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CN-116547939-B - Information processing method, device and storage medium

CN116547939BCN 116547939 BCN116547939 BCN 116547939BCN-116547939-B

Abstract

The disclosure relates to an information processing method, an information processing device and a storage medium, wherein the method can be executed by a first terminal, and the method comprises the steps of determining that a first beam communicated with a second terminal fails to generate a beam, determining a second beam, and sending first information to the second terminal through the second beam, wherein the first information is used for indicating the first terminal to generate the beam failure. The first information can be reliably transmitted to the second terminal.

Inventors

  • YANG XING

Assignees

  • 北京小米移动软件有限公司

Dates

Publication Date
20260508
Application Date
20230315

Claims (20)

  1. 1. An information processing method, characterized by being executed by a first terminal, the method comprising: determining that a first beam for communication with a second terminal fails in beam generation, determining a second beam; Transmitting first information to the second terminal through the second beam, wherein the first information is used for indicating the first terminal to generate beam failure; the second beam is any one or more of the following: A beam using the same TCI configuration as the first candidate beam; Configuring quasi co-located beams with the TCI used by the first candidate beam; A beam quasi co-located with the first candidate beam; A beam having spatial correspondence with the first candidate beam; The first candidate beam is one or more beams with the measurement result meeting the preset threshold value condition in the candidate beams, or the first candidate beam is the beam with the optimal measurement result in the candidate beams; the candidate beam is a beam that can be used for the first terminal to communicate with the second terminal; the first information includes any one or more of: a beam identification of the first beam; a beam identification of the first candidate beam; The method further comprises the steps of: And determining that the beam failure recovery is completed after receiving fourth information, wherein the fourth information is sent by the second terminal through a third beam after receiving the first information, the third beam is associated with the first candidate beam, and the third beam is not associated with the first beam.
  2. 2. The method of claim 1, wherein the second beam is not any one or more of: A beam indicating TCI configuration using the same transmission configuration as the first beam; configuring a quasi co-sited beam with a TCI used by the first beam; a beam quasi co-located with the first beam, and A beam having spatial correspondence with the first beam.
  3. 3. The method of claim 1, wherein prior to determining the second beam, the method comprises: transmitting second information to the network device, the second information comprising any one or more of: a beam identification of the first beam; a beam identification of the first candidate beam; Beam identification of a beam using the same TCI configuration as the first beam; configuring a beam identity of a quasi co-located beam with a TCI used by the first beam; a beam identification of a beam quasi co-located with the first beam; a beam identification of a beam having a spatial correspondence with the first beam; beam identification of a beam using the same TCI configuration as the first candidate beam; Configuring a beam identity of a quasi co-located beam with a TCI used by the first candidate beam; beam identification of a beam quasi co-located with the first candidate beam, and A beam identification of a beam having spatial correspondence with the first candidate beam.
  4. 4. The method of claim 1, wherein the determining the second beam comprises: receiving third information sent by network equipment; and determining the second beam according to the third information.
  5. 5. The method of claim 1, wherein the third beam is any one or more of: the first candidate beam; A beam using the same TCI configuration as the second beam; Configuring quasi co-located beams with the TCI used by the second beam; a beam quasi co-located with the second beam, and A beam having spatial correspondence with the second beam.
  6. 6. The method of claim 1, wherein the third beam is not any one or more of: the first beam; a beam using the same TCI configuration as the first beam; configuring a quasi co-sited beam with a TCI used by the first beam; a beam quasi co-located with the first beam, and A beam having spatial correspondence with the first beam.
  7. 7. The method of claim 1, wherein during a first timer run time, the third beam is not any one or more of: the first beam; a beam using the same TCI configuration as the first beam; configuring a quasi co-sited beam with a TCI used by the first beam; a beam quasi co-located with the first beam, and A beam having spatial correspondence with the first beam.
  8. 8. The method of claim 7, wherein the first information is further used to instruct the second terminal to start the first timer.
  9. 9. A method according to claim 7 or 8, characterized in that the first timer is sent by the first terminal or network device to the second terminal or the first timer is obtained by the second terminal from a pre-configuration.
  10. 10. An information processing method, characterized by being executed by a second terminal, the method comprising: Receiving first information, wherein the first information is sent through a second wave beam, the first information is used for indicating a first terminal to generate wave beam failure, and the second wave beam is determined after the first terminal determines that the first wave beam for communication with the second terminal fails; the second beam is any one or more of the following: A beam using the same TCI configuration as the first candidate beam; Configuring quasi co-located beams with the TCI used by the first candidate beam; A beam quasi co-located with the first candidate beam; A beam having spatial correspondence with the first candidate beam; The first candidate beam is one or more beams with the measurement result meeting the preset threshold value condition in the candidate beams, or the first candidate beam is the beam with the optimal measurement result in the candidate beams; the candidate beam is a beam that can be used for the first terminal to communicate with the second terminal; the first information includes any one or more of: a beam identification of the first beam; a beam identification of the first candidate beam; The method further comprises the steps of: fourth information is transmitted to the first terminal via a third beam, the third beam being associated with the first candidate beam, the third beam not being associated with the first beam.
  11. 11. The method of claim 10, wherein the second beam is not any one or more of: A beam indicating TCI configuration using the same transmission configuration as the first beam; configuring a quasi co-sited beam with a TCI used by the first beam; a beam quasi co-located with the first beam, and A beam having spatial correspondence with the first beam.
  12. 12. The method of claim 10, wherein the third beam is any one or more of: the first candidate beam; A beam using the same TCI configuration as the second beam; Configuring quasi co-located beams with the TCI used by the second beam; a beam quasi co-located with the second beam, and A beam having spatial correspondence with the second beam.
  13. 13. The method of claim 10, wherein the third beam is not any one or more of: the first beam; a beam using the same TCI configuration as the first beam; configuring a quasi co-sited beam with a TCI used by the first beam; a beam quasi co-located with the first beam, and A beam having spatial correspondence with the first beam.
  14. 14. The method of claim 10, wherein during a first timer run time, the third beam is not any one or more of: the first beam; a beam using the same TCI configuration as the first beam; configuring a quasi co-sited beam with a TCI used by the first beam; a beam quasi co-located with the first beam, and A beam having spatial correspondence with the first beam.
  15. 15. The method of claim 14, wherein the first information is further used to instruct the second terminal to start the first timer.
  16. 16. The method of claim 14, wherein the first timer is sent by the first terminal or network device to the second terminal or the first timer is obtained by the second terminal from a pre-configuration.
  17. 17. The method of claim 10, wherein prior to determining the third beam, the method comprises: transmitting fifth information to the network device, the fifth information comprising any one or more of: a beam identification of the first beam; A beam identification of the second beam; a beam identification of the first candidate beam; a beam using the same TCI configuration as the first beam; configuring a quasi co-sited beam with a TCI used by the first beam; a beam quasi co-located with the first beam; a beam having spatial correspondence with the first beam; A beam using the same TCI configuration as the second beam; Configuring quasi co-located beams with the TCI used by the second beam; a beam quasi co-located with the second beam, and A beam having spatial correspondence with the second beam.
  18. 18. The method according to claim 10, wherein the method further comprises: Receiving sixth information sent by the network equipment; and determining the third beam according to the sixth information.
  19. 19. An information processing method, performed by a network device, the method comprising: receiving second information sent by the first terminal; Transmitting third information to the first terminal, wherein the third information is used for indicating a second wave beam used for the first terminal to transmit first information to a second terminal, and the first information is used for indicating that a first wave beam for the first terminal to communicate with the second terminal fails to generate wave beams; the second beam is any one or more of the following: A beam using the same TCI configuration as the first candidate beam; Configuring quasi co-located beams with the TCI used by the first candidate beam; A beam quasi co-located with the first candidate beam; A beam having spatial correspondence with the first candidate beam; The first candidate beam is one or more beams with the measurement result meeting the preset threshold value condition in the candidate beams, or the first candidate beam is the beam with the optimal measurement result in the candidate beams; the candidate beam is a beam that can be used for the first terminal to communicate with the second terminal; the first information includes any one or more of: a beam identification of the first beam; a beam identification of the first candidate beam; The first information is further used for indicating a beam with beam failure, and/or is used for assisting in determining a third beam, the third beam is associated with the first candidate beam, the third beam is not associated with the first beam, and the third beam is used for sending fourth information to the first terminal after the second terminal receives the first information.
  20. 20. An information processing method, performed by a network device, the method comprising: receiving fifth information sent by a second terminal; Transmitting sixth information to the second terminal, wherein the sixth information is used for indicating a third wave beam, and the third wave beam is used for transmitting fourth information to the first terminal after the second terminal receives the first information; The fifth information is sent by the second terminal after receiving first information, the first information is sent to the second terminal by the first terminal through a second wave beam, and the second wave beam is determined after the first terminal determines that a first wave beam for communicating with the second terminal fails; the second beam is any one or more of the following: A beam using the same TCI configuration as the first candidate beam; Configuring quasi co-located beams with the TCI used by the first candidate beam; A beam quasi co-located with the first candidate beam; A beam having spatial correspondence with the first candidate beam; The first candidate beam is one or more beams with the measurement result meeting the preset threshold value condition in the candidate beams, or the first candidate beam is the beam with the optimal measurement result in the candidate beams; the candidate beam is a beam that can be used for the first terminal to communicate with the second terminal; the first information includes any one or more of: a beam identification of the first beam; a beam identification of the first candidate beam; wherein the first information is further used to indicate a beam for which a beam failure occurred and/or to assist in determining a third beam, the third beam being associated with the first candidate beam, the third beam not being associated with the first beam.

Description

Information processing method, device and storage medium Technical Field The present disclosure relates to the field of communications technologies, and in particular, to an information processing method, an information processing device, and a storage medium. Background The beam is a special transmit or receive configuration, configured and indicated by TCI (Transmission Configuration Indicator, transmit configuration indication). In the related art, the terminal may determine whether a beam fails by detecting a beam failure reference signal. Disclosure of Invention The embodiment of the disclosure provides an information processing method, an information processing device and a storage medium. According to a first aspect of an embodiment of the present disclosure, there is provided an information processing method, performed by a first terminal, the method including: determining that a first beam for communication with a second terminal fails in beam generation, determining a second beam; And sending first information to the second terminal through the second beam, wherein the first information is used for indicating the first terminal to generate beam failure. According to a second aspect of the embodiments of the present disclosure, the embodiments of the present disclosure provide an information processing method, which is performed by a second terminal, the method including: And receiving first information, wherein the first information is sent through a second wave beam, the first information is used for indicating the first terminal to generate wave beam failure, and the second wave beam is determined after the first terminal determines that the first wave beam for communicating with the second terminal fails. According to a third aspect of embodiments of the present disclosure, there is provided an information processing method performed by a network device, the method comprising: receiving second information sent by the first terminal; And sending third information to the first terminal, wherein the third information is used for indicating a second wave beam used for sending first information, and the first information is used for indicating the first terminal to generate wave beam failure. According to a fourth aspect of embodiments of the present disclosure, there is provided an information processing method performed by a network device, the method comprising: receiving fifth information sent by a second terminal; And transmitting sixth information to the second terminal, wherein the sixth information is used for indicating a third beam for transmitting fourth information. According to a fifth aspect of embodiments of the present disclosure, there is provided an information processing method applied to a communication system including a first terminal and a second terminal, the method including: The first terminal determines that a first wave beam communicated with the second terminal fails to generate a wave beam, and determines a second wave beam; The first terminal sends first information to the second terminal through the second beam, wherein the first information is used for indicating the first terminal to generate beam failure; the second terminal determines a third beam; And the second terminal sends fourth information to the first terminal through the third beam. According to a sixth aspect of the embodiments of the present disclosure, there is provided a first information processing apparatus including: A determining module configured to determine that a first beam communicating with a second terminal failed to generate a beam, and determine a second beam; And the sending module is configured to send first information to the second terminal through the second beam, wherein the first information is used for indicating the first terminal to generate beam failure. According to a seventh aspect of the embodiments of the present disclosure, there is provided a second information processing apparatus including: And the receiving module is configured to receive first information, wherein the first information is sent through a second wave beam, the first information is used for indicating the first terminal to generate wave beam failure, and the second wave beam is determined after the first terminal determines that the first wave beam for communicating with the second terminal fails. According to an eighth aspect of embodiments of the present disclosure, there is provided a communication apparatus including: A processor; A memory for storing processor-executable instructions; Wherein the processor is configured to perform the steps of the method according to any of the first aspects of the disclosed embodiments or the steps of the method according to any of the second aspects of the disclosed embodiments. According to a ninth aspect of the disclosed embodiments, there is provided a computer readable storage medium having stored thereon computer program instructions which, when executed by a