WO2023011625A1 - 一种信号收发方法、设备、装置及存储介质 - Google Patents
一种信号收发方法、设备、装置及存储介质 Download PDFInfo
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- H—ELECTRICITY
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Definitions
- the present disclosure relates to the technical field of sending and receiving, and in particular, to a signal sending and receiving method, device, device, and storage medium.
- Extended Reality is the most important type of media application in the 5th generation communication system (5G), with augmented reality (Augmented reality, AR), mixed reality (Mixed reality, MR) , virtual reality (Virtual reality, VR) and other three representative forms, the real and virtual combined environment and related human-computer interaction generated through computer technology and wearable devices.
- the degree of virtuality from AR to VR is from weak to strong, that is, from augmented reality (AR) with partial sensory input to virtual reality (VR) with the sensory presence of a completely virtual person, and through XR equipment to monitor human vision, hearing or the environment. "Illusion" presents.
- XR services have quasi-periodic characteristics, and the existing DRX cycle configuration is difficult to match with XR services, which will introduce unnecessary waiting delays for transmission.
- Embodiments of the present disclosure provide a signal transceiving method, device, device, and storage medium to solve the problem that the existing DRX cycle configuration in the related art is difficult to match with the XR service, and configure CSI measurement and/or for the terminal through the network equipment Or report at the same time, also configure other sending and receiving mechanisms, such as: PDCCH monitoring window or opportunity for exclusive services, DRX, WUS, PDCCH jump, search space switching, etc., so as to solve the problem of coexistence of multiple mechanisms, and can also be implemented in a timely manner CSI measurement and/or reporting improves user throughput and reduces latency, thereby improving system performance.
- PDCCH monitoring window or opportunity for exclusive services such as: PDCCH monitoring window or opportunity for exclusive services, DRX, WUS, PDCCH jump, search space switching, etc.
- an embodiment of the present disclosure provides a signal sending and receiving method, the method is used in a network device, including:
- Configuration information for signal transceiving, where the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include a first transceiving mechanism for representing channel state information CSI measurement and/or reporting;
- the at least two transceiving mechanisms further include one or more of the following:
- the second sending and receiving mechanism used to characterize the physical downlink control channel PDCCH monitoring window or opportunity of the dedicated service
- a third transceiving mechanism for characterizing discontinuous reception DRX
- a fourth transceiving mechanism for characterizing the wake-up signal WUS
- a sixth transceiving mechanism for characterizing search space switching is provided.
- the information corresponding to the second transceiving mechanism includes: a first time window, or the first time window and a first cycle, the first time window is the PDCCH monitoring window or opportunity of the dedicated service, and the first The period is the period of the PDCCH monitoring window or opportunity of the dedicated service;
- the information corresponding to the third transceiver mechanism includes: a second time window and a second cycle, and/or a third time window and a third cycle, the second cycle is a long DRX cycle, and the second time window is the The DRX activation window in the long DRX cycle, the third cycle is a short DRX cycle, and the third time window is the DRX activation window in the short DRX cycle;
- the information corresponding to the fourth transceiver mechanism includes: a fourth time window and a fourth cycle, the fourth time window is a WUS activation window, and the fourth cycle is a WUS cycle;
- the information corresponding to the fifth transceiver mechanism includes: a fifth time window and a fifth cycle, the fifth time window is an activation window for PDCCH jumping, and the fifth cycle is a PDCCH jumping cycle;
- the information corresponding to the sixth transceiving mechanism includes: a sixth time window and a sixth period, the sixth time window is an activation window of the search space, and the sixth period is a period of search space monitoring.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh period, and the seventh time window is periodic CSI measurement and/or A reporting time window, the seventh period being the reporting period of the periodic CSI measurement and/or reporting;
- the seventh transceiving mechanism is used to characterize any one of the second transceiving mechanism, the third transceiving mechanism, the fourth transceiving mechanism, the fifth transceiving mechanism, and the sixth transceiving mechanism;
- the information corresponding to the seventh sending and receiving mechanism includes the eighth time window and the eighth cycle;
- the seventh cycle is N times the eighth cycle; wherein, when the seventh transceiver mechanism is the third transceiver mechanism, N is an integer greater than 1; the seventh transceiver mechanism is the second For any one of the transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism, N is an integer greater than or equal to 1;
- the time domain relationship between the seventh time window and the eighth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N eighth time windows;
- the ending moment of the seventh time window is no later than the ending moment of N eighth time windows
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moments of N eighth time windows satisfies the first time threshold condition
- the time interval between the end moment of the seventh time window and the end moments of N eighth time windows satisfies a second time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies a third time threshold condition.
- the information corresponding to the first transceiving mechanism includes: a ninth time window and a ninth period, and the starting point of the ninth period is semi-persistent CSI measurement and/or Or the reported activation time point, the end point of the ninth cycle is the deactivation time point of CSI, and the ninth time window is the activation time window in the ninth cycle;
- the seventh transceiver mechanism is used to characterize any one of the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the information corresponding to the seventh transceiver mechanism includes the first Eight time windows and eighth cycle;
- the time domain relationship between the ninth time window and the eighth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the start time of the eighth time window
- the ending moment of the ninth time window is no later than the ending moment of the eighth time window
- the time interval between the start moment of the ninth time window and the start moment of the eighth time window satisfies a fourth time threshold condition
- the time interval between the end moment of the ninth time window and the start moment of the eighth time window satisfies a fifth time threshold condition
- the activation time point is no earlier than the starting moment of the Mth eighth time window, and M is a value greater than 0;
- the deactivation time point is not later than the end time of the Mth eighth time window, and M is a value greater than 0.
- the configuration information corresponding to the first transceiving mechanism includes: a tenth time window, where the tenth time window is a time for aperiodic CSI measurement and/or reporting window;
- the seventh transceiver mechanism is used to characterize any one of the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the information corresponding to the seventh transceiver mechanism includes the first Eight time windows and eighth cycle;
- the time domain relationship between the tenth time window and the eighth time window includes at least one of the following:
- the start time of the tenth time window is no earlier than the start time of the eighth time window
- the end time of the tenth time window is no later than the end time of the eighth time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the eighth time window satisfies a sixth time threshold condition
- the time interval between the end moment of the tenth time window and the start moment of the eighth time window satisfies the seventh time threshold condition
- a time interval between the end moment of the tenth time window and the start moment of the data transmission satisfies an eighth time threshold condition.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh period, and the seventh time window is periodic CSI measurement and/or A reporting time window, the seventh period being the reporting period of the periodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the seventh period is the minimum value of the eleventh period and the twelfth period
- the time domain relationship between the seventh time window and the time window corresponding to the minimum value includes at least one of the following:
- the starting moment of the seventh time window is no earlier than the starting moment of the time window corresponding to the minimum value
- the ending moment of the seventh time window is no later than the ending moment of the time window corresponding to the minimum value
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the time window corresponding to the minimum value satisfies a ninth time threshold condition
- the time interval between the end moment of the seventh time window and the end moment of the time window corresponding to the minimum value satisfies a tenth time threshold condition
- the time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies an eleventh time threshold condition.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh period, and the seventh time window is periodic CSI measurement and/or A reporting time window, the seventh period being the reporting period of the periodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the seventh cycle is any one of the eleventh cycle and the twelfth cycle
- the time domain relationship between the seventh time window and the time window corresponding to any one period includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of the eleventh time window; or, the start time of the seventh time window is not earlier than the start time of the twelfth time window time;
- the ending moment of the seventh time window is not later than the ending moment of the eleventh time window; or, the ending moment of the seventh time window is not later than the ending moment of the twelfth time window;
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the eleventh time window satisfies the twelfth time threshold condition; or, the start moment of the seventh time window and the The time interval between the starting moments of the twelfth time window satisfies the thirteenth time threshold condition;
- the time interval between the end moment of the seventh time window and the end moment of the eleventh time window satisfies a fourteenth time threshold condition; or, the start moment of the seventh time window is the same as the tenth time window
- the time interval between the start moments of the two time windows satisfies the fifteenth time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies a sixteenth time threshold condition.
- the information corresponding to the first transceiving mechanism includes: a ninth time window and a ninth period, and the starting point of the ninth period is semi-persistent CSI measurement and/or Or the reported activation time point, the end point of the ninth cycle is the deactivation time point of CSI, and the ninth time window is the activation time window in the ninth cycle;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the time domain relationship between the ninth time window, the eleventh time window and the twelfth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the first time, and the first time is the earliest start of the start time of the eleventh time window and the start time of the twelfth time window time;
- the ending moment of the ninth time window is no later than the second moment, and the second moment is the latest ending moment of the ending moment of the eleventh time window and the ending moment of the twelfth time window;
- the time interval between the start moment of the ninth time window and the first value satisfies the seventeenth time threshold condition, and the first value is the start moment of the eleventh time window and the twelfth time window the time interval between the start moments of the time window;
- the time interval between the end moment of the ninth time window and the second value satisfies the eighteenth time threshold condition, and the second value is the end moment of the eleventh time window and the twelfth time window
- the activation time point is no earlier than a third value, and the third value is the starting moment of the Mth eleventh time window, or the starting moment of the Mth twelfth time window, M is a value greater than 0;
- the deactivation time point is no later than the fourth value, and the fourth value is the end moment of the Mth eleventh time window, or the end moment of the Mth twelfth time window, where M is A value greater than 0.
- the configuration information corresponding to the first transceiving mechanism includes: a tenth time window, where the tenth time window is a time for aperiodic CSI measurement and/or reporting window;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the tenth time window is any one of the eleventh time window and the eleventh time window;
- the time domain relationship between the tenth time window, the eleventh time window and the twelfth time window includes at least one of the following:
- the starting moment of the tenth time window is not earlier than the starting moment of the eleventh time window; or, the starting moment of the tenth time window is not earlier than the starting moment of the twelfth time window time;
- the end time of the tenth time window is no later than the end time of the eleventh time window; or, the end time of the tenth time window is no later than the end time of the twelfth time window;
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the eleventh time window satisfies a nineteenth time threshold condition; or, the start moment of the tenth time window and the The time interval between the starting moments of the twelfth time window satisfies the twentieth time threshold condition;
- the time interval between the end moment of the tenth time window and the end moment of the eleventh time window satisfies the twenty-first time threshold condition; or, the start moment of the tenth time window is the same as the first time window
- the time interval between the starting moments of the twelve time windows satisfies the twenty-second time threshold condition
- a time interval between the end moment of the tenth time window and the start moment of the data transmission satisfies a twenty-third time threshold condition.
- the signal transceiving method according to an embodiment of the present disclosure further includes:
- an embodiment of the present disclosure provides a method for a terminal device, including:
- Receive configuration information for signal transceiving where the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include a first transceiving mechanism for representing channel state information CSI measurement and/or reporting;
- the at least two transceiving mechanisms further include one or more of the following:
- the second sending and receiving mechanism used to characterize the physical downlink control channel PDCCH monitoring window or opportunity of the dedicated service
- a third transceiving mechanism for characterizing discontinuous reception DRX
- a fourth transceiving mechanism for characterizing the wake-up signal WUS
- a sixth transceiving mechanism for characterizing search space switching is provided.
- the information corresponding to the second transceiving mechanism includes: a first time window, or the first time window and a first cycle, the first time window is the PDCCH monitoring window or opportunity of the dedicated service, and the first The period is the period of the PDCCH monitoring window or opportunity of the dedicated service;
- the information corresponding to the third transceiver mechanism includes: a second time window and a second cycle, and/or a third time window and a third cycle, the second cycle is a long DRX cycle, and the second time window is the The DRX activation window in the long DRX cycle, the third cycle is a short DRX cycle, and the third time window is the DRX activation window in the short DRX cycle;
- the information corresponding to the fourth transceiver mechanism includes: a fourth time window and a fourth cycle, the fourth time window is a WUS activation window, and the fourth cycle is a WUS cycle;
- the information corresponding to the fifth transceiving mechanism includes: a fifth time window and a fifth cycle, the fifth time window is an activation window for PDCCH hopping, and the fifth cycle is a PDCCH hopping cycle;
- the information corresponding to the sixth transceiving mechanism includes: a sixth time window and a sixth period, the sixth time window is an activation window of the search space, and the sixth period is a period of search space monitoring.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh period, and the seventh time window is periodic CSI measurement and/or A reporting time window, the seventh period being the reporting period of the periodic CSI measurement and/or reporting;
- the seventh transceiving mechanism is used to characterize any one of the second transceiving mechanism, the third transceiving mechanism, the fourth transceiving mechanism, the fifth transceiving mechanism, and the sixth transceiving mechanism;
- the information corresponding to the seventh sending and receiving mechanism includes the eighth time window and the eighth cycle;
- the seventh cycle is N times the eighth cycle; wherein, when the seventh transceiver mechanism is the third transceiver mechanism, N is an integer greater than 1; the seventh transceiver mechanism is the second For any one of the transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism, N is an integer greater than or equal to 1;
- the time domain relationship between the seventh time window and the eighth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N eighth time windows;
- the ending moment of the seventh time window is no later than the ending moment of N eighth time windows
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moments of N eighth time windows satisfies the first time threshold condition
- the time interval between the end moment of the seventh time window and the end moments of N eighth time windows satisfies a second time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies a third time threshold condition.
- the information corresponding to the first transceiving mechanism includes: a ninth time window and a ninth period, and the starting point of the ninth period is semi-persistent CSI measurement and/or Or the reported activation time point, the end point of the ninth cycle is the deactivation time point of CSI, and the ninth time window is the activation time window in the ninth cycle;
- the seventh transceiver mechanism is used to characterize any one of the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the information corresponding to the seventh transceiver mechanism includes the first Eight time windows and eighth cycle;
- the time domain relationship between the ninth time window and the eighth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the start time of the eighth time window
- the ending moment of the ninth time window is no later than the ending moment of the eighth time window
- the time interval between the start moment of the ninth time window and the start moment of the eighth time window satisfies a fourth time threshold condition
- the time interval between the end moment of the ninth time window and the start moment of the eighth time window satisfies a fifth time threshold condition
- the activation time point is no earlier than the starting moment of the Mth eighth time window, and M is a value greater than 0;
- the deactivation time point is not later than the end time of the Mth eighth time window, and M is a value greater than 0.
- the configuration information corresponding to the first transceiving mechanism includes: a tenth time window, where the tenth time window is a time for aperiodic CSI measurement and/or reporting window;
- the seventh transceiver mechanism is used to characterize any one of the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the information corresponding to the seventh transceiver mechanism includes the first Eight time windows and eighth cycle;
- the time domain relationship between the tenth time window and the eighth time window includes at least one of the following:
- the start time of the tenth time window is no earlier than the start time of the eighth time window
- the end time of the tenth time window is no later than the end time of the eighth time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the eighth time window satisfies a sixth time threshold condition
- the time interval between the end moment of the tenth time window and the start moment of the eighth time window satisfies the seventh time threshold condition
- a time interval between the end moment of the tenth time window and the start moment of the data transmission satisfies an eighth time threshold condition.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh period, and the seventh time window is periodic CSI measurement and/or A reporting time window, the seventh period being the reporting period of the periodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the seventh period is the minimum value of the eleventh period and the twelfth period
- the time domain relationship between the seventh time window and the time window corresponding to the minimum value includes at least one of the following:
- the starting moment of the seventh time window is no earlier than the starting moment of the time window corresponding to the minimum value
- the ending moment of the seventh time window is no later than the ending moment of the time window corresponding to the minimum value
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the time window corresponding to the minimum value satisfies a ninth time threshold condition
- the time interval between the end moment of the seventh time window and the end moment of the time window corresponding to the minimum value satisfies a tenth time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies an eleventh time threshold condition.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh period, and the seventh time window is periodic CSI measurement and/or A reporting time window, the seventh period being the reporting period of the periodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the seventh cycle is any one of the eleventh cycle and the twelfth cycle
- the time domain relationship between the seventh time window and the time window corresponding to any one period includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of the eleventh time window; or, the start time of the seventh time window is not earlier than the start time of the twelfth time window time;
- the ending moment of the seventh time window is not later than the ending moment of the eleventh time window; or, the ending moment of the seventh time window is not later than the ending moment of the twelfth time window;
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the eleventh time window satisfies the twelfth time threshold condition; or, the start moment of the seventh time window and the The time interval between the starting moments of the twelfth time window satisfies the thirteenth time threshold condition;
- the time interval between the end moment of the seventh time window and the end moment of the eleventh time window satisfies a fourteenth time threshold condition; or, the start moment of the seventh time window is the same as the tenth time window
- the time interval between the start moments of the two time windows satisfies the fifteenth time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies a sixteenth time threshold condition.
- the information corresponding to the first transceiving mechanism includes: a ninth time window and a ninth period, and the starting point of the ninth period is semi-persistent CSI measurement and/or Or the reported activation time point, the end point of the ninth cycle is the deactivation time point of CSI, and the ninth time window is the activation time window in the ninth cycle;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the time domain relationship between the ninth time window, the eleventh time window and the twelfth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the first time, and the first time is the earliest start of the start time of the eleventh time window and the start time of the twelfth time window time;
- the ending moment of the ninth time window is no later than the second moment, and the second moment is the latest ending moment of the ending moment of the eleventh time window and the ending moment of the twelfth time window;
- the time interval between the start moment of the ninth time window and the first value satisfies the seventeenth time threshold condition, and the first value is the start moment of the eleventh time window and the twelfth time window the time interval between the start moments of the time window;
- the time interval between the end moment of the ninth time window and the second value satisfies the eighteenth time threshold condition, and the second value is the end moment of the eleventh time window and the twelfth time window
- the activation time point is no earlier than a third value, and the third value is the starting moment of the Mth eleventh time window, or the starting moment of the Mth twelfth time window, M is a value greater than 0;
- the deactivation time point is no later than the fourth value, and the fourth value is the end moment of the Mth eleventh time window, or the end moment of the Mth twelfth time window, where M is A value greater than 0.
- an embodiment of the present disclosure provides a network device, including a memory, a transceiver, and a processor:
- a memory for storing computer programs; a transceiver for sending and receiving data under the control of the processor; a processor for reading the computer programs in the memory and implementing the signals described in the first aspect above The steps of the send and receive method.
- an embodiment of the present disclosure provides a terminal device, including a memory, a transceiver, and a processor:
- a memory for storing computer programs; a transceiver for sending and receiving data under the control of the processor; a processor for reading the computer programs in the memory and implementing the signals described in the second aspect above The steps of the send and receive method.
- an embodiment of the present disclosure provides a signal transceiving device, the device is used for network equipment, including:
- the configuration unit is configured to generate configuration information for signal transceiving, the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include the first CSI measurement and/or reporting for representing channel state information a sending and receiving mechanism;
- a sending unit configured to send the configuration information to the terminal, so that the terminal performs signal transceiving according to the configuration information.
- an embodiment of the present disclosure provides a signal transceiving device, the device is used in a terminal device, including:
- the receiving unit is configured to receive configuration information for signal transceiving, where the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include the first channel state information CSI measurement and/or reporting.
- a sending and receiving mechanism ;
- the signal transceiving unit is configured to perform signal transceiving according to the configuration information.
- an embodiment of the present disclosure provides a processor-readable storage medium, the processor-readable storage medium stores a computer program, and the computer program is used to enable the processor to execute the above-mentioned first aspect. The steps of the signal transceiving method described above.
- an embodiment of the present disclosure provides a processor-readable storage medium, where a computer program is stored in the processor-readable storage medium, and the computer program is used to enable the processor to execute the above-mentioned second aspect. The steps of the signal transceiving method described above.
- the signal transceiving method, device, device, and storage medium provided by the embodiments of the present disclosure configure CSI measurement and/or reporting for the terminal through the network device, and at the same time configure other transceiving mechanisms, such as: PDCCH monitoring window or opportunity for exclusive services, DRX , WUS, PDCCH jumping, search space switching, etc., thereby solving the problem of coexistence of multiple mechanisms, and can also realize CSI measurement and/or reporting in a timely manner, improve user throughput, reduce delay, and improve system performance.
- FIG. 1 is a schematic diagram of a DRX mechanism
- FIG. 2 is a schematic diagram of an XR-specific PDCCH monitoring window
- FIG. 3 is a schematic diagram of a CSI reporting and measurement mechanism
- Fig. 4 is one of the schematic flow charts of a signal transceiving method provided by an embodiment of the present disclosure
- FIG. 5 is a schematic configuration diagram of a PDCCH monitoring window or opportunity for a dedicated service provided by an embodiment of the present disclosure
- FIG. 6 is a schematic configuration diagram of DRX provided by an embodiment of the present disclosure.
- FIG. 7 is a schematic configuration diagram of a WUS provided by an embodiment of the present disclosure.
- FIG. 8 is a schematic diagram of a configuration of PDCCH jumping provided by an embodiment of the present disclosure.
- FIG. 9 is a schematic diagram of a configuration of search space switching provided by an embodiment of the present disclosure.
- FIG. 10 is a schematic configuration diagram of periodic CSI measurement and/or reporting provided by an embodiment of the present disclosure.
- FIG. 11 is a schematic diagram of a configuration of semi-persistent CSI measurement and/or reporting provided by an embodiment of the present disclosure
- FIG. 12 is a schematic diagram of configuration of aperiodic CSI measurement and/or reporting provided by an embodiment of the present disclosure
- FIG. 13 is the second schematic flow diagram of a signal transceiving method provided by an embodiment of the present disclosure.
- FIG. 14 is one of the configuration schematic diagrams of the CSI reporting and/or measurement mechanism during the PDCCH monitoring window or opportunity of the dedicated service provided by the embodiment of the present disclosure
- FIG. 15 is the second schematic diagram of the configuration of the CSI reporting and/or measurement mechanism during the PDCCH monitoring window or opportunity of the dedicated service provided by the embodiment of the present disclosure
- FIG. 16 is the third schematic diagram of the configuration of the CSI reporting and/or measurement mechanism during the PDCCH monitoring window or opportunity of the dedicated service provided by the embodiment of the present disclosure
- FIG. 17 is the fourth schematic diagram of configuration of the CSI reporting and/or measurement mechanism during the PDCCH monitoring window or opportunity of the dedicated service provided by the embodiment of the present disclosure
- FIG. 18 is the fifth schematic diagram of the configuration of the CSI reporting and/or measurement mechanism during the PDCCH monitoring window or opportunity of the dedicated service provided by the embodiment of the present disclosure
- FIG. 19 is a sixth schematic diagram of the configuration of the CSI reporting and/or measurement mechanism during the PDCCH monitoring window or opportunity of the dedicated service provided by the embodiment of the present disclosure.
- Fig. 20 is one of the structural schematic diagrams of a signal transceiving device provided by an embodiment of the present disclosure
- Fig. 21 is the second structural schematic diagram of a signal transceiving device provided by an embodiment of the present disclosure.
- FIG. 22 is a schematic structural diagram of a network device provided by an embodiment of the present disclosure.
- Fig. 23 is a schematic structural diagram of a terminal device provided by an embodiment of the present disclosure.
- the terminal When the user configures a Discontinuous Reception (DRX) group, the terminal will discontinuously monitor the Physical Downlink Control Channel (PDCCH) of all serving cells.
- PDCH Physical Downlink Control Channel
- the terminal in the DRX cycle, the terminal only monitors the PDCCH during the activation period (that is, On duration), and during the inactive period (that is, DRX off), the UE does not receive other PDCCHs except scheduling broadcast signaling , to reduce power consumption, ie enter sleep mode.
- the activation period refers to the following: DRX activation period timer (drx-onDuration Timer), inactivity timer (drx-Inactivity Timer), downlink retransmission timer (drx-Retransmission Timer DL), uplink retransmission timer (drx-Retransmission Timer UL), random access contention resolution timer (ra-Contention Resolution Timer), message B response window (ie msgB-Response Window) and other timers have not timed out.
- DRX activation period timer (drx-onDuration Timer), inactivity timer (drx-Inactivity Timer), downlink retransmission timer (drx-Retransmission Timer DL), uplink retransmission timer (drx-Retransmission Timer UL), random access contention resolution timer (ra-Contention Resolution Timer), message B response window (ie msgB-Response Window) and other timers have not timed
- the DRX mechanism mainly does not monitor the PDCCH scrambled by the following RNTI during the inactive period, specifically: Cell Radio Network Temporary Identifier (C-RNTI), configured scheduling wireless network temporary identifier (Configured Scheduling -Radio Network Temporary Identifier, CS-RNTI), interrupted transmission indication-wireless network temporary identifier (Interrupted transmission indication-Radio Network Temporary Identifier, INT-RNTI), slot format indication-wireless network temporary identifier (Slot Format Indication- Radio Network Temporary Identifier, SFI-RNTI), semi-persistent-channel state information-wireless network temporary identifier (Semi Persistent-Channel State Information-Radio Network Temporary Identifier, SP-CSI-RNTI), transmit power control-physical uplink Control Channel-Wireless Network Temporary Identifier (Transmit Power Control-Physical Uplink Control Channel-Radio Network Temporary Identifier, TPC-PUCCH-RNTI), etc.
- XR is the most important type of 5G media applications, with AR, MR, and VR as three representative forms, through the combination of real and virtual environments and related human-computer interactions generated by computer technology and wearable devices.
- the degree of virtuality from AR to VR is from weak to strong, that is, from augmented reality (AR) with partial sensory input to the sensory presence (VR) of a completely virtual person, and the "illusion" of human vision, hearing or environment through XR equipment " presents.
- AR augmented reality
- VR sensory presence
- XR services are specifically similar to periodic transmission characteristics, that is, XR service sources will be refreshed at a certain rate. rate to generate the corresponding data packets.
- the refresh rate is 60 frames (60FPS), which means that 60 data frames will be generated per second, and the time interval between data frames is 16.67 milliseconds.
- a refresh rate of 120 frames (120FPS) means that 120 data frames will be generated per second, and the time interval between data frames is 8.33 milliseconds.
- I frames, P frames, and B frames are used to represent transmitted video images.
- An I frame also known as an intra-frame coded frame, is an independent frame with all information, which can be decoded independently without referring to other images, and can be simply understood as a static picture.
- the first frame in a video sequence is always an I-frame because it is a key frame.
- a P frame is also called an inter-frame predictive coding frame, and it needs to refer to the previous I frame for coding. Indicates the difference between the current frame and the previous frame (the previous frame may be an I frame or a P frame).
- the B frame is also called the bidirectional predictive coding frame, that is, the B frame records the difference between the current frame and the previous and subsequent frames. That is to say, to decode the B frame, not only the previous cached picture must be obtained, but also the decoded picture, and the final picture can be obtained by superimposing the preceding and following pictures with the data of this frame.
- the compression rate of B frame is high, but it requires high decoding performance.
- the service-specific scheduling information configures the corresponding monitoring window or monitoring opportunity, and the corresponding data dynamic scheduling DCI monitoring can be performed according to the service characteristics without being restricted by DRX under the DRX mechanism.
- the terminal needs to measure and/or report CSI so that the terminal can maintain or improve link transmission performance, for example, obtain channel state information, beam management, time-frequency tracking, and mobility management.
- the measurement and/or reporting of CSI supports periodic, aperiodic, and semi-persistent CSI reporting.
- Periodic CSI measurement and/or reporting If the CSI time domain type in the CSI reporting configuration is set to periodic, the UE reports CSI periodically. The feedback cycle and time slot offset of periodic CSI reporting are configured in CSI reporting settings. Periodic CSI reporting can only use periodic Channel State Indicator-Reference Signal (CSI-RS) for channel measurement, and only periodic Channel State Information-Interference Measurement (Channel State Information-Interference Measurement) , CSI-IM) for interference measurements.
- CSI-RS Channel State Indicator-Reference Signal
- CSI-IM Channel State Information-Interference Measurement
- Semi-persistent CSI measurement and/or reporting between periodic CSI reporting and aperiodic CSI reporting, CSI reporting is performed at a certain period after CSI reporting is activated and before it is deactivated.
- Semi Persistent-Channel State Information (Semi Persistent-Channel State Information, SP-CSI) can use periodic CSI-RS or semi-persistent CSI-RS for channel measurement.
- SP-CSI Semi Persistent-Channel State Information
- Aperiodic CSI measurement and/or reporting The reporting is configured and triggered by Medium Access Control-Core Element (MAC-CE) combined with DCI triggering, and through the physical uplink control channel (Physical Uplink Shared Channel, PUSCH) report.
- the base station uses radio resource control (Radio Resource Control, RRC) signaling to configure multiple CSI trigger states, and each CSI trigger state may include one or more CSI reporting settings.
- the CSI request field in the DCI indicates a trigger state, and the terminal reports the CSI set on all CSIs corresponding to the trigger state.
- periodic, semi-persistent, or aperiodic CSI-RS can be used for channel measurement, and accordingly, periodic, semi-persistent, or aperiodic CSI-IM can be used for interference measurement.
- the terminal will further configure DRX, and perform corresponding PDCCH monitoring and transmission and CSI reporting during the DRX activation period; while during the DRX inactivation period, no corresponding operation.
- the terminal is configured with DRX and the monitoring window or opportunity of the PDCCH of the dedicated service, at this time, CSI measurement and/or reporting is only performed during the DRX activation period, which will make the monitoring of the PDCCH of the dedicated service during the DRX inactive period Data transmission performance under the window is affected;
- WUS Wake-Up Signal
- DRX Downlink Control Signal
- PDCCH monitoring windows or opportunities for dedicated services If the terminal is configured with Wake-Up Signal (WUS), DRX, and PDCCH monitoring windows or opportunities for dedicated services, and if WUS instructs the terminal to wake up in its own DRX, then CSI measurement and/or reporting is only performed in DRX The measurement reporting during the active period will affect the data transmission performance of the PDCCH monitoring window of the dedicated service during the DRX inactive period; if the WUS instructs the terminal to sleep in the DRX, the monitoring of the PDCCH of the dedicated service window or chance, the performance is severely degraded or even unable to work due to the lack of CSI information;
- WUS Wake-Up Signal
- the terminal is configured with WUS, DRX, PDCCH monitoring window or opportunity for dedicated services, and PDCCH skipping (skipping)
- WUS instructs the terminal to wake up in its own DRX
- CSI measurement and/or reporting is only during DRX activation. If the measurement report is performed under the DRX inactive period, the data transmission performance of the PDCCH monitoring window of the dedicated service will be affected; if the WUS instructs the terminal to sleep in the DRX, the monitoring window of the PDCCH of the dedicated service or Chances are, since there is no CSI information, the performance is severely degraded, or even fails to work.
- Embodiments of the present disclosure propose a signal transceiving method, device, device, and storage medium. While configuring CSI measurement and/or reporting for the terminal through the network device, other transceiving mechanisms are also configured, such as: PDCCH monitoring window or opportunity for exclusive services, DRX, WUS, PDCCH jumping, search space switching, etc. solve the problem of coexistence of multiple mechanisms, and can also realize CSI measurement and/or reporting in a timely manner, improve user throughput, reduce delay, and improve system performance.
- PDCCH monitoring window or opportunity for exclusive services such as: PDCCH monitoring window or opportunity for exclusive services, DRX, WUS, PDCCH jumping, search space switching, etc.
- the method and the device are conceived based on the same application. Since the principle of solving problems of the method and the device is similar, the implementation of the device and the method can be referred to each other, and the repetition will not be repeated.
- the applicable system may be a global system of mobile communication (GSM) system, a code division multiple access (CDMA) system, a wideband code division multiple access (WCDMA) general packet Wireless business (general packet radio service, GPRS) system, long term evolution (long term evolution, LTE) system, LTE frequency division duplex (frequency division duplex, FDD) system, LTE time division duplex (time division duplex, TDD) system, Long term evolution advanced (LTE-A) system, universal mobile telecommunications system (UMTS), worldwide interoperability for microwave access (WiMAX) system, 5G new air interface (New Radio, NR) system, etc.
- GSM global system of mobile communication
- CDMA code division multiple access
- WCDMA wideband code division multiple access
- GPRS general packet Wireless business
- long term evolution long term evolution
- LTE long term evolution
- LTE frequency division duplex frequency division duplex
- FDD frequency division duplex
- TDD time division duplex
- LTE-A Long term evolution advanced
- the terminal device involved in the embodiments of the present disclosure may be a device that provides voice and/or data connectivity to users, a handheld device with a wireless connection function, or other processing devices connected to a wireless modem.
- the name of the terminal equipment may be different.
- the terminal equipment may be called User Equipment (UE).
- the wireless terminal device can communicate with one or more core networks (Core Network, CN) via the radio access network (Radio Access Network, RAN), and the wireless terminal device can be a mobile terminal device, such as a mobile phone (or called a "cellular "telephones) and computers with mobile terminal equipment, such as portable, pocket, hand-held, computer built-in or vehicle-mounted mobile devices, which exchange language and/or data with the radio access network.
- Core Network Core Network
- RAN Radio Access Network
- Wireless terminal equipment can also be called system, subscriber unit, subscriber station, mobile station, mobile station, remote station, access point , remote terminal (remote terminal), access terminal (access terminal), user terminal (user terminal), user agent (user agent), and user device (user device), which are not limited in the embodiments of the present disclosure.
- the network device involved in the embodiments of the present disclosure may be a base station, and the base station may include multiple cells that provide services for terminals.
- the base station can also be called an access point, or it can be a device in the access network that communicates with the wireless terminal device through one or more sectors on the air interface, or other names.
- the network device can be used to interchange received over-the-air frames with Internet Protocol (IP) packets and act as a router between the wireless terminal device and the rest of the access network, which can include the Internet Protocol (IP) communication network.
- IP Internet Protocol
- Network devices may also coordinate attribute management for the air interface.
- the network equipment involved in the embodiment of the present disclosure may be a network equipment (Base Transceiver Station, BTS) in Global System for Mobile communications (GSM) or Code Division Multiple Access (Code Division Multiple Access, CDMA) ), it can also be a network device (NodeB) in Wide-band Code Division Multiple Access (WCDMA), or it can be an evolved network device in a long term evolution (long term evolution, LTE) system (evolutional Node B, eNB or e-NodeB), the 5G base station (gNB) in the 5G network architecture (next generation system), or the home evolved Node B (HeNB), relay node (relay node) , a home base station (femto), a pico base station (pico), etc., are not limited in this embodiment of the present disclosure.
- a network device may include a centralized unit (centralized unit, CU) node and a distributed unit (distributed unit, DU) node, and the centralized unit and the distributed
- MIMO transmission can be Single User MIMO (Single User MIMO, SU-MIMO) or Multi-User MIMO (Multiple User MIMO, MU-MIMO).
- MIMO transmission can be 2D-MIMO, 3D-MIMO, FD-MIMO, or massive-MIMO, or diversity transmission, precoding transmission, or beamforming transmission, etc.
- Fig. 4 is one of the schematic flow charts of a signal transceiving method provided by an embodiment of the present disclosure.
- the signal transceiving method may be used in a network device, such as a base station. As shown in Figure 4, the signal transceiving method may include the following steps:
- Step 401 Generate configuration information for signal transceiving, where the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include a first transceiving mechanism for characterizing CSI measurement and/or reporting.
- the configuration information may include information about CSI measurement and/or reporting configured by the network device for the terminal, and may also include information about other sending and receiving mechanisms configured by the network device for the terminal. For example: PDCCH monitoring window or opportunity for dedicated services, DRX, WUS, PDCCH jumping, search space switching, etc.
- the exclusive service may be an XR service.
- Step 402 Send the configuration information to the terminal, so that the terminal performs signal transmission and reception according to the configuration information.
- the configuration information may include information about configuring CSI measurement and/or reporting for the terminal, it may also include information about other sending and receiving mechanisms configured for the terminal, so that after receiving the configuration information, the terminal may, according to the configuration information, CSI measurement and/or reporting is performed without affecting other transceiving mechanisms.
- the terminal can perform CSI measurement according to the configuration information without affecting other transceiving mechanisms and/or report, so as to solve the problem of coexistence of multiple mechanisms, and realize CSI measurement and/or report in time, improve user throughput, reduce delay, and improve system performance.
- the at least two transceiving mechanisms also include one or more of the following:
- the second transceiving mechanism used to characterize the PDCCH monitoring window or opportunity of the dedicated service
- a third transceiver mechanism for characterizing DRX
- a fourth transceiving mechanism for characterizing WUS is a fourth transceiving mechanism for characterizing WUS
- a sixth transceiving mechanism for characterizing search space switching is provided.
- the network device may also configure information about other sending and receiving mechanisms for the terminal.
- other transceiving mechanisms may include but not limited to: PDCCH monitoring window or opportunity for dedicated services, DRX, WUS, PDCCH hopping, search space switching and other transceiving mechanisms.
- the network device in addition to configuring CSI measurement and/or reporting information for the terminal, can also configure other sending and receiving mechanism information for the terminal, such as: PDCCH monitoring window or opportunity for dedicated services, DRX, WUS, PDCCH Jumping, search space switching, etc., thereby solving the problem of coexistence of multiple mechanisms, and can also realize CSI measurement and/or reporting in a timely manner, improve user throughput, reduce delay, and improve system performance.
- other sending and receiving mechanism information for the terminal such as: PDCCH monitoring window or opportunity for dedicated services, DRX, WUS, PDCCH Jumping, search space switching, etc.
- the information corresponding to the second transceiving mechanism includes: a first time window, or the first time window and a first cycle, the first time window is the PDCCH monitoring window or opportunity of the dedicated service, The first period is the period of the PDCCH monitoring window or opportunity of the dedicated service;
- the information corresponding to the third transceiver mechanism includes: a second time window and a second cycle, and/or a third time window and a third cycle, the second cycle is a long DRX cycle, and the second time window is the The DRX activation window in the long DRX cycle, the third cycle is a short DRX cycle, and the third time window is the DRX activation window in the short DRX cycle;
- the information corresponding to the fourth transceiver mechanism includes: a fourth time window and a fourth cycle, the fourth time window is a WUS activation window, and the fourth cycle is a WUS cycle;
- the information corresponding to the fifth transceiving mechanism includes: a fifth time window and a fifth cycle, the fifth time window is an activation window for PDCCH hopping, and the fifth cycle is a PDCCH hopping cycle;
- the information corresponding to the sixth transceiving mechanism includes: a sixth time window and a sixth period, the sixth time window is an activation window of the search space, and the sixth period is a period of search space monitoring.
- the first time window is the PDCCH monitoring window or opportunity of the dedicated service
- the first period is the period of the PDCCH monitoring window or opportunity of the dedicated service.
- the exclusive service may be an XR service.
- the second cycle can be a long DRX cycle
- the second time window can be a DRX activation window in a long DRX cycle
- the third cycle can be a short DRX cycle
- the third time window can be a DRX activation window in a short DRX cycle.
- DRX activation window the time lengths of the second time window and the third time window may be the same or different.
- the fourth time window is the WUS activation window
- the fourth period is the WUS period
- the fifth time window is the activation window of PDCCH hopping
- the fifth period is the PDCCH hopping period.
- the sixth time window is the activation window of the search space
- the sixth period is the period of the search space monitoring.
- the network device in addition to configuring CSI measurement and/or reported information for the terminal, can also configure the time window and period of other sending and receiving mechanisms for the terminal, such as: the PDCCH monitoring window of the dedicated service or the time window of the opportunity and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc., thus solving the problem of coexistence of multiple mechanisms , and can also implement CSI measurement and/or reporting in a timely manner, improve user throughput, reduce delay, and thereby improve system performance.
- the time window and period of other sending and receiving mechanisms for the terminal such as: the PDCCH monitoring window of the dedicated service or the time window of the opportunity and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh cycle, the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh cycle is The reporting period of the periodic CSI measurement and/or reporting;
- the seventh transceiving mechanism is used to characterize any one of the second transceiving mechanism, the third transceiving mechanism, the fourth transceiving mechanism, the fifth transceiving mechanism, and the sixth transceiving mechanism;
- the information corresponding to the seventh sending and receiving mechanism includes the eighth time window and the eighth cycle;
- the seventh cycle is N times the eighth cycle; wherein, when the seventh transceiver mechanism is the third transceiver mechanism, N is an integer greater than 1; the seventh transceiver mechanism is the second For any one of the transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism, N is an integer greater than or equal to 1;
- the time domain relationship between the seventh time window and the eighth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N eighth time windows;
- the ending moment of the seventh time window is no later than the ending moment of N eighth time windows
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moments of N eighth time windows satisfies the first time threshold condition
- the time interval between the end moment of the seventh time window and the end moments of N eighth time windows satisfies a second time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies a third time threshold condition.
- the seventh time window is a time window for periodic CSI measurement and/or reporting
- the seventh period is a reporting period for the periodic CSI measurement and/or reporting.
- the network device can configure the time window and period of any other transceiver mechanism for the terminal, such as: PDCCH monitoring window for dedicated services or The time window and period of opportunity, the time window and period of DRX, the time window and period of WUS, the time window and period of PDCCH hopping, the time window and period of search space switching, etc., so that the terminal solves two
- PDCCH monitoring window for dedicated services or The time window and period of opportunity
- the time window and period of DRX the time window and period of WUS
- the time window and period of PDCCH hopping the time window and period of search space switching, etc.
- the information corresponding to the first sending and receiving mechanism includes: a ninth time window and a ninth period, the starting point of the ninth period is the activation time point of semi-persistent CSI measurement and/or reporting, and the ninth period
- the end point of the cycle is the deactivation time point of the CSI
- the ninth time window is the activation time window in the ninth cycle
- the seventh transceiver mechanism is used to characterize any one of the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the information corresponding to the seventh transceiver mechanism includes the first Eight time windows and eighth cycle;
- the time domain relationship between the ninth time window and the eighth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the start time of the eighth time window
- the ending moment of the ninth time window is no later than the ending moment of the eighth time window
- the time interval between the start moment of the ninth time window and the start moment of the eighth time window satisfies a fourth time threshold condition
- the time interval between the end moment of the ninth time window and the start moment of the eighth time window satisfies a fifth time threshold condition
- the activation time point is no earlier than the starting moment of the Mth eighth time window, and M is a value greater than 0;
- the deactivation time point is not later than the end time of the Mth eighth time window, and M is a value greater than 0.
- the starting point of the ninth cycle is the first time point of activation of semi-persistent CSI measurement and/or reporting
- the end point of the ninth cycle is the second time point of CSI deactivation
- the ninth time point The window is the activation time window in the ninth cycle.
- the network device can configure the time window and period of any other transceiver mechanism for the terminal, such as: PDCCH monitoring window or opportunity for dedicated services
- PDCCH monitoring window or opportunity for dedicated services The time window and period of DRX, the time window and period of WUS, the time window and period of PDCCH hopping, the time window and period of search space switching, etc., so that the terminal solves two
- the problem of mechanism coexistence can also realize semi-persistent CSI measurement and/or reporting, as well as improve user throughput and reduce delay, thereby improving system performance.
- the configuration information corresponding to the first transceiving mechanism includes: a tenth time window, where the tenth time window is a time window for aperiodic CSI measurement and/or reporting;
- the seventh transceiver mechanism is used to characterize any one of the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the information corresponding to the seventh transceiver mechanism includes the first Eight time windows and eighth cycle;
- the time domain relationship between the tenth time window and the eighth time window includes at least one of the following:
- the start time of the tenth time window is no earlier than the start time of the eighth time window
- the end time of the tenth time window is no later than the end time of the eighth time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the eighth time window satisfies a sixth time threshold condition
- the time interval between the end moment of the tenth time window and the start moment of the eighth time window satisfies the seventh time threshold condition
- a time interval between the end moment of the tenth time window and the start moment of the data transmission satisfies an eighth time threshold condition.
- the tenth time window is a time window for aperiodic CSI measurement and/or reporting.
- the network device can configure the time window and period of any other transceiver mechanism for the terminal, such as: PDCCH monitoring window for dedicated services or The time window and period of opportunity, the time window and period of DRX, the time window and period of WUS, the time window and period of PDCCH hopping, the time window and period of search space switching, etc., so that the terminal solves two
- aperiodic CSI measurement and/or reporting can also be realized, and user throughput can be improved, and delay can be reduced, thereby improving system performance.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh cycle, the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh cycle is The reporting period of the periodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the seventh period is the minimum value of the eleventh period and the twelfth period
- the time domain relationship between the seventh time window and the time window corresponding to the minimum value includes at least one of the following:
- the starting moment of the seventh time window is no earlier than the starting moment of the time window corresponding to the minimum value
- the ending moment of the seventh time window is no later than the ending moment of the time window corresponding to the minimum value
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the time window corresponding to the minimum value satisfies a ninth time threshold condition
- the time interval between the end moment of the seventh time window and the end moment of the time window corresponding to the minimum value satisfies a tenth time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies an eleventh time threshold condition.
- the seventh time window is a time window for periodic CSI measurement and/or reporting
- the seventh period is a reporting period for periodic CSI measurement and/or reporting.
- the eleventh time window and the eleventh cycle, and the twelfth time window and the twelfth cycle in the embodiments of the present disclosure may represent any two of the following situations:
- the seventh period in the embodiment of the present disclosure may be the minimum value of the periods in any of the above two situations.
- any two or more situations for example: the time windows and periods in the above-mentioned Fig.
- the corresponding time domain relationship is the same as the time domain relationship corresponding to any of the above two situations, and will not be repeated here.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh cycle, the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh cycle is The reporting period of the periodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the seventh cycle is any one of the eleventh cycle and the twelfth cycle
- the time domain relationship between the seventh time window and the time window corresponding to any one period includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of the eleventh time window; or, the start time of the seventh time window is not earlier than the start time of the twelfth time window time;
- the ending moment of the seventh time window is not later than the ending moment of the eleventh time window; or, the ending moment of the seventh time window is not later than the ending moment of the twelfth time window;
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the eleventh time window satisfies the twelfth time threshold condition; or, the start moment of the seventh time window and the The time interval between the starting moments of the twelfth time window satisfies the thirteenth time threshold condition;
- the time interval between the end moment of the seventh time window and the end moment of the eleventh time window satisfies a fourteenth time threshold condition; or, the start moment of the seventh time window is the same as the tenth time window
- the time interval between the start moments of the two time windows satisfies the fifteenth time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies a sixteenth time threshold condition.
- the seventh time window is a time window for periodic CSI measurement and/or reporting
- the seventh period is a reporting period for periodic CSI measurement and/or reporting.
- the eleventh time window and the eleventh cycle, and the twelfth time window and the twelfth cycle in the embodiments of the present disclosure may represent any two of the following situations:
- the seventh period in the embodiments of the present disclosure may be any value of the period in any two situations above.
- the seventh period can also be any value of the periods in the above-mentioned two or more situations
- the time domain relationship corresponding to the seventh time window is the same as the time domain relationship corresponding to any two of the above situations, and will not be repeated here.
- the network device in addition to configuring periodic CSI measurement and/or reported information for the terminal, can configure the time window and cycle of any other two sending and receiving mechanisms for the terminal, such as: PDCCH monitoring window for exclusive services Or opportunity time window and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc., so that the terminal solves
- PDCCH monitoring window for exclusive services Or opportunity time window and period such as: PDCCH monitoring window for exclusive services Or opportunity time window and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc.
- the information corresponding to the first sending and receiving mechanism includes: a ninth time window and a ninth period, the starting point of the ninth period is the activation time point of semi-persistent CSI measurement and/or reporting, and the ninth period
- the end point of the cycle is the deactivation time point of the CSI
- the ninth time window is the activation time window in the ninth cycle
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the time domain relationship between the ninth time window, the eleventh time window and the twelfth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the first time, and the first time is the earliest start of the start time of the eleventh time window and the start time of the twelfth time window time;
- the ending moment of the ninth time window is no later than the second moment, and the second moment is the latest ending moment of the ending moment of the eleventh time window and the ending moment of the twelfth time window;
- the time interval between the start moment of the ninth time window and the first value satisfies the seventeenth time threshold condition, and the first value is the start moment of the eleventh time window and the twelfth time window the time interval between the start moments of the time window;
- the time interval between the end moment of the ninth time window and the second value satisfies the eighteenth time threshold condition, and the second value is the end moment of the eleventh time window and the twelfth time window
- the activation time point is no earlier than a third value, and the third value is the starting moment of the Mth eleventh time window, or the starting moment of the Mth twelfth time window, M is a value greater than 0;
- the deactivation time point is not later than the fourth value, and the fourth value is the end and start time of the Mth eleventh time window, or the end time of the Mth twelfth time window, M is a value greater than 0.
- the starting point of the ninth period is the first time point of activation of semi-persistent CSI measurement and/or reporting
- the end point of the ninth cycle is the first time point of CSI deactivation
- the ninth time point The window is the activation time window in the ninth cycle.
- the eleventh time window and the eleventh cycle, and the twelfth time window and the twelfth cycle in the embodiments of the present disclosure may represent any two of the following situations:
- the network device can configure the time window and cycle of any other two sending and receiving mechanisms for the terminal, such as: PDCCH monitoring window for dedicated services or Opportunity time window and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc., so that the terminal solves multiple In order to solve the problem of the coexistence of these mechanisms, it can also realize semi-persistent CSI measurement and/or reporting, and improve user throughput and reduce delay, thereby improving system performance.
- any other two sending and receiving mechanisms for the terminal such as: PDCCH monitoring window for dedicated services or Opportunity time window and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc.
- the configuration information corresponding to the first transceiving mechanism includes: a tenth time window, where the tenth time window is a time window for aperiodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the tenth time window is any one of the eleventh time window and the eleventh time window;
- the time domain relationship between the tenth time window, the eleventh time window and the twelfth time window includes at least one of the following:
- the starting moment of the tenth time window is not earlier than the starting moment of the eleventh time window; or, the starting moment of the tenth time window is not earlier than the starting moment of the twelfth time window time;
- the end time of the tenth time window is no later than the end time of the eleventh time window; or, the end time of the tenth time window is no later than the end time of the twelfth time window;
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the eleventh time window satisfies a nineteenth time threshold condition; or, the start moment of the tenth time window and the The time interval between the starting moments of the twelfth time window satisfies the twentieth time threshold condition;
- the time interval between the end moment of the tenth time window and the end moment of the eleventh time window satisfies the twenty-first time threshold condition; or, the start moment of the tenth time window is the same as the first time window
- the time interval between the starting moments of the twelve time windows satisfies the twenty-second time threshold condition
- a time interval between the end moment of the tenth time window and the start moment of the data transmission satisfies a twenty-third time threshold condition.
- the tenth time window is a time window for aperiodic CSI measurement and/or reporting.
- the eleventh time window and the eleventh cycle, and the twelfth time window and the twelfth cycle in the embodiments of the present disclosure may represent any two of the following situations:
- the network device can configure the time window and period of any other two sending and receiving mechanisms for the terminal, such as: PDCCH monitoring window for exclusive services Or opportunity time window and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc., so that the terminal solves
- the problem of coexistence of multiple mechanisms can also realize aperiodic CSI measurement and/or reporting, improve user throughput, reduce delay, and improve system performance.
- the signal transceiving method may also include the following steps:
- the configuration information may include information about CSI measurement and/or reporting configured by the network device for the terminal, and may also include information about other sending and receiving mechanisms configured by the network device for the terminal. For example: PDCCH monitoring window or opportunity for dedicated services, DRX, WUS, PDCCH jumping, search space switching, etc.
- the exclusive service may be an XR service.
- the network device itself may also perform signal transmission and reception according to the above configuration information when performing signal transmission and reception.
- the network device and the terminal when the network device and the terminal send and receive signals, they both send and receive signals according to the configuration information, which not only solves the problem of coexistence of multiple mechanisms, but also improves system performance.
- FIG. 13 is the second schematic flow diagram of a signal transceiving method provided by an embodiment of the present disclosure, and the signal transceiving method may be used in a terminal device. As shown in Figure 13, the signal transceiving method may include the following steps:
- Step 1301 Receive configuration information for signal transceiving, where the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include a first transceiving mechanism for characterizing CSI measurement and/or reporting.
- the configuration information may include information about CSI measurement and/or reporting configured by the network device for the terminal, and may also include information about other sending and receiving mechanisms configured by the network device for the terminal. For example: PDCCH monitoring window or opportunity for dedicated services, DRX, WUS, PDCCH jumping, search space switching, etc.
- the exclusive service may be an XR service.
- Step 1302 perform signal transceiving according to the configuration information.
- the configuration information may include information about CSI measurement and/or reporting configured for the terminal, it may also include information about other sending and receiving mechanisms configured for the terminal, so that after receiving the configuration information, the terminal may, according to the configured The information performs CSI measurement and/or reporting without affecting other sending and receiving mechanisms.
- the terminal can perform CSI measurement and/or report according to the configuration information without affecting other transmission and reception mechanisms, thereby solving the problem of The problem of coexistence of multiple mechanisms can also realize CSI measurement and/or reporting in a timely manner, improve user throughput, reduce delay, and thus improve system performance.
- the at least two transceiving mechanisms also include one or more of the following:
- the second transceiving mechanism used to characterize the PDCCH monitoring window or opportunity of the dedicated service
- a third transceiver mechanism for characterizing DRX
- a fourth transceiving mechanism for characterizing WUS is a fourth transceiving mechanism for characterizing WUS
- a sixth transceiving mechanism for characterizing search space switching is provided.
- the network device may also configure information about other sending and receiving mechanisms for the terminal.
- other transceiving mechanisms may include but not limited to: PDCCH monitoring windows or opportunities for dedicated services, DRX, WUS, PDCCH hopping, search space switching and other transceiving mechanisms.
- the network device in addition to configuring CSI measurement and/or reporting information for the terminal, can also configure other sending and receiving mechanism information for the terminal, such as: PDCCH monitoring window or opportunity for dedicated services, DRX, WUS, PDCCH Jumping, search space switching, etc., thereby solving the problem of coexistence of multiple mechanisms, and can also realize CSI measurement and/or reporting in a timely manner, improve user throughput, reduce delay, and improve system performance.
- other sending and receiving mechanism information for the terminal such as: PDCCH monitoring window or opportunity for dedicated services, DRX, WUS, PDCCH Jumping, search space switching, etc.
- the information corresponding to the second transceiving mechanism includes: a first time window, or the first time window and a first cycle, the first time window is the PDCCH monitoring window or opportunity of the dedicated service, The first period is the period of the PDCCH monitoring window or opportunity of the dedicated service;
- the information corresponding to the third transceiver mechanism includes: a second time window and a second cycle, and/or a third time window and a third cycle, the second cycle is a long DRX cycle, and the second time window is the The DRX activation window in the long DRX cycle, the third cycle is a short DRX cycle, and the third time window is the DRX activation window in the short DRX cycle;
- the information corresponding to the fourth transceiver mechanism includes: a fourth time window and a fourth cycle, the fourth time window is a WUS activation window, and the fourth cycle is a WUS cycle;
- the information corresponding to the fifth transceiving mechanism includes: a fifth time window and a fifth cycle, the fifth time window is an activation window for PDCCH hopping, and the fifth cycle is a PDCCH hopping cycle;
- the information corresponding to the sixth transceiving mechanism includes: a sixth time window and a sixth period, the sixth time window is an activation window of the search space, and the sixth period is a period of search space monitoring.
- the first time window is the PDCCH monitoring window or opportunity of the dedicated service
- the first period is the period of the PDCCH monitoring window or opportunity of the dedicated service.
- the exclusive service may be an XR service.
- the second cycle can be a long DRX cycle
- the second time window can be a DRX activation window in a long DRX cycle
- the third cycle can be a short DRX cycle
- the third time window can be a DRX activation window in a short DRX cycle.
- DRX activation window the time lengths of the second time window and the third time window may be the same or different.
- the fourth time window is the WUS activation window
- the fourth period is the WUS period
- the fifth time window is the activation window of PDCCH hopping
- the fifth period is the PDCCH hopping period.
- the sixth time window is the activation window of the search space
- the sixth period is the period of the search space monitoring.
- the network device in addition to configuring CSI measurement and/or reported information for the terminal, can also configure the time window and period of other sending and receiving mechanisms for the terminal, such as: the PDCCH monitoring window of the dedicated service or the time window of the opportunity and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc., thus solving the problem of coexistence of multiple mechanisms , and can also implement CSI measurement and/or reporting in a timely manner, improve user throughput, reduce delay, and thereby improve system performance.
- the time window and period of other sending and receiving mechanisms for the terminal such as: the PDCCH monitoring window of the dedicated service or the time window of the opportunity and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh cycle, the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh cycle is The reporting period of the periodic CSI measurement and/or reporting;
- the seventh transceiving mechanism is used to characterize any one of the second transceiving mechanism, the third transceiving mechanism, the fourth transceiving mechanism, the fifth transceiving mechanism, and the sixth transceiving mechanism;
- the information corresponding to the seventh sending and receiving mechanism includes the eighth time window and the eighth cycle;
- the seventh cycle is N times the eighth cycle; wherein, when the seventh transceiver mechanism is the third transceiver mechanism, N is an integer greater than 1; the seventh transceiver mechanism is the second For any one of the transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism, N is an integer greater than or equal to 1;
- the time domain relationship between the seventh time window and the eighth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N eighth time windows;
- the ending moment of the seventh time window is no later than the ending moment of N eighth time windows
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moments of N eighth time windows satisfies the first time threshold condition
- the time interval between the end moment of the seventh time window and the end moments of N eighth time windows satisfies a second time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies a third time threshold condition.
- the seventh time window is a time window for periodic CSI measurement and/or reporting
- the seventh period is a reporting period for the periodic CSI measurement and/or reporting.
- the network device can configure the time window and cycle of any other transceiver mechanism for the terminal, such as: PDCCH monitoring window for dedicated services or The time window and period of opportunity, the time window and period of DRX, the time window and period of WUS, the time window and period of PDCCH hopping, the time window and period of search space switching, etc., so that the terminal solves two
- PDCCH monitoring window for dedicated services or The time window and period of opportunity
- the time window and period of DRX the time window and period of WUS
- the time window and period of PDCCH hopping the time window and period of search space switching, etc.
- the information corresponding to the first sending and receiving mechanism includes: a ninth time window and a ninth period, the starting point of the ninth period is the activation time point of semi-persistent CSI measurement and/or reporting, and the ninth period
- the end point of the cycle is the deactivation time point of the CSI
- the ninth time window is the activation time window in the ninth cycle
- the seventh transceiver mechanism is used to characterize any one of the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the information corresponding to the seventh transceiver mechanism includes the first Eight time windows and eighth cycle;
- the time domain relationship between the ninth time window and the eighth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the start time of the eighth time window
- the ending moment of the ninth time window is no later than the ending moment of the eighth time window
- the time interval between the start moment of the ninth time window and the start moment of the eighth time window satisfies a fourth time threshold condition
- the time interval between the end moment of the ninth time window and the start moment of the eighth time window satisfies a fifth time threshold condition
- the activation time point is no earlier than the starting moment of the Mth eighth time window, and M is a value greater than 0;
- the deactivation time point is not later than the end time of the Mth eighth time window, and M is a value greater than 0.
- the starting point of the ninth cycle is the first time point of activation of semi-persistent CSI measurement and/or reporting
- the end point of the ninth cycle is the second time point of CSI deactivation
- the ninth time point The window is the activation time window in the ninth cycle.
- the network device can configure the time window and period of any other transceiver mechanism for the terminal, such as: PDCCH monitoring window or opportunity for dedicated services
- PDCCH monitoring window or opportunity for dedicated services The time window and period of DRX, the time window and period of WUS, the time window and period of PDCCH hopping, the time window and period of search space switching, etc., so that the terminal solves two
- the problem of mechanism coexistence can also realize semi-persistent CSI measurement and/or reporting, as well as improve user throughput and reduce delay, thereby improving system performance.
- the configuration information corresponding to the first transceiving mechanism includes: a tenth time window, where the tenth time window is a time window for aperiodic CSI measurement and/or reporting;
- the seventh transceiver mechanism is used to characterize any one of the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the information corresponding to the seventh transceiver mechanism includes the first Eight time windows and eighth cycle;
- the time domain relationship between the tenth time window and the eighth time window includes at least one of the following:
- the start time of the tenth time window is no earlier than the start time of the eighth time window
- the end time of the tenth time window is no later than the end time of the eighth time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the eighth time window satisfies a sixth time threshold condition
- the time interval between the end moment of the tenth time window and the start moment of the eighth time window satisfies the seventh time threshold condition
- a time interval between the end moment of the tenth time window and the start moment of the data transmission satisfies an eighth time threshold condition.
- the tenth time window is a time window for aperiodic CSI measurement and/or reporting.
- the network device can configure the time window and period of any other transceiver mechanism for the terminal, such as: PDCCH monitoring window for dedicated services or The time window and period of opportunity, the time window and period of DRX, the time window and period of WUS, the time window and period of PDCCH hopping, the time window and period of search space switching, etc., so that the terminal solves two
- aperiodic CSI measurement and/or reporting can also be realized, and user throughput can be improved, and delay can be reduced, thereby improving system performance.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh cycle, the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh cycle is The reporting period of the periodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the seventh period is the minimum value of the eleventh period and the twelfth period
- the time domain relationship between the seventh time window and the time window corresponding to the minimum value includes at least one of the following:
- the starting moment of the seventh time window is no earlier than the starting moment of the time window corresponding to the minimum value
- the ending moment of the seventh time window is no later than the ending moment of the time window corresponding to the minimum value
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the time window corresponding to the minimum value satisfies a ninth time threshold condition
- the time interval between the end moment of the seventh time window and the end moment of the time window corresponding to the minimum value satisfies a tenth time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies an eleventh time threshold condition.
- the seventh time window is a time window for periodic CSI measurement and/or reporting
- the seventh period is a reporting period for periodic CSI measurement and/or reporting.
- the eleventh time window and the eleventh cycle, and the twelfth time window and the twelfth cycle in the embodiments of the present disclosure may represent any two of the following situations:
- the seventh period in the embodiment of the present disclosure may be the minimum value of the periods in any of the above two situations.
- any two or more situations for example: the time windows and periods in the above-mentioned Fig.
- the corresponding time domain relationship is the same as the time domain relationship corresponding to any of the above two situations, and will not be repeated here.
- the information corresponding to the first transceiving mechanism includes: a seventh time window and a seventh cycle, the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh cycle is The reporting period of the periodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the seventh cycle is any one of the eleventh cycle and the twelfth cycle
- the time domain relationship between the seventh time window and the time window corresponding to any one period includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of the eleventh time window; or, the start time of the seventh time window is not earlier than the start time of the twelfth time window time;
- the ending moment of the seventh time window is not later than the ending moment of the eleventh time window; or, the ending moment of the seventh time window is not later than the ending moment of the twelfth time window;
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the eleventh time window satisfies the twelfth time threshold condition; or, the start moment of the seventh time window and the The time interval between the starting moments of the twelfth time window satisfies the thirteenth time threshold condition;
- the time interval between the end moment of the seventh time window and the end moment of the eleventh time window satisfies a fourteenth time threshold condition; or, the start moment of the seventh time window is the same as the tenth time window
- the time interval between the start moments of the two time windows satisfies the fifteenth time threshold condition
- a time interval between the end moment of the seventh time window and the start moment of the data transmission satisfies a sixteenth time threshold condition.
- the seventh time window is a time window for periodic CSI measurement and/or reporting
- the seventh period is a reporting period for periodic CSI measurement and/or reporting.
- the eleventh time window and the eleventh cycle, and the twelfth time window and the twelfth cycle in the embodiments of the present disclosure may represent any two of the following situations:
- the seventh period in the embodiments of the present disclosure may be any value of the periods in any two situations above.
- the seventh period can also be any value of the periods in the above-mentioned two or more situations
- the time domain relationship corresponding to the seventh time window is the same as the time domain relationship corresponding to any two of the above situations, and will not be repeated here.
- the network device in addition to configuring periodic CSI measurement and/or reported information for the terminal, can configure the time window and cycle of any other two sending and receiving mechanisms for the terminal, such as: PDCCH monitoring window for exclusive services Or opportunity time window and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc., so that the terminal solves
- periodic CSI measurement and/or reporting can also be realized, as well as improving user throughput and reducing delay, thereby improving system performance.
- the information corresponding to the first sending and receiving mechanism includes: a ninth time window and a ninth period, the starting point of the ninth period is the activation time point of semi-persistent CSI measurement and/or reporting, and the ninth period
- the end point of the cycle is the deactivation time point of the CSI
- the ninth time window is the activation time window in the ninth cycle
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the time domain relationship between the ninth time window, the eleventh time window and the twelfth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the first time, and the first time is the earliest start of the start time of the eleventh time window and the start time of the twelfth time window time;
- the ending moment of the ninth time window is no later than the second moment, and the second moment is the latest ending moment of the ending moment of the eleventh time window and the ending moment of the twelfth time window;
- the time interval between the start moment of the ninth time window and the first value satisfies the seventeenth time threshold condition, and the first value is the start moment of the eleventh time window and the twelfth time window the time interval between the start moments of the time window;
- the time interval between the end moment of the ninth time window and the second value satisfies the eighteenth time threshold condition, and the second value is the end moment of the eleventh time window and the twelfth time window
- the activation time point is no earlier than a third value, and the third value is the starting moment of the Mth eleventh time window, or the starting moment of the Mth twelfth time window, M is a value greater than 0;
- the deactivation time point is not later than the fourth value, and the fourth value is the end and start time of the Mth eleventh time window, or the end time of the Mth twelfth time window, M is a value greater than 0.
- the starting point of the ninth cycle is the first time point of activation of semi-persistent CSI measurement and/or reporting
- the end point of the ninth cycle is the second time point of CSI deactivation
- the ninth time point The window is the activation time window in the ninth cycle.
- the eleventh time window and the eleventh cycle, and the twelfth time window and the twelfth cycle in the embodiments of the present disclosure may represent any two of the following situations:
- the network device can configure the time window and period of any other two sending and receiving mechanisms for the terminal, such as: PDCCH monitoring window for dedicated services or The time window and period of opportunity, the time window and period of DRX, the time window and period of WUS, the time window and period of PDCCH hopping, the time window and period of search space switching, etc., so that the terminal solves multiple
- PDCCH monitoring window for dedicated services or The time window and period of opportunity
- the time window and period of DRX the time window and period of WUS
- the time window and period of PDCCH hopping the time window and period of search space switching, etc.
- the configuration information corresponding to the first transceiving mechanism includes: a tenth time window, where the tenth time window is a time window for aperiodic CSI measurement and/or reporting;
- the eighth transceiver mechanism and the ninth transceiver mechanism are used to characterize any two transceiver mechanisms in the second transceiver mechanism, the third transceiver mechanism, the fourth transceiver mechanism, the fifth transceiver mechanism, and the sixth transceiver mechanism; the eighth transceiver mechanism
- the information corresponding to the mechanism includes the eleventh time window and the eleventh cycle, and the information corresponding to the ninth sending and receiving mechanism includes the twelfth time window and the twelfth cycle;
- the tenth time window is any one of the eleventh time window and the eleventh time window;
- the time domain relationship between the tenth time window, the eleventh time window and the twelfth time window includes at least one of the following:
- the starting moment of the tenth time window is not earlier than the starting moment of the eleventh time window; or, the starting moment of the tenth time window is not earlier than the starting moment of the twelfth time window time;
- the end time of the tenth time window is no later than the end time of the eleventh time window; or, the end time of the tenth time window is no later than the end time of the twelfth time window;
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the eleventh time window satisfies a nineteenth time threshold condition; or, the start moment of the tenth time window and the The time interval between the starting moments of the twelfth time window satisfies the twentieth time threshold condition;
- the time interval between the end moment of the tenth time window and the end moment of the eleventh time window satisfies the twenty-first time threshold condition; or, the start moment of the tenth time window is the same as the first time window
- the time interval between the starting moments of the twelve time windows satisfies the twenty-second time threshold condition
- a time interval between the end moment of the tenth time window and the start moment of the data transmission satisfies a twenty-third time threshold condition.
- the tenth time window is a time window for aperiodic CSI measurement and/or reporting.
- the eleventh time window and the eleventh cycle, and the twelfth time window and the twelfth cycle in the embodiments of the present disclosure may represent any two of the following situations:
- the network device can configure the time window and period of any other two sending and receiving mechanisms for the terminal, such as: PDCCH monitoring window for exclusive services Or opportunity time window and period, DRX time window and period, WUS time window and period time window and period, PDCCH hopping time window and period, search space switching time window and period, etc., so that the terminal solves
- the problem of coexistence of multiple mechanisms can also realize aperiodic CSI measurement and/or reporting, improve user throughput, reduce delay, and improve system performance.
- Embodiment 1 Configuring a PDCCH monitoring window or opportunity for a dedicated service.
- the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh period is a reporting period for periodic CSI measurement and/or reporting;
- the configuration information corresponding to the second sending and receiving mechanism includes: the first time window, or the first time window and the first cycle.
- the first time window is the PDCCH monitoring window or opportunity of the dedicated service
- the first period is the period of the PDCCH monitoring window or opportunity of the dedicated service.
- the exclusive service may be an XR service.
- the seventh period is equal to the first period, and the time domain relationship between the seventh time window and the first time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of the first time window
- the end time of the seventh time window is no later than the end time of the first time window
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the first time window satisfies the first time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service;
- the time interval between the end moment of the seventh time window and the end moment of the first time window satisfies the second time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service;
- the time interval between the end moment of the seventh time window and the start moment of data transmission meets the third time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service.
- the "starting moment of data transmission” here means that the CSI measurement is completed before the data transmission starts.
- the meaning of "the start moment of data transmission” involved in other embodiments of the present disclosure is the same as this, and details will not be repeated hereafter.
- the seventh period is N times of the first period, and N is a positive integer greater than 1 (as shown in Figure 15, N is 2), and the time domain relationship between the seventh time window and the first time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N first time windows
- the end time of the seventh time window is no later than the end time of N first time windows
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the N first time windows satisfies the first time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service;
- the time interval between the end moment of the seventh time window and the end moments of the N first time windows satisfies the second time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service;
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the third time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service.
- the tenth time window is the time window for aperiodic CSI measurement and/or reporting; the first time window is the PDCCH monitoring window or opportunity for the dedicated service, and the first period is the PDCCH monitoring window or opportunity for the dedicated service cycle.
- the exclusive service may be an XR service.
- the time domain relationship between the tenth time window and the first time window includes at least one of the following:
- the start time of the tenth time window is not earlier than the start time of the first time window
- the end time of the tenth time window is no later than the end time of the first time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the first time window satisfies the sixth time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service;
- the time interval between the end moment of the tenth time window and the start moment of the first time window satisfies the seventh time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service;
- the time interval between the end moment of the tenth time window and the start moment of data transmission satisfies the eighth time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service.
- the starting point of the ninth cycle is the activation time point of semi-persistent CSI measurement and/or reporting
- the end point of the ninth cycle is the deactivation time point of CSI
- the ninth time window is the Activation time window
- the first time window is the PDCCH monitoring window or opportunity of the dedicated service
- the first period is the period of the PDCCH monitoring window or opportunity of the dedicated service.
- the exclusive service may be an XR service.
- the time domain relationship between the ninth time window and the first time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the start time of the first time window
- the end time of the ninth time window is no later than the end time of the first time window
- the time interval between the start moment of the ninth time window and the start moment of the first time window satisfies the fourth time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service;
- the time interval between the end moment of the ninth time window and the start moment of the first time window satisfies the fifth time threshold condition corresponding to the PDCCH monitoring window or opportunity of the dedicated service;
- the activation time point is not earlier than the starting moment of the Mth first time window, and M is a value greater than 0;
- the deactivation time point is no later than the end time of the Mth first time window, and M is a value greater than 0.
- Embodiment 2 DRX is configured.
- the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh period is a reporting period for periodic CSI measurement and/or reporting;
- the configuration information corresponding to configuring DRX includes: the second time window and the second cycle, and/or the third time window and the third cycle, the second cycle is the long DRX cycle, and the second time window is the DRX activation window in the long DRX cycle , the third cycle is a short DRX cycle, and the third time window is a DRX activation window in the short DRX cycle.
- the seventh cycle is N times of the second cycle or the third cycle, N is an integer greater than 1, and the time domain relationship between the seventh time window and the first time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N second time windows or third time windows;
- the end time of the seventh time window is no later than the end time of N second time windows or third time windows;
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moments of N second time windows or third time windows meets the first time threshold condition corresponding to DRX;
- the time interval between the end moment of the seventh time window and the end moments of N second time windows or third time windows satisfies the second time threshold condition corresponding to DRX;
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the third time threshold condition corresponding to DRX.
- the tenth time window is a time window for aperiodic CSI measurement and/or reporting
- the configuration information corresponding to configuring DRX includes: the second time window and the second cycle, and/or the third time window and the third cycle, the second cycle is the long DRX cycle, and the second time window is the DRX activation window in the long DRX cycle , the third cycle is a short DRX cycle, and the third time window is a DRX activation window in the short DRX cycle.
- the time domain relationship between the tenth time window and the second time window includes at least one of the following:
- the start time of the tenth time window is not earlier than the start time of the second time window or the third time window;
- the end of the tenth time window is no later than the end of the second or third time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the second time window or the third time window satisfies the sixth time threshold condition corresponding to DRX;
- the time interval between the end moment of the tenth time window and the start moment of the second time window or the third time window satisfies the seventh time threshold condition corresponding to DRX;
- the time interval between the end moment of the tenth time window and the start moment of data transmission satisfies the eighth time threshold condition corresponding to DRX.
- the starting point of the eighth cycle is the activation time point of semi-continuous CSI measurement and/or reporting
- the end point of the ninth cycle is the deactivation time point of CSI
- the ninth time window is the activation time window in the ninth cycle
- the configuration information corresponding to configuring DRX includes: the second time window and the second cycle, and/or the third time window and the third cycle, the second cycle is the long DRX cycle, and the second time window is the DRX activation window in the long DRX cycle , the third cycle is a short DRX cycle, and the third time window is a DRX activation window in the short DRX cycle.
- the time domain relationship between the ninth time window and the second time window or the third time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the start time of M second time windows or third time windows;
- the end time of the ninth time window is no later than the end time of the second time window or the third time window;
- the time interval between the start moment of the ninth time window and the start moment of the second time window or the third time window satisfies the fourth time threshold condition corresponding to DRX;
- the time interval between the end moment of the ninth time window and the start moment of the second time window or the third time window satisfies the fifth time threshold condition corresponding to DRX;
- the activation time point is not earlier than the starting moment of the Mth first time window or the third time window, and M is a value greater than 0;
- the deactivation time point is not later than the end time of the Mth first time window or the third time window, and M is a value greater than 0.
- Embodiment 3 Configuring WUS.
- the seventh time window is the time window for periodic CSI measurement and/or reporting, and the seventh cycle is the reporting cycle for periodic CSI measurement and/or reporting; the fourth time window is the WUS activation window, and the fourth cycle is the WUS cycle .
- the seventh period is equal to the fourth period, and the time domain relationship between the seventh time window and the fourth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of the fourth time window
- the end time of the seventh time window is no later than the end time of the fourth time window
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the fourth time window satisfies the first time threshold condition corresponding to the WUS;
- the time interval between the end moment of the seventh time window and the end moment of the fourth time window satisfies the second time threshold condition corresponding to the WUS;
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the third time threshold condition corresponding to the WUS.
- the seventh period is N times the fourth period, N is an integer greater than 1, and the time domain relationship between the seventh time window and the fourth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N fourth time windows;
- the end time of the seventh time window is no later than the end time of the N fourth time windows
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the N fourth time windows satisfies the first time threshold condition corresponding to the WUS;
- the time interval between the end moment of the seventh time window and the end moments of the N fourth time windows satisfies the second time threshold condition corresponding to the WUS;
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the third time threshold condition corresponding to the WUS.
- the tenth time window is a time window for aperiodic CSI measurement and/or reporting; the fourth time window is a WUS activation window, and the fourth period is a WUS period.
- the time domain relationship between the tenth time window and the fourth time window includes at least three of the following items:
- the start time of the tenth time window is not earlier than the start time of the fourth time window
- the end time of the tenth time window is no later than the end time of the fourth time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the fourth time window satisfies the sixth time threshold condition corresponding to the WUS;
- the time interval between the end moment of the tenth time window and the start moment of the fourth time window satisfies the seventh time threshold condition corresponding to the WUS;
- the time interval between the end moment of the tenth time window and the start moment of data transmission satisfies the eighth time threshold condition corresponding to the WUS.
- the starting point of the ninth cycle is the activation time point of semi-continuous CSI measurement and/or reporting
- the end point of the ninth cycle is the deactivation time point of CSI
- the ninth time window is the activation time window in the ninth cycle
- the fourth The time window is the WUS activation window
- the fourth cycle is the WUS cycle.
- the time domain relationship between the ninth time window and the fourth time window includes at least three of the following items:
- the start time of the ninth time window is not earlier than the start time of the fourth time window
- the end time of the ninth time window is no later than the end time of the fourth time window
- the time interval between the start moment of the ninth time window and the start moment of the fourth time window satisfies the fourth time threshold condition corresponding to the WUS;
- the time interval between the end moment of the ninth time window and the start moment of the fourth time window satisfies the fifth time threshold condition corresponding to the WUS;
- the activation time point is not earlier than the starting moment of the Mth fourth time window, and M is a value greater than 0;
- the deactivation time point is no later than the end time of the Mth fourth time window, and M is a value greater than 0.
- Embodiment 4 Configuring PDCCH jumping.
- the seventh time window is the time window for periodic CSI measurement and/or reporting, and the seventh period is the reporting period for periodic CSI measurement and/or reporting; the fifth time window is the activation window for PDCCH jumping, and the fifth period is the PDCCH hopping period.
- the seventh period is equal to the fifth period, and the time domain relationship between the seventh time window and the fifth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of the fifth time window
- the end time of the seventh time window is no later than the end time of the fifth time window
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the fifth time window satisfies the first time threshold condition corresponding to the PDCCH jump;
- the time interval between the end moment of the seventh time window and the end moment of the fifth time window satisfies the second time threshold condition corresponding to the PDCCH jump;
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the third time threshold condition corresponding to PDCCH jumping.
- the seventh period is N times the fifth period, N is an integer greater than 1, and the time domain relationship between the seventh time window and the fifth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N fifth time windows;
- the end time of the seventh time window is no later than the end time of N fifth time windows;
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the N fifth time windows satisfies the first time threshold condition corresponding to the PDCCH jump;
- the time interval between the end moment of the seventh time window and the end moments of the N fifth time windows satisfies the second time threshold condition corresponding to the PDCCH jump;
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the third time threshold condition corresponding to PDCCH jumping.
- the tenth time window is a time window for aperiodic CSI measurement and/or reporting; the fifth time window is an activation window for PDCCH hopping, and the fifth period is a PDCCH hopping period.
- the time domain relationship between the tenth time window and the fifth time window includes at least one of the following:
- the start time of the tenth time window is not earlier than the start time of the fifth time window
- the end of the tenth time window is no later than the end of the fifth time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the fifth time window satisfies the sixth time threshold condition corresponding to the PDCCH jump;
- the time interval between the end moment of the tenth time window and the start moment of the fifth time window satisfies the seventh time threshold condition corresponding to PDCCH jumping;
- the time interval between the end moment of the tenth time window and the start moment of data transmission satisfies the eighth time threshold condition corresponding to PDCCH jumping.
- the starting point of the ninth cycle is the activation time point of semi-continuous CSI measurement and/or reporting
- the end point of the ninth cycle is the deactivation time point of CSI
- the ninth time window is the activation time window in the ninth cycle
- the fifth The time window is the activation window of PDCCH hopping
- the fifth period is the PDCCH hopping period.
- the time domain relationship between the ninth time window and the fifth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the start time of the fifth time window
- the end time of the ninth time window is no later than the end time of the fifth time window
- the time interval between the start moment of the ninth time window and the start moment of the fifth time window satisfies the fourth time threshold condition corresponding to the PDCCH jump;
- the time interval between the end moment of the ninth time window and the start moment of the fifth time window satisfies the fifth time threshold condition corresponding to the PDCCH jump;
- the activation time point is not earlier than the starting moment of the Mth fifth time window, and M is a value greater than 0;
- the deactivation time point is no later than the end time of the Mth fifth time window, and M is a value greater than 0.
- Embodiment 5 Configuring Search Space Switching
- the seventh time window is the time window for periodic CSI measurement and/or reporting, and the seventh period is the reporting period for periodic CSI measurement and/or reporting; the sixth time window is the activation window of the search space, and the sixth period is Period of search space monitoring.
- the seventh period is equal to the sixth period, and the time domain relationship between the seventh time window and the sixth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of the sixth time window
- the end time of the seventh time window is no later than the end time of the sixth time window
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the sixth time window satisfies the first time threshold condition corresponding to the search space
- the time interval between the end moment of the seventh time window and the end moment of the sixth time window satisfies the second time threshold condition corresponding to the search space
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the third time threshold condition corresponding to the search space.
- the seventh period is N times the fifth period, N is an integer greater than 1, and the time domain relationship between the seventh time window and the sixth time window includes at least one of the following:
- the start time of the seventh time window is not earlier than the start time of N sixth time windows;
- the end time of the seventh time window is not later than the end time of N sixth time windows;
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moments of the N sixth time windows satisfies the first time threshold condition corresponding to the search space
- the time interval between the end moment of the seventh time window and the end moments of the N sixth time windows satisfies the second time threshold condition corresponding to the search space;
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the third time threshold condition corresponding to the search space.
- the tenth time window is the time window for aperiodic CSI measurement and/or reporting; the sixth time window is the activation window of the search space, and the sixth period is the period of search space monitoring.
- the time domain relationship between the tenth time window and the sixth time window includes at least one of the following:
- the start time of the tenth time window is not earlier than the start time of the sixth time window
- the end of the tenth time window is no later than the end of the sixth time window
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the sixth time window satisfies the sixth time threshold condition corresponding to the search space;
- the time interval between the end moment of the tenth time window and the start moment of the sixth time window satisfies the seventh time threshold condition corresponding to the search space;
- the time interval between the end moment of the tenth time window and the start moment of data transmission satisfies the eighth time threshold condition corresponding to the search space.
- the starting point of the ninth cycle is the activation time point of semi-continuous CSI measurement and/or reporting
- the end point of the ninth cycle is the deactivation time point of CSI
- the ninth time window is the activation time window in the ninth cycle
- the sixth The time window is the activation window of the search space
- the sixth period is the period of the search space monitoring.
- the time domain relationship between the ninth time window and the sixth time window includes at least one of the following:
- the start time of the ninth time window is not earlier than the start time of the sixth time window
- the end of the ninth time window is no later than the end of the sixth time window
- the time interval between the start moment of the ninth time window and the start moment of the sixth time window satisfies the fourth time threshold condition corresponding to the search space
- the time interval between the end moment of the ninth time window and the start moment of the sixth time window satisfies the fifth time threshold condition corresponding to the search space;
- the activation time point is not earlier than the starting moment of the Mth sixth time window, and M is a value greater than 0;
- the deactivation time point is not later than the end time of the Mth sixth time window, and M is a value greater than 0.
- Embodiment 6 PDCCH monitoring window or opportunity and DRX of dedicated service are configured.
- the seventh time window is a time window for periodic CSI measurement and/or reporting, and the seventh period is a reporting period for periodic CSI measurement and/or reporting;
- the first time window is the PDCCH monitoring window or opportunity of the dedicated service, and the first period is the period of the PDCCH monitoring window or opportunity of the dedicated service.
- the exclusive business can be XR business;
- the sixth time window is the activation window of the search space, and the sixth period is the period of the search space monitoring.
- the configuration information corresponding to configuring DRX includes: the second time window and the second cycle, and/or the third time window and the third cycle, the second cycle is the long DRX cycle, and the second time window is the DRX activation window in the long DRX cycle , the third cycle is a short DRX cycle, and the third time window is a DRX activation window in the short DRX cycle.
- the seventh period is the minimum value of the first period, the second period and the third period.
- the minimum value is the short DRX cycle.
- the time domain relationship between the seventh time window and the time window corresponding to the minimum value includes at least one of the following:
- the starting moment of the seventh time window is not earlier than the starting moment of the time window corresponding to the minimum value
- the end time of the seventh time window is no later than the end time of the time window corresponding to the minimum value
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the time window corresponding to the minimum value satisfies the ninth time threshold condition
- the time interval between the end moment of the seventh time window and the end moment of the time window corresponding to the minimum value satisfies the tenth time threshold condition
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the eleventh time threshold condition.
- the seventh cycle is any one of the first cycle, the second cycle and the third cycle.
- the arbitrary period is the first period, that is, the period of the PDCCH monitoring window or opportunity of the dedicated service.
- the start moment of the seventh time window is not earlier than the start moment of the first time window; or, the start moment of the seventh time window is not earlier than the start moment of the second time window;
- the end time of the seventh time window is no later than the end time of the first time window; or, the end time of the seventh time window is no later than the end time of the second time window;
- the end time of the seventh time window is no later than the start time of data transmission
- the time interval between the start moment of the seventh time window and the start moment of the first time window satisfies the twelfth time threshold condition; or, the difference between the start moment of the seventh time window and the start moment of the second time window The time interval between satisfies the thirteenth time threshold condition;
- the time interval between the end moment of the seventh time window and the end moment of the first time window satisfies the fourteenth time threshold condition; or, the time interval between the start moment of the seventh time window and the start moment of the second time window The time interval satisfies the fifteenth time threshold condition;
- the time interval between the end moment of the seventh time window and the start moment of data transmission satisfies the sixteenth time threshold condition.
- the tenth time window is a time window for aperiodic CSI measurement and/or reporting
- the first time window is the PDCCH monitoring window or opportunity of the dedicated service, and the first period is the period of the PDCCH monitoring window or opportunity of the dedicated service.
- the exclusive business can be XR business;
- the sixth time window is the activation window of the search space, and the sixth period is the period of the search space monitoring.
- the configuration information corresponding to configuring DRX includes: the second time window and the second cycle, and/or the third time window and the third cycle, the second cycle is the long DRX cycle, and the second time window is the DRX activation window in the long DRX cycle , the third cycle is a short DRX cycle, and the third time window is a DRX activation window in the short DRX cycle.
- the time domain relationship among the tenth time window, the first time window and the second time window includes at least one of the following:
- the start time of the tenth time window is not earlier than the start time of the first time window; or, the start time of the tenth time window is not earlier than the start time of the second time window;
- the end time of the tenth time window is not later than the end time of the first time window; or, the end time of the tenth time window is not later than the end time of the second time window or the third time window;
- the end time of the tenth time window is no later than the start time of data transmission
- the time interval between the start moment of the tenth time window and the start moment of the first time window satisfies the nineteenth time threshold condition; or, the start moment of the tenth time window and the second time window or the third time window The time interval between the starting moments of satisfies the twentieth time threshold condition;
- the time interval between the end moment of the tenth time window and the end moment of the first time window satisfies the twenty-first time threshold condition; or, the start moment of the tenth time window and the second time window or the third time window
- the time interval between the starting moments satisfies the twenty-second time threshold condition
- the time interval between the end moment of the tenth time window and the start moment of data transmission satisfies the twenty-third time threshold condition.
- the tenth time window may be configured as any activated time window in the first cycle, the short DRX cycle, and the long DRX cycle. If the activation time windows corresponding to the first cycle, the short DRX cycle, and the long DRX cycle overlap in time, the activation window corresponding to the earliest signal/signal/data may be selected as the tenth time window for the overlapping part.
- the starting point of the ninth cycle is the activation time point of semi-continuous CSI measurement and/or reporting
- the end point of the ninth cycle is the deactivation time point of CSI
- the ninth time window is the activation time window in the ninth cycle
- the first time window is the PDCCH monitoring window or opportunity of the dedicated service, and the first period is the period of the PDCCH monitoring window or opportunity of the dedicated service.
- the exclusive business can be XR business;
- the sixth time window is the activation window of the search space, and the sixth period is the period of the search space monitoring.
- the time domain relationship between the ninth time window, the first time window and the second time window or the third time window includes at least one of the following:
- the start moment of the ninth time window is not earlier than the first moment, and the first moment is the earliest start moment among the start moment of the first time window and the start moment of the second time window or the start moment of the third time window;
- the end time of the ninth time window is not later than the second time, and the second time is the latest end time of the end time of the first time window and the end time of the second time window or the end time of the third time window;
- the time interval between the start moment of the ninth time window and the first value satisfies the seventeenth time threshold condition, and the first value is the start moment of the first time window and the start of the second time window or the third time window time interval between moments;
- the time interval between the end moment of the ninth time window and the second value satisfies the eighteenth time threshold condition, and the second value is between the end moment of the first time window and the end moment of the second time window or the third time window time interval;
- the activation time point is not earlier than the third value, and the third value is the starting moment of the Mth first time window, or the starting moment of the Mth second time window, or the starting moment of the Mth third time window, and M is A value greater than 0;
- the deactivation time point is no later than the fourth value
- the fourth value is the end and start time of the Mth first time window, or the end time of the Mth second time window, or the Mth third time window
- M is A value greater than 0.
- Embodiment 7 PDCCH monitoring window or opportunity, DRX and WUS configured as dedicated services.
- the target cycle can be determined according to the PDCCH monitoring window or opportunity cycle of the dedicated service, the long DRX cycle, the short DRX cycle and the WUS cycle. For example: selecting the minimum value of at least two periods among these periods, or selecting any one period as the seventh period.
- the target time window can be determined according to the PDCCH monitoring window or opportunity of the dedicated service, the DRX activation window in the long DRX cycle, the DRX activation window in the short DRX cycle, and the WUS activation window. For example: select the earliest start time of at least two time windows in these time windows, and take the latest end time of at least two time windows; or select the start time or end time of any one of these time windows.
- the target period here may refer to the seventh period for periodic CSI measurement and/or reporting, the ninth period for semi-persistent CSI, and the tenth period for aperiodic CSI.
- the target time window here may refer to the seventh period for periodic CSI measurement and/or reporting, the ninth period for semi-persistent CSI, and the tenth period for aperiodic CSI.
- the seventh period may be determined according to the period of the PDCCH monitoring window or opportunity of the dedicated service, the long DRX period, the short DRX period and the WUS period.
- the minimum value of at least two periods among these periods may be selected, or any one period may be selected as the seventh period.
- the seventh time window may be determined according to the PDCCH monitoring window or opportunity of the dedicated service, the DRX activation window in the long DRX cycle, the DRX activation window in the short DRX cycle, and the WUS activation window. Exemplarily, select the earliest start moment of at least two time windows in these time windows, and take the latest end moment of at least two time windows; or select the start moment or end of any one of these time windows time.
- the seventh cycle is associated with the DRX activation cycle, if the WUS indicates to skip DRX, the terminal may perform at least one of the following operations:
- Embodiment 8 PDCCH monitoring window or opportunity configured as dedicated service, PDCCH jump, DRX and WUS.
- the target cycle can be determined according to the PDCCH monitoring window or opportunity cycle of the dedicated service, PDCCH hopping cycle, long DRX cycle, short DRX cycle and WUS cycle. For example: selecting the minimum value of at least two periods among these periods, or selecting any one period as the seventh period.
- the target time window can be determined according to the PDCCH monitoring window or opportunity of the dedicated service, the DRX activation window in the long DRX cycle, the activation window of PDCCH hopping, the DRX activation window in the short DRX cycle, and the WUS activation window. For example: select the earliest start time of at least two time windows in these time windows, and take the latest end time of at least two time windows; or select the start time or end time of any one of these time windows.
- the target period here may refer to the seventh period for periodic CSI measurement and/or reporting, the ninth period for semi-persistent CSI, and the tenth period for aperiodic CSI.
- the target time window here may refer to the seventh period for periodic CSI measurement and/or reporting, the ninth period for semi-persistent CSI, and the tenth period for aperiodic CSI.
- Embodiment 9 PDCCH monitoring window or opportunity configured as dedicated service, search space switching, DRX and WUS.
- the target cycle can be determined according to the PDCCH monitoring window or opportunity cycle of the dedicated service, the search space monitoring cycle, the long DRX cycle, the short DRX cycle and the WUS cycle. For example: selecting the minimum value of at least two periods among these periods, or selecting any one period as the seventh period.
- the target time window can be determined according to the PDCCH monitoring window or opportunity of the dedicated service, the DRX activation window in the long DRX cycle, the activation window in the search space, the DRX activation window in the short DRX cycle, and the WUS activation window. For example: select the earliest start time of at least two time windows in these time windows, and take the latest end time of at least two time windows; or select the start time or end time of any one of these time windows.
- the target period here may refer to the seventh period for periodic CSI measurement and/or reporting, the ninth period for semi-persistent CSI, and the tenth period for aperiodic CSI.
- the target time window here may refer to the seventh period for periodic CSI measurement and/or reporting, the ninth period for semi-persistent CSI, and the tenth period for aperiodic CSI.
- Fig. 20 is one of the schematic flowcharts of a signal transceiving device provided by an embodiment of the present disclosure, and the signal transceiving device may be used in a network device, such as a base station. As shown in Figure 20, the signal transceiving device may include the following steps:
- the configuration unit 201 is configured to generate configuration information for signal transceiving, the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include CSI measurement and/or reporting for representing channel state information The first sending and receiving mechanism;
- the sending unit 202 is configured to send the configuration information to the terminal, so that the terminal performs signal transmission and reception according to the configuration information.
- each functional unit in each embodiment of the present disclosure may be integrated into one processing unit, each unit may exist separately physically, or two or more units may be integrated into one unit.
- the above-mentioned integrated units can be implemented in the form of hardware or in the form of software functional units.
- the integrated unit is implemented in the form of a software function unit and sold or used as an independent product, it can be stored in a processor-readable storage medium.
- the essence of the technical solution of the present disclosure or the part that contributes to the related technology or all or part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium.
- a computer device which may be a personal computer, a server, or a network device, etc.
- a processor processor
- the aforementioned storage media include: U disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disk or optical disc and other media that can store program codes. .
- FIG. 21 is the second schematic flow diagram of a signal transceiving device provided by an embodiment of the present disclosure, and the signal transceiving device may be used in a terminal device. As shown in Figure 21, the signal transceiving device may include the following steps:
- the receiving unit 211 is configured to receive configuration information for signal transceiving, the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include CSI measurement and/or reporting for representing channel state information The first sending and receiving mechanism;
- the signal transceiving unit 212 is configured to perform signal transceiving according to the configuration information.
- each functional unit in each embodiment of the present disclosure may be integrated into one processing unit, each unit may exist separately physically, or two or more units may be integrated into one unit.
- the above-mentioned integrated units can be implemented in the form of hardware or in the form of software functional units.
- the integrated unit is implemented in the form of a software function unit and sold or used as an independent product, it can be stored in a processor-readable storage medium.
- the essence of the technical solution of the present disclosure or the part that contributes to the related technology or all or part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium.
- a computer device which may be a personal computer, a server, or a network device, etc.
- a processor processor
- the aforementioned storage media include: U disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disk or optical disc and other media that can store program codes. .
- Fig. 22 is a schematic structural diagram of a network device provided by an embodiment of the present disclosure; the network device may be used to execute the signal transceiving method shown in Fig. 4 . As shown in FIG. 22 , the transceiver 2200 is configured to receive and send data under the control of a processor 2210 .
- the bus architecture may include any number of interconnected buses and bridges, specifically one or more processors represented by the processor 2210 and various circuits of the memory represented by the memory 2220 are linked together.
- the bus architecture can also link together various other circuits such as peripherals, voltage regulators, and power management circuits, etc., which are well known in the art and therefore will not be further described herein.
- the bus interface provides the interface.
- the transceiver 2200 may be a plurality of elements, including a transmitter and a receiver, providing a unit for communicating with various other devices over transmission media, including wireless channels, wired channels, optical cables, and other transmission media.
- the processor 2210 is responsible for managing the bus architecture and general processing, and the memory 2220 can store data used by the processor 2210 when performing operations.
- the processor 2210 can be a central processing device (CPU), an application specific integrated circuit (Application Specific Integrated Circuit, ASIC), a field programmable gate array (Field-Programmable Gate Array, FPGA) or a complex programmable logic device (Complex Programmable Logic Device , CPLD), the processor can also adopt a multi-core architecture.
- CPU central processing device
- ASIC Application Specific Integrated Circuit
- FPGA field programmable gate array
- CPLD Complex Programmable Logic Device
- Fig. 23 is a schematic structural diagram of a terminal device provided by an embodiment of the present disclosure.
- the terminal device may be used to execute the signal transceiving method shown in FIG. 13 .
- the transceiver 2300 is used to receive and send data under the control of the processor 2310.
- the bus architecture may include any number of interconnected buses and bridges, specifically one or more processors represented by the processor 2310 and various circuits of the memory represented by the memory 2320 are linked together.
- the bus architecture can also link together various other circuits such as peripherals, voltage regulators, and power management circuits, etc., which are well known in the art and thus will not be further described in this disclosure.
- the bus interface provides the interface.
- Transceiver 2300 may be a plurality of elements, including transmitters and receivers, providing means for communicating with various other devices over transmission media, including wireless channels, wired channels, fiber optic cables, etc. Transmission medium.
- the user interface 2330 may also be an interface capable of connecting externally and internally to required equipment, and the connected equipment includes but not limited to a keypad, a display, a speaker, a microphone, a joystick, and the like.
- the processor 2310 is responsible for managing the bus architecture and general processing, and the memory 2320 can store data used by the processor 2310 when performing operations.
- the processor 2310 can be a CPU (central device), ASIC (Application Specific Integrated Circuit, application specific integrated circuit), FPGA (Field-Programmable Gate Array, field programmable gate array) or CPLD (Complex Programmable Logic Device , complex programmable logic device), the processor can also adopt a multi-core architecture.
- CPU central device
- ASIC Application Specific Integrated Circuit
- FPGA Field-Programmable Gate Array, field programmable gate array
- CPLD Complex Programmable Logic Device , complex programmable logic device
- the processor is used to execute any one of the methods provided by the embodiments of the present disclosure according to the obtained executable instructions by calling the computer program stored in the memory.
- the processor and memory may also be physically separated.
- the embodiments of the present disclosure further provide a processor-readable storage medium, the processor-readable storage medium stores a computer program, and the computer program is used to enable the processor to execute the above-mentioned embodiments.
- methods including:
- Configuration information for signal transceiving, where the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include a first transceiving mechanism for representing channel state information CSI measurement and/or reporting;
- the processor-readable storage medium can be any available medium or data storage device that can be accessed by a processor, including but not limited to magnetic storage (e.g., floppy disk, hard disk, magnetic tape, magneto-optical disk (MO), etc.), optical storage (e.g., CD, DVD, BD, HVD, etc.), and semiconductor memory (such as ROM, EPROM, EEPROM, non-volatile memory (NAND FLASH), solid-state drive (SSD)), etc.
- magnetic storage e.g., floppy disk, hard disk, magnetic tape, magneto-optical disk (MO), etc.
- optical storage e.g., CD, DVD, BD, HVD, etc.
- semiconductor memory such as ROM, EPROM, EEPROM, non-volatile memory (NAND FLASH), solid-state drive (SSD)
- the embodiments of the present disclosure further provide a processor-readable storage medium, the processor-readable storage medium stores a computer program, and the computer program is used to enable the processor to execute the above-mentioned embodiments.
- methods including:
- Receive configuration information for signal transceiving where the configuration information includes information corresponding to at least two transceiving mechanisms, and the at least two transceiving mechanisms include a first transceiving mechanism for representing channel state information CSI measurement and/or reporting;
- the processor-readable storage medium can be any available medium or data storage device that can be accessed by a processor, including but not limited to magnetic storage (e.g., floppy disk, hard disk, magnetic tape, magneto-optical disk (MO), etc.), optical storage (e.g., CD, DVD, BD, HVD, etc.), and semiconductor memory (such as ROM, EPROM, EEPROM, non-volatile memory (NAND FLASH), solid-state drive (SSD)), etc.
- magnetic storage e.g., floppy disk, hard disk, magnetic tape, magneto-optical disk (MO), etc.
- optical storage e.g., CD, DVD, BD, HVD, etc.
- semiconductor memory such as ROM, EPROM, EEPROM, non-volatile memory (NAND FLASH), solid-state drive (SSD)
- the embodiments of the present disclosure may be provided as methods, systems, or computer program products. Accordingly, the present disclosure can take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present disclosure may take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage, optical storage, etc.) having computer-usable program code embodied therein.
- processor-executable instructions may also be stored in a processor-readable memory capable of directing a computer or other programmable data processing device to operate in a specific manner, such that the instructions stored in the processor-readable memory produce a manufacturing product, the instruction device realizes the functions specified in one or more procedures of the flow chart and/or one or more blocks of the block diagram.
- processor-executable instructions can also be loaded onto a computer or other programmable data processing device, causing a series of operational steps to be performed on the computer or other programmable device to produce a computer-implemented
- the executed instructions provide steps for implementing the functions specified in the procedure or procedures of the flowchart and/or the block or blocks of the block diagrams.
Abstract
Description
Claims (65)
- 一种信号收发方法,其中,所述方法用于网络设备,包括:生成用于信号收发的配置信息,所述配置信息包括至少两种收发机制对应的信息,所述至少两种收发机制包括用于表征信道状态信息CSI测量和/或上报的第一收发机制;将所述配置信息发送至终端,以使所述终端根据所述配置信息进行信号收发。
- 根据权利要求1所述的信号收发方法,其中,所述至少两种收发机制还包括以下一项或多项:用于表征专属业务的物理下行控制信道PDCCH监测窗口或机会的第二收发机制;用于表征不连续接收DRX的第三收发机制;用于表征唤醒信号WUS的第四收发机制;用于表征PDCCH跳转的第五收发机制;用于表征搜索空间切换的第六收发机制。
- 根据权利要求2所述的信号收发方法,其中,所述第二收发机制对应的信息包括:第一时间窗口,或者所述第一时间窗口和第一周期,所述第一时间窗口为所述专属业务的PDCCH监测窗口或机会,所述第一周期为所述专属业务的PDCCH监测窗口或机会的周期;所述第三收发机制对应的信息包括:第二时间窗口和第二周期,和/或第三时间窗口和第三周期,所述第二周期为长DRX周期,所述第二时间窗口为所述长DRX周期内的DRX激活窗口,所述第三周期为短DRX周期,所述第三时间窗口为所述短DRX周期内的DRX激活窗口;所述第四收发机制对应的信息包括:第四时间窗口和第四周期,所述第四时间窗口为WUS激活窗口,所述第四周期为WUS周期;所述第五收发机制对应的信息包括:第五时间窗口和第五周期,所述第五时间窗口为PDCCH跳转的激活窗口,所述第五周期为PDCCH跳转周期;所述第六收发机制对应的信息包括:第六时间窗口和第六周期,所述第 六时间窗口为搜索空间的激活窗口,所述第六周期为搜索空间监测的周期。
- 根据权利要求2或3所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第七收发机制用于表征所述第二收发机制、所述第三收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第七周期是所述第八周期的N倍;其中,所述第七收发机制为所述第三收发机制时,N为大于1的整数;所述第七收发机制为所述第二收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制时,N为大于或等于1的整数;所述第七时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于N个所述第八时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于N个所述第八时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与N个所述第八时间窗口的起始时刻之间的时间间隔满足第一时间门限条件;所述第七时间窗口的结束时刻与N个所述第八时间窗口的结束时刻之间的时间间隔满足第二时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第三时间门限条件。
- 根据权利要求2或3所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活 时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第九时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第九时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第九时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第四时间门限条件;所述第九时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第五时间门限条件;所述激活时间点不早于第M个第八时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第M个第八时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求2或3所述的信号收发方法,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第十时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时 间间隔满足第六时间门限条件;所述第十时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第七时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第八时间门限条件。
- 根据权利要求2或3所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期的最小值;所述第七时间窗口和所述最小值对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述最小值对应的时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述最小值对应的时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述最小值对应的时间窗口的起始时刻之间的时间间隔满足第九时间门限条件;所述第七时间窗口的结束时刻与所述最小值对应的时间窗口的结束时刻之间的时间间隔满足第十时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十一时间门限条件。
- 根据权利要求2或3所述的信号收发方法,其中,所述第一收发机制 对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期中任意一个周期;所述第七时间窗口和所述任意一个周期对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第七时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第七时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十二时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十三时间门限条件;所述第七时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第十四时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十五时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十六时间门限条件。
- 根据权利要求2或3所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机 制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第九时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于第一时刻,第一时刻为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻中的最早的起始时刻;所述第九时间窗口的结束时刻不晚于第二时刻,第二时刻为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻中的最晚的结束时刻;所述第九时间窗口的起始时刻和第一数值之间的时间间隔满足第十七时间门限条件,所述第一数值为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻之间的时间间隔;所述第九时间窗口的结束时刻和第二数值之间的时间间隔满足第十八时间门限条件,所述第二数值为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻之间的时间间隔;所述激活时间点不早于第三数值,所述第三数值为第M个所述第十一时间窗口的起始时刻,或第M个所述第十二时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第四数值,所述第四数值为第M个所述第十一时间窗口的结束时刻,或第M个所述第十二时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求2或3所述的信号收发方法,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所 述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第十时间窗口为所述第十一时间窗口和所述第十一时间窗口中任意一个时间窗口;所述第十时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第十时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第十时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十九时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十时间门限条件;所述第十时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第二十一时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十二时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第二十三时间门限条件。
- 根据权利要求1至3任一项所述的信号收发方法,其中,还包括:根据所述配置信息进行信号收发。
- 一种信号收发方法,其中,所述方法用于终端设备,包括:接收用于信号收发的配置信息,所述配置信息包括至少两种收发机制对应的信息,所述至少两种收发机制包括用于表征信道状态信息CSI测量和/或上报的第一收发机制;根据所述配置信息进行信号收发。
- 根据权利要求12所述的信号收发方法,其中,所述至少两种收发机 制还包括以下一项或多项:用于表征专属业务的物理下行控制信道PDCCH监测窗口或机会的第二收发机制;用于表征不连续接收DRX的第三收发机制;用于表征唤醒信号WUS的第四收发机制;用于表征PDCCH跳转的第五收发机制;用于表征搜索空间切换的第六收发机制。
- 根据权利要求13所述的信号收发方法,其中,所述第二收发机制对应的信息包括:第一时间窗口,或者所述第一时间窗口和第一周期,所述第一时间窗口为所述专属业务的PDCCH监测窗口或机会,所述第一周期为所述专属业务的PDCCH监测窗口或机会的周期;所述第三收发机制对应的信息包括:第二时间窗口和第二周期,和/或第三时间窗口和第三周期,所述第二周期为长DRX周期,所述第二时间窗口为所述长DRX周期内的DRX激活窗口,所述第三周期为短DRX周期,所述第三时间窗口为所述短DRX周期内的DRX激活窗口;所述第四收发机制对应的信息包括:第四时间窗口和第四周期,所述第四时间窗口为WUS激活窗口,所述第四周期为WUS周期;所述第五收发机制对应的信息包括:第五时间窗口和第五周期,所述第五时间窗口为PDCCH跳转的激活窗口,所述第五周期为PDCCH跳转周期;所述第六收发机制对应的信息包括:第六时间窗口和第六周期,所述第六时间窗口为搜索空间的激活窗口,所述第六周期为搜索空间监测的周期。
- 根据权利要求13或14所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第七收发机制用于表征所述第二收发机制、所述第三收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第七周期是所述第八周期的N倍;其中,所述第七收发机制为所述第三收发机制时,N为大于1的整数;所述第七收发机制为所述第二收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制时,N为大于或等于1的整数;所述第七时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于N个所述第八时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于N个所述第八时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与N个所述第八时间窗口的起始时刻之间的时间间隔满足第一时间门限条件;所述第七时间窗口的结束时刻与N个所述第八时间窗口的结束时刻之间的时间间隔满足第二时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第三时间门限条件。
- 根据权利要求13或14所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第九时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第九时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第九时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第四时间门限条件;所述第九时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第五时间门限条件;所述激活时间点不早于第M个第八时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第M个第八时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求13或14所述的信号收发方法,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第十时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第六时间门限条件;所述第十时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第七时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第八时间门限条件。
- 根据权利要求13或14所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量 和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期的最小值;所述第七时间窗口和所述最小值对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述最小值对应的时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述最小值对应的时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述最小值对应的时间窗口的起始时刻之间的时间间隔满足第九时间门限条件;所述第七时间窗口的结束时刻与所述最小值对应的时间窗口的结束时刻之间的时间间隔满足第十时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十一时间门限条件。
- 根据权利要求13或14所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期中任意一个周期;所述第七时间窗口和所述任意一个周期对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第七时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第七时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十二时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十三时间门限条件;所述第七时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第十四时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十五时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十六时间门限条件。
- 根据权利要求13或14所述的信号收发方法,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第九时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于第一时刻,第一时刻为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻中的最早的起始时刻;所述第九时间窗口的结束时刻不晚于第二时刻,第二时刻为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻中的最晚的结束时刻;所述第九时间窗口的起始时刻和第一数值之间的时间间隔满足第十七时间门限条件,所述第一数值为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻之间的时间间隔;所述第九时间窗口的结束时刻和第二数值之间的时间间隔满足第十八时间门限条件,所述第二数值为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻之间的时间间隔;所述激活时间点不早于第三数值,所述第三数值为第M个所述第十一时间窗口的起始时刻,或第M个所述第十二时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第四数值,所述第四数值为第M个所述第十一时间窗口的结束时刻,或第M个所述第十二时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求13或14所述的信号收发方法,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第十时间窗口为所述第十一时间窗口和所述第十一时间窗口中任意一个时间窗口;所述第十时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第十时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第十时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十九时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十时间门限条件;所述第十时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第二十一时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十二时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第二十三时间门限条件。
- 一种网络设备,其中,包括存储器,收发机,处理器:存储器,用于存储计算机程序;收发机,用于在所述处理器的控制下收发数据;处理器,用于读取所述存储器中的计算机程序并执行以下操作:生成用于信号收发的配置信息,所述配置信息包括至少两种收发机制对应的信息,所述至少两种收发机制包括用于表征信道状态信息CSI测量和/或上报的第一收发机制;将所述配置信息发送至终端,以使所述终端根据所述配置信息进行信号收发。
- 根据权利要求22所述的网络设备,其中,所述至少两种收发机制还包括以下一项或多项:用于表征专属业务的物理下行控制信道PDCCH监测窗口或机会的第二收发机制;用于表征不连续接收DRX的第三收发机制;用于表征唤醒信号WUS的第四收发机制;用于表征PDCCH跳转的第五收发机制;用于表征搜索空间切换的第六收发机制。
- 根据权利要求23所述的网络设备,其中,所述第二收发机制对应的信息包括:第一时间窗口,或者所述第一时间窗口和第一周期,所述第一时间窗口为所述专属业务的PDCCH监测窗口或机会,所述第一周期为所述专属业务的PDCCH监测窗口或机会的周期;所述第三收发机制对应的信息包括:第二时间窗口和第二周期,和/或第三时间窗口和第三周期,所述第二周期为长DRX周期,所述第二时间窗口为所述长DRX周期内的DRX激活窗口,所述第三周期为短DRX周期,所述第三时间窗口为所述短DRX周期内的DRX激活窗口;所述第四收发机制对应的信息包括:第四时间窗口和第四周期,所述第四时间窗口为WUS激活窗口,所述第四周期为WUS周期;所述第五收发机制对应的信息包括:第五时间窗口和第五周期,所述第五时间窗口为PDCCH跳转的激活窗口,所述第五周期为PDCCH跳转周期;所述第六收发机制对应的信息包括:第六时间窗口和第六周期,所述第六时间窗口为搜索空间的激活窗口,所述第六周期为搜索空间监测的周期。
- 根据权利要求23或24所述的网络设备,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第七收发机制用于表征所述第二收发机制、所述第三收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第七周期是所述第八周期的N倍;其中,所述第七收发机制为所述第三收发机制时,N为大于1的整数;所述第七收发机制为所述第二收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制时,N为大于或等于1的整数;所述第七时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于N个所述第八时间窗口的起始时 刻;所述第七时间窗口的结束时刻不晚于N个所述第八时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与N个所述第八时间窗口的起始时刻之间的时间间隔满足第一时间门限条件;所述第七时间窗口的结束时刻与N个所述第八时间窗口的结束时刻之间的时间间隔满足第二时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第三时间门限条件。
- 根据权利要求23或24所述的网络设备,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第九时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第九时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第九时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第四时间门限条件;所述第九时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第五时间门限条件;所述激活时间点不早于第M个第八时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第M个第八时间窗口的结束时刻,M为大于0 的数值。
- 根据权利要求23或24所述的网络设备,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第十时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第六时间门限条件;所述第十时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第七时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第八时间门限条件。
- 根据权利要求23或24所述的网络设备,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期的最小值;所述第七时间窗口和所述最小值对应的时间窗口之间的时域关系包含以 下至少一项:所述第七时间窗口的起始时刻不早于所述最小值对应的时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述最小值对应的时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述最小值对应的时间窗口的起始时刻之间的时间间隔满足第九时间门限条件;所述第七时间窗口的结束时刻与所述最小值对应的时间窗口的结束时刻之间的时间间隔满足第十时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十一时间门限条件。
- 根据权利要求23或24所述的网络设备,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期中任意一个周期;所述第七时间窗口和所述任意一个周期对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第七时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第七时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十二时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十三时间门限条件;所述第七时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第十四时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十五时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十六时间门限条件。
- 根据权利要求23或24所述的网络设备,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第九时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于第一时刻,第一时刻为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻中的最早的起始时刻;所述第九时间窗口的结束时刻不晚于第二时刻,第二时刻为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻中的最晚的结束时刻;所述第九时间窗口的起始时刻和第一数值之间的时间间隔满足第十七时间门限条件,所述第一数值为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻之间的时间间隔;所述第九时间窗口的结束时刻和第二数值之间的时间间隔满足第十八时 间门限条件,所述第二数值为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻之间的时间间隔;所述激活时间点不早于第三数值,所述第三数值为第M个所述第十一时间窗口的起始时刻,或第M个所述第十二时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第四数值,所述第四数值为第M个所述第十一时间窗口的结束时刻,或第M个所述第十二时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求23或24所述的网络设备,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第十时间窗口为所述第十一时间窗口和所述第十一时间窗口中任意一个时间窗口;所述第十时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第十时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第十时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十九时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十时间门限条件;所述第十时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的 时间间隔满足第二十一时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十二时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第二十三时间门限条件。
- 根据权利要求22至24任一项所述的网络设备,其中,所述处理器还用于:根据所述配置信息进行信号收发。
- 一种终端设备,其中,包括存储器,收发机,处理器:存储器,用于存储计算机程序;收发机,用于在所述处理器的控制下收发数据;处理器,用于读取所述存储器中的计算机程序并执行以下操作:接收用于信号收发的配置信息,所述配置信息包括至少两种收发机制对应的信息,所述至少两种收发机制包括用于表征信道状态信息CSI测量和/或上报的第一收发机制;根据所述配置信息进行信号收发。
- 根据权利要求33所述的终端设备,其中,所述至少两种收发机制还包括以下一项或多项:用于表征专属业务的物理下行控制信道PDCCH监测窗口或机会的第二收发机制;用于表征不连续接收DRX的第三收发机制;用于表征唤醒信号WUS的第四收发机制;用于表征PDCCH跳转的第五收发机制;用于表征搜索空间切换的第六收发机制。
- 根据权利要求34所述的终端设备,其中,所述第二收发机制对应的信息包括:第一时间窗口,或者所述第一时间窗口和第一周期,所述第一时间窗口为所述专属业务的PDCCH监测窗口或机会,所述第一周期为所述专属业务的PDCCH监测窗口或机会的周期;所述第三收发机制对应的信息包括:第二时间窗口和第二周期,和/或第 三时间窗口和第三周期,所述第二周期为长DRX周期,所述第二时间窗口为所述长DRX周期内的DRX激活窗口,所述第三周期为短DRX周期,所述第三时间窗口为所述短DRX周期内的DRX激活窗口;所述第四收发机制对应的信息包括:第四时间窗口和第四周期,所述第四时间窗口为WUS激活窗口,所述第四周期为WUS周期;所述第五收发机制对应的信息包括:第五时间窗口和第五周期,所述第五时间窗口为PDCCH跳转的激活窗口,所述第五周期为PDCCH跳转周期;所述第六收发机制对应的信息包括:第六时间窗口和第六周期,所述第六时间窗口为搜索空间的激活窗口,所述第六周期为搜索空间监测的周期。
- 根据权利要求34或35所述的终端设备,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第七收发机制用于表征所述第二收发机制、所述第三收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第七周期是所述第八周期的N倍;其中,所述第七收发机制为所述第三收发机制时,N为大于1的整数;所述第七收发机制为所述第二收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制时,N为大于或等于1的整数;所述第七时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于N个所述第八时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于N个所述第八时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与N个所述第八时间窗口的起始时刻之间 的时间间隔满足第一时间门限条件;所述第七时间窗口的结束时刻与N个所述第八时间窗口的结束时刻之间的时间间隔满足第二时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第三时间门限条件。
- 根据权利要求34或35所述的终端设备,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第九时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第九时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第九时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第四时间门限条件;所述第九时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第五时间门限条件;所述激活时间点不早于第M个第八时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第M个第八时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求34或35所述的终端设备,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机 制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第十时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第六时间门限条件;所述第十时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第七时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第八时间门限条件。
- 根据权利要求34或35所述的终端设备,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期的最小值;所述第七时间窗口和所述最小值对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述最小值对应的时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述最小值对应的时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述最小值对应的时间窗口的起始时刻之间的时间间隔满足第九时间门限条件;所述第七时间窗口的结束时刻与所述最小值对应的时间窗口的结束时刻之间的时间间隔满足第十时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十一时间门限条件。
- 根据权利要求34或35所述的终端设备,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期中任意一个周期;所述第七时间窗口和所述任意一个周期对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第七时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第七时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十二时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十三时间门限条件;所述第七时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第十四时间门限条件;或,所述第七时间窗口的起始时刻与所 述第十二时间窗口的起始时刻之间的时间间隔满足第十五时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十六时间门限条件。
- 根据权利要求34或35所述的终端设备,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第九时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于第一时刻,第一时刻为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻中的最早的起始时刻;所述第九时间窗口的结束时刻不晚于第二时刻,第二时刻为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻中的最晚的结束时刻;所述第九时间窗口的起始时刻和第一数值之间的时间间隔满足第十七时间门限条件,所述第一数值为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻之间的时间间隔;所述第九时间窗口的结束时刻和第二数值之间的时间间隔满足第十八时间门限条件,所述第二数值为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻之间的时间间隔;所述激活时间点不早于第三数值,所述第三数值为第M个所述第十一时间窗口的起始时刻,或第M个所述第十二时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第四数值,所述第四数值为第M个所述第十一时间窗口的结束时刻,或第M个所述第十二时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求34或35所述的终端设备,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第十时间窗口为所述第十一时间窗口和所述第十一时间窗口中任意一个时间窗口;所述第十时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第十时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第十时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十九时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十时间门限条件;所述第十时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第二十一时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十二时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第二十三时间门限条件。
- 一种信号收发装置,其中,所述装置用于网络设备,包括:配置单元,用于生成用于信号收发的配置信息,所述配置信息包括至少两种收发机制对应的信息,所述至少两种收发机制包括用于表征信道状态信息CSI测量和/或上报的第一收发机制;发送单元,用于将所述配置信息发送至终端,以使所述终端根据所述配置信息进行信号收发。
- 根据权利要求43所述的信号收发装置,其中,所述至少两种收发机制还包括以下一项或多项:用于表征专属业务的物理下行控制信道PDCCH监测窗口或机会的第二收发机制;用于表征不连续接收DRX的第三收发机制;用于表征唤醒信号WUS的第四收发机制;用于表征PDCCH跳转的第五收发机制;用于表征搜索空间切换的第六收发机制。
- 根据权利要求44所述的信号收发装置,其中,所述第二收发机制对应的信息包括:第一时间窗口,或者所述第一时间窗口和第一周期,所述第一时间窗口为所述专属业务的PDCCH监测窗口或机会,所述第一周期为所述专属业务的PDCCH监测窗口或机会的周期;所述第三收发机制对应的信息包括:第二时间窗口和第二周期,和/或第三时间窗口和第三周期,所述第二周期为长DRX周期,所述第二时间窗口为所述长DRX周期内的DRX激活窗口,所述第三周期为短DRX周期,所述第三时间窗口为所述短DRX周期内的DRX激活窗口;所述第四收发机制对应的信息包括:第四时间窗口和第四周期,所述第四时间窗口为WUS激活窗口,所述第四周期为WUS周期;所述第五收发机制对应的信息包括:第五时间窗口和第五周期,所述第五时间窗口为PDCCH跳转的激活窗口,所述第五周期为PDCCH跳转周期;所述第六收发机制对应的信息包括:第六时间窗口和第六周期,所述第六时间窗口为搜索空间的激活窗口,所述第六周期为搜索空间监测的周期。
- 根据权利要求44或45所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第七收发机制用于表征所述第二收发机制、所述第三收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第七周期是所述第八周期的N倍;其中,所述第七收发机制为所述第三收发机制时,N为大于1的整数;所述第七收发机制为所述第二收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制时,N为大于或等于1的整数;所述第七时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于N个所述第八时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于N个所述第八时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与N个所述第八时间窗口的起始时刻之间的时间间隔满足第一时间门限条件;所述第七时间窗口的结束时刻与N个所述第八时间窗口的结束时刻之间的时间间隔满足第二时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第三时间门限条件。
- 根据权利要求44或45所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第九时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第九时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第九时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第四时间门限条件;所述第九时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第五时间门限条件;所述激活时间点不早于第M个第八时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第M个第八时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求44或45所述的信号收发装置,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第十时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第六时间门限条件;所述第十时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第七时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第八时间门限条件。
- 根据权利要求44或45所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期的最小值;所述第七时间窗口和所述最小值对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述最小值对应的时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述最小值对应的时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述最小值对应的时间窗口的起始时刻之间的时间间隔满足第九时间门限条件;所述第七时间窗口的结束时刻与所述最小值对应的时间窗口的结束时刻之间的时间间隔满足第十时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十一时间门限条件。
- 根据权利要求44或45所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期 性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期中任意一个周期;所述第七时间窗口和所述任意一个周期对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第七时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第七时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十二时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十三时间门限条件;所述第七时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第十四时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十五时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十六时间门限条件。
- 根据权利要求44或45所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所 述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第九时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于第一时刻,第一时刻为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻中的最早的起始时刻;所述第九时间窗口的结束时刻不晚于第二时刻,第二时刻为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻中的最晚的结束时刻;所述第九时间窗口的起始时刻和第一数值之间的时间间隔满足第十七时间门限条件,所述第一数值为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻之间的时间间隔;所述第九时间窗口的结束时刻和第二数值之间的时间间隔满足第十八时间门限条件,所述第二数值为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻之间的时间间隔;所述激活时间点不早于第三数值,所述第三数值为第M个所述第十一时间窗口的起始时刻,或第M个所述第十二时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第四数值,所述第四数值为第M个所述第十一时间窗口的结束时刻,或第M个所述第十二时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求44或45所述的信号收发装置,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收 发机制对应的信息包括第十二时间窗口和第十二周期;所述第十时间窗口为所述第十一时间窗口和所述第十一时间窗口中任意一个时间窗口;所述第十时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第十时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第十时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十九时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十时间门限条件;所述第十时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第二十一时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十二时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第二十三时间门限条件。
- 根据权利要求44或45任一项所述的信号收发装置,其中,所述发送单元还用于:根据所述配置信息进行信号收发。
- 一种信号收发装置,其中,所述装置用于终端设备,包括:接收单元,用于接收用于信号收发的配置信息,所述配置信息包括至少两种收发机制对应的信息,所述至少两种收发机制包括用于表征信道状态信息CSI测量和/或上报的第一收发机制;信号收发单元,用于根据所述配置信息进行信号收发。
- 根据权利要求54所述的信号收发装置,其中,所述至少两种收发机 制还包括以下一项或多项:用于表征专属业务的物理下行控制信道PDCCH监测窗口或机会的第二收发机制;用于表征不连续接收DRX的第三收发机制;用于表征唤醒信号WUS的第四收发机制;用于表征PDCCH跳转的第五收发机制;用于表征搜索空间切换的第六收发机制。
- 根据权利要求55所述的信号收发装置,其中,所述第二收发机制对应的信息包括:第一时间窗口,或者所述第一时间窗口和第一周期,所述第一时间窗口为所述专属业务的PDCCH监测窗口或机会,所述第一周期为所述专属业务的PDCCH监测窗口或机会的周期;所述第三收发机制对应的信息包括:第二时间窗口和第二周期,和/或第三时间窗口和第三周期,所述第二周期为长DRX周期,所述第二时间窗口为所述长DRX周期内的DRX激活窗口,所述第三周期为短DRX周期,所述第三时间窗口为所述短DRX周期内的DRX激活窗口;所述第四收发机制对应的信息包括:第四时间窗口和第四周期,所述第四时间窗口为WUS激活窗口,所述第四周期为WUS周期;所述第五收发机制对应的信息包括:第五时间窗口和第五周期,所述第五时间窗口为PDCCH跳转的激活窗口,所述第五周期为PDCCH跳转周期;所述第六收发机制对应的信息包括:第六时间窗口和第六周期,所述第六时间窗口为搜索空间的激活窗口,所述第六周期为搜索空间监测的周期。
- 根据权利要求55或56所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第七收发机制用于表征所述第二收发机制、所述第三收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第七周期是所述第八周期的N倍;其中,所述第七收发机制为所述第三收发机制时,N为大于1的整数;所述第七收发机制为所述第二收发机制、所述第四收发机制、所述第五收发机制和所述第六收发机制中任意一个收发机制时,N为大于或等于1的整数;所述第七时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于N个所述第八时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于N个所述第八时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与N个所述第八时间窗口的起始时刻之间的时间间隔满足第一时间门限条件;所述第七时间窗口的结束时刻与N个所述第八时间窗口的结束时刻之间的时间间隔满足第二时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第三时间门限条件。
- 根据权利要求55或56所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第九时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第九时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第九时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第四时间门限条件;所述第九时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第五时间门限条件;所述激活时间点不早于第M个第八时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第M个第八时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求55或56所述的信号收发装置,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第七收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意一个收发机制;所述第七收发机制对应的信息包括第八时间窗口和第八周期;所述第十时间窗口和所述第八时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第八时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第八时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第六时间门限条件;所述第十时间窗口的结束时刻与所述第八时间窗口的起始时刻之间的时间间隔满足第七时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第八时间门限条件。
- 根据权利要求55或56所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量 和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期的最小值;所述第七时间窗口和所述最小值对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述最小值对应的时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述最小值对应的时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述最小值对应的时间窗口的起始时刻之间的时间间隔满足第九时间门限条件;所述第七时间窗口的结束时刻与所述最小值对应的时间窗口的结束时刻之间的时间间隔满足第十时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十一时间门限条件。
- 根据权利要求55或56所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第七时间窗口和第七周期,所述第七时间窗口为周期性的CSI测量和/或上报的时间窗口,所述第七周期为所述周期性的CSI测量和/或上报的上报周期;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第七周期为所述第十一周期和所述第十二周期中任意一个周期;所述第七时间窗口和所述任意一个周期对应的时间窗口之间的时域关系包含以下至少一项:所述第七时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第七时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第七时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第七时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第七时间窗口的结束时刻不晚于数据传输的起始时刻;所述第七时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十二时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十三时间门限条件;所述第七时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第十四时间门限条件;或,所述第七时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第十五时间门限条件;所述第七时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第十六时间门限条件。
- 根据权利要求55或56所述的信号收发装置,其中,所述第一收发机制对应的信息包括:第九时间窗口和第九周期,所述第九周期的起始点为半持续CSI测量和/或上报的激活时间点,所述第九周期的终止点为CSI的去激活时间点,所述第九时间窗口为所述第九周期内的激活时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第九时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第九时间窗口的起始时刻不早于第一时刻,第一时刻为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻中的最早的起始时刻;所述第九时间窗口的结束时刻不晚于第二时刻,第二时刻为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻中的最晚的结束时刻;所述第九时间窗口的起始时刻和第一数值之间的时间间隔满足第十七时间门限条件,所述第一数值为所述第十一时间窗口的起始时刻和所述第十二时间窗口的起始时刻之间的时间间隔;所述第九时间窗口的结束时刻和第二数值之间的时间间隔满足第十八时间门限条件,所述第二数值为所述第十一时间窗口的结束时刻和所述第十二时间窗口的结束时刻之间的时间间隔;所述激活时间点不早于第三数值,所述第三数值为第M个所述第十一时间窗口的起始时刻,或第M个所述第十二时间窗口的起始时刻,M为大于0的数值;所述去激活时间点不晚于第四数值,所述第四数值为第M个所述第十一时间窗口的结束时刻,或第M个所述第十二时间窗口的结束时刻,M为大于0的数值。
- 根据权利要求55或56所述的信号收发装置,其中,所述第一收发机制对应的配置信息包括:第十时间窗口,所述第十时间窗口为非周期的CSI测量和/或上报的时间窗口;第八收发机制和第九收发机制用于表征所述第二收发机制、第三收发机制、第四收发机制、第五收发机制和第六收发机制中任意两个收发机制;所述第八收发机制对应的信息包括第十一时间窗口和第十一周期,所述第九收发机制对应的信息包括第十二时间窗口和第十二周期;所述第十时间窗口为所述第十一时间窗口和所述第十一时间窗口中任意一个时间窗口;所述第十时间窗口、所述第十一时间窗口和所述第十二时间窗口之间的时域关系包含以下至少一项:所述第十时间窗口的起始时刻不早于所述第十一时间窗口的起始时刻;或,所述第十时间窗口的起始时刻不早于所述第十二时间窗口的起始时刻;所述第十时间窗口的结束时刻不晚于所述第十一时间窗口的结束时刻;或,所述第十时间窗口的结束时刻不晚于所述第十二时间窗口的结束时刻;所述第十时间窗口的结束时刻不晚于数据传输的起始时刻;所述第十时间窗口的起始时刻与所述第十一时间窗口的起始时刻之间的时间间隔满足第十九时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十时间门限条件;所述第十时间窗口的结束时刻与所述第十一时间窗口的结束时刻之间的时间间隔满足第二十一时间门限条件;或,所述第十时间窗口的起始时刻与所述第十二时间窗口的起始时刻之间的时间间隔满足第二十二时间门限条件;所述第十时间窗口的结束时刻和所述数据传输的起始时刻之间的时间间隔满足第二十三时间门限条件。
- 一种处理器可读存储介质,其中,所述处理器可读存储介质存储有计算机程序,所述计算机程序用于使所述处理器执行权利要求1至11一项所述的方法。
- 一种处理器可读存储介质,其中,所述处理器可读存储介质存储有计算机程序,所述计算机程序用于使所述处理器执行权利要求12至21任一项所述的方法。
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