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CN-121984891-A - Communication condition monitoring method and system

CN121984891ACN 121984891 ACN121984891 ACN 121984891ACN-121984891-A

Abstract

The embodiment of the application provides a communication condition monitoring method and a system, which are applied to an equipment management platform, wherein the method comprises the steps of monitoring a data packet transmitted between any two pieces of communication equipment based on preset frequency to obtain multidimensional communication condition data; the method comprises the steps of carrying out quantitative scoring on multidimensional communication condition data to obtain a link health degree score, adjusting preset frequency based on the link health degree score to obtain a target frequency, and monitoring communication conditions between any two communication devices based on the target frequency to obtain a target communication condition. The application solves the technical problem of lower monitoring precision of the communication condition in the related technology.

Inventors

  • LI MENG

Assignees

  • 安徽开阳科技有限公司
  • 奇瑞汽车股份有限公司

Dates

Publication Date
20260505
Application Date
20260129

Claims (10)

  1. 1. A method for monitoring communication conditions, applied to a device management platform, the method comprising: Based on a preset frequency, monitoring a data packet transmitted between any two communication devices to obtain multidimensional communication status data; Quantitatively scoring the multi-dimensional communication status data to obtain a link health score; adjusting the preset frequency based on the link health degree score to obtain a target frequency; And monitoring the communication condition between any two communication devices based on the target frequency to obtain a target communication condition.
  2. 2. The communication condition monitoring method according to claim 1, wherein monitoring the data packet transmitted between any two communication devices based on a preset frequency to obtain multi-dimensional communication condition data, comprises: Determining a first communication device in any two communication devices and a second communication device in communication connection with the first communication device; Based on the preset frequency, controlling the first communication device to send a heartbeat request packet to the second communication device, and receiving a heartbeat response packet fed back by the second communication device; And determining the multidimensional communication status data based on the heartbeat request packet and the heartbeat response packet, wherein the data packet comprises the heartbeat request packet and the heartbeat response packet.
  3. 3. The communication condition monitoring method according to claim 1, wherein quantitatively scoring the multi-dimensional communication condition data to obtain a link health score comprises: normalizing the multidimensional communication status data to obtain normalized data; And weighting the normalized data based on a preset weight coefficient corresponding to the multidimensional communication condition data to obtain the link health score.
  4. 4. The communication condition monitoring method according to claim 1, wherein quantitatively scoring the multi-dimensional communication condition data to obtain a link health score comprises: And quantitatively scoring the multi-dimensional communication condition data by adopting a link health degree scoring model to obtain the link health degree score, wherein the link health degree scoring model is obtained by training based on the historical multi-dimensional communication condition data and the marked link health degree score.
  5. 5. The communication condition monitoring method according to claim 1, wherein adjusting the preset frequency based on the link health score to obtain a target frequency comprises: Determining the target frequency as the preset frequency under the condition that the link health score is greater than or equal to a preset score; And under the condition that the link health degree score is smaller than the preset score, increasing the preset frequency to obtain the target frequency.
  6. 6. The communication condition monitoring method according to claim 1, wherein monitoring the communication condition between the arbitrary two communication devices based on the target frequency, to obtain a target communication condition, comprises: based on the target frequency, controlling a first communication device in any two communication devices to send a heartbeat request packet to a second communication device to obtain a heartbeat monitoring result, wherein the heartbeat monitoring result is used for indicating the condition that the first communication device receives a heartbeat response packet; And determining the target communication condition based on the link health score and the heartbeat monitoring result.
  7. 7. The communication condition monitoring method according to any one of claims 1 to 6, characterized in that the method further comprises: determining a target health degree range corresponding to the link health degree score from a plurality of health degree ranges, wherein different health degree ranges correspond to different early warning response strategies; And determining a target early warning response strategy from a plurality of early warning response strategies based on the target health range.
  8. 8. The communication condition monitoring method according to any one of claims 1 to 6, wherein the multi-dimensional communication condition data includes at least two of a communication delay parameter for characterizing a time delay between a time when a heartbeat response packet is received by a first communication device and a time when a heartbeat request packet is issued, a data integrity parameter for characterizing a data content integrity of the heartbeat response packet compared to the heartbeat request packet, a connection stability parameter for characterizing a number of times the heartbeat response packet is continuously successfully received by the first communication device, a communication device operation state parameter for characterizing an operation state of the first communication device and/or the second communication device, and a network environment parameter for characterizing a wireless network condition between the first communication device and the second communication device.
  9. 9. The communication condition monitoring method according to claim 8, characterized in that the method further comprises: Obtaining a processor utilization rate, a memory occupancy rate, a device temperature and a power state of the first communication device and/or the second communication device, wherein the power state is used for representing battery electricity or power supply voltage, determining an operation state parameter of the communication device based on the processor utilization rate, the memory occupancy rate, the device temperature and/or the power state, and/or, Acquiring signal strength, signal-to-noise ratio and operator signal quality level of a wireless network between the first communication device and the second communication device; the network environment parameter is determined based on the signal strength, the signal to noise ratio, and/or the carrier signal quality level.
  10. 10. A communication condition monitoring system, comprising: the first communication device is used for sending a heartbeat request packet based on a preset frequency or a target frequency; The second communication device is in communication connection with the first communication device and is used for receiving the heartbeat request packet and feeding back a heartbeat response packet to the first communication device; The device management platform is in communication connection with the first communication device and the second communication device, and is used for monitoring data packets transmitted between any two communication devices based on the preset frequency to obtain multi-dimensional communication condition data, quantitatively scoring the multi-dimensional communication condition data to obtain a link health degree score, adjusting the preset frequency based on the link health degree score to obtain the target frequency, and monitoring the communication condition between any two communication devices based on the target frequency to obtain the target communication condition.

Description

Communication condition monitoring method and system Technical Field The embodiment of the application relates to the technical field of communication, in particular to a communication condition monitoring method and system. Background Conventional communication heartbeat monitoring mechanisms rely solely on an indication of whether an expected response has been received to determine link connection status. The binary judgment mode ignores a plurality of key factors influencing the communication stability and continuity, so that the monitoring precision of the communication condition in the related technology is lower. There is currently no good solution to the above problems. Disclosure of Invention The embodiment of the application provides a communication condition monitoring method and a communication condition monitoring system, which at least solve the technical problem of lower monitoring precision of communication conditions in the related technology. According to one aspect of the embodiment of the application, a communication condition monitoring method is provided, which is applied to an equipment management platform and comprises the steps of monitoring a data packet transmitted between any two pieces of communication equipment based on preset frequency to obtain multidimensional communication condition data; the method comprises the steps of carrying out quantitative scoring on multidimensional communication condition data to obtain a link health degree score, adjusting preset frequency based on the link health degree score to obtain a target frequency, and monitoring communication conditions between any two communication devices based on the target frequency to obtain a target communication condition. Further, based on a preset frequency, monitoring a data packet transmitted between any two communication devices to obtain multidimensional communication condition data, wherein the multidimensional communication condition data comprises a first communication device and a second communication device which are in communication connection with the first communication device, the first communication device is controlled to send a heartbeat request packet to the second communication device based on the preset frequency, a heartbeat response packet fed back by the second communication device is received, and the multidimensional communication condition data is determined based on the heartbeat request packet and the heartbeat response packet, wherein the data packet comprises the heartbeat request packet and the heartbeat response packet. Further, the method comprises the steps of carrying out quantization scoring on the multi-dimensional communication condition data to obtain a link health score, carrying out normalization processing on the multi-dimensional communication condition data to obtain normalized data, and carrying out weighting processing on the normalized data based on preset weight coefficients corresponding to the multi-dimensional communication condition data to obtain the link health score. Further, the method comprises the steps of quantitatively scoring the multi-dimensional communication condition data to obtain a link health degree score, wherein the link health degree score is obtained by quantitatively scoring the multi-dimensional communication condition data by adopting a link health degree score model, and the link health degree score model is trained based on historical multi-dimensional communication condition data and marked link health degree scores. Further, adjusting the preset frequency based on the link health degree score to obtain a target frequency comprises determining that the target frequency is the preset frequency when the link health degree score is greater than or equal to the preset score, and increasing the preset frequency when the link health degree score is less than the preset score to obtain the target frequency. Further, based on the target frequency, monitoring the communication condition between any two communication devices to obtain the target communication condition, wherein the method comprises the steps of controlling a first communication device in any two communication devices to send a heartbeat request packet to a second communication device to obtain a heartbeat monitoring result based on the target frequency, wherein the heartbeat monitoring result is used for indicating the condition that the first communication device receives the heartbeat response packet, and determining the target communication condition based on the link health degree score and the heartbeat monitoring result. Further, the method further comprises the steps of determining a target health degree range corresponding to the link health degree score from the plurality of health degree ranges, wherein different health degree ranges correspond to different early warning response strategies, and determining a target early warning response strategy from the plurality of e