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CN-114501625-B - Signal measurement method, device and storage medium

CN114501625BCN 114501625 BCN114501625 BCN 114501625BCN-114501625-B

Abstract

The application provides a signal measurement method, a device and a storage medium, wherein the method comprises the steps that a terminal device receives first information sent by a network device, the first information is used for indicating the terminal device to configure a measurement gap, and the first information comprises configuration information of one or more measurement gaps; determining one or more execution time periods of each measurement gap according to the configuration information; and respectively carrying out signal measurement according to the execution time period of each measurement gap. The application realizes the configuration of a plurality of measurement gaps, improves the flexibility of the configuration of the measurement gaps, and is further beneficial to improving the signal measurement effect.

Inventors

  • FU JING
  • LIANG JING

Assignees

  • 大唐移动通信设备有限公司

Dates

Publication Date
20260512
Application Date
20201023

Claims (20)

  1. 1. A signal measurement method applied to a terminal device, the method comprising: Receiving first information sent by network equipment, wherein the first information is used for indicating the terminal equipment to configure measurement gaps, and the first information comprises configuration information of a plurality of measurement gaps, wherein the plurality of measurement gaps comprise at least two measurement gaps of the same type, or the plurality of measurement gaps comprise at least one per-UE measurement gap; Determining one or more execution time periods of each measurement gap according to the configuration information; acquiring the application range of each measuring gap; respectively measuring signals according to the execution time period and the application range of each measurement gap; When the application range of the measurement gap includes one or more measurement objects corresponding to the measurement gap, the signal measurement is performed according to the execution time period and the application range of each measurement gap, including: for each measurement gap, performing signal measurement on one or more measurement objects corresponding to the measurement gap in an execution time period of the measurement gap; when the application range of the measurement gap includes one or more subset bandwidths corresponding to the measurement gap, the signal measurement is performed according to the execution time period and the application range of each measurement gap, including: screening each measurement gap according to the subset bandwidth activated by the terminal equipment and one or more subset bandwidths corresponding to each measurement gap; and performing signal measurement in the execution time period of each measurement gap after screening.
  2. 2. The method of claim 1, wherein the types of measurement gaps include one or more of a per-UE measurement gap, a per-FR1 measurement gap, a per-FR2 measurement gap.
  3. 3. The method according to claim 1 or 2, wherein the configuration information of the measurement gaps comprises a duration of the measurement gaps, a repetition period and a subframe offset, and wherein determining one or more execution time periods for each of the measurement gaps according to the configuration information comprises: and determining one or more execution time periods of each measurement gap according to the duration time, the repetition period and the subframe offset of the plurality of measurement gaps, wherein the execution time periods comprise the starting time and the duration time of the execution time periods.
  4. 4. The method of claim 3, wherein the configuration information of the measurement gap further comprises a measurement gap advance.
  5. 5. Method according to claim 4, characterized in that the repetition period of at least two of the measurement gaps is identical and/or the duration of at least two of the measurement gaps is identical and/or the measurement gap advance of at least two of the measurement gaps is identical.
  6. 6. The method of claim 1 or 2, wherein the first information further comprises a sharing parameter comprising one or more of a sharing repetition period, a sharing duration, a sharing measurement gap advance, a sharing measurement gap subframe offset; The determining one or more execution time periods of each measurement gap according to the configuration information comprises: determining one or more execution time periods of each measurement gap according to the shared parameters and configuration information of the plurality of measurement gaps; The configuration information of the measurement gap comprises a repetition period, duration time, subframe offset and/or measurement gap advance of the measurement gap, wherein the parameters are different from the sharing parameters.
  7. 7. The method of claim 1, wherein when the applicable range of the measurement gap includes one or more subset bandwidths corresponding to the measurement gap, the applicable range of the measurement gap further includes one or more measurement objects corresponding to the measurement gap, and the performing a signal measurement in the execution time period of each measurement gap after screening includes: And in the execution time period of each screened measuring gap, carrying out signal measurement on one or more measuring objects of each screened measuring gap.
  8. 8. The method of claim 1, wherein the first information further includes application ranges of the plurality of measurement gaps, and the obtaining the application range of each measurement gap includes: and acquiring the application range of each measurement gap from the first information.
  9. 9. The method of claim 1, wherein the obtaining the applicable range of each measurement gap comprises: And determining an application range corresponding to each measurement gap according to a preset application range, wherein the preset application range comprises one or more of a preset object to be measured, a preset subset bandwidth and a subset bandwidth currently activated by the terminal equipment.
  10. 10. The method according to claim 1 or 2, wherein before performing signal measurement according to the execution time period and the application range of each measurement gap, respectively, the method further comprises: Determining whether the execution time periods of different measurement gaps are coincident, and if so, acquiring a plurality of execution time periods which are coincident with each other; And determining effective execution time periods in the execution time periods which are mutually overlapped according to the measurement gaps respectively to which the execution time periods are mutually overlapped.
  11. 11. The method according to claim 10, wherein the determining, in the plurality of execution periods overlapping each other, the effective execution period according to the measurement gap to which the plurality of execution periods overlapping each other respectively belong, includes: and among the execution time periods which are overlapped with each other, the execution time period of the measurement gap with the highest priority among the measurement gaps to which the execution time periods are respectively attached is reserved as the effective execution time period.
  12. 12. The method according to claim 10, wherein the determining, in the plurality of execution periods overlapping each other, the effective execution period according to the measurement gap to which the plurality of execution periods overlapping each other respectively belong, includes: Determining a union of the mutually overlapping execution periods as the valid execution period; And determining the measurement gap to which the effective execution time period belongs according to the measurement gaps to which the execution time periods respectively belong.
  13. 13. The method according to claim 10, wherein the determining, before determining the valid execution period among the execution periods, according to the measurement gaps to which the execution periods respectively belong, includes: Receiving second information sent by the network equipment, wherein the second information is used for indicating a measurement gap selected when the execution time periods of different measurement gaps are overlapped; The determining, according to the measurement gaps to which the execution time periods respectively belong, an effective execution time period among the execution time periods that are mutually coincident includes: and determining the execution time period belonging to the measurement gap indicated by the second information as the effective execution time period in the multiple execution time periods which are mutually overlapped according to the measurement gap respectively belonging to the multiple execution time periods which are mutually overlapped.
  14. 14. A signal measurement method applied to a network device, the method comprising: The method comprises the steps of sending first information to terminal equipment, wherein the first information is used for indicating the terminal equipment to configure a measurement gap, the first information comprises configuration information of a plurality of measurement gaps, so that the terminal equipment can determine one or more execution time periods of each measurement gap, obtain the application range of each measurement gap, and respectively perform signal measurement according to the execution time periods and the application range of each measurement gap, wherein when the application range of each measurement gap comprises one or more measurement objects corresponding to each measurement gap, the signal measurement is performed according to the execution time periods and the application range of each measurement gap, and comprises the step of performing signal measurement on one or more measurement objects corresponding to each measurement gap in the execution time periods of each measurement gap; determining one or more execution time periods for each of the measurement gaps; And stopping scheduling the terminal equipment in the execution time period of each measurement gap.
  15. 15. The method of claim 14, wherein the types of measurement gaps include one or more of a per-UE measurement gap, a per-FR1 measurement gap, a per-FR2 measurement gap.
  16. 16. The method of claim 14 or 15, wherein said determining one or more execution time periods for each of said measurement gaps comprises: and determining one or more execution time periods of each measurement gap according to the configuration information.
  17. 17. The method of claim 16, wherein the configuration information for the measurement gaps includes a duration of the measurement gaps, a repetition period, and a subframe offset, wherein determining one or more execution time periods for each of the measurement gaps based on the configuration information comprises: one or more execution time periods of each measurement gap are determined according to the duration, the repetition period and the subframe offset of the plurality of measurement gaps, wherein the execution time periods comprise the starting time and the duration of the execution time periods.
  18. 18. The method of claim 17, wherein the configuration information of the measurement gap further comprises a measurement gap advance.
  19. 19. Method according to claim 18, characterized in that the repetition period of at least two of the measurement gaps is the same and/or the duration of at least two of the measurement gaps is the same and/or the measurement gap advance of at least two of the measurement gaps is the same.
  20. 20. The method of claim 16, wherein the first information further comprises a sharing parameter comprising one or more of a sharing repetition period, a sharing duration, a sharing measurement gap advance, a sharing measurement gap subframe offset; The determining one or more execution time periods of each measurement gap according to the configuration information comprises: determining one or more execution time periods of each measurement gap according to the shared parameters and configuration information of the plurality of measurement gaps; the configuration information of the plurality of measurement gaps comprises parameters different from the shared parameters in repetition period, duration time, subframe offset and/or measurement gap advance of the plurality of measurement gaps.

Description

Signal measurement method, device and storage medium Technical Field The present application relates to the field of communications, and in particular, to a signal measurement method, apparatus, and storage medium. Background In a New Radio (NR) system, a mobile terminal may measure signals of different frequency points to obtain a communication signal with better quality. Since communication between the mobile terminal and the serving cell and measurement of surrounding communication signals by the mobile terminal cannot be performed simultaneously, it is necessary to suspend communication traffic with the serving cell in a configured measurement GAP (GAP) to exclusively perform signal measurement. In the related art, the configuration of measurement gaps on the network device and the mobile device is single, and the configuration flexibility is not high, for example, the network device can only configure one per-UE measurement gap, and cannot configure a per-FR1 measurement gap or a per-FR2 measurement gap at the same time. Thus, the flexibility of the current measurement gap configuration is still to be improved. Disclosure of Invention The application provides a signal measurement method, a signal measurement device and a storage medium, which are used for solving the problem of low flexibility of measurement gap configuration. In a first aspect, the present application provides a signal measurement method, applied to a terminal device, including: receiving first information sent by network equipment, wherein the first information is used for indicating terminal equipment to configure measurement gaps, and the first information comprises configuration information of one or more measurement gaps; determining one or more execution time periods of each measurement gap according to the configuration information; and respectively carrying out signal measurement according to the execution time period of each measurement gap. Optionally, the plurality of measurement gaps includes at least two measurement gaps of the same type. Optionally, the types of measurement gaps include one or more of a per-UE measurement gap, a per-FR1 measurement gap, and a per-FR2 measurement gap. Optionally, the configuration information of the measurement gaps includes duration, repetition period and subframe offset of the measurement gaps, and determining one or more execution time periods of each measurement gap according to the configuration information includes: One or more execution time periods of each measurement gap are determined according to the duration, repetition period and subframe offset of the plurality of measurement gaps, wherein the execution time periods comprise the starting time and duration of the execution time periods. Optionally, the configuration information of the measurement gap further includes a measurement gap advance. Optionally, the repetition period of the at least two measurement gaps is the same, and/or the duration of the at least two measurement gaps is the same, and/or the measurement gap advance of the at least two measurement gaps is the same. Optionally, the first information further includes a sharing parameter, where the sharing parameter includes one or more of a sharing repetition period, a sharing duration, a sharing measurement gap advance, and a sharing measurement gap subframe offset; determining one or more execution time periods for each measurement gap according to the configuration information, including: Determining one or more execution time periods of each measurement gap according to the shared parameters and configuration information of the plurality of measurement gaps; The configuration information of the measurement gap comprises a repetition period, duration time, subframe offset and/or a parameter which is different from a shared parameter in the measurement gap advance. Optionally, the signal measurement is performed according to the execution time period of each measurement gap, including: Acquiring the application range of each measurement gap; And respectively carrying out signal measurement according to the execution time period and the application range of each measurement gap. Optionally, the application range of the measurement gap includes one or more measurement objects corresponding to the measurement gap, and signal measurement is performed according to an execution time period and the application range of each measurement gap, including: for each measurement gap, signal measurement is performed on one or more measurement objects corresponding to the measurement gap in an execution period of the measurement gap. Optionally, the application range of the measurement gap includes one or more subset bandwidths corresponding to the measurement gap, and signal measurement is performed according to an execution time period and the application range of each measurement gap, including: Screening each measurement gap according to the subset bandwidth activated by the