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CN-122001546-A - Communication method and related equipment

CN122001546ACN 122001546 ACN122001546 ACN 122001546ACN-122001546-A

Abstract

The application provides a communication method and related equipment. The method comprises the steps of determining a first monitoring result and first indicating information, wherein the first monitoring result is used for determining whether a first reasoning result is accurate or not or the accuracy of the first reasoning result, the first reasoning result is used for determining k 1 predicted and determined optimal reference signal resources in a first subset of a first reference signal resource set, the first indicating information is used for indicating k 1 predicted and determined optimal reference signal resources, and the first information is sent and used for indicating the first monitoring result and the first indicating information. In the method, the terminal equipment reports the optimal reference signal resource determined by at least one prediction in the first subset to the network equipment, so that the network equipment is convenient to determine whether the whole set of the first reference signal resource set and the optimal reference signal resource determined by at least one prediction in the first subset are the same, and the network equipment is convenient to adjust the first subset so as to improve the accuracy of the monitoring result.

Inventors

  • ZHANG ZHENGYU
  • LI YUAN
  • TIAN YANG
  • SUN YAN

Assignees

  • 华为技术有限公司

Dates

Publication Date
20260508
Application Date
20241108

Claims (20)

  1. 1. A method of communication, comprising: Determining a first monitoring result and first indicating information, wherein the first monitoring result is used for determining whether a first reasoning result is accurate or not or the accuracy of the first reasoning result, the first reasoning result is used for determining k 1 predicted and determined optimal reference signal resources in a first subset (set M) of a first reference signal resource set (set A), the first indicating information is used for indicating the k 1 predicted and determined optimal reference signal resources, the first reference signal resource set comprises at least one reference signal resource, and k 1 is a positive integer; And sending first information, wherein the first information is used for indicating the first monitoring result and the first indication information.
  2. 2. The method of claim 1, wherein the first information is further used to indicate second indication information, wherein the second indication information is used to indicate information of a same reference signal resource of k 1 predictively determined optimal reference signal resources and k 2 predictively determined optimal reference signal resources in the first set of reference signal resources, and k 2 is a positive integer.
  3. 3. The method of claim 2, wherein the information of the same reference signal resource of the k 1 predictively determined optimal reference signal resources and k 2 predictively determined optimal reference signal resources of the first set of reference signal resources comprises one or more of: Whether each of the k 1 predictively determined optimal reference signal resources belongs to the k 2 predictively determined optimal reference signal resources, or The number of the same reference signal resources in the k 1 predicted determined optimal reference signal resources as the k 2 predicted optimal reference signal resources, or The ratio of the number of the reference signal resources which are the same as the k 2 reference signal resources in the k 1 reference signal resources determined by prediction to k 2 .
  4. 4. The method of claim 1, wherein the first information is further used to indicate third indication information, the third indication information is used to indicate a reference signal resource that does not belong to the k 1 best reference signal resources determined by prediction among k 2 best reference signal resources determined by prediction in the first reference signal resource set, and k 2 is a positive integer.
  5. 5. The method according to any of the claims 1 to 4, characterized in that said first indication information comprises identification information of said k 1 predictively determined best reference signal resources in said first subset (set M).
  6. 6. The method according to any one of claims 1 to 5, further comprising: First configuration information is received for configuring a second subset (set M ') of the first set of reference signal resources, the second subset (set M') being different from at least one reference signal resource comprised in the first subset (set M).
  7. 7. The method according to claim 6, characterized in that the reference signal resources of the k 1 predictively determined best reference signal resources not belonging to k 2 predictively determined best reference signal resources of the first set of reference signal resources are not included in the second subset (set M'), or; The number of the same reference signal resources in the second subset (set M') and the first subset (set M) is less than or equal to a first preset threshold value, or The ratio of the number of reference signal resources in the second subset (set M ') to the same reference signal resources in the first subset (set M) is less than or equal to a second preset threshold, the first value comprising any one of the number of reference signal resources in the second subset (set M'), the number of reference signal resources in the first subset (set M), or The second subset (set M') comprises k 2 predictively determined best reference signal resources of the first set of reference signal resources, or The number of reference signal resources belonging to k 2 predictively determined best reference signal resources in the first set of reference signal resources in the second subset (set M') being greater than or equal to a third preset threshold value, or A ratio of a number of reference signal resources belonging to k 2 predictively determined optimal reference signal resources in the first set of reference signal resources in the second subset (set M ') to a second value is greater than or equal to a fourth preset threshold, the second value comprising any one of the number of reference signal resources in the second subset (set M'), the number of reference signal resources in the first set of reference signal resources, k 2 ; wherein k 2 is a positive integer.
  8. 8. The method according to any one of claims 1 to 7, wherein the predicted value of channel state information corresponding to the k 1 predictively determined optimal reference signal resources is greater than or equal to the predicted value of channel state information corresponding to reference signal resources in the first subset (set M) other than the k 1 predictively determined optimal reference signal resources, or The k 1 predictively determined optimal reference signal resources have a probability of being greater than or equal to the probability of being corresponding to reference signal resources of the first subset (set M) other than the k 1 predictively determined optimal reference signal resources, the probability of being the reference signal resource being the optimal reference signal resource of the first set (set A) or the first subset (set M), or The k 1 predicted determined best reference signal resources are reference signal resources belonging to k 2 predicted determined best reference signal resources in the first subset (set M), a predicted value of channel state information corresponding to the k 2 predicted best reference signal resources is greater than or equal to a predicted value of channel state information corresponding to reference signal resources other than the k 2 predicted best reference signal resources in the first reference signal resource set (set a), or a predicted value of channel state information corresponding to the k 2 predicted best reference signal resources is greater than or equal to a probability corresponding to reference signal resources other than the k 2 predicted best reference signal resources in the first reference signal resource set (set a), and a probability corresponding to the reference signal resources is a probability corresponding to the best reference signal resources in the first reference signal resource set (set a), and k 2 is a positive integer.
  9. 9. The method according to any one of the claims 1 to 6, wherein the first inference result comprises a predicted value of channel state information corresponding to each reference signal resource in the first set of reference signal resources (set a), the first monitoring result is determined based on a measured value of channel state information corresponding to at least one first reference signal resource in the first subset (set M) and a predicted value of channel state information corresponding to the full set of first reference signal resources (set a) or at least one second reference signal resource in the first subset (set M), or the first monitoring result comprises a measured value of channel state information corresponding to at least one reference signal resource in the first subset (set M), or The first inference result comprises a probability that each reference signal resource in the first set of reference signal resources (set a) is the best reference signal resource in the first set of reference signal resources (set a), the first monitoring result is determined based on at least one measurement in the first subset (set M) and at least one prediction-determined best reference signal resource in the full set of first reference signal resources (set a) or in the first subset (set M), or the first monitoring result comprises identification information of at least one measurement-determined best reference signal resource in the first subset (set M), wherein a measurement value of channel state information corresponding to the at least one measurement-determined best reference signal resource is greater than or equal to a measurement value of channel state information corresponding to reference signal resources other than the at least one measurement-determined best reference signal resource in the first subset (set M).
  10. 10. The method according to any one of claims 1 to 9, further comprising: Determining a measurement value of channel state information corresponding to each reference signal resource in a second set of reference signal resources (set B), the second set of reference signal resources comprising at least one reference signal resource; and determining the first reasoning result by using the measured value of the channel state information corresponding to each reference signal resource in the second reference signal resource set.
  11. 11. A method of communication, comprising: Receiving first information, where the first information is used to indicate a first monitoring result and first indicating information, the first monitoring result is used to determine whether a first inference result is accurate or not or the accuracy of the first inference result, the first inference result is used to determine k 1 best reference signal resources determined by prediction in a first subset (set M) of a first reference signal resource set (set a), the first indicating information is used to indicate the k 1 best reference signal resources determined by prediction, and the first reference signal resource set includes at least one reference signal resource, where k 1 is a positive integer.
  12. 12. The method of claim 11, wherein the first information is further used to indicate second indication information, wherein the second indication information is used to indicate information of the same reference signal resource of k 1 predictively determined optimal reference signal resources and k 2 predictively determined optimal reference signal resources in the first set of reference signal resources, and wherein k 2 is a positive integer.
  13. 13. The method of claim 12, wherein the information of the same reference signal resource of k 1 of the predictively determined optimal reference signal resources and k 2 of the first set of reference signal resources comprises one or more of: Whether each of the k 1 predictively determined optimal reference signal resources belongs to the k 2 predictively determined optimal reference signal resources, or The number of the same reference signal resources in the k 1 predicted determined optimal reference signal resources as the k 2 predicted optimal reference signal resources, or The ratio of the number of the reference signal resources which are the same as the k 2 reference signal resources in the k 1 reference signal resources determined by prediction to k 2 .
  14. 14. The method of claim 11, wherein the first information is further used to indicate third indication information, the third indication information is used to indicate a reference signal resource that does not belong to the k 1 best reference signal resources determined by prediction among k 2 best reference signal resources determined by prediction in the first reference signal resource set, and k 2 is a positive integer.
  15. 15. The method according to any of the claims 11 to 14, characterized in that said first indication information comprises identification information of said k 1 predictively determined best reference signal resources in said first subset (set M).
  16. 16. The method according to any one of claims 11 to 15, further comprising: Transmitting first configuration information for configuring a second subset (set M ') of the first set of reference signal resources, the second subset (set M') being different from at least one reference signal resource comprised in the first subset (set M), if a first preset condition is met, the first preset condition comprising any one of: The k 1 predictively determined optimal reference signal resources being different from at least one of the k 2 predictively determined optimal reference signal resources in the first set of reference signal resources, or The number of the same reference signal resources in the k 1 predicted determined optimal reference signal resources as the k 2 predicted optimal reference signal resources in the first reference signal resource set is less than or equal to a fifth preset threshold value, or The ratio of the number of the same reference signal resources in the k 1 predicted and determined optimal reference signal resources to the k 2 of k 2 predicted and determined optimal reference signal resources in the first reference signal resource set is smaller than or equal to a sixth preset threshold; wherein k 2 is a positive integer.
  17. 17. The method according to claim 16, characterized in that the reference signal resources of the k 1 predictively determined best reference signal resources not belonging to the k 2 predictively determined best reference signal resources are not included in the second subset (set M'), or; The number of the same reference signal resources in the second subset (set M') and the first subset (set M) is less than or equal to a first preset threshold value, or The ratio of the number of reference signal resources in the second subset (set M ') to the same reference signal resources in the first subset (set M) is less than or equal to a second preset threshold, the first value comprising any one of the number of reference signal resources in the second subset (set M'), the number of reference signal resources in the first subset (set M), or The second subset (set M') comprises k 2 predictively determined best reference signal resources of the first set of reference signal resources, or The number of reference signal resources belonging to k 2 predictively determined best reference signal resources in the first set of reference signal resources in the second subset (set M') being greater than or equal to a third preset threshold value, or A ratio of a number of reference signal resources belonging to k 2 predictively determined optimal reference signal resources in the first set of reference signal resources in the second subset (set M ') to a second value is greater than or equal to a fourth preset threshold, the second value comprising any one of the number of reference signal resources in the second subset (set M'), the number of reference signal resources in the first set of reference signal resources, k 2 ; wherein k 2 is a positive integer.
  18. 18. The method according to any one of the claims 11 to 17, wherein the predicted value of channel state information corresponding to the k 1 predictively determined optimal reference signal resources is greater than or equal to the predicted value of channel state information corresponding to reference signal resources in the first subset (set M) other than the k 1 predictively determined optimal reference signal resources, or The k 1 predictively determined optimal reference signal resources have a probability of being greater than or equal to the probability of being corresponding to reference signal resources of the first subset (set M) other than the k 1 predictively determined optimal reference signal resources, the probability of being the reference signal resource being the optimal reference signal resource of the first set (set A) or the first subset (set M), or The k 1 predicted determined best reference signal resources are reference signal resources belonging to k 2 predicted determined best reference signal resources in the first subset (set M), a predicted value of channel state information corresponding to the k 2 predicted best reference signal resources is greater than or equal to a predicted value of channel state information corresponding to reference signal resources other than the k 2 predicted best reference signal resources in the first reference signal resource set (set a), or a predicted value of channel state information corresponding to the k 2 predicted best reference signal resources is greater than or equal to a probability corresponding to reference signal resources other than the k 2 predicted best reference signal resources in the first reference signal resource set (set a), and a probability corresponding to the reference signal resources is a probability corresponding to the best reference signal resources in the first reference signal resource set (set a), and k 2 is a positive integer.
  19. 19. The method according to any of the claims 11 to 18, wherein the first inference result comprises a predicted value of channel state information corresponding to each reference signal resource in the first set of reference signal resources (set a), the first monitoring result is determined based on a measured value of channel state information corresponding to at least one first reference signal resource in the first subset (set M) and a predicted value of channel state information corresponding to the full set of first reference signal resources (set a) or at least one second reference signal resource in the first subset (set M), or the first monitoring result comprises a measured value of channel state information corresponding to at least one reference signal resource in the first subset (set M), or The first inference result comprises a probability that each reference signal resource in the first set of reference signal resources (set a) is the best reference signal resource in the first set of reference signal resources (set a), the first monitoring result is determined based on at least one measurement in the first subset (set M) and at least one prediction-determined best reference signal resource in the full set of first reference signal resources (set a) or in the first subset (set M), or the first monitoring result comprises identification information of at least one measurement-determined best reference signal resource in the first subset (set M), wherein a measurement value of channel state information corresponding to the at least one measurement-determined best reference signal resource is greater than or equal to a measurement value of channel state information corresponding to reference signal resources other than the at least one measurement-determined best reference signal resource in the first subset (set M).
  20. 20. A communication device comprising means for performing the method of any one of claims 1 to 10 or any one of claims 11 to 19.

Description

Communication method and related equipment Technical Field The present application relates to the field of communications, and more particularly, to a communication method, a communication apparatus, a computer-readable storage medium, a chip, and a computer program product. Background In an artificial intelligence (ARTIFICIAL INTELLIGENCE, AI) based beam management scenario, a network device determines resources to communicate with a terminal device based on received at least one predictively determined optimal reference signal resource. Since the at least one predictively determined optimal reference signal resource is determined based on the AI model, the AI model needs to be monitored in order to determine the appropriate communication resources. However, in the current scheme, the monitoring result obtained by using the reasoning result of the AI model may have a problem of low accuracy, and how to improve the accuracy of the monitoring result so as to monitor the AI model becomes a problem to be solved urgently. Disclosure of Invention The application provides a communication method, a communication device, a computer readable storage medium, a chip and a computer program product, which are favorable for improving the accuracy of a monitoring result so as to monitor an AI model. In a first aspect, a method of communication is provided. The method comprises the steps of determining a first monitoring result and first indicating information, wherein the first monitoring result is used for determining whether a first reasoning result is accurate or not or the accuracy of the first reasoning result, the first reasoning result is used for determining k 1 predicted and determined optimal reference signal resources in a first subset (set M) of a first reference signal resource set (set A), the first indicating information is used for indicating k 1 predicted and determined optimal reference signal resources, the first reference signal resource set comprises at least one reference signal resource, k 1 is a positive integer, and the first information is sent and used for indicating the first monitoring result and the first indicating information. In the embodiment of the application, when the terminal equipment reports the monitoring result to the network equipment, the terminal equipment reports the optimal reference signal resource determined by at least one prediction in the first subset (set M) of the first reference signal resource set (set A) to the network equipment, so that the network equipment is convenient to determine whether the optimal reference signal resource determined by at least one prediction in the whole set of the first reference signal resource set (set A) and the optimal reference signal resource determined by at least one prediction in the first subset (set M) are the same or not, and the network equipment is convenient to adjust the reference signal resource included in the reference signal resource set (i.e. the first subset) for obtaining the monitoring result, so that the optimal reference signal resource determined by at least one prediction in the first reference signal resource set (set A) is as same as possible with the optimal reference signal resource determined by at least one prediction in the first subset, and the accuracy of the monitoring result is further improved. In some embodiments, the first inference result is obtained by a device deployed with the first AI model using the first AI model. The device deployed with the first AI model is a terminal-side device, for example, a terminal device itself or a device or a server connected to the terminal device. In some embodiments, the first AI model is a regression model or a classification model. With reference to the first aspect, in some implementations, the first information is further used to indicate second indication information, where the second indication information is used to indicate information of the same reference signal resource in the k 1 predictively determined optimal reference signal resources and k 2 predictively determined optimal reference signal resources in the first reference signal resource set, and k 2 is a positive integer. In some embodiments, the second indication information comprises information of the same one of the k 1 predictively-determined best reference signal resources and the k 2 predictively-determined best reference signal resources in the first set of reference signal resources, or the second indication information comprises information indicating the same one of the k 1 predictively-determined best reference signal resources and the k 2 predictively-determined best reference signal resources in the first set of reference signal resources, the number of different one of the k 1 predictively-determined best reference signal resources and the k 2 predictively-determined best reference signal resources in the first set of reference signal resources, the number of different one of t