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CN-121098902-B - Method, device and equipment for dynamically constructing network link facing charging link network

CN121098902BCN 121098902 BCN121098902 BCN 121098902BCN-121098902-B

Abstract

The embodiment of the invention discloses a method, a device and equipment for dynamically constructing a network link facing a charging link network. The method comprises the steps of constructing a target agent link according to a charging service request and each agent in response to the receiving of the charging service request, conducting link verification processing on the charging service request according to the target agent link, sending a charging instruction to target charging equipment through the target agent link in response to the fact that a first link verification result represents that the link verification is passed, conducting state monitoring on the target agent link to update the target agent link in real time, sending a power-off instruction to the target charging equipment according to the target agent link in response to the receiving of a power-off service request sent to the target charging equipment, and updating each agent. According to the embodiment, the network delay can be reduced through dynamic link optimization under the scene of a charging link network, so that the network service stability is improved.

Inventors

  • YE ZILONG

Assignees

  • 郑州容新新能源科技有限公司

Dates

Publication Date
20260512
Application Date
20250826

Claims (8)

  1. 1. A method for dynamically constructing a network link facing a charging link network, applied to a computing device, comprising the following steps: In response to receiving a charging service request sent by a target charging device, constructing a target agent link according to the charging service request and each agent constructed in advance, wherein each agent is deployed at different network physical nodes in a charging link network; According to the target agent link, carrying out link verification processing on the charging service request to generate a first link verification result; Transmitting a charging instruction to the target charging device through the target agent link in response to determining that the first link verification result characterizes link verification as passing; In response to determining that the target agent link is not broken, performing state monitoring on the target agent link to update the target agent link in real time; in response to receiving a power-off service request sent by aiming at the target charging equipment, sending a power-off instruction to the target charging equipment according to the target agent link, and updating each agent; And performing link verification processing on the charging service request according to the target intelligent agent link to generate a first link verification result, wherein the link verification processing comprises the following steps: Packaging the charging service request to generate a charging service request message, wherein the charging service request message comprises signature information corresponding to the computing equipment; for each target agent in the target agent link, performing the following node verification steps: The charging service request message is sent to the target agent to receive intelligent experience verification information returned by the target agent, wherein after the target agent receives the charging service request message, the target agent verifies whether signature information of the computing equipment is tampered or not through a pre-stored public key and a signature algorithm, and verifies whether the charging service request message is tampered or not, the intelligent experience verification information comprises corresponding node signature information, agent parameter information and intelligent experience verification results, and the corresponding node signature information is node signature information of a network physical node where the target agent is located; In response to determining that the agent parameter information included in the received intelligent experience verification information meets a preset confidence coefficient condition, determining an intelligent experience verification result included in the intelligent experience verification information as a target intelligent experience verification result; and generating a first link verification result according to the determined intelligent experience verification results.
  2. 2. The method of claim 1, wherein prior to the receiving the charging service request issued for the target charging device, the method further comprises: for network physical nodes in the charging link network, performing the following node preprocessing steps: collecting node parameter information and node identification of the network physical node; Constructing a node portrait tag according to the acquired node parameter information; Carrying out encryption signature on the node portrait tag and the node identifier to generate node signature information; and deploying the intelligent agent in the network physical node according to the node parameter information.
  3. 3. The method of claim 2, wherein said constructing a target agent link from said charging service request and each agent previously constructed, comprises: Analyzing the charging service request to obtain a charging equipment identifier and charging equipment position information; According to the corresponding parameter information of each intelligent agent, node filtering processing is carried out on each intelligent agent so as to determine each candidate intelligent agent; according to the charging equipment position information, carrying out link simulation on each candidate intelligent agent so as to generate target intelligent agent link information; And constructing a target intelligent agent link corresponding to the charging equipment identifier according to the target intelligent agent link information.
  4. 4. The method of claim 1, wherein said sending a power down instruction to said target charging device according to said target agent link comprises: Packaging the power-off service request to generate a power-off service request message; according to the target intelligent agent link, carrying out link verification processing on the power-off service request message to generate a second link verification result; And in response to determining that the second link verification result represents that the link verification is passed, sending a power-off instruction to the target charging equipment through the target agent link.
  5. 5. The method of claim 1, wherein said updating said respective agents comprises: interrupting the target agent link; for each of the individual agents deployed within the charging link network, performing the node update steps of: determining the online time length of the intelligent agent in response to determining that the online identification included in the intelligent agent parameter information corresponding to the intelligent agent is characterized as that the intelligent agent is online; In response to determining that the online time period is longer than a preset updating period, performing offline processing on the intelligent body so as to update an online identifier included in intelligent body parameter information corresponding to the intelligent body; In response to determining that the online time length is less than or equal to a preset update period, performing the following processing steps: updating the health degree of the intelligent agent included in the corresponding intelligent agent parameter information; updating the corresponding agent confidence coefficient included in the agent parameter information; and in response to determining that the health degree of the intelligent body is smaller than a preset health degree threshold, performing offline processing on the intelligent body, and resetting intelligent body parameter information corresponding to the intelligent body.
  6. 6. A device for dynamically constructing a network link facing a charging link network, comprising: A construction unit configured to construct a target agent link according to a charging service request sent by a target charging device and each agent constructed in advance, wherein each agent is deployed at a different network physical node in a charging link network; the link verification unit is configured to perform link verification processing on the charging service request according to the target intelligent agent link to generate a first link verification result, wherein the link verification processing on the charging service request according to the target intelligent agent link to generate the first link verification result comprises the following steps: Packaging the charging service request to generate a charging service request message, wherein the charging service request message comprises signature information corresponding to the computing equipment; for each target agent in the target agent link, performing the following node verification steps: The charging service request message is sent to the target agent to receive intelligent experience verification information returned by the target agent, wherein after the target agent receives the charging service request message, the target agent verifies whether signature information of the computing equipment is tampered or not through a pre-stored public key and a signature algorithm, and verifies whether the charging service request message is tampered or not, the intelligent experience verification information comprises corresponding node signature information, agent parameter information and intelligent experience verification results, and the corresponding node signature information is node signature information of a network physical node where the target agent is located; In response to determining that the agent parameter information included in the received intelligent experience verification information meets a preset confidence coefficient condition, determining an intelligent experience verification result included in the intelligent experience verification information as a target intelligent experience verification result; generating a first link verification result according to the determined intelligent experience verification results; a first transmitting unit configured to transmit a charging instruction to the target charging device through the target agent link in response to determining that the first link verification result characterizes a link verification passing; A state monitoring unit configured to perform state monitoring on the target agent link to update the target agent link in real time in response to determining that the target agent link is not interrupted; and the second sending unit is configured to send a power-off instruction to the target charging equipment according to the target agent link and update the agents in response to receiving a power-off service request sent by the target charging equipment.
  7. 7. An electronic device, comprising: one or more processors; a storage device having one or more programs stored thereon; when executed by the one or more processors, causes the one or more processors to implement the method of any of claims 1 to 5.
  8. 8. A computer readable medium, characterized in that a computer program is stored thereon, wherein the computer program, when executed by a processor, implements the method according to any of claims 1 to 5.

Description

Method, device and equipment for dynamically constructing network link facing charging link network Technical Field The embodiment of the disclosure relates to the technical field of computers, in particular to a method, a device and equipment for dynamically constructing a network link facing a charging link network. Background The charging link network is a communication network formed by charging equipment, a user terminal, a service platform and a communication relay node and is used for timely responding and processing network services such as charging and power failure sent by a user. Currently, when a network link is constructed in a charging link network scenario, a network service is generally provided to a user by adopting a centralized architecture and a static network path. However, when the network link is constructed in the network scenario of the charging link in the above manner, there are often the following technical problems: Static network paths are generally difficult to adapt to real-time dynamic changes of node loads and network states, and phenomena such as network service delay improvement, abnormal disconnection or network service interruption are frequently caused directly when a certain node in the network paths breaks down. The above information disclosed in this background section is only for enhancement of understanding of the background of the inventive concept and, therefore, may contain information that does not form the prior art that is already known to a person of ordinary skill in the art. Disclosure of Invention The disclosure is in part intended to introduce concepts in a simplified form that are further described below in the detailed description. The disclosure is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Some embodiments of the present disclosure propose a method, an apparatus, and a device for dynamically constructing a network link facing a charging link network, so as to solve the technical problems mentioned in the background section above. In a first aspect, some embodiments of the present disclosure provide a method for dynamically constructing a network link for a charging link network, where the method includes, in response to receiving a charging service request sent by a target charging device, constructing a target agent link according to the charging service request and each agent previously constructed, where each agent is deployed at a different network physical node in the charging link network, performing a link verification process on the charging service request according to the target agent link to generate a first link verification result, in response to determining that the first link verification result characterizes the link verification as passing, sending a charging instruction to the target charging device through the target agent link, in response to determining that the target agent link is not interrupted, performing state monitoring on the target agent link to update the target agent link in real time, in response to receiving a power-down service request sent by the target charging device, sending a power-down instruction to the target charging device according to the target agent link, and updating each agent. In a second aspect, some embodiments of the present disclosure provide a network link dynamic construction apparatus for a charging link network, the apparatus including a construction unit configured to construct a target agent link according to a charging service request issued for a target charging device and each agent constructed in advance in response to receiving the charging service request, wherein each agent is disposed at a different network physical node in the charging link network, a link verification unit configured to perform a link verification process on the charging service request according to the target agent link to generate a first link verification result, a first transmission unit configured to transmit a charging instruction to the target charging device through the target agent link in response to determining that the first link verification result characterizes a link verification passing, a status monitoring unit configured to perform status monitoring on the target agent link to update the target agent link in real time in response to determining that the target agent link is not interrupted, and a second transmission unit configured to perform a power-down instruction to update the target agent link according to the target agent link in response to receiving a power-down service request issued for the target charging device. In a third aspect, some embodiments of the present disclosure provide an electronic device comprising one or more processors, and storage means having one or more programs stored thereon, which when executed by the one or more processors, cause the o