the base station according to its processing capability; specifically, when the terminal supports multiple processing capabilities, multiple processing capabilities can be configured, Processing capacity when dealing with low-speed data needs.
  • First processing ability when processing medium-speed data demands.
  • Second processing ability when processing high-speed data demands.
  • Third, the low-speed data demand can be a business that does not require much time.
  • the UE can use a low-speed processor and its surrounding equipment to process signals/channels.
  • the high-speed data demand can be a business requirement with high time requirements.
  • the UE can use a high-speed processor and its surrounding equipment ;
  • the value of the processing capability of the terminal may be a quantized value of absolute processing, absolute processing, or a relative value, and an offset value relative to the processing capability of the UE may be an index entry corresponding to absolute processing and quantization;
  • the index entry can be agreed between the base station and the terminal, or can be configured by RRC;
  • the processing capability of the terminal may be reported by the terminal; it may be issued by the base station to the terminal and the terminal confirms the reply;
  • the processing capability of the terminal may be static or semi-statically configured; it may be dynamically configured; the static/semi-static configuration may be configured through RRC signaling, or may be configured by MAC-CE; the dynamic Configuration can be DCI configuration.
  • Step 2 The terminal receives the processing capability threshold.
  • the processing capability threshold may include at least one of the following processing capabilities, which may be a processing time capability threshold, may be a power consumption capability threshold, or may be an energy capability threshold; otherwise, the present disclosure is implemented Examples are not limited;
  • the processing capacity threshold specifically, includes at least one processing capacity threshold value; the processing capacity threshold value may be an absolute value, may be an absolute value quantified value, may be a relative value, relative to the UE processing capacity
  • the offset value may be the absolute value, the absolute value of the quantized value, and the entry index value of the offset value relative to the processing capacity of the UE; the index entry may be agreed between the base station and the terminal, or may be RRC Configured
  • the threshold of the processing capability received by the terminal may be static, semi-statically received, or dynamically received; the static, semi-statically configured, may be configured through RRC signaling, or may be configured through MAC-CE
  • the dynamic configuration can be configured through DCI; it can be static, semi-static, and dynamic configuration alternate;
  • the processing capability threshold may be reported by the UE to the base station, the base station may process the threshold reported by the UE, or may be an identifier configured by the base station based on the reported processing capability threshold and configured after processing by the base station.
  • the reported threshold value of the UE is directly configured with the identifier, or may be obtained by the base station averaging the reported threshold value and the historically reported threshold value.
  • the terminal can receive the base station to dynamically configure a Processing capacity threshold, if the terminal can turn off the radio frequency receiving device or the radio frequency transmitting device, and the buffered signal/channel, the terminal can receive the base station to configure a processing capacity threshold two, so that the actual processing of the terminal is less than the processing capacity threshold two, so that the UE Turn off the radio frequency receiving device or radio frequency transmitting device, and the buffered signal/channel; otherwise, if the terminal cannot turn off the radio frequency receiving device or radio frequency transmitting device, and the buffered signal/channel, the processing capacity threshold configured by the base station is two, and the terminal's actual processing Greater than the processing capacity threshold two, so that the UE does not turn off the radio frequency receiving device or the radio frequency sending device, and the buffered signal/channel;
  • the base station can configure the processing capability threshold so that the UE does not turn off radio frequency transceiver or buffer channels/signals; specifically, where CSI-RS, TRS, and SSB (broadcast synchronization channel) can be acyclically configured or periodically configured; when there is no CSI-RS, TRS, or SSB transmission, the UE can configure the processing capability threshold one, when CSI-RS, When TRS and SSB need to be sent, the base station configures the processing capability threshold of the UE as the processing capability threshold two.
  • CSI-RS, TRS, and SSB broadcast synchronization channel
  • the terminal turns off the radio frequency receiving device or the radio frequency sending device, and the buffer, and does not perform signal/channel transmission and reception, and can enter the sleep mode.
  • the sleep mode may be that the UE does not send or receive data, and turns off some devices.
  • the device may be a state of radio frequency, baseband, or other related device components.
  • the UE turns off most devices, such as radio frequency and baseband, and only keeps the basic clock; in light sleep mode, the UE turns off some devices, such as radio frequency, or part of radio frequency, and part of baseband ; Micro sleep mode, the UE does not turn off the device, or turn off the radio frequency receiving device, if data arrives, it can be at any time, or a very low delay, for example, ns level, open to receive data/signal.
  • the different modes that the UE can divide are: low power mode (lower power mode), energy saving mode (power efficient mode), normal power mode (normal power mode); where the low power mode can be entered by the UE At least one sleep mode; the energy-saving mode can be a mode in which the UE adopts at least one energy-saving technology; the normal power consumption mode can be the power consumption state of the UE without the energy-saving mode configured by the UE, or the normal data of the UE/ Mode in signal receiving state.
  • the processing capability threshold can be carried on the PDCCH channel and dynamically indicated through DCI; it can be carried on the PDSCH channel and indicated through RRC signaling; it can be carried on the broadcast synchronization channel and indicated through RRC signaling; other signals carrying RRC signaling /Channel, which is not limited in the embodiments of the present disclosure; it can be carried in a power saving channel, which is semi-static or dynamic indication through power signaling; the terminal can receive the corresponding signal on the corresponding channel.
  • the power saving signal may be an existing signal, such as CSI-RS, TRS, SSB, may be DCI, or may be a sequence, such as wake-up signal.
  • the PDCCH channel bearer can indicate the processing capacity threshold by bits. Specifically, it can add bits to the existing DCI format; it can add a new DCI format to indicate the processing capacity threshold.
  • the specific new DCI format can be group-common DCI or UE-specific DCI; further, the processing capacity threshold can be indicated by a scrambling code.
  • a scrambling code can be added to the existing DCI format Indication;
  • the DCI format may be a UE-specific DCI format or a group-common DCI format; the scrambling code may be a defined RNTI sequence agreed between the base station and the UE;
  • the power saving channel bearer may indicate the processing capacity threshold by bits. Specifically, a bit may be added to the power savings signal; the processing power threshold may be indicated by a scrambling code; the scrambling code may be Defined RNTI sequence agreed between the base station and the UE;
  • the RNTI may be a hexadecimal sequence from 0 to 65535.
  • Step 3 The terminal receives the PDCCH.
  • the PDCCH is used to indicate the time scheduling information of the terminal.
  • the terminal receives the PDCCH sent by the base station and the processing capability threshold; if the processing capability threshold is carried on the same DCI as the data scheduling of the terminal, for example, the processing capability threshold is scrambled in the manner of RNTI On the DCI, or the processing capacity threshold is carried on the same slot as the terminal data scheduling and transmission, for example, the processing capacity threshold is carried on different DCIs in the same slot, or is carried in the manner of RNTI scrambling On the same DCI with different slots, the base station can send the PDCCH and the processing capability threshold.
  • the terminal may turn off the radio frequency receiving device or the radio frequency transmitting device, and the buffer part; then demodulate and decode the PDCCH to obtain DCI scheduling information.
  • Step 4 The terminal receives PDSCH, CSI-RS, TRS, SSB or sends PUSCH.
  • the PDSCH or PUSCH is received or sent according to the PDCCH time scheduling information described in step 3.
  • the terminal receives the PDSCH or transmits the PUSCH at the time position of the PDSCH reception indicated by the scheduling information or the time position of the PUSCH transmission.
  • the CSI-RS, TRS, and SSB are sent according to the PDCCH scheduling or trigger identifier described in step 4.
  • the terminal receives whether to turn off the radio frequency receiving device or the radio frequency sending device, and the identifier of the buffered signal/channel, for example, the above energy saving indication.
  • Step 1 The terminal receives whether to turn off the radio frequency receiving device or the radio frequency transmitting device, and buffers the signal/channel identification.
  • the terminal turns off the radio frequency receiving device or radio frequency sending device, and the identifier of the buffered signal/channel. If the identifier is configured as one, the UE turns off the radio frequency receiving device or radio frequency sending device, and the buffered signal/channel; if all If the identification is configured as identification two, the UE does not turn off the radio frequency receiving device or the radio frequency sending device, and the buffered signal/channel.
  • the base station may determine the configuration identification one or two according to the scheduled TDRA configuration and the actual processing capability of the UE;
  • the processing capability of the terminal includes at least one of the following processing capabilities, time processing capability, and processing Power consumption ability, processing energy consumption ability, other articles do not limit;
  • the terminal turns off the radio frequency receiving device or radio frequency sending device, and the identifier of the buffered signal/channel may be reported by the UE to the base station, and the base station turns off the radio frequency receiving device or radio frequency sending device according to the terminal reported by the UE, and the buffered signal/channel
  • the identification configuration can also be that the base station turns off the radio frequency receiving device or radio frequency transmitting device according to the reported terminal, and the buffered signal/channel identifier is input, and the terminal after the base station algorithm processes the terminal turning off the radio frequency receiving device or radio frequency transmitting device, and Buffer signal/channel identification.
  • the base station can be configured as identification two; otherwise, the base station can Configure to identify one;
  • the base station can be configured as identification two; otherwise, it can be configured as identification one;
  • the long processing time may specifically be a relative value or an absolute value comparison.
  • the processing time may be greater than the average processing time, or the processing time may be greater than N time units.
  • the UE can enter a sleep state, but after receiving the PDCCH and before receiving the PDSCH, the UE needs to receive other signals, for example, paging, SSB , The remaining minimum system information (Remaining minimum system information, RMSI), CSI-RS, TRS and other signals or channels, then the base station can be configured to identify two, instructing the UE not to turn off the radio frequency transceiver and buffer, and do not enter the sleep state;
  • RMSI remaining minimum system information
  • CSI-RS Channel Reference Signal
  • the base station may configure the identifier so that the UE does not turn off radio frequency transceiver or buffer channels/signals; specifically, where CSI-RS, TRS, and SSB can be acyclically configured or cyclically configured; when there is no CSI-RS, TRS, or SSB transmission, the UE can configure the identifier 1.
  • the base station configures the UE's processing capability threshold to be the second identifier.
  • the terminal turns off the radio frequency receiving device or the radio frequency sending device, and the buffer, and does not perform signal/channel transmission and reception, and can enter the sleep mode.
  • the sleep mode may be that the UE does not send or receive data, and turns off some devices.
  • the device may be a state of radio frequency, baseband, or other related device components.
  • the UE turns off most devices, such as radio frequency and baseband, and only keeps the basic clock; in light sleep mode, the UE turns off some devices, such as radio frequency, or part of radio frequency, and part of baseband ; Micro sleep mode, the UE does not turn off the device, or turn off the radio frequency receiving device, if data arrives, it can be at any time, or a very low delay, for example, ns level, open to receive data/signal.
  • the different modes that the UE can divide are: low power mode (lower power mode), energy saving mode (power efficient mode), normal power mode (normal power mode); where the low power mode can be entered by the UE At least one sleep mode; the energy-saving mode can be a mode in which the UE adopts at least one energy-saving technology; the normal power consumption mode can be the power consumption state of the UE without the energy-saving mode configured by the UE, or the normal data of the UE/ Mode in signal receiving state.
  • the identifier can be carried on the PDCCH channel and dynamically indicated by DCI; it can be carried on the PDSCH channel and indicated by RRC signaling or MAC-CE; it can be carried on the broadcast synchronization channel and indicated by RRC signaling; the other bears RRC information
  • the signal/channel of the order is not limited in the embodiment of the present disclosure; it can be carried in a power saving channel, which is semi-static or dynamic indication through power signaling, or the dynamic indication; the power saving signal can be an existing signal, such as CSI -RS, TRS, SSB, can be DCI, or can be a sequence, such as wake-up signal.
  • the PDCCH channel bearer can indicate the processing capacity threshold by bits. Specifically, bits can be added to the existing DCI format; a new DCI format can be added to indicate the processing capacity threshold, specifically new
  • the DCI format can be group-common DCI or UE-specific DCI; further, the processing capacity threshold can be indicated by a scrambling code. Specifically, a scrambling code indication can be added to the existing DCI format;
  • the DCI format may be a UE-specific DCI format or a group-common DCI format; the scrambling code may be a defined RNTI sequence agreed between the base station and the UE;
  • the power saving channel bearer may indicate the processing capacity threshold by bits. Specifically, a bit may be added to the power savings signal; the processing power threshold may be indicated by a scrambling code; the scrambling code may be Defined RNTI sequence agreed between the base station and the UE;
  • the RNTI may be a hexadecimal sequence from 0 to 65535.
  • Step 2 The terminal receives the PDCCH.
  • the PDCCH is used to indicate the time scheduling information of the terminal.
  • the terminal receives the PDCCH and the identifier described in step 1; if the identifier in step 1 is carried on the same DCI as the data scheduling of the terminal, for example, the processing capability threshold is scrambled on the DCI in the manner of RNTI scrambling, or Yes, the identifier in step 1 is carried on the same slot as the terminal data scheduling and transmission. For example, the identifier in step 1 is carried on a different DCI in the same slot, or is carried on the same slot in the manner of RNTI scrambling On different DCIs, the terminal can receive the PDCCH and the identifier at the same time.
  • the terminal may turn off the radio frequency receiving device or the radio frequency transmitting device, and the buffer part; then demodulate and decode the PDCCH to obtain DCI scheduling information.
  • Step 3 The terminal receives PDSCH, CSI-RS, TRS, SSB or sends PUSCH.
  • the PDSCH or PUSCH is received or sent according to the PDCCH time scheduling information described in step 3.
  • the CSI-RS, TRS, and SSB are sent according to the PDCCH scheduling or trigger identifier described in step 4.
  • the terminal receives an identifier of whether the scheduled time resource is the same as the last time resource, for example: the above-mentioned time scheduling information indication.
  • Step 1 The terminal receives the identifier of whether the scheduled time resource is the same as the last time resource.
  • the time resource may include at least one of K0, K2, S, L, and SLIV; K0 or K2 is used to indicate a slot interval for PDSCH or PUSCH transmission slot and PDCCH transmission slot; S is used to indicate PDSCH or PUSCH starting transmission The position of the symbol in the slot; L identifies the transmission duration of PDSCH or PUSCH;
  • the time resources are the same, and at least one of K0, K2, S, L, and SLIV may be the same. Specifically, it can be configured through RRC; it can also be agreed between the base station and the terminal.
  • Whether the terminal receives the scheduled time resource with the same identifier as the last time resource may be reported by the UE to the base station, and the base station configures the identifier according to whether the scheduled time resource reported by the UE is the same as the last time resource. It may be an identifier that the base station reports as input the identifier of whether the scheduled time resource is the same as the last time resource, and whether the scheduled time resource processed by the base station algorithm is the same as the latest time resource.
  • Step 2 The terminal receives the PDCCH.
  • Step 2 of Embodiment 7 is the same as Step 2 of Embodiment 7, and details are not described here.
  • Step 3 The terminal receives PDSCH, CSI-RS, TRS, SSB or sends PUSCH.
  • step 3 in Embodiment 7 is the same as step 3 in Embodiment 7, and details are not described here.
  • the terminal receives TDRA, for example: time scheduling information
  • Step 1 The terminal receives TDRA information.
  • the information of the TDRA may include at least one of K0, K2, S, L, and SLIV.
  • K0 or K2 is used to indicate the slot interval of the PDSCH or PUSCH transmission slot and the PDCCH transmission slot;
  • S is used to indicate the PDSCH or The position of the symbol in the slot that PUSCH starts to send;
  • L indicates the transmission duration of PDSCH or PUSCH;
  • the terminal receiving TDRA information may be reported by the UE to the base station, the base station is configured according to the TDRA information reported by the UE, or may be the TDRA information processed by the base station algorithm based on the reported TDRA information as input.
  • Step 2 The terminal receives the PDCCH.
  • Step 2 of Embodiment 7 is the same as Step 2 of Embodiment 7, and details are not described here.
  • Step 3 The terminal receives PDSCH, CSI-RS, TRS, SSB or sends PUSCH.
  • step 3 in Embodiment 7 is the same as step 3 in Embodiment 7, and details are not described here.
  • the terminal receives the time domain gap information between the PDCCH reception and the PDSCH reception, for example, the time domain interval indication.
  • Step 1 The terminal receives gap information in the time domain between PDCCH reception and PDSCH reception.
  • the time-domain gap between the PDCCH reception and the PDSCH reception may be the time-domain gap between the PDCCH reception and the PDSCH start reception; the time-domain gap between the PDCCH reception end and the PDSCH start reception;
  • the gap in the time domain may be a value with OFDM symbol or SC-OFDM symbol as time granularity; it may be a value with slot as time granularity; it may be an absolute time, for example, seconds, milliseconds, microseconds as time granularity Value.
  • the terminal receiving the PDCCH and receiving the time-domain gap information between PDSCH receptions may be reported by the UE to the base station, and the base station may configure the time-domain gap between the PDSCH reception and the PDCCH reported by the UE. It is the base station that receives the gap information in the time domain between the PDSCH reception according to the reported PDCCH as input, and the PDCCH processed by the base station algorithm receives the gap information in the time domain between the PDSCH reception.
  • Step 2 The terminal receives the PDCCH.
  • Step 2 of Embodiment 7 is the same as Step 2 of Embodiment 7, and details are not described here.
  • Step 3 The terminal receives CSI-RS, TRS, PDSCH, SSB, or receives PUSCH.
  • Step 2 in Implementation 7 is the same as Step 2 in Implementation 7, and is not repeated here.
  • FIG. 4 is a structural diagram of a terminal according to an embodiment of the present disclosure. As shown in FIG. 4, the terminal 400 includes:
  • the first receiving module 401 is configured to receive indication information and data scheduling information sent by the network side device;
  • the entry module 402 is configured to enter an energy saving mode or an abnormal power consumption mode according to the instruction information, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transmission module 403 is configured to perform data transmission according to the data scheduling information when the data transmission time corresponding to the data scheduling information comes.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • the time scheduling information indicates that the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information, then whether to enter the energy saving mode or enter the power saving mode is determined according to the last time scheduling information Describe abnormal power consumption modes; or
  • the energy saving instruction enters the energy saving mode, or does not enter the normal power consumption mode, then enters the energy saving mode, or enters the abnormal power consumption mode; or
  • the power saving mode is not entered, or the normal power consumption mode is entered, or according to The time scheduling information corresponding to the data scheduling information determines whether to enter the energy saving mode, or whether to enter the abnormal power consumption mode; or
  • the energy saving instruction does not enter the energy saving mode, or enters the normal power consumption mode, then does not enter the energy saving mode, or enters the normal power consumption mode;
  • the processing capability of the terminal indicates that the processing time of the terminal is higher than the time domain interval, it does not enter the energy saving mode or enters the normal power consumption mode.
  • the processing capacity threshold includes at least one of the following:
  • Processing time capability threshold processing power consumption capability threshold, processing energy capability threshold
  • the processing capacity threshold includes the processing time capacity threshold
  • the power saving mode is entered, or the abnormal power consumption is entered Mode
  • the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is higher than the processing capacity threshold, then do not enter the energy-saving mode, or enter the normal Power consumption mode
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold
  • Enter the energy saving mode or enter the abnormal power consumption mode
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold, if the terminal’s
  • the power saving mode is not entered, or the normal power consumption mode is entered;
  • the processing power threshold includes the processing power consumption capacity threshold or the processing energy capacity threshold
  • the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the energy saving mode is not entered, or the normal power consumption mode is entered;
  • the processing capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold , Or when the processing capability of the terminal is not higher than the processing power consumption capability threshold and the processing energy capability threshold, enter the energy-saving mode, or enter the abnormal power consumption mode; and/or, in the processing The capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is higher than the processing power consumption capability threshold or the processing energy capability threshold, or the terminal When the processing capacity is higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the power saving mode is not entered, or the normal power consumption mode is entered;
  • the processing capacity threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold, Or when the processing capability of the terminal is higher than the processing power consumption capability threshold and the processing energy capability threshold, enter the energy saving mode, or enter the abnormal power consumption mode; and/or, at the processing capability threshold Including the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold, or the terminal’s When the processing capacity is not higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the power saving mode is not entered, or the normal power consumption mode is entered.
  • the instruction information includes:
  • the network side device obtains second indication information according to the first indication information reported by the terminal, and the first indication information and the second indication information are the same or different.
  • the indication information is used to indicate The terminal does not enter the energy saving mode or enters the normal power consumption mode, and as shown in FIG. 5, the terminal 400 further includes:
  • the second receiving module 404 is configured to receive the reference signal
  • the indication information is used to instruct the terminal Enter the energy saving mode, or do not enter the normal power consumption mode.
  • the reference signal includes at least one of the following:
  • the channel status indication reference signal CSI-RS tracking reference signal TRS, broadcast synchronization signal.
  • entering the energy saving mode or entering the abnormal power consumption mode includes:
  • Said entering the energy saving mode or entering the abnormal power consumption mode includes:
  • the partial equipment includes at least one of the following:
  • Radio frequency receiving device radio frequency sending device, cache, baseband, and other related devices, wherein the other related devices are communication related devices other than the radio frequency receiving device, the radio frequency sending device, the cache, and the baseband .
  • the indication information is carried on a physical downlink control channel PDCCH, a downlink shared channel PDSCH, a broadcast synchronization channel, or an energy-saving channel;
  • the energy-saving channel is used to transmit energy-saving signals.
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are carried on the same downlink control information DCI; or
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are sent on different DCIs in the same time unit; or
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are sent on different time units, and the time unit of the time unit where the PDCCH carrying the indication information is located is earlier than the data scheduling The time domain position of the time unit where the PDCCH of the information is located.
  • the indication information is indicated by bits; or
  • the indication information is indicated by a scrambling code.
  • the above-mentioned terminal 400 in this embodiment may be a terminal of any implementation manner in the method embodiment in the embodiment of the present disclosure. Any implementation of the terminal in the method embodiment in the embodiment of the present disclosure may be used in this embodiment. The implementation of the above terminal 400 and the same beneficial effects will not be repeated here.
  • FIG. 6 is a structural diagram of a network-side device according to an embodiment of the present disclosure. As shown in FIG. 6, the network-side device 600 includes:
  • the first sending module 601 is used to send instruction information and data scheduling information to the terminal, where the instruction information is used to indicate whether the terminal enters the energy saving mode or enters the abnormal power consumption mode after receiving the data scheduling information , Wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transmission module 602 is configured to perform data transmission according to the data scheduling information.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • the time scheduling information indication is used to instruct the terminal to follow the last time
  • the scheduling information determines whether to enter the energy-saving mode or whether to enter the abnormal power consumption mode
  • the energy saving instruction is used to instruct the terminal to enter the energy saving mode or enter the abnormal power consumption mode;
  • the time scheduling information is used to instruct the terminal to enter an energy saving mode or enter the abnormal power consumption mode according to the time scheduling information
  • the time domain interval indication is used to instruct the terminal to enter a power saving mode or enter the abnormal power consumption mode according to the time domain interval.
  • the time scheduling information indicates that the time scheduling information corresponding to the data scheduling information is different from the last time scheduling information
  • the time scheduling information is used to indicate that the terminal does not enter the energy saving mode, or Enter the normal power consumption mode, or the time scheduling information is used to instruct the terminal to decide whether to enter the energy saving mode or enter the abnormal power consumption mode according to the time scheduling information corresponding to the data scheduling information;
  • the energy saving instruction does not enter the energy saving mode, or enters the normal power consumption mode, the energy saving instruction is used to instruct the terminal not to enter the energy saving mode, or enter the normal power consumption mode; or
  • the time domain interval indication is used to instruct the terminal not to enter the energy saving mode or enter the normal power consumption mode.
  • the processing capacity threshold includes at least one of the following:
  • Processing time capability threshold processing power consumption capability threshold, processing energy capability threshold
  • the processing time capacity threshold when the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is not higher than the processing time capacity threshold, the processing time capacity threshold is used to indicate entering the energy saving mode , Or enter the abnormal power consumption mode; and/or, if the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is higher than the processing capacity threshold, then The processing time capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the processing power consumption capability threshold or the processing energy capability threshold is used to indicate entering an energy saving mode, or entering the abnormal power consumption mode; and/or, the processing power consumption threshold includes the processing power consumption capability
  • the processing power consumption capability threshold or the processing energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing power threshold includes the processing power consumption capacity threshold or the processing energy capacity threshold, if the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold, Then, the processing power consumption capability threshold or the processing energy capability threshold is used to indicate entering an energy saving mode or entering the abnormal power consumption mode; and/or, the processing power consumption threshold includes the processing power consumption capability threshold Or in the case of the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold, the processing power consumption capability threshold or the processing energy The capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold Or, when the processing capacity of the terminal is not higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the processing power consumption capacity threshold and the processing energy capacity threshold are used to indicate entering the energy saving mode, or Enter the abnormal power consumption mode; and/or, if the processing power threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing power of the terminal is higher than the processing power When the power consumption capability threshold or the processing energy capability threshold, or when the processing capability of the terminal is higher than the processing power consumption capability threshold and the processing energy capability threshold, the processing power consumption capability threshold and the processing The energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capacity threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold
  • the processing power consumption capability threshold and the processing energy capability threshold are used to indicate the entry into the energy saving mode, or the The abnormal power consumption mode; and/or, if the processing power threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing power of the terminal is not higher than the processing power
  • the processing power consumption capability threshold and the processing The energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode.
  • the instruction information includes:
  • the network side device obtains second indication information according to the first indication information reported by the terminal, and the first indication information and the second indication information are the same or different.
  • the indication information is used to indicate The terminal does not enter the energy saving mode or enters the normal power consumption mode, and as shown in FIG. 7, the network side device 600 further includes:
  • the indication information is used to instruct the terminal Enter the energy saving mode, or do not enter the normal power consumption mode.
  • the reference signal includes at least one of the following:
  • entering the energy saving mode or entering the abnormal power consumption mode includes:
  • Said entering the energy saving mode or entering the abnormal power consumption mode includes:
  • the partial equipment includes at least one of the following:
  • Radio frequency receiving device radio frequency sending device, cache, baseband, and other related devices, wherein the other related devices are communication related devices other than the radio frequency receiving device, the radio frequency sending device, the cache, and the baseband .
  • the indication information is carried on the PDCCH, PDSCH, broadcast synchronization channel or energy-saving channel;
  • the energy-saving channel is used to transmit energy-saving signals.
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are carried on the same downlink control information DCI; or
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are sent on different DCIs in the same time unit; or
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are sent on different time units, and the time unit of the time unit where the PDCCH carrying the indication information is located is earlier than the data scheduling The time domain position of the time unit where the PDCCH of the information is located.
  • the indication information is indicated by bits; or
  • the indication information is indicated by a scrambling code.
  • the above network-side device 600 may be a terminal of any implementation manner in the method embodiment in the embodiment of the present disclosure. Any implementation of the network-side device in the method embodiment in the present disclosure may be The above-mentioned network-side device 600 in the embodiment is implemented and achieves the same beneficial effects, which will not be repeated here.
  • FIG. 8 is a structural diagram of another terminal provided by an embodiment of the present disclosure.
  • the terminal includes: a transceiver 810, a memory 820, a processor 800, and stored on the memory 820 And a program that can be run on the processor 800, where:
  • the transceiver 810 is configured to receive the indication information and data scheduling information sent by the network side device;
  • the processor 800 is configured to enter an energy saving mode or an abnormal power consumption mode according to the instruction information, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transceiver 810 is further configured to perform data transmission according to the data scheduling information when the data transmission time corresponding to the data scheduling information arrives;
  • the transceiver 810 is configured to receive the indication information and data scheduling information sent by the network side device;
  • the transceiver 810 is further configured to enter an energy saving mode or an abnormal power consumption mode according to the instruction information, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transceiver 810 is further configured to perform data transmission according to the data scheduling information when the data transmission time corresponding to the data scheduling information comes.
  • the transceiver 810 can be used to receive and send data under the control of the processor 800.
  • the bus architecture may include any number of interconnected buses and bridges, specifically one or more processors represented by the processor 800 and various circuits of the memory represented by the memory 820 are linked together.
  • the bus architecture can also link various other circuits such as peripheral devices, voltage regulators, and power management circuits, etc., which are well known in the art, and therefore, they will not be further described in this article.
  • the bus interface provides an interface.
  • the transceiver 810 may be a plurality of elements, including a transmitter and a receiver, and provides a unit for communicating with various other devices on a transmission medium.
  • the processor 800 is responsible for managing the bus architecture and general processing, and the memory 820 may store data used by the processor 800 when performing operations.
  • the memory 820 is not limited to the terminal, and the memory 820 and the processor 800 can be separated and located in different geographic locations.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • the time scheduling information indicates that the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information, then whether to enter the energy saving mode or enter the power saving mode is determined according to the last time scheduling information Describe abnormal power consumption modes; or
  • the energy saving instruction enters the energy saving mode, or does not enter the normal power consumption mode, then enters the energy saving mode, or enters the abnormal power consumption mode; or
  • the power saving mode is not entered, or the normal power consumption mode is entered, or according to The time scheduling information corresponding to the data scheduling information determines whether to enter the energy saving mode, or whether to enter the abnormal power consumption mode; or
  • the energy saving instruction does not enter the energy saving mode, or enters the normal power consumption mode, then does not enter the energy saving mode, or enters the normal power consumption mode;
  • the processing capability of the terminal indicates that the processing time of the terminal is higher than the time domain interval, it does not enter the energy saving mode or enters the normal power consumption mode.
  • the processing capacity threshold includes at least one of the following:
  • Processing time capability threshold processing power consumption capability threshold, processing energy capability threshold
  • the processing capacity threshold includes the processing time capacity threshold
  • the power saving mode is entered, or the abnormal power consumption is entered Mode
  • the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is higher than the processing capacity threshold, then do not enter the energy-saving mode, or enter the normal Power consumption mode
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold
  • Enter the energy saving mode or enter the abnormal power consumption mode
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold, if the terminal’s
  • the power saving mode is not entered, or the normal power consumption mode is entered;
  • the processing power threshold includes the processing power consumption capacity threshold or the processing energy capacity threshold
  • the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the energy saving mode is not entered, or the normal power consumption mode is entered;
  • the processing capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold , Or when the processing capability of the terminal is not higher than the processing power consumption capability threshold and the processing energy capability threshold, enter the energy-saving mode, or enter the abnormal power consumption mode; and/or, in the processing The capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is higher than the processing power consumption capability threshold or the processing energy capability threshold, or the terminal When the processing capacity is higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the power saving mode is not entered, or the normal power consumption mode is entered;
  • the processing capacity threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold, Or when the processing capability of the terminal is higher than the processing power consumption capability threshold and the processing energy capability threshold, enter the energy saving mode, or enter the abnormal power consumption mode; and/or, at the processing capability threshold Including the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold, or the terminal’s When the processing capacity is not higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the power saving mode is not entered, or the normal power consumption mode is entered.
  • the instruction information includes:
  • the network side device obtains second indication information according to the first indication information reported by the terminal, and the first indication information and the second indication information are the same or different.
  • the indication information is used to indicate The terminal does not enter the energy-saving mode or enters the normal power consumption mode, and the transceiver 810 is also used to receive the reference signal;
  • the indication information is used to instruct the terminal Enter the energy saving mode, or do not enter the normal power consumption mode.
  • the reference signal includes at least one of the following:
  • Channel status indication reference signal CSI-RS Tracking reference signal TRS, broadcast synchronization signal.
  • entering the energy saving mode or entering the abnormal power consumption mode includes:
  • Said entering the energy saving mode or entering the abnormal power consumption mode includes:
  • the partial equipment includes at least one of the following:
  • Radio frequency receiving device radio frequency sending device, cache, baseband, and other related devices, wherein the other related devices are communication related devices other than the radio frequency receiving device, the radio frequency sending device, the cache, and the baseband .
  • the indication information is carried on a physical downlink control channel PDCCH, a downlink shared channel PDSCH, a broadcast synchronization channel, or an energy-saving channel;
  • the energy-saving channel is used to transmit energy-saving signals.
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are carried on the same downlink control information DCI; or
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are sent on different DCIs in the same time unit; or
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are sent on different time units, and the time unit of the time unit where the PDCCH carrying the indication information is located is earlier than the data scheduling The time domain position of the time unit where the PDCCH of the information is located.
  • the indication information is indicated by bits; or
  • the indication information is indicated by a scrambling code.
  • the above terminal in this embodiment may be a terminal in any implementation manner in the method embodiment in the embodiment of the present disclosure, and any implementation manner of the terminal in the method embodiment in the embodiment of the present disclosure may be used in this embodiment.
  • the realization of the above terminal and the same beneficial effects will not be repeated here.
  • FIG. 9 is a structural diagram of another network-side device provided by an embodiment of the present disclosure.
  • the network-side device includes: a transceiver 910, a memory 920, a processor 900, and stored in The program on the memory 920 and running on the processor, wherein:
  • the transceiver 910 is used by the transceiver to send instruction information and data scheduling information to the terminal, and the instruction information is used to instruct the terminal whether to enter the power saving mode after receiving the data scheduling information, or Whether to enter the abnormal power consumption mode, wherein the power consumption of the abnormal power consumption mode is lower than the normal power consumption mode;
  • the transceiver 910 is also used for data transmission according to the data scheduling information.
  • the transceiver 910 may be used to receive and send data under the control of the processor 900.
  • the bus architecture may include any number of interconnected buses and bridges, specifically one or more processors represented by the processor 900 and various circuits of the memory represented by the memory 920 are linked together.
  • the bus architecture can also link various other circuits such as peripheral devices, voltage regulators, and power management circuits, etc., which are well known in the art, and therefore, they will not be further described in this article.
  • the bus interface provides an interface.
  • the transceiver 910 may be a plurality of elements, including a transmitter and a receiver, and provides a unit for communicating with various other devices on a transmission medium.
  • the processor 900 is responsible for managing the bus architecture and general processing, and the memory 920 may store data used by the processor 900 in performing operations.
  • the memory 920 is not limited to only on the network side device, and the memory 920 and the processor 900 may be separated in different geographic locations.
  • the indication information includes at least one of the following:
  • Processing capacity threshold time scheduling information indication, energy saving indication, time scheduling information, time domain interval indication
  • the time scheduling information indication is used to indicate whether the time scheduling information corresponding to the data scheduling information is the same as the last time scheduling information
  • the energy saving instruction is used to indicate whether to enter the energy saving mode, or to indicate whether to enter the normal power consumption mode
  • the time domain interval indication is used to indicate the time domain interval between data transmission and the data scheduling information.
  • the time scheduling information indication is used to instruct the terminal to follow the last time
  • the scheduling information determines whether to enter the energy-saving mode or whether to enter the abnormal power consumption mode
  • the energy saving instruction is used to instruct the terminal to enter the energy saving mode or enter the abnormal power consumption mode;
  • the time scheduling information is used to instruct the terminal to enter an energy saving mode or enter the abnormal power consumption mode according to the time scheduling information
  • the time domain interval indication is used to instruct the terminal to enter a power saving mode or enter the abnormal power consumption mode according to the time domain interval.
  • the time scheduling information indicates that the time scheduling information corresponding to the data scheduling information is different from the last time scheduling information
  • the time scheduling information is used to indicate that the terminal does not enter the energy saving mode, or Enter the normal power consumption mode, or the time scheduling information is used to instruct the terminal to decide whether to enter the energy saving mode or enter the abnormal power consumption mode according to the time scheduling information corresponding to the data scheduling information;
  • the energy saving instruction does not enter the energy saving mode, or enters the normal power consumption mode, the energy saving instruction is used to instruct the terminal not to enter the energy saving mode, or enter the normal power consumption mode; or
  • the time domain interval indication is used to instruct the terminal not to enter the energy saving mode or enter the normal power consumption mode.
  • the processing capacity threshold includes at least one of the following:
  • Processing time capability threshold processing power consumption capability threshold, processing energy capability threshold
  • the processing time capacity threshold when the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is not higher than the processing time capacity threshold, the processing time capacity threshold is used to indicate entering the energy saving mode , Or enter the abnormal power consumption mode; and/or, if the processing capacity threshold includes the processing time capacity threshold, if the processing capacity of the terminal is higher than the processing capacity threshold, then The processing time capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold or the processing energy capability threshold
  • the processing power consumption capability threshold or the processing energy capability threshold is used to indicate entering an energy saving mode, or entering the abnormal power consumption mode; and/or, the processing power consumption threshold includes the processing power consumption capability
  • the processing power consumption capability threshold or the processing energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing power threshold includes the processing power consumption capacity threshold or the processing energy capacity threshold, if the processing capacity of the terminal is higher than the processing power consumption capacity threshold or the processing energy capacity threshold, Then, the processing power consumption capability threshold or the processing energy capability threshold is used to indicate entering an energy saving mode or entering the abnormal power consumption mode; and/or, the processing power consumption threshold includes the processing power consumption capability threshold Or in the case of the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold, the processing power consumption capability threshold or the processing energy The capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capability threshold includes the processing power consumption capability threshold and the processing energy capability threshold, if the processing capability of the terminal is not higher than the processing power consumption capability threshold or the processing energy capability threshold Or, when the processing capacity of the terminal is not higher than the processing power consumption capacity threshold and the processing energy capacity threshold, the processing power consumption capacity threshold and the processing energy capacity threshold are used to indicate entering the energy saving mode, or Enter the abnormal power consumption mode; and/or, if the processing power threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing power of the terminal is higher than the processing power When the power consumption capability threshold or the processing energy capability threshold, or when the processing capability of the terminal is higher than the processing power consumption capability threshold and the processing energy capability threshold, the processing power consumption capability threshold and the processing The energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode;
  • the processing capacity threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold
  • the processing power consumption capability threshold and the processing energy capability threshold are used to indicate the entry into the energy saving mode, or the The abnormal power consumption mode; and/or, if the processing power threshold includes the processing power consumption capacity threshold and the processing energy capacity threshold, if the processing power of the terminal is not higher than the processing power
  • the processing power consumption capability threshold and the processing The energy capability threshold is used to indicate not to enter the energy saving mode or enter the normal power consumption mode.
  • the instruction information includes:
  • the network side device obtains second indication information according to the first indication information reported by the terminal, and the first indication information and the second indication information are the same or different.
  • the indication information is used to indicate The terminal does not enter the energy-saving mode or enters the normal power consumption mode, and the transceiver 910 is also used to send the reference signal;
  • the indication information is used to instruct the terminal Enter the energy saving mode, or do not enter the normal power consumption mode.
  • the reference signal includes at least one of the following:
  • entering the energy saving mode or entering the abnormal power consumption mode includes:
  • Said entering the energy saving mode or entering the abnormal power consumption mode includes:
  • the partial equipment includes at least one of the following:
  • Radio frequency receiving device radio frequency sending device, cache, baseband, and other related devices, wherein the other related devices are communication related devices other than the radio frequency receiving device, the radio frequency sending device, the cache, and the baseband .
  • the indication information is carried on the PDCCH, PDSCH, broadcast synchronization channel or energy-saving channel;
  • the energy-saving channel is used to transmit energy-saving signals.
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are carried on the same downlink control information DCI; or
  • the indication information is carried on the PDCCH, the indication information and the data scheduling information are sent on different DCIs in the same time unit; or
  • the indication information is carried on the PDCCH
  • the indication information and the data scheduling information are sent on different time units, and the time unit of the time unit where the PDCCH carrying the indication information is located is earlier than the data scheduling The time domain position of the time unit where the PDCCH of the information is located.
  • the indication information is indicated by bits; or
  • the indication information is indicated by a scrambling code.
  • the above network side device in this embodiment may be a network side device in any implementation manner in the method embodiment in the embodiment of the present disclosure, and any implementation manner of the network side device in the method embodiment in the present disclosure embodiment may be It is achieved by the above-mentioned network-side device in this embodiment, and the same beneficial effects are achieved, which will not be repeated here.
  • An embodiment of the present disclosure also provides a computer-readable storage medium on which a computer program is stored, which when executed by a processor implements the steps in the signal receiving method provided by the embodiment of the present disclosure, or when the program is executed by a processor The steps in the signal transmission method provided by the embodiments of the present disclosure are implemented.
  • the disclosed method and apparatus may be implemented in other ways.
  • the device embodiments described above are only schematic.
  • the division of the units is only a division of logical functions.
  • there may be other divisions for example, multiple units or components may be combined or Can be integrated into another system, or some elements can be ignored, or not implemented.
  • the displayed or discussed mutual coupling or direct coupling or communication connection may be indirect coupling or communication connection through some interfaces, devices or units, and may be in electrical, mechanical or other forms.
  • each functional unit in each embodiment of the present disclosure may be integrated into one processing unit, or each unit may be physically included separately, or two or more units may be integrated into one unit.
  • the above integrated unit can be implemented in the form of hardware, or in the form of hardware plus software functional units.
  • the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, they may be located in one place, or may be distributed on multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.
  • the functions are implemented in the form of software functional units and sold or used as independent products, they can be stored in a computer-readable storage medium.
  • the technical solution of the present disclosure essentially or part of the contribution to the related technology or part of the technical solution can be embodied in the form of a software product, the computer software product is stored in a storage medium, including several
  • the instructions are used to cause a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in various embodiments of the present disclosure.
  • the foregoing storage media include various media that can store program codes, such as a U disk, a mobile hard disk, a ROM, a RAM, a magnetic disk, or an optical disk.
  • the program may be stored in a computer-readable storage medium. When executed, it may include the processes of the foregoing method embodiments.
  • the storage medium may be a magnetic disk, an optical disk, a read-only memory (Read-Only Memory, ROM) or a random access memory (Random Access Memory, RAM), etc.
  • the embodiments described in the embodiments of the present disclosure may be implemented by hardware, software, firmware, middleware, microcode, or a combination thereof.
  • the processing unit can be implemented in one or more application specific integrated circuits (Application Specific Integrated Circuits, ASIC), digital signal processor (Digital Signal Processor, DSP), digital signal processing device (DSP Device, DSPD), programmable Logic device (Programmable Logic Device, PLD), field programmable gate array (Field-Programmable Gate Array, FPGA), general-purpose processor, controller, microcontroller, microprocessor, others for performing the functions described in this disclosure Electronic unit or its combination.
  • ASIC Application Specific Integrated Circuits
  • DSP Digital Signal Processor
  • DSP Device digital signal processing device
  • DSPD programmable Logic device
  • PLD programmable Logic Device
  • FPGA field programmable gate array
  • general-purpose processor controller, microcontroller, microprocessor, others for performing the functions described in this disclosure Electronic unit or its combination.
  • the technology described in the embodiments of the present disclosure may be implemented through modules (eg, procedures, functions, etc.) that perform the functions described in the embodiments of the present disclosure.
  • the software codes can be stored in the memory and executed by the processor.
  • the memory may be implemented in the processor or external to the processor.
  • the above integrated unit implemented in the form of a software functional unit may be stored in a computer-readable storage medium.
  • the above software functional unit is stored in a storage medium, and includes several instructions to enable a computer device (which may be a personal computer, a server, or a network device, etc.) to perform some steps of the methods of the embodiments of the present disclosure.
  • the aforementioned storage media include: U disk, mobile hard disk, read-only memory (Read-Only Memory, ROM for short), random access memory (Random Access Memory, RAM for short), magnetic disk or optical disc, etc., which can store program codes Medium.

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Abstract

本公开实施例提供一种信号接收方法、发送方法、终端和网络侧设备,该接收方法包括:终端接收网络侧设备发送的指示信息和数据调度信息;所述终端根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;在所述数据调度信息对应的数据传输时间到来时,所述终端根据所述数据调度信息进行数据传输。

Description

信号接收方法、发送方法、终端和网络侧设备
相关申请的交叉引用
本申请主张在2018年12月14日在中国提交的中国专利申请号No.201811536909.3的优先权,其全部内容通过引用包含于此。
技术领域
本公开涉及通信技术领域,尤其涉及一种信号接收方法、发送方法、终端和网络侧设备。
背景技术
随着无线通信系统的发展,终端类型和业务类型多样化,在资源分配上,网络侧设备可以灵活支持时域资源配置,例如:支持多种调度起始位置S、符号长度L、物理下行共享信道(Physical downlink shared channel,PDSCH)发送时隙(slot)和物理下行控制信道(Physical downlink control channel,PDCCH)发送slot的slot间隔K0、物理上行共享信道(Physical uplink shared channel,PUSCH)发送slot和PDCCH发送slot的slot间隔K2等等。然而,相关技术的无线通信系统中终端接收到PDCCH后,需要进行PDSCH的缓存,即使在没有PDSCH发送的情况下,也需要进行PDSCH的缓存,从而导致终端的功耗比较高。
发明内容
本公开实施例提供一种信号接收方法、发送方法、终端和网络侧设备,以解决终端功耗比较高的问题。
本公开实施例提供一种信号接收方法,包括:
终端接收网络侧设备发送的指示信息和数据调度信息;
所述终端根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
在所述数据调度信息对应的数据传输时间到来时,所述终端根据所述数 据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示进入节能模式,或者不进入所述正常功耗模式,则进入节能模式,或进入所述非正常功耗模式;或者
根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式;或者
根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则不进入节能模式,或进入所述正常功耗模式,或者按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示不进入节能模式,或进入正常功耗模式,则不进入节能模式,或进入所述正常功耗模式;或者
若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则不进入节能模式,或进入所述正常功耗模式。
可选的,所述处理能力门限包括如下至少一项:
处理时间能力门限、处理功耗能力门限、处理能量能力门限;
其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则进入节能模式,或进 入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门 限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式。
可选的,所述指示信息包括:
所述终端上报给所述网络侧设备的指示信息;或者
所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
可选的,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且所述方法还包括:
所述终端接收所述参考信号;
和/或,
若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
可选的,所述参考信号包括如下至少一项:
信道状态指示参考信号(Channel state indication reference signal,CSI-RS)、跟踪参考信号(Tracking reference signal,TRS)、广播同步信号。
可选的,所述进入节能模式,或进入非正常功耗模式,包括:
关掉所述终端的部分设备;
或者,
所述进入节能模式,或进入非正常功耗模式,包括:
进入低功耗模式或者采用至少一个节能技术的模式。
可选的,所述部分设备包括如下至少一项:
射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
可选的,所述指示信息承载在物理下行控制信道(Physical downlink control channel,PDCCH)、物理下行共享信道(Physical downlink shared channel,PDSCH)、广播同步信道或者节能信道上;
其中,所述节能信道用于传输节能信号。
可选的,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息(Downlink control information,DCI)上;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
可选的,通过比特位指示所述指示信息;或者
通过扰码指示所述指示信息。
本公开实施例还提供一种信号发送方法,包括:
网络侧设备向终端发送指示信息和数据调度信息,所述指示信息用于指示所述终端在接收所述数据调度信息后,是否进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
所述网络侧设备根据所述数据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正 常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则所述时间调度信息指示用于指示所述终端按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示进入节能模式,则所述节能指示用于指示所述终端进入节能模式,或进入所述非正常功耗模式;或者
所述时间调度信息用于指示所述终端根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式;或者
所述时域间隔指示用于指示所述终端根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则所述时间调度信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,或者所述时间调度信息用于指示所述终端按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示不进入节能模式,或进入正常功耗模式,则所述节能指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式;或者
若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则所述时域间隔指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式。
可选的,所述处理能力门限包括如下至少一项:
处理时间能力门限、处理功耗能力门限、处理能量能力门限;
其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则所述处理时间能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则所述处理时间能力门限用于指示不进入节能模式, 或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不 进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式。
可选的,所述指示信息包括:
所述终端上报给所述网络侧设备的指示信息;或者
所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
可选的,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且所述方法还包括:
所述网络侧设备发送所述参考信号;
和/或,
若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
可选的,所述参考信号包括如下至少一项:
CSI-RS、TRS、广播同步信号。
可选的,所述进入节能模式,或进入非正常功耗模式,包括:
关掉所述终端的部分设备;
或者,
所述进入节能模式,或进入非正常功耗模式,包括:
进入低功耗模式或者采用至少一个节能技术的模式。
可选的,所述部分设备包括如下至少一项:
射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
可选的,所述指示信息承载在PDCCH、PDSCH、广播同步信道或者节能信道上;
其中,所述节能信道用于传输节能信号。
可选的,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息DCI上;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
可选的,通过比特位指示所述指示信息;或者
通过扰码指示所述指示信息。
本公开实施例还提供一种终端,包括:
第一接收模块,用于接收网络侧设备发送的指示信息和数据调度信息;
进入模块,用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
传输模块,用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调 度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
本公开实施例还提供一种网络侧设备,包括:
第一发送模块,用于向终端发送指示信息和数据调度信息,所述指示信息用于指示所述终端在接收所述数据调度信息后,是否进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
传输模块,用于根据所述数据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
本公开实施例还提供一种终端,包括:收发机、存储器、处理器及存储在所述存储器上并可在所述处理器上运行的程序,
所述收发机,用于收网络侧设备发送的指示信息和数据调度信息;
所述处理器,用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
所述收发机还用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输;
或者,
所述收发机,用于收网络侧设备发送的指示信息和数据调度信息;
所述收发机还用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
所述收发机还用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
本公开实施例还提供一种网络侧设备,包括:收发机、存储器、处理器及存储在所述存储器上并可在所述处理器上运行的程序,
所述收发机,用于向终端发送指示信息和数据调度信息,所述指示信息用于指示所述终端在接收所述数据调度信息后,是否进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
所述收发机还用于根据所述数据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
本公开实施例还提供一种计算机可读存储介质,其上存储有计算机程序,该程序被处理器执行时实现本公开实施例提供的信号接收方法中的步骤,或者该程序被处理器执行时实现本公开实施例提供的信号发送方法中的步骤。
本公开实施例中,终端接收网络侧设备发送的指示信息和数据调度信息;所述终端根据所述指示信息进入节能模式,或进入非正常功耗模式,其中, 所述非正常功耗模式的功耗低于正常功耗模式;在所述数据调度信息对应的数据传输时间到来时,所述终端根据所述数据调度信息进行数据传输。由于终端可以根据上述指示信息进入节能模式或者非正常功耗模式,从而可以降低终端的功耗。
附图说明
图1是本公开实施例可应用的网络结构示意图;
图2是本公开实施例提供的一种信号接收方法的流程图;
图3是本公开实施例提供的一种信号发送方法的流程图;
图4是本公开实施例提供的一种终端的结构图;
图5是本公开实施例提供的另一种终端的结构图;
图6是本公开实施例提供的一种网络侧设备的结构图;
图7是本公开实施例提供的另一种网络侧设备的结构图;
图8是本公开实施例提供的另一种终端的结构图;
图9是本公开实施例提供的另一种网络侧设备的结构图。
具体实施方式
为使本公开要解决的技术问题、技术方案和优点更加清楚,下面将结合附图及具体实施例进行详细描述。
参见图1,图1是本公开实施例可应用的网络结构示意图,如图1所示,包括终端11和网络侧设备12,其中,终端11可以是用户终端(User Equipment,UE)或者其他终端设备,例如:手机、平板电脑(Tablet Personal Computer)、膝上型电脑(Laptop Computer)、个人数字助理(personal digital assistant,简称PDA)、移动上网装置(Mobile Internet Device,MID)或可穿戴式设备(Wearable Device)等终端侧设备,需要说明的是,在本公开实施例中并不限定终端的具体类型。网络侧设备12可以是基站,例如:宏站、长期演进(Long Term Evolution,LTE)基站(evolved Node B,eNB)、第五代移动通信技术(5th generation,5G)新空口(New Radio,NR)基站(Node B,NB)等;网络侧设备也可以是小站,如低功率节点(low power node,LPN)、微微(pico)、 毫微微(femto)等小站,或者网络侧设备可以是接入点(access point,AP);基站也可以是中央单元(central unit,CU)与其管理和控制的多个传输接收点(Transmission Reception Point,TRP)共同组成的网络节点。需要说明的是,在本公开实施例中并不限定网络侧设备的具体类型。
请参见图2,图2是本公开实施例提供的一种信号接收方法的流程图,如图2所示,包括以下步骤:
201、终端接收网络侧设备发送的指示信息和数据调度信息;
202、所述终端根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
203、在所述数据调度信息对应的数据传输时间到来时,所述终端根据所述数据调度信息进行数据传输。
步骤201中终端可以是通过不同的消息,或者不同的信道,或者相同的信道,或者相同的消息接收到上述指示信息和数据调度信息。而上述指示信息可以是通过显式或者隐式指示终端是否进入节能模式,或者显式或者隐式指示终端是否进入上述非正常功耗模式,或者显式或者隐式指示终端是否进入正常功耗模式。
而上述数据调度信息可以用于调度终端进行数据传输的信息,例如:PDCCH信号。该数据调度信息可以指示或者包括终端数据传输的相关信息,例如:终端的时间调度信息或者频域信息等等。
上述节能模式可以是关掉部分设备的模式,或者睡眠模式等节约功耗的模式,而上述非正常功耗模式可以是功耗低于正常功耗模式的模式,其中,正常功耗模式可以为终端进行数据接收的功耗模式,或者进行数据发送的功耗模式,或者可以为进行数据接收需要使用的设备均处于开启状态的模式,或者进行数据发送需要使用的设备均处于开启状态的模式。
另外,步骤202中是在接收所述数据调度信息后,根据所述指示信息进入节能模式,或进入非正常功耗模式,例如:在上述指示信息满足特定条件的情况下,进入节能模式或者非正常功耗模式,例如:指示信息隐式或者显式指示进入节能模式或者非正常功耗模式的情况下,进入节能模式或者非正常功耗模式。或者可以是,根据指示信息决定进入节能模式,或进入非正常 功耗模式时,进入节能模式,或进入非正常功耗模式。
步骤203可以是,终端从节能模式或者非正常功耗模式中恢复,例如:进入正常功耗模式;或者将进入节能模式或非正常功耗模式关掉的设备开启,从而在上述数据传输时间到来时,根据所述数据调度信息进行数据传输。
上述数据传输时间可以是上述数据调度信息所指示的数据传输时间,例如:数据调度信息的时间调度信息所指示的数据传输时间。当然,若上述指示信息指示了时间调度信息,则上述数据传输时间可以是该时间调度信息所指示的时间,或者若上述指示信息指示了时间调度信息,且上述数据调度信息也指示时间调度信息,且上述数据传输时间可以是这两个时间调度信息中某一个时间调度信息所指示的时间,例如:这两个时间调度信息相同,则可以任意选择一个,若这两个时间调度信息不相同,则使用前面指示的时间调度信息为准。
另外,上述数据传输时间可以是数据发送时间,或者数据接收时间,而上述根据所述数据调度信息进行数据传输可以是,在该数据调度信息所指示的资源(例如:时域资源和/或频域资源)上进行数据传输,例如:根据数据调度信息进行数据发送,或者根据数据调度信息进行数据接收。
需要说明的是,上述数据传输可以是传输数据信道的数据,或者可以是传输其他信道的信号(例如:控制信道的控制信号)等,对此不作限定。例如:所述终端进行数据传输,可以包括:
所述终端接收PDSCH信号或者参考信号;或者
所述终端发送物理上行共享信道(Physical uplink shared channel,PUSCH)信号。
本公开实施例中,通过上述步骤终端可以进入节能模式,或进入非正常功耗模式,从而可以降低终端的功耗。终端可以在接收数据调度信息之后,关掉射频和缓存,进入睡眠状态,在配置的数据或者信号接收的时刻醒来,进行接收,从而可以降低终端在接收数据调度信息之后和数据传输之间的无效的降低射频接收设备和/或者射频发送设备,以及缓存的功耗。
作为一种可选的实施方式,上述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间 隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
其中,上述处理能力门限,可以包含至少一个处理能力门限的数值;同样的,上述处理能力门限的数值可以是绝对值,或者可以是绝对值量化后的数值,或者可以是相对值,可以是相对于终端处理能力的偏移值,或者可以是所述绝对值或者绝对值量化后的数值,相对于终端处理能力的偏移值的入口索引值;其中,所述索引入口可以是网络侧设备和终端约定好的,可以是无线资源控制(radio resource control,RRC)配置的。
而上述数据调度信息对应的时间调度信息可以是上述数据调度信息所指示的时间调度信息,或者与上述数据调度信息关联的时间调度信息。而上述上一次时间调度信息可以是在接收到上述数据调度信息之前最近接收到的数据调度信息对应的时间调度信息。
另外,本公开实施例中,时间调度信息也可以称作时间资源,例如:时间调度信息可以是时域资源分配(Time Domain Resource Allocation,TDRA)信息。而上述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同也可以称作上述数据调度信息对应的时间资源与上述一次(或者称作最近一次)的时间资源是否相同。
可选的,本公开实施例中,时间调度信息可以包括K0、K2、S、L、起始和长度指示值(Start and length indicator value,SLIV)中的至少一个;其中,K0可以用于PDSCH发送slot和PDCCH发送slot的slot间隔,K2可以用于指示PUSCH发送slot和PDCCH发送slot的slot间隔,S可以用于指示PDSCH或者PUSCH起始发送slot中的符号的位置,L可以标识PDSCH或者PUSCH的传输时长。
另外,需要说明的是,上述指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同可以是,指示所述数据调度信息对应的时间 调度信息与上一次时间调度信息是否部分相同,或者全部相同。例如:上述时间调度信息指示可以用于指示上述两个时间调度信息中K0、K2、S、L、起始和SLIV中的至少一个相同。其中,指示相同的内容可以通过RRC配置,或者也可以是网络侧设备和终端约定好的,例如:RRC配置上述时间调度信息指示可以用于指示K0或者K2或者S或者L是否相同。可选的,上述时间调度信息指示可以是一标识,当该标识为第一值时指示相同,标识为第二值时指示不相同,例如:标识为1指示相同,为0指示不相同。
上述节能指示可以是一个标识,例如:为标识一时,指示进入节能模式,或者不进入正常功耗模式,为标识二时,指示不进入节能模式,或者进入正常功耗模式。需要说明的是,如果终端当前处于正常功耗模式,则进入正常功耗模式表示终端的模式不发生变化。
上述时间调度信息可以是与数据调度对应的时间调度信息为相同的时间调度信息,当然,也可以是不同的时间调度信息。
上述时域间隔指示可以是以正交频分复用(Orthogonal Frequency Division Multiplexing,OFDM)符号或者单载波正交频分复用(Single-carrier Orthogonal Frequency Division Multiplexing,SC-OFDM)符号为时间粒度的数值;或者可以是以slot为时间粒度的数值;可以是以绝对时间,例如:秒、毫秒、微秒为时间粒度的数值。
该实施方式中,可以实现通过多种方式指示终端是否进入节能模式或者进入非正常功耗模式。需要说明的是,上述指示信息可以是动态、半静态或者静态发送。
在一种实施方式中,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式。
该实施方式中,可以实现通过时间调度信息指示本次的时间调度信息与上述时间调度信息是否相同,这样终端在接收到上述数据调度信息后,可以直接按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式。例如:可以根据上一次时间调度信息的K0、K2或者S等进入节能模式,或进入所述非正常功耗模式,例如:K0比较大,或者K2比 较大时,则可以进入节能模式,或进入所述非正常功耗模式,反之,不进入节能模式;或者S的起始位置位于较高的符号位置,则可以进入节能模式,或进入所述正常功耗模式,反之,不进入节能模式。这样可以实现在进入节能模式之前,不需要解析该调度信息,从而可以进一步降低终端的功耗。所述K0比较大,或者K2比较大时,具体的,可以指K0,K2不小于1的配置。
在另一种实施方式中,若所述节能指示进入节能模式,或者不进入所述正常功耗模式,则进入节能模式,或进入所述非正常功耗模式。
其中,上述节能指示可以是网络侧设备根据调度的时间调度信息(例如:TDRA的配置)和终端的处理能力(或者称作实际处理能力)来配置的,例如:以TDRA的配置为例,如果S的起始位置位于较低的符号位置,终端在接收数据调度信息(例如:PDCCH)之后,仅有少的时间需要接收和缓存PDSCH/PUSCH,而如果终端关掉射频接收设备、射频发送设备和缓存,再打开后,带来的转换的功耗,大于在PDCCH接收后和开始接收PDSCH之间的时间间隔(gap)的功耗,则网络侧设备可以配置为标识二,以指示不进入节能模式,或者进入正常功耗模式;否则,基站可以配置为标识一,以指示进入节能模式,或者不进入正常功耗模式。
又例如:以处理时间能力为例,如果数据调度信息需要较长的处理时间,S的起始位置位于较高的符号位置,终端在接收数据调度信息之后,如果终端关掉射频接收设备、射频发送设备和缓存,在打开之前,终端不能完成数据调度信息的解调解码,从而不能获取终端的PDSCH的接收时间位置的信息,则基站可以配置为标识二,以指示不进入节能模式,或者进入正常功耗模式;否则,基站可以配置为标识一,以指示进入节能模式,或者不进入正常功耗模式;所述需要较长的处理时间,具体的,可以是相对值,也可以是绝对值比较,例如,可以是处理时间大于平均处理时间,或,处理时间大于N个时间单元。
该实施方式中,可以直接通过节能指示进行指示,从而降低复杂度。
在另一种实施方式中,根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式。
其中,上述根据所述时间调度信息进入节能模式,或进入所述非正常功 耗模式可以是根据该时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式,可以是根据该时间调度信息的K0、K2或者S等进入节能模式,或进入所述非正常功耗模式,例如:K0比较大,或者K2比较大时,则可以进入节能模式,或进入所述非正常功耗模式,反之,不进入节能模式;或者S的起始位置位于较高的符号位置,则可以进入节能模式,或进入所述正常功耗模式,反之,不进入节能模式。
该实施方式中,可以实现在上述数据调度信息之外,指示一时间调度信息,从而通过时间调度信息来指示进入节能模式,或进入所述非正常功耗模式。从而在进入节能模式之前可以不解调解码数据调度信息,以进一步降低功耗。
在另一种实施方式中,根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
其中,上述根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式可以是,若上述时域间隔大于预设门限值,则进入节能模式,或进入所述非正常功耗模式,反之,则不进入节能模式,或进入正常功耗模式。或者,还可以是,根据终端的处理能力和上述时域间隔,进入节能模式,或进入所述非正常功耗模式,例如:若所述终端的处理能力表示所述终端的处理时间不高于所述时域间隔,则进入节能模式,或进入非正常功耗模式。
该实施方式中,可以实现网络侧设备只需要指示上述时域间隔,则可以让终端进入节能模式,或进入所述非正常功耗模式,从而降低复杂度。
作为一种可选的实施方式,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则不进入节能模式,或进入所述正常功耗模式,或者按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示不进入节能模式,或进入正常功耗模式,则不进入节能模式,或进入所述正常功耗模式;或者
若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则不进入节能模式,或进入所述正常功耗模式。
其中,上述按照所述数据调度信息对应的时间调度信息决定是否进入节 能模式,或是否进入所述非正常功耗模式可以是,在上述时间调度信息指示不相同的情况下,终端解调出数据调度信息后,得到数据调度信息对应的时间调度信息,从而按照时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式。
需要说明的是,如果终端当前处于正常功耗模式,则上述不进入节能模式,或进入所述正常功耗模式可以是,终端保证正常功耗模式。
该实施方式中,可以实现通过多种方式让终端不进入节能模式,或者进入正常功耗模式,从而可以避免在一些情况下,终端进入节能模式导致数据传输错误。
作为一种可选的实施方式,上述处理能力门限包括如下至少一项:
处理时间能力门限、处理功耗能力门限、处理能量能力门限;
其中,其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处 理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式。
同理,终端的处理能力可以包括但不限于如下至少一项:
处理时间的能力、处理功耗的能力、处理能量的能力。
其中,上述终端的处理能力可以是仅PDCCH(PDCCH-only)的处理的能力,或者可以是PDCCH和其他信道/信号的总和的处理的能力,例如:可以是PDCCH+PDSCH的处理的能力,可以是PDCCH+PUSCH的处理能力,可以是PDCCH+探测参考信号(Sounding reference signal,SRS)的处理能力,可以是PDCCH+CSI-RS的处理能力,可以是PDCCH+TRS的处理能力,可以是PDCCH+同步信号块(Synchronization signal Block,SSB)的处理能力, 等其他的信道或信号,对此不做限定;
可选的,所述终端的处理能力可以包含至少一个处理能力的数值;终端可以根据自己的处理能力,上报给网络侧设备至少一个处理能力数值;具体的,终端支持多种处理能力时,可以配置多个处理能力,处理低速的数据需求时的处理能力一,处理中速的数据需求时的处理能力二,处理高速的数据需求时的处理能力三。其中,所述低速的数据需求,可以是对时间要求不高的业务需求,终端可以采用低速的处理器及其周围设备,对信号/信道进行处理,对应的,高速的数据需求,可以是对时间要求高的业务需求,终端可以采用高速的处理器及其周围设备;
而上述终端的处理能力的数值,可以是绝对处理的量化值,或者可以是绝对处理,或者可以是相对值,或者可以是相对于终端处理能力的偏移值,或者可以是绝对处理量化后对应的索引入口。其中,所述索引入口,可以是网络侧设备和终端约定好的,可以是RRC配置的,可以是媒质接入控制-控制单元(Medium access control-control element,MAC-CE)配置的。
另外,上述终端的处理能力,可以是终端上报的;或者,可以是网络侧设备下发给终端,终端确认回复的。进一步,终端的处理能力,可以是静态,半静态配置的;或者,可以是动态配置的。其中,上述静态/半静态配置,可以是通过RRC信令配置的,可以是MAC-CE配置的,而上述动态配置可以是DCI配置的。
而上述处理能力门限,可以包含至少一个处理能力门限的数值;同样的,上述处理能力门限的数值可以是绝对值,或者可以是绝对值量化后的数值,或者可以是相对值,可以是相对于终端处理能力的偏移值,或者可以是所述绝对值或者绝对值量化后的数值,相对于终端处理能力的偏移值的入口索引值;其中,所述索引入口可以是网络侧设备和终端约定好的,可以是RRC配置的。
可选的,网络侧设备发送上述处理能力门限可以是静态、半静态配置的,或者可以是动态配置的。其中,上述静态,半静态配置可以是通过RRC信令配置的,可以是通过MAC-CE配置的;而上述动态配置,可以是通过DCI配置的;或者上述处理能力门限可以是静态、半静态和动态配置交替的。
例如:网络侧设备在一段时间的调度,TDRA的配置可以支持终端进入节能模式(例如:关掉射频接收设备或者射频发送设备,和缓存信号或者缓存信道),从而网络侧设备可以静态、半静态配置一个处理能力门限一,从而终端的实际处理能力在时间范围一总是小于所述处理能力门限一,终端则可以进入节能模式,从而降低终端功耗;否则,网络侧设备可以配置的处理能力门限二,终端的实际处理能力在时间范围一总是大于所述处理能力门限二,从而终端不进入节能模式(例如:不关掉射频接收设备和射频发送设备,和缓存信号或者缓存信道)。
又例如:如果网络侧设备的时间上的调度(例如:TDRA的配置)可以支持终端进入节能模式的配置是变化的,则网络侧设备可以动态配置一个处理能力门限,如果终端可以进入节能模式,则网络侧设备可以配置一个处理能力门限一,从而终端的实际处理能力小于所述处理能力门限一,从而终端进入节能模式;否则,如果终端不能进入节能模式,则网络侧设备配置的处理能力门限二,终端的实际处理能力大于所述处理能力门限二,从而终端不进入节能模式。
另外,需要说明的是,上述处理能力门限包括所述处理功耗能力门限和处理能量能力门限中至少一项的情况下存在的两种情况下,可以是根据不同的场景或者终端需求进行配置的。
该实施方式中,可以实现终端根据处理能力确定是否进入节能模式,从而可以避免终端的处理能力不足进入节能模式导致数据传输错误,以提高终端的传输性能,另外,还可以进一步降低终端的功能,例如:终端的处理功耗的能力或者处理能量的能力比较大,从而可以配置终端进入节能模式,以进一步降低终端的功耗。
作为一种可选的实施方式,上述指示信息包括:
所述终端上报给所述网络侧设备的指示信息;或者
所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
其中,根据第一指示信息获取第二指示信息可以是根据第一指示信息计算得到的第二指示信息,例如:通过特定算法处理得到第二指示信息,该算 法可以是网络侧设备与终端预先协议好的,或者可以是协议中定义的等等,对此不作限定。例如:可以是阿尔法滤波算法或者求平均等算法,例如:网络侧设备根据上报的第一指示信息,和历史上报的第一指示信息取平均后得到的,具体对此不作限定。
该实施方式中,由于指示信息是终端上报的,或者根据终端上报计算的,从而可以使得终端进入节能模式更加符合终端的需求。当然,本公开实施例中,对此不作限定,例如:上述指示信息也可以是直接由网络侧设备配置的,如根据终端的处理能力或者数据调度信息等配置的。
作为一种可选的实施方式,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且所述方法还包括:
所述终端接收所述参考信号;
和/或,
若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
其中,上述参考信号可以包括如下至少一项:
CSI-RS、TRS、广播同步信号。
需要说明的是,上述指示信息指示可以是显式指示,例如:上述指示信息包括上述介绍的节能指示,或者上述指示信息指示可以是隐式指示,例如:上述指示信息包括上述介绍的处理能力门限、时间调度信息指示、时间调度信息或者时域间隔指示。
该实施方式中,由于需要传输参考信号时,不进入节能模式,或进入所述正常功耗模式,并接收参考信号,从而可以避免终端无法接收参考信号,以及不需要传输参考信号时,进入节能模式,或进入所述正常功耗模,从而可以降低终端的功耗。
作为一种可选的实施方式,所述进入节能模式,或进入非正常功耗模式,包括:
关掉所述终端的部分设备;
或者,
所述进入节能模式,或进入非正常功耗模式,包括:
进入低功耗模式或者采用至少一个节能技术的模式。
其中,上述部分设备包括但不限于如下至少一项:
射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
可选的,上述关掉所述终端的部分设备可以是所述终端关掉射频接收设备和/或射频发送设备,和缓存,不进行信号/信道的收发,进入睡眠模式。
需要说明的是,本公开实施中,上述节能模式或者上述非正常功耗模式也可以称作睡眠模式,其中,睡眠模式可以是终端不进行数据的收发,关掉部分设备,例如:可以是射频,基带,或其他相关设备组件的状态。其中,睡眠模式可以包括:深睡(deep sleep)模式,即关掉了绝大多数设备,例如:射频,基带,只保留基本的时钟;上述睡眠模式还可以包括:轻睡(light sleep)模式,即关掉了部分设备,例如射频,或部分射频,部分基带;上述睡眠模式还可以包括:微睡(micro sleep)模式,该模式下终端可以不关掉设备,或关掉射频接收设备,如果有数据到来,可以随时,或是非常低的时延(例如:ns级别)打开从而接收数据/信号。
另外,本公开实施例中,还可以将终端的模式划分:低功耗模式(lower power mode)、采用至少一个节能技术的模式和正常功耗模式(normal power mode);其中,低功耗模式可以是终端进入至少一种睡眠状态(其中,这里的睡眠状态可以是上述描述的睡眠描述)的模式;而上述采用至少一个节能技术的模式可以是,终端采用了节能技术的模式,其中,本公开实施例中,对节能技术不作限定,例如:可以是关掉设备或者降低监听频率等能够节能终端功耗的技术。而上述正常功耗模式,可以是终端没有配置节能模式下终端的功耗状态,或者是终端在正常的数据/信号接收状态下的模式。
作为一种可选的实施方式中,所述指示信息承载在PDCCH、PDSCH、广播同步信道或者节能信道(power saving channel)上;
其中,所述节能信道用于传输节能信号(power saving signal)。
其中,上述节能信号可以是已有的信号,例如CSI-RS、TRS,SSB,或者可以是DCI,或者可以是序列,例如唤醒信号(wake-up signal)。
该实施方式中,可以实现通过多种方式传输上述指示信息。
可选的,上述若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一DCI上;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
上述指示信息和所述数据调度信息承载在同一DCI上可以是,同一DCI中承载这两个信息,例如:通过该DCI的扰码来指示所述指示信息,或者可以是在该DCI中增加比特位来指示所述指示信息。
上述时间单元可以是时隙(slot)或者子帧等,而上述不同DCI上发送可以是通过两个不同的DCI分配承载这两个信息。
该实施方式中,可以实现通过同一个DCI,或者不同的DCI在相同的时间单元或者不同的时间单元上发送指示信息和数据调度信息,从而可以达到节约传输资源的效果。
可选的,通过比特位指示所述指示信息;或者
通过扰码指示所述指示信息。
该实施方式中,上述指示信息可以承载在任何信道上,例如:承载在PDCCH、PDSCH、广播同步信道或者节能信道上。
上述通过比特位指示所述指示信息可以是在已的信号上增加比特位来指示上述指示信息,或者新增加信号来指示上述指示信息。
而上述扰码指示所述指示信息可以是通过已有信号的扰码来指示上述指示信息,从而节约传输资源,例如:通过以无线网络临时标识(Radio network temporary identifier,RNTI)加扰的方式承载在DCI上。
例如:以PDCCH信道承载为例,可以通过比特位指示所述处理能力门 限,具体的,可以在已有的DCI格式(format)中增加比特位;可以是增加新的DCI format用来指示所处处理能力门限,具体新的DCI format,可以是公共(group-common)DCI,可以是专用(UE-specific)的DCI;进一步的,可以通过扰码指示所述处理能力门限,具体的,可以在已有的DCI format中增加扰码指示;所述DCI format可以是UE-specific的DCI format,可以是group-common DCI format;所述扰码,可以是网络侧设备和终端约定好的定义的RNTI序列;
又例如:以节能信道承载为例,可以通过比特位指示所述处理能力门限,具体的,可以在power saving signal中增加比特位;可以是通过扰码指示所处处理能力门限;所述扰码,可以是网络侧设备和终端约定好的定义的RNTI序列。
本公开实施例中,终端接收网络侧设备发送的指示信息和数据调度信息;在接收所述数据调度信息后,所述终端根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;在所述数据调度信息对应的数据传输时间到来时,所述终端根据所述数据调度信息进行数据传输。由于终端可以根据上述指示信息进入节能模式或者非正常功耗模式,从而可以降低终端的功耗。另外,本公开实施例中由于终端不需要上报时间调度信息(例如:TDRA),从而使得网络侧设备的调度保留了灵活性,没有造成系统资源的额外的碎片和浪费,以节约资源。
请参见图3,图3是本公开实施例提供的一种信号发送方法的流程图,如图3所示,包括以下步骤:
301、网络侧设备向终端发送指示信息和数据调度信息,所述指示信息用于指示所述终端在接收所述数据调度信息后,是否进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
302、所述网络侧设备根据所述数据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调 度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则所述时间调度信息指示用于指示所述终端按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示进入节能模式,则所述节能指示用于指示所述终端进入节能模式,或进入所述非正常功耗模式;或者
所述时间调度信息用于指示所述终端根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式;或者
所述时域间隔指示用于指示所述终端根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则所述时间调度信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,或者所述时间调度信息用于指示所述终端按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示不进入节能模式,或进入正常功耗模式,则所述节能指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式;或者
若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则所述时域间隔指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式。
可选的,所述处理能力门限包括如下至少一项:
处理时间能力门限、处理功耗能力门限、处理能量能力门限;
其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则所述处理时间能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理 能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则所述处理时间能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门 限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式。
可选的,所述指示信息包括:
所述终端上报给所述网络侧设备的指示信息;或者
所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
可选的,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且所述方法还包括:
所述网络侧设备发送所述参考信号;
和/或,
若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
可选的,所述参考信号包括如下至少一项:
CSI-RS、TRS、广播同步信号。
可选的,所述进入节能模式,或进入非正常功耗模式,包括:
关掉所述终端的部分设备;
或者,
所述进入节能模式,或进入非正常功耗模式,包括:
进入低功耗模式或者采用至少一个节能技术的模式。
可选的,所述部分设备包括如下至少一项:
射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
可选的,所述指示信息承载在PDCCH、PDSCH、广播同步信道或者节能信道上;
其中,所述节能信道用于传输节能信号。
可选的,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息DCI上;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
可选的,通过比特位指示所述指示信息;或者
通过扰码指示所述指示信息。
需要说明的是,本实施例作为与图2所示的实施例中对应的网络侧设备的实施方式,其具体的实施方式可以参见图2所示的实施例的相关说明,为了避免重复说明,本实施例不再赘述,且还可以达到相同有益效果。
下面在指示信息为处理能力门限、节能指示、时间调度信息指示、时间调度信息或者时域间隔指示,数据调度信息为PDCCH,以及网络侧设备为基站,终端为UE对本公开实施例进行举例说明:
实施例1
该实施例中,基站配置处理能力门限值
步骤1:基站获取终端的处理能力。
具体的:所述终端的处理能力,包括以下处理能力中的至少一种,可以是处理时间的能力,可以是处理功耗的能力,可以是处理能量的能力;其他的,本公开实施例不做限定;
所述终端的处理能力,可以是PDCCH-only的处理的能力,可以是PDCCH和其他信道/信号的总和的处理的能力,具体,可以是PDCCH+PDSCH的处理的能力,可以是PDCCH+PUSCH的处理能力,可以是PDCCH+SRS的处理能力,可以是PDCCH+CSI-RS的处理能力,可以是PDCCH+TRS的处理能力,可以是PDCCH+SSB的处理能力,其他的信道或信号,本公开实施例不做限定;
所述终端的处理能力,包含至少一个处理能力的数值;终端可以根据自己的处理能力,上报给基站至少一个处理能力数值;具体的,终端支持多种处理能力时,可以配置多个处理能力,处理低速的数据需求时的处理能力一,处理中速的数据需求时的处理能力二,处理高速的数据需求时的处理能力三;所述低速的数据需求,可以是对时间要求不高的业务需求,UE可以采用低速的处理器及其周围设备,对信号/信道进行处理,对应的,高速的数据需求,可以是对时间要求高的业务需求,UE可以采用高速的处理器及其周围设备;
所述终端的处理能力的数值,可以是绝对处理的量化值,可以是绝对处理,可以是相对值,相对于UE处理能力的偏移值,可以是绝对处理量化后对应的索引入口;所述索引入口,可以是基站和终端约定好的,可以是RRC配置的;
所述终端的处理能力,可以是终端上报的;可以是基站下发给终端,终端确认回复的;
所述终端的处理能力,可以是静态,半静态配置的;可以是动态配置的;所述静态/半静态配置,可以是通过RRC信令配置的,可以是MAC-CE配置的;所述动态配置,可以是DCI配置的。
步骤2:基站配置处理能力门限。
具体的:所述处理能力门限可以包括以下处理能力中的至少一种,可以是处理时间的能力门限,可以是处理功耗的能力门限,可以是处理能量的能 力门限;其他的,本公开实施例不做限定;
所述处理能力门限,具体的,包含至少一个处理能力门限的数值;所述处理能力门限的数值,可以是绝对值,可以是绝对值量化后的数值,可以是相对值,相对于UE处理能力的偏移值,可以是所述绝对值,绝对值量化后的数值,相对于UE处理能力的偏移值的入口索引值;所述索引入口,可以是基站和终端约定好的,可以是RRC配置的;
所述基站配置处理能力门限,可以是静态,半静态配置的,可以是动态配置的;所述静态,半静态配置的,可以是通过RRC信令配置的,可以是通过MAC-CE配置的;所述动态配置,可以是通过DCI配置的;可以是静态,半静态,和动态配置交替的;
所述基站配置处理能力门限,可以是UE上报给基站的,基站根据UE上报的门限值配置,也可以是基站根据上报的门限值为输入,经过基站处理后配置的标识,所述基站,可以根据UE的上报的门限值直接配置所述标识,或者可以是基站根据上报的门限值,和历史上报的门限值取平均后得到的。
具体的,如果基站在一段时间的调度,TDRA的配置可以支持终端关掉射频接收设备或者射频发送设备,和缓存信号/信道,基站可以静态、半静态配置一个处理能力门限一,从而终端的实际处理在时间范围一总是小于所述处理能力门限一,终端则可以关掉射频接收设备或者射频发送设备,和缓存信号/信道,从而降低UE功耗;否则,基站配置的处理能力门限二,终端的实际处理在时间范围一总是大于所述处理能力门限二,从而终端不关掉射频收发和缓存信号/信道;
如果基站的时间上的调度,TDRA的配置,可以支持终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的配置是变化的,则基站可以动态配置一个处理能力门限,如果终端可以关掉射频接收设备或者射频发送设备,和缓存信号/信道,进入睡眠模式,则基站配置一个处理能力门限一,从而终端的实际处理小于所述处理能力门限一,从而UE关掉射频接收设备或者射频发送设备,和缓存信号/信道;否则,如果终端不能关掉射频接收设备或者射频发送设备,和缓存信号/信道进入睡眠模式,则基站配置的处理能力门限二,终端的实际处理大于所述处理能力门限二,从而UE不关掉射频接收设 备或者射频发送设备,和缓存信号/信道进入睡眠模式;
进一步的,如果基站在PDCCH接收之后到PDSCH接收之间需要发送CSI-RS,TRS,SSB,则基站可以配置处理能力门限,使得UE不关掉射频收发或缓存信道/信号;具体的,所述CSI-RS,TRS,SSB(广播同步信道),可以是非周期配置的,可以是周期配置的;在没有CSI-RS,TRS,SSB发送时,UE可以配置处理能力门限一,当CSI-RS,TRS,SSB需要发送时,则基站配置UE的处理能力门限为处理能力门限二。
所述终端关掉射频接收设备或者射频发送设备,和缓存,不进行信号/信道的收发,则可以进入睡眠模式。所述睡眠模式,可以是UE不进行数据的收发,关掉部分设备,所述设备可以是射频,基带,或其他相关设备组件的状态。具体的,一般认为,deep sleep模式,UE关掉了绝大多数设备,例如射频,基带,只保留基本的时钟;light sleep模式,UE关掉了部分设备,例如射频,或部分射频,部分基带;micro sleep模式,UE不关掉设备,或关掉了射频接收设备,如果有数据到来,可以随时,或是非常低的时延,例如,纳秒(ns)级别,打开从而接收数据/信号。或者,UE可以划分的不同的模式也可是,低功耗模式(lower power mode),节能模式(power efficient mode),正常功耗模式(normal power mode);其中低功耗模式,可以是UE进入至少一种睡眠状态的模式;节能模式,可以是UE采用至少一种节能技术的模式;正常功耗模式,可以是UE没有配置节能模式下UE的功耗状态,或者是UE在正常的数据/信号接收状态下的模式。
步骤3,基站发送所述处理能力门限。
具体的:所述处理能力门限,可以承载在PDCCH信道,通过DCI动态指示;可以是承载PDSCH信道,通过RRC信令指示;可以是承载在广播同步信道,通过RRC信令指示;其他承载RRC信令的信号/信道,本公开实施例不做限定;可以承载在节能信道(power saving channel)中,通过节能信号(power saving signal)信令半静态,或动态指示;
所述power saving signal,可以是已有的信号,例如CSI-RS,TRS,SSB可以是DCI,或者可以是序列,例如唤醒信号(wake-up signal)。
所述PDCCH信道承载,可以通过比特位指示所述处理能力门限,具体 的,可以在已有的DCI format中增加比特位;可以是增加新的DCI format用来指示所处处理能力门限,具体新的DCI format,可以是公共(group-common)DCI,可以是专用(UE-specific)的DCI;进一步的,可以通过扰码指示所述处理能力门限,具体的,可以在已有的DCI format中增加扰码指示;所述DCI format可以是UE-specific的DCI format,可以是group-common DCI format;所述扰码,可以是基站和UE约定好的定义的RNTI序列;
所述power saving channel承载,可以通过比特位指示所述处理能力门限,具体的,可以在power saving signal中增加比特位;可以是通过扰码指示所处处理能力门限;所述扰码,可以是基站和UE约定好的定义的RNTI序列;
所述RNTI可以是0~65535的16进制序列。
步骤4,基站发送PDCCH。
具体的:所述PDCCH,用于指示所述终端的时间调度信息;或者,
所述基站发送PDCCH和所述处理能力门限;如果所述处理能力门限承载在和终端数据调度相同的DCI上,例如,所述处理能力门限以RNTI加扰的方式,加扰在DCI上,或是,所述处理能力门限承载在和终端数据调度发送相同的slot上,例如,所述处理能力门限承载在同一个slot的不同的DCI上,或是以RNTI加扰的方式承载在同一个slot不同的DCI上,则基站可以发送PDCCH和所述处理能力门限。
步骤5,基站发送CSI-RS、TRS,SSB或者PDSCH,或接收PUSCH。
具体的:所述PDSCH,或PUSCH可以是按照步骤4所述PDCCH时间调度信息发送的,或接收。所述CSI-RS或者TRS,SSB可以是按照步骤4所述的PDCCH调度或触发标识发送的。
实施例2
该实施例中,基站配置终端是否关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识,其中,上述节能指示可以为该标识。
步骤1:基站配置终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识。
所述终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识, 如果所述标识配置为标识一,则UE关掉射频接收设备或者射频发送设备,和缓存信号/信道;如果所述标识配置为标识二,则UE不关掉射频接收设备或者射频发送设备,和缓存信号/信道。
所述基站配置关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识,可以是UE上报给基站的,基站根据UE上报的标识,也可以是基站根据上报的标识为输入,经过基站算法处理后配置的标识。
所述标识,基站可以根据调度的TDRA的配置和UE的实际处理的能力,判断配置标识一,或标识二;所述终端的处理能力,包括以下处理能力的至少一种,时间处理能力,处理功耗能力,处理能耗能力,其他的本公开实施例不做限制。
具体的,以TDRA的配置为例,如果S的起始位置位于较低的符号位置,UE在接收PDCCH之后,仅有少的时间需要接收和缓存PDSCH/PUSCH,而如果UE关掉射频接收设备或者射频发送设备,和缓存,在打开后,带来的转换的功耗,大于在PDCCH接收后和开始接收PDSCH之间的时间gap的功耗,则基站可以配置为标识二;否则,基站可以配置为标识一;
进一步的,以处理时间能力为例,如果PDCCH需要较长的处理时间,S的起始位置位于较高的符号位置,UE在接收PDCCH之后,如果UE关掉射频接收设备或者射频发送设备,和缓存,在打开之前,UE不能完成PDCCH的解调解码,从而不能获取UE的PDSCH的接收时间位置的信息,则基站可以配置为标识二;否则,可以配置为标识一;其中,所述需要较长的处理时间,具体的,可以是相对值,也可以是绝对值比较,例如,可以是处理时间大于平均处理时间,或,处理时间大于N个时间单元。
进一步的,如果基站在PDCCH接收之后到PDSCH接收之间需要发送CSI-RS,TRS,SSB,则基站可以配置所述标识,使得UE不关掉射频收发或缓存信道/信号;具体的,上述CSI-RS,TRS,SSB可以是非周期配置的,可以是周期配置的;在没有CSI-RS,TRS,SSB发送时,UE可以配置所述标识为所述标识一,当CSI-RS,TRS,SSB需要发送时,则基站配置UE的所述标识为所述标识二。
所述终端关掉射频接收设备或者射频发送设备,和缓存,不进行信号/信 道的收发,则可以进入睡眠模式。所述睡眠模式,可以是UE不进行数据的收发,关掉部分设备,所述设备可以是射频,基带,或其他相关设备组件的状态。具体的,一般认为,deep sleep模式,UE关掉了绝大多数设备,例如射频,基带,只保留基本的时钟;light sleep模式,UE关掉了部分设备,例如射频,或部分射频,部分基带;micro sleep模式,UE不关掉设备,或关掉了射频接收设备,如果有数据到来,可以随时,或是非常低的时延,例如,ns级别,打开从而接收数据/信号。或者,UE可以划分的不同的模式也可是,低功耗模式(lower power mode),节能模式(power efficient mode),正常功耗模式(normal power mode);其中低功耗模式,可以是UE进入至少一种睡眠状态的模式;节能模式,可以是UE采用至少一种节能技术的模式;正常功耗模式,可以是UE没有配置节能模式下UE的功耗状态,或者是UE在正常的数据/信号接收状态下的模式。
步骤2:基站发送步骤1所述标识
步骤1所述标识,可以承载在PDCCH信道,通过DCI动态指示;可以是承载PDSCH信道,通过RRC信令指示或MAC-CE指示;可以是承载在广播同步信道,通过RRC信令指示;其他承载RRC信令的信号/信道,本公开实施例不做限定;可以承载在power saving channel中,通过power saving signal信令半静态,或动态指示;
所述power saving signal,可以是已有的信号,例如CSI-RS,TRS,SSB,可以是DCI,或者可以是序列,例如wake-up signal。
所述PDCCH信道承载,可以通过比特位指示所述处理能力门限,具体的,可以在已有的DCI format中增加比特位;可以是增加新的DCI format用来指示所处处理能力门限,具体新的DCI format,可以是group-common DCI,可以是UE-specific的DCI;进一步的,可以通过扰码指示所述处理能力门限,具体的,可以在已有的DCI format中增加扰码指示;所述DCI format可以是UE-specific的DCI format,可以是group-common DCI format;所述扰码,可以是基站和UE约定好的定义的RNTI序列;
所述power saving channel承载,可以通过比特位指示所述处理能力门限,具体的,可以在power saving signal中增加比特位;可以是通过扰码指示所处 处理能力门限;所述扰码,可以是基站和UE约定好的定义的RNTI序列;
所述RNTI,可以是0~65535的16进制序列。
步骤3,基站发送PDCCH。
具体的:所述PDCCH,用于指示所述终端的时间调度信息;或者,
所述基站发送PDCCH和步骤1所述标识;如果步骤1所述标识承载在和终端数据调度相同的DCI上,例如,所述处理能力门限以RNTI加扰的方式,加扰在DCI上,或是,步骤1所述标识承载在和终端数据调度发送相同的slot上,例如,步骤1所述标识承载在同一个slot的不同的DCI上,或是以RNTI加扰的方式承载在同一个slot不同的DCI上,则基站可以发送PDCCH和所述标识。
步骤4,基站发送CSI-RS,TRS,SSB,PDSCH,或接收PUSCH。
具体的:所述PDSCH,或PUSCH,是按照步骤4所述PDCCH时间调度信息发送的,或接收。所述CSI-RS,TRS,SSB,是按照步骤4所述的PDCCH调度或触发标识发送的。
实施例3
该实施例中,基站配置调度的时间资源是否和最近一次的时间资源是否相同的标识,例如:上述时间调度信息指示。
步骤1:基站配置调度的时间资源是否和最近一次的时间资源相同的标识
所述时间资源,可以包括K0,K2,S,L,SLIV中的至少一个;K0或者K2用于指示PDSCH或者PUSCH发送slot和PDCCH发送slot的slot间隔;S用于指示PDSCH或者PUSCH起始发送的slot中的符号的位置;L标识PDSCH或者PUSCH的传输时长。
所述基站配置调度的时间资源是否和最近一次的时间资源相同的标识,可以是UE上报给基站的,基站根据UE上报的标识,也可以是基站根据上报的标识为输入,经过基站算法处理后配置的标识。
所述时间资源相同,可以是K0,K2,S,L,SLIV中的至少一个相同。具体的,可以通过RRC配置;也可以是基站和终端约定好的。
步骤2:基站发送步骤1所述标识
具体的,同实施例2步骤2,此处不作赘述。
步骤3:步骤3,基站发送PDCCH。
具体的,同实施例2步骤3,此处不作赘述。
骤4,基站发送CSI-RS,TRS,SSB,PDSCH,或接收PUSCH。
具体的,同实施2步骤4,此处不作赘述。
实施例4
该实施例中,基站配置TDRA,例如:上述时间调度信息。
步骤1:基站配置TDRA信息。具体的:
所述TDRA的信息,可以包括K0,K2,S,L,SLIV中的至少一个,K0或者K2用于指示PDSCH或者PUSCH发送slot和PDCCH发送slot的slot间隔;S用于指示PDSCH或者PUSCH起始发送的slot中的符号的位置;L标识PDSCH或者PUSCH的传输时长。
所述基站配置TDRA的信息,可以是UE上报给基站的,基站根据UE上报TDRA的信息,也可以是基站根据上报的TDRA的信息为输入,经过基站算法处理后配置的TDRA的信息。
步骤2:基站发送步骤1所述TDRA信息
具体的,同实施例2步骤2,此处不作赘述。
步骤3:基站发送PDCCH。
具体的,同实施例2步骤3,此处不作赘述。
其中,所述发送的PDCCH中DCI,如果携带了TDRA信息,则所述步骤3PDCCH携带的所处TDRA信息和步骤2所述TDRA信息配置相同;如果UE收到的PDCCH指示的TDRA的信息和步骤2所述的TDRA的信息配置不同,则UE按照步骤2所述TDRA信息进行接收。
步骤4,基站发送CSI-RS,TRS,SSB,PDSCH,或接收PUSCH。
具体的,同实施2步骤4,此处不作赘述。
实施例5
该实施例中,基站配置PDCCH接收到PDSCH接收之间的时域gap,例如:上述时域间隔指示。
步骤1:基站配置PDCCH接收到PDSCH接收之间的时域的gap。
所述PDCCH接收到PDSCH接收之间的时域的gap,可以是PDCCH开始接收到PDSCH开始接收之间的时域的gap;可以是PDCCH接收结束到PDSCH开始接收之间的时域的gap;
所述时域的gap,可以是以OFDM符号或SC-OFDM符号为时间粒度的数值;可以是以slot为时间粒度的数值;可以是以绝对时间,例如,秒,毫秒,微秒为时间粒度的数值。
所述基站配置PDCCH接收到PDSCH接收之间的时域gap,可以是UE上报给基站的,基站根据UE上报的时域gap信息,也可以是基站根据上报的gap信息为输入,经过基站算法处理后的gap数值。
步骤2:基站发送步骤1所述时域的gap
具体的,同实施例2步骤2,此处不作赘述。
步骤3:步骤3,基站发送PDCCH。
具体的,同实施例2步骤3,此处不作赘述。
步骤4,基站发送CSI-RS,TRS,SSB,PDSCH,或接收PUSCH。
具体的,同实施2步骤4,此处不作赘述。
实施例6
该实施例,终端接收处理能力门限
步骤1:终端上报处理能力。
具体的:所述终端的处理能力,包括以下处理能力中的至少一种,可以是处理时间的能力,可以是处理功耗的能力,可以是处理能量的能力;其他的,本公开实施例不做限定;
所述终端的处理能力,可以是PDCCH-only的处理的能力,可以是PDCCH和其他信道/信号的总和的处理的能力,具体,可以是PDCCH+PDSCH的处理的能力,可以是PDCCH+PUSCH的处理能力,可以是PDCCH+SRS的处理能力,可以是PDCCH+CSI-RS的处理能力,可以是PDCCH+TRS的处理 能力,可以是PDCCH+SSB的处理能力,其他的信道或信号,本公开实施例不做限定;
所述终端的处理能力,包含至少一个处理能力的数值;终端可以根据自己的处理能力,上报给基站至少一个处理能力数值;具体的,终端支持多种处理能力时,可以配置多个处理能力,处理低速的数据需求时的处理能力一,处理中速的数据需求时的处理能力二,处理高速的数据需求时的处理能力三;所述低速的数据需求,可以是对时间要求不高的业务需求,UE可以采用低速的处理器及其周围设备,对信号/信道进行处理,对应的,高速的数据需求,可以是对时间要求高的业务需求,UE可以采用高速的处理器及其周围设备;
所述终端的处理能力的数值,可以是绝对处理的量化值,可以是绝对处理,可以是相对值,相对于UE处理能力的偏移值,可以是绝对处理量化后对应的索引入口;所述索引入口,可以是基站和终端约定好的,可以是RRC配置的;
所述终端的处理能力,可以是终端上报的;可以是基站下发给终端,终端确认回复的;
所述终端的处理能力,可以是静态,半静态配置的;可以是动态配置的;所述静态/半静态配置,可以是通过RRC信令配置的,可以是MAC-CE配置的;所述动态配置,可以是DCI配置的。
步骤2:终端接收处理能力门限。
具体的:所述处理能力门限可以包括以下处理能力中的至少一种,可以是处理时间的能力门限,可以是处理功耗的能力门限,可以是处理能量的能力门限;其他的,本公开实施例不做限定;
所述处理能力门限,具体的,包含至少一个处理能力门限的数值;所述处理能力门限的数值,可以是绝对值,可以是绝对值量化后的数值,可以是相对值,相对于UE处理能力的偏移值,可以是所述绝对值,绝对值量化后的数值,相对于UE处理能力的偏移值的入口索引值;所述索引入口,可以是基站和终端约定好的,可以是RRC配置的;
所述终端接收的处理能力门限,可以是静态,半静态接收的,可以是动态接收的;所述静态,半静态配置的,可以是通过RRC信令配置的,可以是 通过MAC-CE配置的;所述动态配置,可以是通过DCI配置的;可以是静态,半静态,和动态配置交替的;
所述处理能力门限,可以是UE上报给基站的,基站根据UE上报的处理能力门限,也可以是基站根据上报的处理能力门限为输入,经过基站处理后配置的标识,所述基站,可以根据UE的上报的门限值直接配置所述标识,或者可以是基站根据上报的门限值,和历史上报的门限值取平均后得到的。
具体的,如果终端接收的基站的时间上的调度,TDRA的配置,可以支持终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的配置是变化的,则终端可以接收基站动态配置一个处理能力门限,如果终端可以关掉射频接收设备或者射频发送设备,和缓存信号/信道,则终端可以接收基站配置一个处理能力门限二,从而终端的实际处理小于所述处理能力门限二,从而UE关掉射频接收设备或者射频发送设备,和缓存信号/信道;否则,如果终端不能关掉射频接收设备或者射频发送设备,和缓存信号/信道,则基站配置的处理能力门限二,终端的实际处理大于所述处理能力门限二,从而UE不关掉射频接收设备或者射频发送设备,和缓存信号/信道;
进一步的,如果基站在PDCCH接收之后到PDSCH接收之间需要发送CSI-RS,TRS,SSB,则基站可以配置处理能力门限,使得UE不关掉射频收发或缓存信道/信号;具体的,所处CSI-RS,TRS,SSB(广播同步信道),可以是非周期配置的,可以是周期配置的;在没有CSI-RS,TRS,SSB发送时,UE可以配置处理能力门限一,当CSI-RS,TRS,SSB需要发送时,则基站配置UE的处理能力门限为处理能力门限二。
所述终端关掉射频接收设备或者射频发送设备,和缓存,不进行信号/信道的收发,则可以进入睡眠模式。所述睡眠模式,可以是UE不进行数据的收发,关掉部分设备,所述设备可以是射频,基带,或其他相关设备组件的状态。具体的,一般认为,deep sleep模式,UE关掉了绝大多数设备,例如射频,基带,只保留基本的时钟;light sleep模式,UE关掉了部分设备,例如射频,或部分射频,部分基带;micro sleep模式,UE不关掉设备,或关掉了射频接收设备,如果有数据到来,可以随时,或是非常低的时延,例如,ns级别,打开从而接收数据/信号。或者,UE可以划分的不同的模式也可是, 低功耗模式(lower power mode),节能模式(power efficient mode),正常功耗模式(normal power mode);其中低功耗模式,可以是UE进入至少一种睡眠状态的模式;节能模式,可以是UE采用至少一种节能技术的模式;正常功耗模式,可以是UE没有配置节能模式下UE的功耗状态,或者是UE在正常的数据/信号接收状态下的模式。
所述处理能力门限,可以承载在PDCCH信道,通过DCI动态指示;可以是承载PDSCH信道,通过RRC信令指示;可以是承载在广播同步信道,通过RRC信令指示;其他承载RRC信令的信号/信道,本公开实施例不做限定;可以承载在power saving channel中,通过power saving signal信令半静态,或动态指示;终端可以在相应的信道上接收相应的信号。所述power saving signal,可以是已有的信号,例如CSI-RS,TRS,SSB,可以是DCI,或者可以是序列,例如wake-up signal。
具体的:所述PDCCH信道承载,可以通过比特位指示所述处理能力门限,具体的,可以在已有的DCI format中增加比特位;可以是增加新的DCI format用来指示所处处理能力门限,具体新的DCI format,可以是group-common DCI,可以是UE-specific的DCI;进一步的,可以通过扰码指示所述处理能力门限,具体的,可以在已有的DCI format中增加扰码指示;所述DCI format可以是UE-specific的DCI format,可以是group-common DCI format;所述扰码,可以是基站和UE约定好的定义的RNTI序列;
所述power saving channel承载,可以通过比特位指示所述处理能力门限,具体的,可以在power saving signal中增加比特位;可以是通过扰码指示所处处理能力门限;所述扰码,可以是基站和UE约定好的定义的RNTI序列;
所述RNTI,可以是0~65535的16进制序列。
步骤3,终端接收PDCCH。
具体的:所述PDCCH,用于指示所述终端的时间调度信息;或者,
所述终端接收所述基站发送PDCCH和所述处理能力门限;如果所述处理能力门限承载在和终端数据调度相同的DCI上,例如,所述处理能力门限以RNTI加扰的方式,加扰在DCI上,或是,所述处理能力门限承载在和终端数据调度发送相同的slot上,例如,所述处理能力门限承载在同一个slot 的不同的DCI上,或是以RNTI加扰的方式承载在同一个slot不同的DCI上,则基站可以发送PDCCH和所述处理能力门限。
所述终端在接收PDCCH之后,可以关掉射频接收设备或者射频发送设备,和缓存部分;然后对PDCCH进行解调和解码,获得DCI的调度信息。
步骤4,终端接收PDSCH,CSI-RS,TRS,SSB或发送PUSCH。
具体的:所述PDSCH,或PUSCH的接收,是按照步骤3所述PDCCH时间调度信息进行接收或发送的。终端在调度信息指示的PDSCH接收的时间位置,或PUSCH发送的时间位置,接收PDSCH或发送PUSCH。所述CSI-RS,TRS,SSB,是按照步骤4所述的PDCCH调度或触发标识发送的。
实施例7
该实施例中,终端接收是否关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识,例如:上述节能指示。
步骤1:终端接收是否关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识。
所述终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识,如果所述标识配置为标识一,则UE关掉射频接收设备或者射频发送设备,和缓存信号/信道;如果所述标识配置为标识二,则UE不关掉射频接收设备或者射频发送设备,和缓存信号/信道。
所述标识,基站可以根据调度的TDRA的配置和UE的实际处理的能力,判断配置标识一,或标识二;所述终端的处理能力,包括以下处理能力的至少一种,时间处理能力,处理功耗能力,处理能耗能力,其他的本文不做限制;
所述终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识,可以是UE上报给基站的,基站根据UE上报的终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识配置,也可以是基站根据上报的终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识为输入,经过基站算法处理后的终端关掉射频接收设备或者射频发送设备,和缓存信号/信道的标识。
具体的,以TDRA的配置为例,如果S的起始位置位于较低的符号位置,UE在接收PDCCH之后,仅有少的时间需要接收和缓存PDSCH/PUSCH,而如果UE关掉射频接收设备或者射频发送设备,和缓存,在打开后,带来的转换的功耗,大于在PDCCH接收后和开始接收PDSCH之间的时间gap的功耗,则基站可以配置为标识二;否则,基站可以配置为标识一;
进一步的,以处理时间能力为例,如果PDCCH需要较长的处理时间,S的起始位置位于较高的符号位置,UE在接收PDCCH之后,如果UE关掉射频接收设备或者射频发送设备,和缓存,在打开之前,UE不能完成PDCCH的解调解码,从而不能获取UE的PDSCH的接收时间位置的信息,则基站可以配置为标识二;否则,可以配置为标识一;其中,所述需要较长的处理时间,具体的,可以是相对值,也可以是绝对值比较,例如,可以是处理时间大于平均处理时间,或,处理时间大于N个时间单元。
进一步的,针对处理时间能力为例,如果按照所述处理时间能力,UE可以进入睡眠状态,但是在PDCCH接收之后和PDSCH接收之前,UE需要接收其他的信号,例如,寻呼(paging),SSB,剩余最小系统信息(Remaining minimum system information,RMSI),CSI-RS,TRS等信号或信道,则基站可以配置为标识二,指示UE不关掉射频收发和缓存,不进入睡眠状态;
进一步的,如果基站在PDCCH接收之后到PDSCH接收之间需要发送CSI-RS,TRS,SSB,则基站可以配置所述标识,使得UE不关掉射频收发或缓存信道/信号;具体的,所处CSI-RS,TRS,SSB,可以是非周期配置的,可以是周期配置的;在没有CSI-RS,TRS,SSB发送时,UE可以配置所述标识一,当CSI-RS,TRS,SSB需要发送时,则基站配置UE的处理能力门限为所述标识二。
所述终端关掉射频接收设备或者射频发送设备,和缓存,不进行信号/信道的收发,则可以进入睡眠模式。所述睡眠模式,可以是UE不进行数据的收发,关掉部分设备,所述设备可以是射频,基带,或其他相关设备组件的状态。具体的,一般认为,deep sleep模式,UE关掉了绝大多数设备,例如射频,基带,只保留基本的时钟;light sleep模式,UE关掉了部分设备,例如射频,或部分射频,部分基带;micro sleep模式,UE不关掉设备,或关掉 了射频接收设备,如果有数据到来,可以随时,或是非常低的时延,例如,ns级别,打开从而接收数据/信号。或者,UE可以划分的不同的模式也可是,低功耗模式(lower power mode),节能模式(power efficient mode),正常功耗模式(normal power mode);其中低功耗模式,可以是UE进入至少一种睡眠状态的模式;节能模式,可以是UE采用至少一种节能技术的模式;正常功耗模式,可以是UE没有配置节能模式下UE的功耗状态,或者是UE在正常的数据/信号接收状态下的模式。
所述标识,可以承载在PDCCH信道,通过DCI动态指示;可以是承载PDSCH信道,通过RRC信令指示或MAC-CE指示;可以是承载在广播同步信道,通过RRC信令指示;其他承载RRC信令的信号/信道,本公开实施例不做限定;可以承载在power saving channel中,通过power saving signal信令半静态,或动态指示;所述power saving signal,可以是已有的信号,例如CSI-RS,TRS,SSB,可以是DCI,或者可以是序列,例如wake-up signal。
所述PDCCH信道承载,可以通过比特位指示所述处理能力门限,具体的,可以在已有的DCI format中增加比特位;可以是增加新的DCI format用来指示所处处理能力门限,具体新的DCI format,可以是group-common DCI,可以是UE-specific的DCI;进一步的,可以通过扰码指示所述处理能力门限,具体的,可以在已有的DCI format中增加扰码指示;所述DCI format可以是UE-specific的DCI format,可以是group-common DCI format;所述扰码,可以是基站和UE约定好的定义的RNTI序列;
所述power saving channel承载,可以通过比特位指示所述处理能力门限,具体的,可以在power saving signal中增加比特位;可以是通过扰码指示所处处理能力门限;所述扰码,可以是基站和UE约定好的定义的RNTI序列;
所述RNTI,可以是0~65535的16进制序列。
步骤2,终端接收PDCCH。
具体的:所述PDCCH,用于指示所述终端的时间调度信息;或者,
所述终端接收PDCCH和步骤1所述标识;如果步骤1所述标识承载在和终端数据调度相同的DCI上,例如,所述处理能力门限以RNTI加扰的方式,加扰在DCI上,或是,步骤1所述标识承载在和终端数据调度发送相同 的slot上,例如,步骤1所述标识承载在同一个slot的不同的DCI上,或是以RNTI加扰的方式承载在同一个slot不同的DCI上,则终端可以同时接收PDCCH和所述标识。
所述终端在接收PDCCH之后,可以关掉射频接收设备或者射频发送设备,和缓存部分;然后对PDCCH进行解调和解码,获得DCI的调度信息。
步骤3,终端接收PDSCH,CSI-RS,TRS,SSB或发送PUSCH。
具体的:所述PDSCH,或PUSCH,是按照步骤3所述PDCCH时间调度信息接收的,或发送的。所述CSI-RS,TRS,SSB,是按照步骤4所述的PDCCH调度或触发标识发送的。
实施例8
该实施例中,终端接收调度的时间资源是否和最近一次的时间资源是否相同的标识,例如:上述时间调度信息指示。
步骤1:终端接收调度的时间资源是否和最近一次的时间资源相同的标识。
所述时间资源,可以包括K0,K2,S,L,SLIV中的至少一个;K0或者K2用于指示PDSCH或者PUSCH发送slot和PDCCH发送slot的slot间隔;S用于指示PDSCH或者PUSCH起始发送的slot中的符号的位置;L标识PDSCH或者PUSCH的传输时长;
所述时间资源相同,可以是K0,K2,S,L,SLIV中的至少一个相同。具体的,可以通过RRC配置;也可以是基站和终端约定好的。
所述终端接收调度的时间资源是否和最近一次的时间资源相同的标识标识,可以是UE上报给基站的,基站根据UE上报的调度的时间资源是否和最近一次的时间资源相同的标识配置,也可以是基站根据上报的调度的时间资源是否和最近一次的时间资源相同的标识为输入,经过基站算法处理后的调度的时间资源是否和最近一次的时间资源相同的标识。
步骤2:终端接收PDCCH。
具体的,同实施例7步骤2,此处不作赘述。
步骤3,终端接收PDSCH,CSI-RS,TRS,SSB或发送PUSCH。
具体的,同实施例7步骤3,此处不作赘述。
实施例9
该实施例中终端接收TDRA,例如:时间调度信息
步骤1:终端接收TDRA信息。
具体的:所述TDRA的信息,可以包括K0,K2,S,L,SLIV中的至少一个,K0或者K2用于指示PDSCH或者PUSCH发送slot和PDCCH发送slot的slot间隔;S用于指示PDSCH或者PUSCH起始发送的slot中的符号的位置;L标识PDSCH或者PUSCH的传输时长;
所述终端接收TDRA的信息,可以是UE上报给基站的,基站根据UE上报的TDRA信息配置,也可以是基站根据上报的TDRA信息为输入,经过基站算法处理后的TDRA信息。
步骤2:终端接收PDCCH。
具体的,同实施例7步骤2,此处不作赘述。
步骤3,终端接收PDSCH,CSI-RS,TRS,SSB或发送PUSCH。
具体的,同实施例7步骤3,此处不作赘述。
实施例10
该实施例中,终端接收PDCCH接收到PDSCH接收之间的时域gap信息,例如:时域间隔指示。
步骤1:终端接收PDCCH接收到PDSCH接收之间的时域的gap的信息。
所述PDCCH接收到PDSCH接收之间的时域的gap,可以是PDCCH开始接收到PDSCH开始接收之间的时域的gap;可以是PDCCH接收结束到PDSCH开始接收之间的时域的gap;
所述时域的gap,可以是以OFDM符号或SC-OFDM符号为时间粒度的数值;可以是以slot为时间粒度的数值;可以是以绝对时间,例如,秒,毫秒,微秒为时间粒度的数值。
所述终端接收PDCCH接收到PDSCH接收之间的时域的gap的信息,可以是UE上报给基站的,基站根据UE上报的PDCCH接收到PDSCH接收之 间的时域的gap的信息配置,也可以是基站根据上报的PDCCH接收到PDSCH接收之间的时域的gap的信息为输入,经过基站算法处理后的PDCCH接收到PDSCH接收之间的时域的gap的信息。
步骤2:终端接收PDCCH。
具体的,同实施例7步骤2,此处不作赘述。
步骤3,终端接收CSI-RS,TRS,PDSCH,SSB,或接收PUSCH。
具体的,同实施7步骤2,此处不作赘述。
请参见图4,图4是本公开实施例提供的一种终端的结构图,如图4所示,终端400包括:
第一接收模块401,用于接收网络侧设备发送的指示信息和数据调度信息;
进入模块402,用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
传输模块403,用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示进入节能模式,或者不进入所述正常功耗模式,则进入节能模式,或进入所述非正常功耗模式;或者
根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式;或 者
根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则不进入节能模式,或进入所述正常功耗模式,或者按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示不进入节能模式,或进入正常功耗模式,则不进入节能模式,或进入所述正常功耗模式;或者
若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则不进入节能模式,或进入所述正常功耗模式。
可选的,所述处理能力门限包括如下至少一项:
处理时间能力门限、处理功耗能力门限、处理能量能力门限;
其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限 的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式。
可选的,所述指示信息包括:
所述终端上报给所述网络侧设备的指示信息;或者
所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
可选的,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且如图 5所示,所述终端400还包括:
第二接收模块404,用于接收所述参考信号;
和/或,
若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
可选的,所述参考信号包括如下至少一项:
信道状态指示参考信号CSI-RS、跟踪参考信号TRS、广播同步信号。
可选的,所述进入节能模式,或进入非正常功耗模式,包括:
关掉所述终端的部分设备;
或者,
所述进入节能模式,或进入非正常功耗模式,包括:
进入低功耗模式或者采用至少一个节能技术的模式。
可选的,所述部分设备包括如下至少一项:
射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
可选的,所述指示信息承载在物理下行控制信道PDCCH、下行共享信道PDSCH、广播同步信道或者节能信道上;
其中,所述节能信道用于传输节能信号。
可选的,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息DCI上;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
可选的,通过比特位指示所述指示信息;或者
通过扰码指示所述指示信息。
需要说明的是,本实施例中上述终端400可以是本公开实施例中方法实施例中任意实施方式的终端本公开实施例中方法实施例中终端的任意实施方式都可以被本实施例中的上述终端400所实现,以及达到相同的有益效果,此处不再赘述。
请参见图6,图6是本公开实施例提供的一种网络侧设备的结构图,如图6所示,网络侧设备600包括:
第一发送模块601,用于向终端发送指示信息和数据调度信息,所述指示信息用于指示所述终端在接收所述数据调度信息后,是否进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
传输模块602,用于根据所述数据调度信息进行数据传输。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则所述时间调度信息指示用于指示所述终端按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示进入节能模式,则所述节能指示用于指示所述终端进入节能模式,或进入所述非正常功耗模式;或者
所述时间调度信息用于指示所述终端根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式;或者
所述时域间隔指示用于指示所述终端根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则所述时间调度信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,或者所述时间调度信息用于指示所述终端按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示不进入节能模式,或进入正常功耗模式,则所述节能指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式;或者
若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则所述时域间隔指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式。
可选的,所述处理能力门限包括如下至少一项:
处理时间能力门限、处理功耗能力门限、处理能量能力门限;
其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则所述处理时间能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则所述处理时间能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力 门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式。
可选的,所述指示信息包括:
所述终端上报给所述网络侧设备的指示信息;或者
所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
可选的,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且如图7所示,所述网络侧设备600还包括:
第二发送模块603,用于发送所述参考信号;
和/或,
若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
可选的,所述参考信号包括如下至少一项:
CSI-RS、TRS、广播同步信号。
可选的,所述进入节能模式,或进入非正常功耗模式,包括:
关掉所述终端的部分设备;
或者,
所述进入节能模式,或进入非正常功耗模式,包括:
进入低功耗模式或者采用至少一个节能技术的模式。
可选的,所述部分设备包括如下至少一项:
射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
可选的,所述指示信息承载在PDCCH、PDSCH、广播同步信道或者节能信道上;
其中,所述节能信道用于传输节能信号。
可选的,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息DCI上;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
可选的,通过比特位指示所述指示信息;或者
通过扰码指示所述指示信息。
需要说明的是,本实施例中上述网络侧设备600可以是本公开实施例中方法实施例中任意实施方式的终端本公开实施例中方法实施例中网络侧设备的任意实施方式都可以被本实施例中的上述网络侧设备600所实现,以及达到相同的有益效果,此处不再赘述。
请参见图8,图8是本公开实施例提供的另一种终端的结构图,如图8所示,该终端包括:收发机810、存储器820、处理器800及存储在所述存储器820上并可在所述处理器800上运行的程序,其中:
所述收发机810,用于收网络侧设备发送的指示信息和数据调度信息;
所述处理器800,用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
所述收发机810还用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输;
或者,
所述收发机810,用于收网络侧设备发送的指示信息和数据调度信息;
所述收发机810还用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
所述收发机810还用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输。
其中,收发机810,可以用于在处理器800的控制下接收和发送数据。
在图8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800代表的一个或多个处理器和存储器820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810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。
处理器800负责管理总线架构和通常的处理,存储器820可以存储处理器800在执行操作时所使用的数据。
需要说明的是,存储器820并不限定只在终端上,可以将存储器820和处理器800分离处于不同的地理位置。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示进入节能模式,或者不进入所述正常功耗模式,则进入节能模式,或进入所述非正常功耗模式;或者
根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式;或者
根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则不进入节能模式,或进入所述正常功耗模式,或者按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示不进入节能模式,或进入正常功耗模式,则不进入节能模式,或进入所述正常功耗模式;或者
若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则不进入节能模式,或进入所述正常功耗模式。
可选的,所述处理能力门限包括如下至少一项:
处理时间能力门限、处理功耗能力门限、处理能量能力门限;
其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量 能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式。
可选的,所述指示信息包括:
所述终端上报给所述网络侧设备的指示信息;或者
所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
可选的,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且收发机810还用于接收所述参考信号;
和/或,
若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
可选的,所述参考信号包括如下至少一项:
信道状态指示参考信号CSI-RS、跟踪参考信号TRS、广播同步信号。
可选的,所述进入节能模式,或进入非正常功耗模式,包括:
关掉所述终端的部分设备;
或者,
所述进入节能模式,或进入非正常功耗模式,包括:
进入低功耗模式或者采用至少一个节能技术的模式。
可选的,所述部分设备包括如下至少一项:
射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
可选的,所述指示信息承载在物理下行控制信道PDCCH、下行共享信道PDSCH、广播同步信道或者节能信道上;
其中,所述节能信道用于传输节能信号。
可选的,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息DCI上;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
可选的,通过比特位指示所述指示信息;或者
通过扰码指示所述指示信息。
需要说明的是,本实施例中上述终端可以是本公开实施例中方法实施例中任意实施方式的终端,本公开实施例中方法实施例中终端的任意实施方式都可以被本实施例中的上述终端所实现,以及达到相同的有益效果,此处不再赘述。
请参见图9,图9是本公开实施例提供的另一种网络侧设备的结构图,如图9所示,该网络侧设备包括:收发机910、存储器920、处理器900及存储在所述存储器920上并可在所述处理器上运行的程序,其中:
所述收发机910,用于所述收发机,用于向终端发送指示信息和数据调度信息,所述指示信息用于指示所述终端在接收所述数据调度信息后,是否 进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
所述收发机910还用于根据所述数据调度信息进行数据传输。
其中,收发机910,可以用于在处理器900的控制下接收和发送数据。
在图9中,总线架构可以包括任意数量的互联的总线和桥,具体由处理器900代表的一个或多个处理器和存储器920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910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。
处理器900负责管理总线架构和通常的处理,存储器920可以存储处理器900在执行操作时所使用的数据。
需要说明的是,存储器920并不限定只在网络侧设备上,可以将存储器920和处理器900分离处于不同的地理位置。
可选的,所述指示信息包括如下至少一项:
处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则所述时间调度信息指示用于指示所述终端按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示进入节能模式,则所述节能指示用于指示所述终端进入节能模式,或进入所述非正常功耗模式;或者
所述时间调度信息用于指示所述终端根据所述时间调度信息进入节能模 式,或进入所述非正常功耗模式;或者
所述时域间隔指示用于指示所述终端根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
可选的,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则所述时间调度信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,或者所述时间调度信息用于指示所述终端按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
若所述节能指示不进入节能模式,或进入正常功耗模式,则所述节能指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式;或者
若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则所述时域间隔指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式。
可选的,所述处理能力门限包括如下至少一项:
处理时间能力门限、处理功耗能力门限、处理能量能力门限;
其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则所述处理时间能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则所述处理时间能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入 节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
或者,
在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门 限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式。
可选的,所述指示信息包括:
所述终端上报给所述网络侧设备的指示信息;或者
所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
可选的,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且收发机910还用于发送所述参考信号;
和/或,
若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
可选的,所述参考信号包括如下至少一项:
CSI-RS、TRS、广播同步信号。
可选的,所述进入节能模式,或进入非正常功耗模式,包括:
关掉所述终端的部分设备;
或者,
所述进入节能模式,或进入非正常功耗模式,包括:
进入低功耗模式或者采用至少一个节能技术的模式。
可选的,所述部分设备包括如下至少一项:
射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
可选的,所述指示信息承载在PDCCH、PDSCH、广播同步信道或者节能信道上;
其中,所述节能信道用于传输节能信号。
可选的,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息DCI上;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
可选的,通过比特位指示所述指示信息;或者
通过扰码指示所述指示信息。
需要说明的是,本实施例中上述网络侧设备可以是本公开实施例中方法实施例中任意实施方式的网络侧设备,本公开实施例中方法实施例中网络侧设备的任意实施方式都可以被本实施例中的上述网络侧设备所实现,以及达到相同的有益效果,此处不再赘述。
本公开实施例还提供一种计算机可读存储介质,其上存储有计算机程序,该程序被处理器执行时实现本公开实施例提供的信号接收方法中的步骤,或者该程序被处理器执行时实现本公开实施例提供的信号发送方法中的步骤。
在本申请所提供的几个实施例中,应该理解到,所揭露方法和装置,可以通过其它的方式实现。例如,以上所描述的装置实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些要素可以忽略,或不执行。另一点,所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口,装置或单元的间接耦合或通信连接,可以是电性,机械或其它的形式。
另外,在本公开各个实施例中的各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理包括,也可以两个或两个以上单元集成在一个单元中。上述集成的单元既可以采用硬件的形式实现,也可以采用硬件加软件功能单元的形式实现。
本领域普通技术人员可以意识到,结合本文中所公开的实施例描述的各示例的单元及算法步骤,能够以电子硬件、或者计算机软件和电子硬件的结 合来实现。这些功能究竟以硬件还是软件方式来执行,取决于技术方案的特定应用和设计约束条件。专业技术人员可以对每个特定的应用来使用不同方法来实现所描述的功能,但是这种实现不应认为超出本公开的范围。
所属领域的技术人员可以清楚地了解到,为描述的方便和简洁,上述描述的系统、装置和单元的具体工作过程,可以参考前述方法实施例中的对应过程,在此不再赘述。
所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。
所述功能如果以软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。基于这样的理解,本公开的技术方案本质上或者说对相关技术做出贡献的部分或者该技术方案的部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本公开各个实施例所述方法的全部或部分步骤。而前述的存储介质包括:U盘、移动硬盘、ROM、RAM、磁碟或者光盘等各种可以存储程序代码的介质。
本领域普通技术人员可以理解实现上述实施例方法中的全部或部分流程,是可以通过计算机程序来控制相关的硬件来完成,所述的程序可存储于计算机可读取存储介质中,该程序在执行时,可包括如上述各方法的实施例的流程。其中,所述的存储介质可为磁碟、光盘、只读存储器(Read-Only Memory,ROM)或随机存取存储器(Random Access Memory,RAM)等。
可以理解的是,本公开实施例描述的这些实施例可以用硬件、软件、固件、中间件、微码或其组合来实现。对于硬件实现,处理单元可以实现在一个或多个专用集成电路(Application Specific Integrated Circuits,ASIC)、数字信号处理器(Digital Signal Processor,DSP)、数字信号处理设备(DSP Device,DSPD)、可编程逻辑设备(Programmable Logic Device,PLD)、现场可编程门阵列(Field-Programmable Gate Array,FPGA)、通用处理器、控制器、微控制 器、微处理器、用于执行本公开所述功能的其它电子单元或其组合中。
对于软件实现,可通过执行本公开实施例所述功能的模块(例如过程、函数等)来实现本公开实施例所述的技术。软件代码可存储在存储器中并通过处理器执行。存储器可以在处理器中或在处理器外部实现。
上述以软件功能单元的形式实现的集成的单元,可以存储在一个计算机可读取存储介质中。上述软件功能单元存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本公开各个实施例方法的部分步骤。而前述的存储介质包括:U盘、移动硬盘、只读存储器(Read-Only Memory,简称ROM)、随机存取存储器(Random Access Memory,简称RAM)、磁碟或者光盘等各种可以存储程序代码的介质。
以上所述是本公开的可选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本公开所述原理的前提下,还可以作出若干改进和润饰,这些改进和润饰也应视为本公开的保护范围。

Claims (35)

  1. 一种信号接收方法,包括:
    终端接收网络侧设备发送的指示信息和数据调度信息;
    所述终端根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
    在所述数据调度信息对应的数据传输时间到来时,所述终端根据所述数据调度信息进行数据传输。
  2. 如权利要求1所述的方法,其中,所述指示信息包括如下至少一项:
    处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
    其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
    所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
    所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
  3. 如权利要求2所述的方法,其中,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
    若所述节能指示进入节能模式,或者不进入所述正常功耗模式,则进入节能模式,或进入所述非正常功耗模式;或者
    根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式;或者
    根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
  4. 如权利要求3所述的方法,其中,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则不进入节能模式,或进入所述正常功耗模式,或者按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
    若所述节能指示不进入节能模式,或进入正常功耗模式,则不进入节能模式,或进入所述正常功耗模式;或者
    若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则不进入节能模式,或进入所述正常功耗模式。
  5. 如权利要求2所述的方法,其中,所述处理能力门限包括如下至少一项:
    处理时间能力门限、处理功耗能力门限、处理能量能力门限;
    其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则不进入节能模式,或进入所述正常功耗模式;
    或者,
    在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
    或者,
    在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
    或者,
    在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述 处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式;
    或者,
    在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则不进入节能模式,或进入所述正常功耗模式。
  6. 如权利要求1所述的方法,其中,所述指示信息包括:
    所述终端上报给所述网络侧设备的指示信息;或者
    所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
  7. 如权利要求1所述的方法,其中,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,且所述方法还包括:
    所述终端接收所述参考信号;
    和/或,
    若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于 指示所述终端进入节能模式,或不进入所述正常功耗模式。
  8. 如权利要求7所述的方法,其中,所述参考信号包括如下至少一项:
    信道状态指示参考信号CSI-RS、跟踪参考信号TRS、广播同步信号。
  9. 如权利要求1所述的方法,其中,所述进入节能模式,或进入非正常功耗模式,包括:
    关掉所述终端的部分设备;
    或者,
    所述进入节能模式,或进入非正常功耗模式,包括:
    进入低功耗模式或者采用至少一个节能技术的模式。
  10. 如权利要求9所述的方法,其中,所述部分设备包括如下至少一项:
    射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
  11. 如权利要求1所述的方法,其中,所述指示信息承载在物理下行控制信道PDCCH、物理下行共享信道PDSCH、广播同步信道或者节能信道上;
    其中,所述节能信道用于传输节能信号。
  12. 如权利要求11所述的方法,其中,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息DCI上;或者
    若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
    若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
  13. 如权利要求11所述的方法,其中,通过比特位指示所述指示信息;或者
    通过扰码指示所述指示信息。
  14. 一种信号发送方法,包括:
    网络侧设备向终端发送指示信息和数据调度信息,所述指示信息用于指 示所述终端在接收所述数据调度信息后,是否进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
    所述网络侧设备根据所述数据调度信息进行数据传输。
  15. 如权利要求14所述的方法,其中,所述指示信息包括如下至少一项:
    处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
    其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
    所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
    所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
  16. 如权利要求15所述的方法,其中,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息相同,则所述时间调度信息指示用于指示所述终端按照所述上一次时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
    若所述节能指示进入节能模式,则所述节能指示用于指示所述终端进入节能模式,或进入所述非正常功耗模式;或者
    所述时间调度信息用于指示所述终端根据所述时间调度信息进入节能模式,或进入所述非正常功耗模式;或者
    所述时域间隔指示用于指示所述终端根据所述时域间隔,进入节能模式,或进入所述非正常功耗模式。
  17. 如权利要求16所述的方法,其中,若所述时间调度信息指示所述数据调度信息对应的时间调度信息与所述上一次时间调度信息不相同,则所述时间调度信息用于指示所述终端不进入节能模式,或进入所述正常功耗模式,或者所述时间调度信息用于指示所述终端按照所述数据调度信息对应的时间调度信息决定是否进入节能模式,或是否进入所述非正常功耗模式;或者
    若所述节能指示不进入节能模式,或进入正常功耗模式,则所述节能指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式;或者
    若所述终端的处理能力表示所述终端的处理时间高于所述时域间隔,则 所述时域间隔指示用于指示所述终端不进入节能模式,或进入所述正常功耗模式。
  18. 如权利要求15所述的方法,其中,所述处理能力门限包括如下至少一项:
    处理时间能力门限、处理功耗能力门限、处理能量能力门限;
    其中,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力不高于所述处理时间能力门限时,则所述处理时间能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理时间能力门限的情况下,若所述终端的处理能力高于所述处理能力门限时,则所述处理时间能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
    或者,
    在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
    或者,
    在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限或者所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,则所述处理功耗能力门限或者所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
    或者,
    在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式;
    或者,
    在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示进入节能模式,或进入所述非正常功耗模式;和/或,在所述处理能力门限包括所述处理功耗能力门限和所述处理能量能力门限的情况下,若所述终端的处理能力不高于所述处理功耗能力门限或者所述处理能量能力门限时,或者所述终端的处理能力不高于所述处理功耗能力门限和所述处理能量能力门限时,则所述处理功耗能力门限和所述处理能量能力门限用于指示不进入节能模式,或进入所述正常功耗模式。
  19. 如权利要求14所述的方法,其中,所述指示信息包括:
    所述终端上报给所述网络侧设备的指示信息;或者
    所述网络侧设备根据所述终端上报的第一指示信息,获取的第二指示信息,所述第一指示信息和所述第二指示信息相同或不同。
  20. 如权利要求14所述的方法,其中,若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间需要传输参考信号,则所述指示信息用于指示所述终端不进入节能模式,或进 入所述正常功耗模式,且所述方法还包括:
    所述网络侧设备发送所述参考信号;
    和/或,
    若所述网络侧设备在发送所述数据调度信息之后,在所述数据传输之前,所述网络侧设备与所述终端之间不需要传输参考信号,则所述指示信息用于指示所述终端进入节能模式,或不进入所述正常功耗模式。
  21. 如权利要求20所述的方法,其中,所述参考信号包括如下至少一项:
    信道状态指示参考信号CSI-RS、跟踪参考信号TRS、广播同步信号。
  22. 如权利要求15所述的方法,其中,所述进入节能模式,或进入非正常功耗模式,包括:
    关掉所述终端的部分设备;
    或者,
    所述进入节能模式,或进入非正常功耗模式,包括:
    进入低功耗模式或者采用至少一个节能技术的模式。
  23. 如权利要求22所述的方法,其中,所述部分设备包括如下至少一项:
    射频接收设备、射频发送设备、缓存、基带、其他相关设备,其中,所述其他相关设备为除所述射频接收设备、所述射频发送设备、所述缓存和所述基带之外的通信相关设备。
  24. 如权利要求14所述的方法,其中,所述指示信息承载在物理下行控制信道PDCCH、物理下行共享信道PDSCH、广播同步信道或者节能信道上;
    其中,所述节能信道用于传输节能信号。
  25. 如权利要求24所述的方法,其中,若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息承载在同一下行控制信息DCI上;或者
    若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在同一个时间单元的不同DCI上发送;或者
    若所述指示信息承载在PDCCH上,则所述指示信息和所述数据调度信息在不同的时间单元上发送,承载所述指示信息的PDCCH所在的时间单元的时域位置早于所述数据调度信息的PDCCH所在的时间单元的时域位置。
  26. 如权利要求24所述的方法,其中,通过比特位指示所述指示信息;或者
    通过扰码指示所述指示信息。
  27. 一种终端,包括:
    第一接收模块,用于接收网络侧设备发送的指示信息和数据调度信息;
    进入模块,用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
    传输模块,用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输。
  28. 如权利要求27所述的终端,其中,所述指示信息包括如下至少一项:
    处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
    其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
    所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
    所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
  29. 一种网络侧设备,包括:
    第一发送模块,用于向终端发送指示信息和数据调度信息,所述指示信息用于指示所述终端在接收所述数据调度信息后,是否进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
    传输模块,用于根据所述数据调度信息进行数据传输。
  30. 如权利要求29所述的网络侧设备,其中,所述指示信息包括如下至少一项:
    处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
    其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
    所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
    所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
  31. 一种终端,包括:收发机、存储器、处理器及存储在所述存储器上并可在所述处理器上运行的程序,其中,
    所述收发机,用于收网络侧设备发送的指示信息和数据调度信息;
    所述处理器,用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
    所述收发机还用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输;
    或者,
    所述收发机,用于收网络侧设备发送的指示信息和数据调度信息;
    所述收发机还用于根据所述指示信息进入节能模式,或进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
    所述收发机还用于在所述数据调度信息对应的数据传输时间到来时,根据所述数据调度信息进行数据传输。
  32. 如权利要求31所述的终端,其中,所述指示信息包括如下至少一项:
    处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
    其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
    所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
    所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
  33. 一种网络侧设备,包括:收发机、存储器、处理器及存储在所述存储器上并可在所述处理器上运行的程序,其中,
    所述收发机,用于向终端发送指示信息和数据调度信息,所述指示信息用于指示所述终端在接收所述数据调度信息后,是否进入节能模式,或是否进入非正常功耗模式,其中,所述非正常功耗模式的功耗低于正常功耗模式;
    所述收发机还用于根据所述数据调度信息进行数据传输。
  34. 如权利要求33所述的网络侧设备,其中,所述指示信息包括如下至少一项:
    处理能力门限、时间调度信息指示、节能指示、时间调度信息、时域间隔指示;
    其中,所述时间调度信息指示用于指示所述数据调度信息对应的时间调度信息与上一次时间调度信息是否相同;
    所述节能指示用于指示是否进入节能模式,或用于指示是否进入所述正常功耗模式;
    所述时域间隔指示用于指示数据传输与所述数据调度信息的时域间隔。
  35. 一种计算机可读存储介质,其上存储有计算机程序,该程序被处理器执行时实现如权利要求1至13中任一项所述的信号接收方法中的步骤,或者该程序被处理器执行时实现如权利要求14至26中任一项所述的信号发送方法中的步骤。
PCT/CN2019/119900 2018-12-14 2019-11-21 信号接收方法、发送方法、终端和网络侧设备 WO2020119412A1 (zh)

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