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CN-122002311-A - Measurement indication method, device, terminal and storage medium

CN122002311ACN 122002311 ACN122002311 ACN 122002311ACN-122002311-A

Abstract

The disclosure relates to a measurement indication method, a measurement indication device, a terminal and a storage medium. In at least one embodiment of the present disclosure, after receiving the first indication information, if the first indication information indicates to skip the first measurement window, the terminal does not ignore subsequent measurement indication information, that is, does not ignore second indication information of a second measurement window having an association relationship with the first measurement window, but processes the second indication information or executes a default measurement action in the second measurement window in a preset time, so that subsequent measurement actions in the second measurement window are not affected, and measurement efficiency is improved.

Inventors

  • LUO CHEN
  • WANG JIAQING

Assignees

  • 大唐移动通信设备有限公司

Dates

Publication Date
20260508
Application Date
20241108

Claims (20)

  1. 1. A measurement indication method applied to a terminal, the method comprising: Based on the first indication information and/or the preset time, processing the second indication information or executing default measurement behaviors in a second measurement window; The first indication information is used for indicating whether to skip a first measurement window or not, the preset time comprises a preset time point and/or a preset time period, and the second indication information is used for indicating whether to skip a second measurement window or not.
  2. 2. The method of claim 1, wherein the processing the second indication information or performing a default measurement behavior in the second measurement window based on the first indication information and/or the preset time comprises: And if the first indication information indicates to skip the first measurement window, determining whether to skip the second measurement window or execute default measurement behaviors in the second measurement window according to the second indication information in the preset time.
  3. 3. The method of claim 1, wherein the first indication information and/or the second indication information is carried in downlink control information, and a format of the downlink control information carrying the first indication information is the same as or different from a format of the downlink control information carrying the second indication information.
  4. 4. The method of claim 1, wherein the second measurement window comprises at least one of: A second measurement window located after the first measurement window; A second measurement window having a higher or lower priority than the first measurement window; A second measurement window having the same priority as the first measurement window; A second measurement window partially overlapping or completely overlapping with the time-frequency resource of the first measurement window; A second measurement window of the higher layer signaling configuration.
  5. 5. The method of claim 1, wherein the preset point in time comprises at least one of: The time of the first measurement window corresponds to the time offset; The effective time of the first indication information is terminated; A time corresponding to a time offset of a first, a last or a specific one of at least one measurement window in which time-frequency resources of the first measurement window and/or the second measurement window are partially or completely overlapped; A time corresponding to a front time offset of a starting position of a second measurement window corresponding to the scheduled different carrier cells; The time when the bandwidth part BWP switch signaling is received, the time when the BWP switch delay corresponds, or the time after switching to the target BWP.
  6. 6. The method of any one of claims 1 to 5, wherein the preset time period comprises at least one of: skipping a time period of the first measurement window; A period of time agreed by the protocol; A time period of high layer signaling configuration; A first period of time; a validation period of the second indication information; a period of time after the effective period of time of the first indication information ends; a time period of at least one of the minimum downlink scheduling interval K0min, the minimum uplink scheduling interval K2min, the downlink scheduling interval K0, or the uplink scheduling interval K2.
  7. 7. The method of claim 6, wherein the first period of time comprises at least one of: A time corresponding to the time offset of the first measurement window in at least one measurement window which is partially or completely overlapped with the time frequency resources of the first measurement window and/or the second measurement window, and a finishing time of the last measurement window; A time corresponding to the time offset of the first measurement window in at least one measurement window which is partially or completely overlapped with the time frequency resources of the first measurement window and/or the second measurement window, and a time corresponding to the time offset of the last measurement window; A time corresponding to the time offset of the first measurement window in at least one measurement window which is partially or completely overlapped with the time frequency resources of the first measurement window and/or the second measurement window, and a time corresponding to the time offset of the next measurement window in the last measurement window; And the time corresponding to the time offset of any one measurement window in at least one measurement window in which the time-frequency resources of the first measurement window and/or the second measurement window are partially or completely overlapped is from the time corresponding to the time offset of the next measurement window in the any one measurement window.
  8. 8. The method of claim 1, wherein the first measurement window and/or the second measurement window comprises at least one of: Measuring the gap; A synchronization signal block measurement timing configuration window; The limited time period is scheduled.
  9. 9. The method of claim 1, wherein the performing a default measurement behavior in the second measurement window comprises: And setting the second indication information to a default value or a preset value, and/or executing default behavior in the second measurement window, wherein the default value, the preset value and/or the default behavior are/is configured by protocol convention or high-level signaling.
  10. 10. A measurement indication device for use in a terminal, the device comprising: The processing unit is used for processing the second indication information or executing default measurement behaviors in the second measurement window based on the first indication information and/or the preset time; The first indication information is used for indicating whether to skip a first measurement window or not, the preset time comprises a preset time point and/or a preset time period, and the second indication information is used for indicating whether to skip a second measurement window or not.
  11. 11. A terminal comprising a memory, a transceiver, and a processor; The memory is used for storing a computer program, the transceiver is used for receiving and transmitting data under the control of the processor, and the processor is used for reading the computer program in the memory and executing: Based on the first indication information and/or the preset time, processing the second indication information or executing default measurement behaviors in a second measurement window; The first indication information is used for indicating whether to skip a first measurement window or not, the preset time comprises a preset time point and/or a preset time period, and the second indication information is used for indicating whether to skip a second measurement window or not.
  12. 12. The terminal of claim 11, wherein the processing the second indication information or performing the default measurement behavior in the second measurement window based on the first indication information and/or the preset time comprises: And if the first indication information indicates to skip the first measurement window, determining whether to skip the second measurement window or execute default measurement behaviors in the second measurement window according to the second indication information in the preset time.
  13. 13. The terminal of claim 11, wherein the first indication information and/or the second indication information is carried in downlink control information, and a format of the downlink control information carrying the first indication information is the same as or different from a format of the downlink control information carrying the second indication information.
  14. 14. The terminal of claim 11, wherein the second measurement window comprises at least one of: A second measurement window located after the first measurement window; A second measurement window having a higher or lower priority than the first measurement window; A second measurement window partially overlapping or completely overlapping with the time-frequency resource of the first measurement window; A second measurement window of the higher layer signaling configuration.
  15. 15. The terminal of claim 11, wherein the preset point in time comprises at least one of: The time of the first measurement window corresponds to the time offset; The effective time of the first indication information is terminated; A time corresponding to a time offset of a first, a last or a specific one of at least one measurement window in which time-frequency resources of the first measurement window and/or the second measurement window are partially or completely overlapped; A time corresponding to the time offset of the second measurement window in the minimum downlink scheduling interval K0min, the minimum uplink scheduling interval K2min, the downlink scheduling interval K0 or the uplink scheduling interval K2; A time corresponding to a front time offset of a starting position of a second measurement window corresponding to the scheduled different carrier cells; The time when the bandwidth part BWP switch signaling is received, the time when the BWP switch delay corresponds, or the time after switching to the target BWP.
  16. 16. The terminal of any of claims 11 to 15, wherein the preset time period comprises at least one of: Skipping a time period of the first measurement window; A period of time agreed by the protocol; A time period of high layer signaling configuration; A first period of time; a validation period of the second indication information; A time period after the effective time period of the first indication information ends.
  17. 17. The terminal of claim 16, wherein the first period of time comprises at least one of: A time corresponding to the time offset of the first measurement window in at least one measurement window which is partially or completely overlapped with the time frequency resources of the first measurement window and/or the second measurement window, and a finishing time of the last measurement window; A time corresponding to the time offset of the first measurement window in at least one measurement window which is partially or completely overlapped with the time frequency resources of the first measurement window and/or the second measurement window, and a time corresponding to the time offset of the last measurement window; A time corresponding to the time offset of the first measurement window in at least one measurement window which is partially or completely overlapped with the time frequency resources of the first measurement window and/or the second measurement window, and a time corresponding to the time offset of the next measurement window in the last measurement window; And the time corresponding to the time offset of any one measurement window in at least one measurement window in which the time-frequency resources of the first measurement window and/or the second measurement window are partially or completely overlapped is from the time corresponding to the time offset of the next measurement window in the any one measurement window.
  18. 18. The terminal of claim 11, wherein the first measurement window and/or the second measurement window comprises at least one of: Measuring the gap; A synchronization signal block measurement timing configuration window; The limited time period is scheduled.
  19. 19. The terminal of claim 11, wherein the performing a default measurement behavior in the second measurement window comprises: And setting the second indication information to a default value or a preset value, and/or executing default measurement behaviors in the second measurement window, wherein the default value, the preset value and/or the default measurement behaviors are configured by protocol convention or high-level signaling.
  20. 20. A processor-readable storage medium, wherein the processor-readable storage medium stores a program for causing the processor to execute the measurement instruction method according to any one of claims 1 to 9.

Description

Measurement indication method, device, terminal and storage medium Technical Field The embodiment of the disclosure relates to the technical field of communication, in particular to a measurement indication method, a device, a terminal and a storage medium. Background At present, when the measurement indication information sent by the network side indicates to skip a measurement gap or schedule limitation, how the terminal processes subsequent measurement indication information, the current protocol is not limited, and when the terminal can process the subsequent measurement indication information to directly influence subsequent measurement behaviors, so that the measurement efficiency is reduced. Disclosure of Invention At least one embodiment of the present disclosure provides a measurement indication method, a device, a terminal, and a storage medium, which do not affect subsequent measurement behaviors, and improve measurement efficiency. In a first aspect, an embodiment of the present disclosure provides a measurement indication method, which is applied to a terminal, and the method includes: Based on the first indication information and/or the preset time, processing the second indication information or executing default measurement behaviors in a second measurement window; The first indication information is used for indicating whether to skip the first measurement window, the preset time comprises a preset time point and/or a preset time period, and the second indication information is used for indicating whether to skip the second measurement window. In some embodiments, processing the second indication information or performing a default measurement behavior in the second measurement window based on the first indication information and/or the preset time includes: if the first indication information indicates to skip the first measurement window, determining whether to skip the second measurement window or execute default measurement behavior in the second measurement window according to the second indication information at a preset time. In some embodiments, the first indication information and/or the second indication information are carried in the downlink control information, and a format of the downlink control information carrying the first indication information is the same as or different from a format of the downlink control information carrying the second indication information. In some embodiments, the second measurement window comprises at least one of: A second measurement window located after the first measurement window; a second measurement window having a higher or lower priority than the first measurement window; A second measurement window having the same priority as the first measurement window; a second measurement window partially overlapping or completely overlapping with the time-frequency resource of the first measurement window; A second measurement window of the higher layer signaling configuration. In some embodiments, the preset point in time comprises at least one of: the time of the first measurement window corresponds to the time offset; the effective time of the first indication information is terminated; The time corresponding to the time offset of the first, the last or a specific one of at least one measurement window which is partially overlapped or completely overlapped with the time frequency resource of the first measurement window and/or the second measurement window; A time corresponding to a front time offset of a starting position of a second measurement window corresponding to the scheduled different carrier cells; The time when the bandwidth part BWP switch signaling is received, the time when the BWP switch delay corresponds, or the time after switching to the target BWP. In some embodiments, the preset time period includes at least one of: Skipping a time period of the first measurement window; A period of time agreed by the protocol; A time period of high layer signaling configuration; A first period of time; a validation period of the second indication information; a period after the effective period of the first indication information ends; a time period of at least one of the minimum downlink scheduling interval K0min, the minimum uplink scheduling interval K2min, the downlink scheduling interval K0, or the uplink scheduling interval K2. In some embodiments, the first time period comprises at least one of: the time corresponding to the time offset of the first measurement window in at least one measurement window with partial or total overlapping of the time-frequency resources of the first measurement window and/or the second measurement window is up to the end time of the last measurement window; a time corresponding to the time offset of the first measurement window in at least one measurement window which is partially overlapped or completely overlapped with the time frequency resource of the first measurement window and/or the second measur