CN116112414A - Remote inspection system for edge computing gateway equipment - Google Patents
Remote inspection system for edge computing gateway equipment Download PDFInfo
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- H—ELECTRICITY
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- H04L43/00—Arrangements for monitoring or testing data switching networks
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- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/66—Arrangements for connecting between networks having differing types of switching systems, e.g. gateways
Abstract
The invention relates to the field of edge computing gateways, and is used for solving the problems that the manual inspection is low in inspection efficiency and can influence the use of users, in particular to a remote inspection system of edge computing gateway equipment; in the invention, the front end connection, the rear end connection and the running state of the edge computing gateway equipment are checked and verified through the central inspection unit, so that a manager can realize remote inspection, the comprehensive evaluation is carried out on the edge computing gateway equipment through the supervision and evaluation unit, the efficiency of the manager in carrying out overall analysis on a large number of edge gateway equipment is improved, and when the edge computing gateway equipment carries out self-checking operation, the user equipment which is currently using the edge computing gateway equipment is analyzed, and therefore, the use of the user equipment is not influenced when the edge computing gateway equipment carries out self-checking, and the use experience of the edge computing gateway equipment of a front end user is ensured.
Description
Technical Field
The invention relates to the field of edge computing gateways, in particular to a remote inspection system of edge computing gateway equipment.
Background
Edge computing is a distributed computing model that brings computer data storage closer to the desired location. The computation is performed primarily or entirely on the distributed device nodes. Edge computing will facilitate applications, data, and computing power closer to the user than to the concentration point. The goal of edge computing is an application or general function that requires an action source that is closer to the interaction of distributed system technology with the physical world. Although it may interact with a centralized cloud, edge computing need not be tied to any centralized cloud. Unlike cloud computing, edge computing refers to decentralized data processing at the edge of a network. The edge application service reduces the amount of data that must be moved, the consequent traffic, and the distance that the data must be transmitted;
the edge computing relies on the edge gateway computing equipment, so that the normal operation of the edge gateway computing equipment is important, a great amount of manpower and material resources are consumed to frequently maintain and check the edge gateway computing equipment, the manual inspection mode is time-consuming and labor-consuming, the efficiency is low, meanwhile, front-end user equipment cannot use the gateway equipment when the edge gateway equipment is inspected, the inspection efficiency of the edge gateway is affected, and the use of users is affected;
aiming at the technical problems, the application provides a solution.
Disclosure of Invention
According to the invention, corresponding inspection signals are generated for different units through the central inspection unit, so that the front end connection, the rear end connection and the running state of the edge computing gateway equipment are inspected and checked, and therefore, a manager can realize remote inspection, the inspection efficiency is improved, the comprehensive evaluation is carried out on the edge computing gateway equipment through the supervision evaluation unit, the manager can comprehensively know a large number of edge computing gateway equipment at the same time, the efficiency of the manager in carrying out comprehensive analysis on the large number of edge computing gateway equipment is improved, and when the edge computing gateway equipment carries out self-inspection operation, the user equipment currently using the edge computing gateway equipment is analyzed, so that the use of the user equipment is not influenced due to the occupation of a self-inspection operation program when the edge computing gateway equipment carries out self-inspection, the use experience of the edge computing gateway equipment of a front end user is ensured, and the problem that the use of the user is influenced due to the fact that the manual inspection efficiency is low is solved is provided.
The aim of the invention can be achieved by the following technical scheme:
the monitoring and evaluating unit is used for generating a remote inspection signal and transmitting the remote inspection signal to the central inspection unit, and after the central inspection unit receives the remote inspection signal, the central inspection unit generates a front end inspection signal, a rear end inspection signal and a self-inspection operation signal and transmits the signals to the front end inspection unit, the rear end inspection unit and the self-inspection operation unit respectively;
after the front end checking unit receives the front end checking signal, the front end checking unit performs front end operation checking on the edge gateway computing equipment, acquires front end operation checking information, wherein the front end operation checking information comprises front end user equipment parameters and communication channel connection parameters, the communication channel connection parameters comprise communication speed and communication stability, the front end user equipment parameters comprise front end user equipment connection quantity and front end user equipment occupation information, the front end checking unit analyzes the front end operation checking information after acquiring the front end operation checking information, generates a front end normal signal, a front end equipment abnormal signal or a channel abnormal signal according to an analysis result, and returns the front end normal signal, the front end abnormal signal or the channel abnormal signal to the central inspection unit;
the back-end checking unit receives the back-end checking signal, performs back-end operation checking on the edge gateway computing equipment, and acquires back-end operation checking information, wherein the back-end operation checking information comprises network connection speed and network connection stability, the back-end checking unit analyzes the back-end operation checking information, generates a back-end abnormal signal or a back-end normal signal according to an analysis result, and returns the back-end normal signal or the back-end abnormal signal to the central inspection unit;
the self-checking operation unit acquires current operation information of the edge gateway computing equipment after receiving the self-checking operation signal, analyzes the current operation information of the edge gateway computing equipment, judges whether self-checking operation is performed according to an analysis result, returns an operation result after the self-checking operation to the central inspection unit if the self-checking operation is performed, analyzes the current operation information if the self-checking operation cannot be performed, and returns an analysis result to the central inspection unit;
the central inspection unit sends the results returned by the front end inspection unit, the rear end inspection unit and the self-inspection operation unit to the supervision and evaluation unit, and the supervision and evaluation unit analyzes the results returned by the front end inspection unit, the rear end inspection unit and the self-inspection operation unit, generates an evaluation signal according to the analysis result and returns the evaluation signal to the central inspection unit.
As a preferred embodiment of the invention, when the front-end checking unit collects the front-end operation checking information, the front-end checking unit sequentially sends the checking information to all the connected front-end user equipment, analyzes the returned checking information after sending the checking information, records the quantity of all the returned checking information as the quantity of active user equipment, counts time from sending the checking information, counts time when the checking information returns, calculates the communication speed according to the counted time, compares the returned checking information with the sent checking information, obtains the error rate when the checking information is transmitted, calculates the communication stability according to the error rate when the checking information is transmitted, and the front-end checking unit counts the connection time of the front-end user equipment and records the connection time as the occupation information of the front-end user equipment.
As a preferred embodiment of the present invention, the front end checking unit compares the front end user equipment occupation information with a preset equipment occupation time length, records the user equipment with the connection time length greater than or equal to the preset equipment occupation time length in the front end user equipment occupation information as abnormal occupation equipment, calculates the occupation ratio of all abnormal occupation equipment in the number of active user equipment to obtain an abnormal occupation ratio, if the abnormal occupation ratio is greater than or equal to the preset abnormal ratio, generates a front end equipment abnormal signal, calculates the number of sent checking information and the number of returned checking information, records the difference between the number of sent checking information and the number of returned checking information as the number of dropped equipment, and if the number of dropped equipment is greater than or equal to the preset number of dropped equipment, generates the front end equipment abnormal signal;
the front-end checking unit judges the threshold value of the communication speed and the communication stability, generates a channel abnormal signal if the communication speed is smaller than or equal to a preset communication speed standard value, generates a channel abnormal signal if the transmission error rate in the communication stability is larger than or equal to a preset transmission error upper limit value, and generates a front-end normal signal if the front-end equipment abnormal signal and the channel abnormal signal are not generated.
When the back-end check unit collects back-end operation check information, the back-end check unit sends feedback information to the Internet through controlling the edge computing gateway equipment, receives the information fed back by the feedback information, records the time of the feedback information as network connection speed, records error characters in the feedback information as network connection stability, generates a back-end abnormal signal if the network connection speed is smaller than a preset network connection speed threshold or the network connection stability is smaller than a preset network connection stability threshold, and generates a back-end normal signal if the network connection speed is larger than or equal to the preset network connection speed threshold and the network connection stability is larger than or equal to the preset network connection stability threshold.
As a preferred embodiment of the present invention, before the self-checking operation is performed, the self-checking operation unit obtains the number of front end user devices and the number of idle channels currently occupying the edge computing gateway device, obtains the occupancy rate of the current edge gateway device by dividing the number of front end user devices by the number of idle channels, performs the self-checking operation if the occupancy rate of the current edge gateway device is smaller than a preset low load threshold, does not perform the self-checking operation if the occupancy rate of the current edge gateway device is greater than or equal to a preset high load threshold, and performs the small-scale self-checking operation if the occupancy rate of the current edge gateway device is greater than or equal to a preset low load threshold and is smaller than a preset high load threshold, wherein the load of the small-scale self-checking operation on the edge gateway device is smaller than the load of the self-checking operation on the edge gateway device, and the small-scale self-checking operation on the load = current edge gateway device total load capacity-current user device load-reserved load.
As a preferred embodiment of the present invention, when the self-checking operation unit performs self-checking operation, the self-checking operation program is run through the edge gateway device, the operation speed of the edge gateway device during running the self-checking operation is counted, the operation speed is compared with a preset operation speed, if the operation speed is smaller than the preset operation speed, an edge gateway device load capacity loss signal is generated, and if the operation speed is greater than or equal to the preset operation speed, an edge gateway device load capacity normal signal is generated.
As a preferred embodiment of the present invention, the supervision and evaluation unit counts a front-end device abnormal signal, a channel abnormal signal, a back-end abnormal signal, and an edge gateway device load capacity loss signal, if all the signals appear at the same time, generates an edge gateway device fault signal, if only the front-end device abnormal signal, the channel abnormal signal, and the back-end abnormal signal appear at the same time, generates an edge gateway device access abnormal signal, if only the edge gateway device load capacity loss signal appears, generates an edge gateway self abnormal signal, and if any one of the signals does not appear, generates an edge gateway device normal signal.
Compared with the prior art, the invention has the beneficial effects that:
1. in the invention, corresponding inspection signals are generated for different units through the central inspection unit, and the front end connection, the rear end connection and the running state of the edge computing gateway equipment are inspected and checked, so that a manager does not need to inspect the edge computing gateway equipment in the field, and only needs to maintain and overhaul the edge computing gateway equipment in a targeted manner after the abnormal fault which cannot be remotely solved is remotely inspected and detected, thereby improving the inspection efficiency.
2. According to the invention, the edge computing gateway equipment is comprehensively evaluated through the supervision and evaluation unit, so that the overall evaluation of the edge computing gateway equipment can be objectively reflected, and the current edge gateway computing equipment is judged to carry out continuous traceability check through continuous regular evaluation, thereby being beneficial to improving the overall analysis of a large number of edge gateway equipment by management staff.
3. In the invention, when the self-checking operation is carried out on the edge computing gateway equipment, the user equipment which is currently using the edge computing gateway equipment is analyzed, so that the use of the user equipment is not influenced by the occupation of a self-checking operation program when the edge computing gateway equipment carries out the self-checking operation, and the use experience of the edge computing gateway equipment of a front-end user is ensured.
Drawings
The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.
Fig. 1 is a system block diagram of the present invention.
Detailed Description
The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Embodiment one:
referring to fig. 1, an edge computing gateway device remote inspection system includes a central inspection unit, a front end inspection unit, a back end inspection unit, a self-inspection operation unit and a supervision and evaluation unit, wherein the supervision and evaluation unit is used for generating a remote inspection signal and transmitting the remote inspection signal to the central inspection unit, and after receiving the remote inspection signal, the central inspection unit generates a front end inspection signal, a back end inspection signal and a self-inspection operation signal and respectively transmits the signals to the front end inspection unit, the back end inspection unit and the self-inspection operation unit;
the front end core detection unit receives the front end core detection signals, performs front end operation core detection on the edge gateway computing device, and collects front end operation core detection information, wherein the front end operation core detection information comprises front end user device parameters and communication channel connection parameters, the communication channel connection parameters comprise communication speed and communication stability, the front end user device parameters comprise front end user device connection quantity and front end user device occupation information, the front end core detection unit counts the connection of the front end user devices by sequentially sending the core detection information to all connected front end user devices, analyzes the returned core detection information after sending the core detection information, records the returned core detection information as active user device quantity, counts time from the sending of the core detection information, finishes counting time when the core detection information is returned, calculates communication speed by counting time length, compares the returned core detection information with the sent core detection information, acquires error rate when the core detection information is transmitted, calculates communication stability by error rate when the core detection information is transmitted, counts the front end user device connection by sequentially sending the core detection information to all connected front end user devices, counts the occupation time length when the front end detection information is compared with the front end user device occupation time is equal to the preset occupation time length, and the front end occupation time is equal to the abnormal occupation time of the front end user device is compared with the abnormal occupation time when the abnormal occupation time is equal to the abnormal occupation time of the front end user device in the abnormal user device, and the abnormal occupation time is compared with the abnormal time when the front end device is calculated by the abnormal time consumption time when the front end device is compared with the abnormal time consumption, the front-end checking unit calculates the quantity of the sent checking information and the quantity of the returned checking information, records the difference value between the quantity of the sent checking information and the quantity of the returned checking information as the quantity of the line-dropping devices, and generates a front-end device abnormal signal if the quantity of the line-dropping devices is greater than or equal to the preset quantity of the line-dropping devices;
the front-end checking unit judges the threshold value of the communication speed and the communication stability, if the communication speed is smaller than or equal to a preset communication speed standard value, a channel abnormal signal is generated, if the transmission error rate in the communication stability is larger than or equal to a preset transmission error upper limit value, a channel abnormal signal is generated, if the front-end equipment abnormal signal and the channel abnormal signal are not generated, a front-end normal signal is generated, the front-end normal signal, the front-end abnormal signal or the channel abnormal signal is returned to the central checking unit, a manager can check the front-end normal signal, the front-end abnormal signal or the channel abnormal signal through the central checking unit, and meanwhile, the manager can call the number of active user equipment generated by the front-end checking unit, the communication speed, the error rate during the transmission of the checking information and abnormal occupied equipment through the central checking unit.
Embodiment two:
referring to fig. 1, after a back-end check unit receives a back-end check signal, a border gateway computing device performs back-end operation check and collects back-end operation check information, where the back-end operation check information includes a network connection speed and a network connection stability, when the back-end check unit collects the back-end operation check information, the back-end check unit sends feedback information to the internet by controlling the border computing gateway device, receives the information fed back by the feedback information, records the time of use of the feedback information as the network connection speed, records an error character in the feedback information as the network connection stability, if the network connection speed is less than a preset network connection speed threshold or the network connection stability is less than a preset network connection stability threshold, generates a back-end abnormal signal, if the network connection speed is greater than or equal to the preset network connection speed threshold and the network connection stability is greater than or equal to the preset network connection stability threshold, generates a back-end normal signal, and returns the back-end normal signal or the back-end abnormal signal to the central inspection unit, and the manager can check the back-end normal signal or the back-end normal signal to the central inspection unit to the specific network connection data access unit.
Embodiment III:
referring to fig. 1, after receiving the self-checking operation signal, the self-checking operation unit obtains the current operation information of the edge gateway computing device, analyzes the current operation information of the edge gateway computing device, determines whether to perform self-checking operation according to the analysis result, returns the operation result after performing the self-checking operation to the central inspection unit if the self-checking operation is performed, analyzes the current operation information if the self-checking operation is not performed, and returns the analysis result to the central inspection unit. The self-checking operation unit judges whether to operate the self-checking operation before operating the self-checking operation: acquiring the number of front-end user equipment and the number of idle channels currently occupying edge computing gateway equipment, acquiring the occupancy rate of the current edge gateway equipment through the number of front-end user equipment/the number of idle channels, if the occupancy rate of the current edge gateway equipment is smaller than a preset low-load threshold, performing self-checking operation, if the occupancy rate of the current edge gateway equipment is larger than or equal to a preset high-load threshold, not performing self-checking operation, and if the occupancy rate of the current edge gateway equipment is larger than or equal to a preset low-load threshold and smaller than the preset high-load threshold, performing small-scale self-checking operation, wherein the load of the small-scale self-checking operation on the edge gateway equipment is smaller than the load of the self-checking operation on the edge gateway equipment, and the load of the small-scale self-checking operation on the edge gateway equipment = the total load capacity of the current edge gateway equipment-the load of the current user equipment-reserved load, so that the use experience of the front-end user equipment is not affected when the self-checking operation or the small-scale self-checking operation is performed is ensured.
When the self-checking operation unit performs self-checking operation, a self-checking operation program is operated through the edge gateway equipment, the operation speed of the edge gateway equipment during self-checking operation is counted, the operation speed is compared with a preset operation speed, an edge gateway equipment load capacity loss signal is generated if the operation speed is smaller than the preset operation speed, an edge gateway equipment load capacity normal signal is generated if the operation speed is larger than or equal to the preset operation speed, the edge gateway equipment load capacity loss signal or the edge gateway equipment load capacity normal signal is sent to the central inspection unit, and an administrator can check the signal and the specific operation speed through the central inspection unit, so that the administrator can grasp the actual operation working condition of the edge computing gateway equipment.
Embodiment four:
referring to fig. 1, the central inspection unit sends the results returned by the front end inspection unit, the rear end inspection unit and the self-inspection operation unit to the supervision and evaluation unit, and the supervision and evaluation unit analyzes the results returned by the front end inspection unit, the rear end inspection unit and the self-inspection operation unit, generates an evaluation signal according to the analysis result, and returns the evaluation signal to the central inspection unit. The supervision and evaluation unit counts front-end equipment abnormal signals, channel abnormal signals, back-end abnormal signals and edge gateway equipment load capacity loss signals, generates an edge gateway equipment fault signal if all the signals are simultaneously generated, generates an edge gateway equipment access abnormal signal if only the front-end equipment abnormal signals, the channel abnormal signals and the back-end abnormal signals are simultaneously generated, generates an edge gateway self abnormal signal if only the edge gateway equipment load capacity loss signals are generated, generates an edge gateway equipment normal signal if any one of the signals is not generated, the actual running condition of the current edge computing gateway equipment can be generally known through the edge gateway equipment access abnormal signals, the edge gateway equipment fault signals, the edge gateway self abnormal signals and the edge gateway equipment normal signals, so that management staff can conveniently and simultaneously comprehensively know a large number of edge computing gateway equipment, and the edge computing gateway equipment with abnormality or fault is independently checked according to the overall comprehensive detection condition, thereby being beneficial to improving the overall analysis efficiency of the management staff on a large number of edge gateway equipment.
According to the invention, corresponding inspection signals are generated for different units through the central inspection unit, so that the front end connection, the rear end connection and the running state of the edge computing gateway equipment are inspected and verified, and therefore, when the edge computing gateway equipment performs self-inspection operation, a manager only needs to maintain and overhaul the edge computing gateway equipment in a targeted manner after detecting abnormal faults which cannot be remotely solved through remote inspection, the inspection efficiency is improved, and the supervision and evaluation unit comprehensively evaluates the edge computing gateway equipment, so that the manager can comprehensively understand a large number of edge computing gateway equipment at the same time, the efficiency of the manager in performing overall analysis on a large number of edge computing gateway equipment is improved, and when the edge computing gateway equipment performs self-inspection operation, the user equipment currently using the edge computing gateway equipment is analyzed, so that the use of the user equipment is not influenced due to occupation of a self-inspection operation program, and the use experience of the edge computing gateway equipment of a front end user is ensured.
The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.
Claims (7)
1. The remote inspection system of the edge computing gateway equipment is characterized by comprising a central inspection unit, a front end inspection unit, a rear end inspection unit, a self-inspection operation unit and a supervision and evaluation unit, wherein the supervision and evaluation unit is used for generating a remote inspection signal and sending the remote inspection signal to the central inspection unit, and the central inspection unit generates a front end inspection signal, a rear end inspection signal and a self-inspection operation signal after receiving the remote inspection signal and respectively sends the signals to the front end inspection unit, the rear end inspection unit and the self-inspection operation unit;
after the front end checking unit receives the front end checking signal, the front end checking unit performs front end operation checking on the edge gateway computing equipment, acquires front end operation checking information, wherein the front end operation checking information comprises front end user equipment parameters and communication channel connection parameters, the communication channel connection parameters comprise communication speed and communication stability, the front end user equipment parameters comprise front end user equipment connection quantity and front end user equipment occupation information, the front end checking unit analyzes the front end operation checking information after acquiring the front end operation checking information, generates a front end normal signal, a front end equipment abnormal signal or a channel abnormal signal according to an analysis result, and returns the front end normal signal, the front end abnormal signal or the channel abnormal signal to the central inspection unit;
the back-end checking unit receives the back-end checking signal, performs back-end operation checking on the edge gateway computing equipment, and acquires back-end operation checking information, wherein the back-end operation checking information comprises network connection speed and network connection stability, the back-end checking unit analyzes the back-end operation checking information, generates a back-end abnormal signal or a back-end normal signal according to an analysis result, and returns the back-end normal signal or the back-end abnormal signal to the central inspection unit;
the self-checking operation unit acquires current operation information of the edge gateway computing equipment after receiving the self-checking operation signal, analyzes the current operation information of the edge gateway computing equipment, judges whether self-checking operation is performed according to an analysis result, returns an operation result after the self-checking operation to the central inspection unit if the self-checking operation is performed, analyzes the current operation information if the self-checking operation cannot be performed, and returns an analysis result to the central inspection unit;
the central inspection unit sends the results returned by the front end inspection unit, the rear end inspection unit and the self-inspection operation unit to the supervision and evaluation unit, and the supervision and evaluation unit analyzes the results returned by the front end inspection unit, the rear end inspection unit and the self-inspection operation unit, generates an evaluation signal according to the analysis result and returns the evaluation signal to the central inspection unit.
2. The remote inspection system of an edge computing gateway device according to claim 1, wherein when the front-end inspection unit collects the front-end operation inspection information, the front-end inspection unit counts the connection duration of the front-end user device and records the connection duration as the occupation information of the front-end user device by sequentially sending the inspection information to all connected front-end user devices, analyzing the returned inspection information after sending the inspection information, recording the quantity of all the returned inspection information as the quantity of active user devices, counting from the sending of the inspection information, ending the counting when the inspection information is returned, calculating the communication speed by the counted duration, comparing the returned inspection information with the sent inspection information, obtaining the error rate when the inspection information is transmitted, and calculating the communication stability by the error rate when the inspection information is transmitted.
3. The remote inspection system of edge computing gateway equipment according to claim 1, wherein the front-end inspection unit compares the front-end user equipment occupation information with a preset equipment occupation time length, records the user equipment with the connection time length longer than or equal to the preset equipment occupation time length in the front-end user equipment occupation information as abnormal occupation equipment, calculates the occupation ratio of all abnormal occupation equipment in the number of active user equipment, acquires the abnormal occupation ratio, if the abnormal occupation ratio is greater than or equal to the preset abnormal ratio, generates a front-end equipment abnormal signal, calculates the number of sent inspection information and the number of returned inspection information, records the difference value between the number of sent inspection information and the number of returned inspection information as the number of dropped equipment, and if the number of dropped equipment is greater than or equal to the preset number of dropped equipment, generates the front-end equipment abnormal signal;
the front-end checking unit judges the threshold value of the communication speed and the communication stability, generates a channel abnormal signal if the communication speed is smaller than or equal to a preset communication speed standard value, generates a channel abnormal signal if the transmission error rate in the communication stability is larger than or equal to a preset transmission error upper limit value, and generates a front-end normal signal if the front-end equipment abnormal signal and the channel abnormal signal are not generated.
4. The remote inspection system of an edge computing gateway device according to claim 1, wherein when the back-end inspection unit collects back-end operation inspection information, the back-end inspection unit sends feedback information to the internet by controlling the edge computing gateway device, receives the information fed back by the feedback information, records the time of the feedback information as a network connection speed, records error characters in the feedback information as network connection stability, generates a back-end abnormal signal if the network connection speed is smaller than a preset network connection speed threshold or the network connection stability is smaller than a preset network connection stability threshold, and generates a back-end normal signal if the network connection speed is greater than or equal to the preset network connection speed threshold and the network connection stability is greater than or equal to the preset network connection stability threshold.
5. The remote inspection system of an edge computing gateway device according to claim 1, wherein the self-inspection operation unit obtains a front end user device number and an idle channel number of an edge computing gateway device currently occupied before performing the self-inspection operation, obtains a current edge gateway device occupancy rate by dividing the front end user device number by the idle channel number, performs the self-inspection operation if the current edge gateway device occupancy rate is smaller than a preset low load threshold, does not perform the self-inspection operation if the current edge gateway device occupancy rate is greater than or equal to a preset high load threshold, performs the small-scale self-inspection operation if the current edge gateway device occupancy rate is greater than or equal to a preset low load threshold and is smaller than a preset high load threshold, wherein a load of the small-scale self-inspection operation on the edge gateway device is smaller than a load of the self-inspection operation on the edge gateway device, and a load = a current edge gateway device total load capacity-current user device load-reserved load of the small-scale self-inspection operation on the edge gateway device.
6. The remote inspection system of an edge computing gateway device according to claim 1, wherein when the self-inspection operation unit performs self-inspection operation, the self-inspection operation program is run through the edge gateway device, the operation speed of the edge gateway device during self-inspection operation is counted, the operation speed is compared with a preset operation speed, if the operation speed is smaller than the preset operation speed, an edge gateway device load capacity loss signal is generated, and if the operation speed is greater than or equal to the preset operation speed, an edge gateway device load capacity normal signal is generated.
7. The remote inspection system of an edge computing gateway device according to claim 1, wherein the supervision and evaluation unit counts a front end device anomaly signal, a channel anomaly signal, a back end anomaly signal, and an edge gateway device load capacity loss signal, generates an edge gateway device fault signal if the front end device anomaly signal, the channel anomaly signal, the back end anomaly signal, and the edge gateway device load capacity loss signal occur simultaneously, generates an edge gateway device access anomaly signal if only the front end device anomaly signal, the channel anomaly signal, and the back end anomaly signal occur simultaneously, generates an edge gateway self anomaly signal if only the edge gateway device load capacity loss signal occurs, and generates an edge gateway device normal signal if any one of the front end device anomaly signal, the channel anomaly signal, the back end anomaly signal, and the edge gateway device load capacity loss signal does not occur simultaneously.
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