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CN-122002425-A - Communication method and device

CN122002425ACN 122002425 ACN122002425 ACN 122002425ACN-122002425-A

Abstract

The application provides a communication method and a device, belonging to the technical field of communication, wherein the communication method comprises the steps of sending a self-adaptive measurement result to network equipment under the condition that a guide condition is met, wherein the self-adaptive measurement result is obtained by adjusting the current actual measurement result of a measurement event, the self-adaptive measurement result meets the trigger threshold of a target message, receiving the target message sent by the network equipment, and executing the operation corresponding to the target message on terminal equipment, wherein the guide condition comprises at least one of the following steps that the current actual measurement result of the measurement event does not meet the trigger threshold of the target message, the flow is smaller than a first threshold, the signal strength is larger than a second threshold, the error rate is smaller than a third threshold, the terminal equipment is in a static state, a non-tight time sequence is applied, and the current serving cell is a high-load cell or a cell with the signal strength of an adjacent cell being larger than a fourth threshold and not high-load cell. The application can actively switch the cells, and reduce the power consumption of the terminal equipment while not affecting the performance of the terminal equipment.

Inventors

  • DONG NING

Assignees

  • 华为技术有限公司

Dates

Publication Date
20260508
Application Date
20241108

Claims (13)

  1. 1.A method of communication, the method comprising: under the condition that a guiding condition is met, an adaptive measurement result is sent to network equipment, wherein the adaptive measurement result is obtained by adjusting the current actual measurement result of the measurement event, the adaptive measurement result meets the trigger threshold of a target message, and the target message comprises a Gap message and a switching request; receiving the target message sent by the network equipment; Executing the operation corresponding to the target message on the terminal equipment; The guiding condition comprises at least one of the following conditions that the current actual measurement result of the measurement event does not meet the triggering threshold of the target message, the flow is smaller than a first threshold, the signal strength is larger than a second threshold, the error rate is smaller than a third threshold, the terminal equipment is in a static state, a non-tight time sequence is applied, a cell currently serving is a high-load cell or the signal strength of an adjacent cell is larger than a fourth threshold and is not a high-load cell.
  2. 2. The method of claim 1, wherein the target message is the Gap message, the Gap message includes a first Gap configuration and a first inter-frequency measurement configuration, and the performing the operation corresponding to the target message on the terminal device includes: And according to the first Gap configuration in the first Gap effective period, performing sleep control on the terminal equipment.
  3. 3. The method according to claim 2, wherein the method further comprises: And sending the adaptive measurement result to network equipment in the first Gap effective period.
  4. 4. A method according to claim 2 or 3, characterized in that the method further comprises: receiving a second Gap configuration and a second inter-frequency measurement configuration within the first Gap effective period; and carrying out sleep control on the terminal equipment in a second Gap effective period according to the second Gap configuration.
  5. 5. The method according to any one of claims 2 to 4, further comprising: Transmitting the current actual measurement result of the measurement event to the network equipment under the condition that the Gap guiding condition is not met and the current actual measurement result of the measurement event meets the trigger threshold of the Gap message; Receiving a third Gap configuration and a third pilot frequency measurement configuration sent by the network equipment; and performing pilot frequency measurement control in a third Gap effective period according to the third Gap configuration and the third pilot frequency measurement configuration.
  6. 6. The method according to any of claims 1 to 5, wherein the current actual measurement of the measurement event is greater than a trigger threshold of the target message and the adaptive measurement is less than or equal to the trigger threshold of the target message.
  7. 7. The method according to any one of claims 1 to 6, wherein the target message is the handover request, and the performing, on the terminal device, an operation corresponding to the target message includes: and switching to the cell indicated by the switching request.
  8. 8. A communication device, the device comprising: The receiving and transmitting module is used for transmitting an adaptive measurement result to the network equipment under the condition that the guiding condition is met, wherein the adaptive measurement result is obtained by adjusting the current actual measurement result of the measurement event, and the adaptive measurement result meets the trigger threshold of a target message which comprises a Gap message and a switching request; the receiving and transmitting module is further used for receiving the target message sent by the network equipment; the processing module is used for executing the operation corresponding to the target message on the terminal equipment; The guiding condition comprises at least one of the following conditions that the current actual measurement result of the measurement event does not meet the triggering threshold of the target message, the flow is smaller than a first threshold, the signal strength is larger than a second threshold, the error rate is smaller than a third threshold, the terminal equipment is in a static state, a non-tight time sequence is applied, a cell currently serving is a high-load cell or the signal strength of an adjacent cell is larger than a fourth threshold and is not a high-load cell.
  9. 9. The apparatus of claim 8, wherein the target message is the Gap message comprising a first Gap configuration and a first inter-frequency measurement configuration; The processing module is specifically configured to perform sleep control on the terminal device according to the first Gap configuration in a first Gap effective period.
  10. 10. The apparatus of claim 9, wherein the device comprises a plurality of sensors, And the receiving and transmitting module is further configured to send the adaptive measurement result to a network device in the first Gap effective period.
  11. 11. The device according to claim 9 or 10, wherein, The transceiver module is further configured to receive a second Gap configuration and a second inter-frequency measurement configuration during the first Gap effective period; And the processing module is further used for performing sleep control on the terminal equipment in a second Gap effective period according to the second Gap configuration.
  12. 12. A computing device, the apparatus comprising: One or more processors; A memory for storing one or more computer programs or instructions; When executed by the one or more processors, causes the one or more processors to implement the method of any of claims 1 to 7.
  13. 13. A computer program product containing instructions that, when executed by a computing device, cause the computing device to perform the method of any of claims 1 to 7.

Description

Communication method and device Technical Field The present application relates to the field of communications technologies, and in particular, to a communications method and apparatus. Background In order to ensure continuity and uninterrupted communication services in a communication system, a terminal device is handed over from one cell to another under the control of a network device. And as communication performance and computational requirements increase, the processor performance of the terminal device is continually improved. For graphics intensive applications such as games, video editing, and three-dimensional (three dimensional, 3D) modeling, the graphics card of the terminal device has powerful graphics processing capabilities. And in order to run a plurality of applications simultaneously or perform large-scale data processing, the terminal device has a large-capacity memory and a high-speed hard disk. However, the cell switching of the terminal device is performed under the control of the network device, and the process of switching cells of the terminal device has poor flexibility. And the high-performance processor, the high-performance display card, the high-capacity memory, the high-speed hard disk and the like improve the performance of the terminal equipment and increase the power consumption of the terminal equipment. Disclosure of Invention The application provides a communication method and a communication device, which solve the problems of poor flexibility and high power consumption of terminal equipment in the process of switching cells of the terminal equipment in the related technology, can actively switch cells and reduce the power consumption of the terminal equipment while not affecting the performance of the terminal equipment. In a first aspect, the application provides a communication method, which comprises the steps of sending an adaptive measurement result to network equipment under the condition that a guiding condition is met, wherein the adaptive measurement result is obtained by adjusting the current actual measurement result of a measurement event, the adaptive measurement result meets the trigger threshold of a target message, the target message comprises Gap information and a switching request, receiving the target message sent by the network equipment, and executing an operation corresponding to the target message on the terminal equipment, wherein the guiding condition comprises at least one of the following steps that the current actual measurement result of the measurement event does not meet the trigger threshold of the target message, the flow is smaller than a first threshold, the signal strength is larger than a second threshold, the error rate is smaller than a third threshold, the terminal equipment is in a static state, the application of non-tight time sequence is performed, and the current serving cell is a high-load cell or the signal strength of an adjacent cell is larger than a fourth threshold and is not high-load. Different kinds of target messages correspond to different guide conditions, and the Gap message and the switching request correspond to the Gap guide condition and the switching guide condition respectively. The traffic being smaller than the first threshold may enable the resources of the terminal device to meet the traffic demand even if they are reduced. The application of non-tight timing does not affect the performance of the application even if the transmission delay of the transmission packet increases. The signal strength in the guiding condition is larger than the second threshold, and the error rate is smaller than the third threshold, which means that the signal quality of the cell currently accessed by the terminal equipment is good. If the terminal equipment is in a moving state, the terminal equipment is switched to a new cell, so that the network loss condition occurs, the terminal equipment is in a static state, the network loss caused by the switching to the new cell can be avoided, and the signal quality of the cell to which the terminal equipment is currently connected is ensured. For example, in the case that the guiding condition is satisfied, the current actual measurement result of the measurement event may be adjusted to be the trigger threshold of the target message or less, so as to obtain the adaptive measurement result. When the guiding condition is not met, the terminal device sends the current actual measurement result of the measurement event to the network device when the measurement result needs to be reported to the network device. The method has the advantages that under the condition that the guiding condition is met, the terminal equipment actively guides the network equipment to send the target message by adjusting the current actual measurement result of the measurement event, and sleep control or cell switching is carried out on the terminal equipment according to the target message, so that the