CN112286090A - Front-end electronic equipment fault detection and intelligent maintenance application management system - Google Patents

Abstract

The invention discloses a front-end electronic equipment fault detection and intelligent maintenance application management system, which comprises a front-end electronic equipment unit, a communication transmission equipment unit, a communication line unit, a communication transmission receiving unit and a computer management platform, wherein the front-end electronic equipment unit is used for carrying out fault detection and intelligent maintenance on the front-end electronic equipment; the communication transmission equipment unit consists of communication transmission equipment and an embedded detection assembly, the embedded detection assembly comprises a detection module, the detection module detects and processes the working state information of the front-end electronic equipment unit, detects the working state information of the front-end electronic equipment unit, transmits the working state information of the front-end electronic equipment unit to a computer management platform for analysis and processing, and the working state information comprises normal working state information and abnormal working state information. The invention can make the external field front-end electronic equipment unit analyze the fault and diagnose in the communication transmission equipment unit, so that the equipment can achieve the functions of automatically diagnosing the fault and automatically recovering.

Description

Front-end electronic equipment fault detection and intelligent maintenance application management system

Technical Field

The invention relates to the field of artificial intelligent outfield front-end electronic equipment maintenance and electronic equipment management systems, in particular to a front-end electronic equipment fault detection and intelligent maintenance application management system.

Background

The front-end electronic equipment is mainly dispersed and applied to an external field, cannot be manually managed and maintained on site in real time, and needs maintenance personnel to find out quick inspection and maintenance at the first time when the front-end electronic equipment fails to work normally in abnormal states such as dead halt or other faults, and the like, and only needs to be simply powered off and restarted for resetting when slight faults occur; in the prior art, equipment faults are difficult to find out at the first time, so that maintenance personnel cannot check the faults at the first time, and when the front-end electronic equipment has problems, the front-end electronic equipment needs to be checked and overhauled by multiple workers in multiple units and cannot be maintained in time. A large amount of manpower and physics are wasted, and the fault records of the system equipment cannot be tracked and traced. Resulting in personnel destruction or intentional concealment of system failures when equipment information is currently needed. Some working personnel operate the fault-free equipment, and some problems caused by artificially tampering the operation records cannot be recorded and tracked.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects of the prior art, the invention aims to provide a front-end electronic equipment fault detection and intelligent maintenance application management system, which is characterized in that a detection function is embedded in a communication transmission equipment unit to carry out real-time monitoring, management and automatic maintenance on the working state of the front-end electronic equipment.

The technical scheme is as follows: in order to solve the technical problems, the invention adopts the following technical scheme:

a front-end electronic equipment fault detection and intelligent maintenance application management system comprises a front-end electronic equipment unit, a communication transmission equipment unit, a communication line unit, a communication transmission receiving unit and a computer management platform; the front-end electronic equipment unit, the communication transmission equipment unit, the communication line unit, the communication transmission receiving unit and the computer management platform are sequentially connected; the communication transmission equipment unit consists of communication transmission equipment and an embedded detection assembly, the embedded detection assembly comprises a detection module, the detection module detects and processes the working state information of the front-end electronic equipment unit, detects the working state information of the front-end electronic equipment unit, transmits the working state information of the front-end electronic equipment unit to a computer management platform for analysis and processing, and the working state information comprises normal working state information and abnormal working state information.

The working principle is as follows: the invention can automatically monitor, detect, manage and maintain the working running state of the front-end electronic equipment unit, and when the embedded detection component detects that the front-end electronic equipment unit works abnormally, the front-end electronic equipment unit is reset by restarting for the first time until the working state of the front-end electronic equipment unit keeps normal running.

The embedded detection component in the communication transmission equipment unit is used for detecting and analyzing data information or working state information in an output interface of the front-end electronic equipment unit in the communication transmission equipment unit; the communication transmission equipment unit processes the function of outputting normal data information to the front-end electronic equipment unit and also has the function of judging and detecting the data information output by the front-end electronic equipment unit. The front-end electronic equipment outputs data and also outputs active working message information (the working message information comprises heartbeat signals, connection success information or data transmission information and the like when the electronic equipment works normally), the embedded detection component detects the working message information or detects passive working state information (such as connection success information and the like), then the information data is compiled into working state information, and abnormal working state information in the working state information is compiled into fault codes through software to be processed in a computer management platform. The detection method of the embedded detection component in the communication transmission equipment unit includes, but is not limited to, whether the received data is normal or not, receiving message information in the data, detecting the working state information of the front-end electronic equipment unit, detecting Link (connection success information) signals in the communication interface corresponding to the communication transmission equipment unit, detecting ACT (data transmission information) signals in the communication interface corresponding to the communication transmission equipment unit, detecting the working power supply state of the front-end electronic equipment unit corresponding to the communication transmission equipment unit, and other information data capable of detecting the working state of the front-end electronic equipment unit.

The communication interface in the communication transmission equipment unit comprises a network port, an HDMI interface, an optical interface, a serial interface, a parallel interface, a USB interface, an analog signal interface, a digital information interface, an RJ45 interface, an image interface, a power supply interface or other communication interfaces, and the communication interface is correspondingly connected with the output interface of the front-end electronic equipment unit, wherein the communication interface comprises data information communication and power supply transmission power supply connection, so that the embedded detection component in the communication transmission equipment unit can add the front-end electronic equipment unit to detect the information including work message information, successful connection information of both sides communication, data transmission information of both sides communication or power supply working state.

According to different devices and functions, the detection message information includes, but is not limited to, output signal detection, power supply working state detection, output data detection, output effect detection, connection success detection, data transmission detection, data header detection during data reception, data packet tail detection during data reception, data packet length detection or heartbeat signal detection, and other self-defined data and data rule state detection.

The communication line unit refers to a line for transmitting and receiving communication data information in electronic equipment, and includes a metal transmission line, an optical fiber, a data line, a radio wave, a microwave, a video line, a power line, a signal line, and the like.

The front-end electronic equipment unit refers to an external field electronic equipment product including, but not limited to, a computer component, a microcomputer component, a camera fill light, an electronic product controller, a power supply device, a traffic signal lamp component, a violation recording device, a communication product device, a telecommunication product device, a power supply product device, a mobile phone base station device, or an electronic product of a communication transmission equipment unit, wherein the ETC electronic license plate acquisition device and the camera in a vehicle acquisition module in an ITS are used for acquiring license plate images.

The communication transmission equipment comprises a switch, an optical switch, a router, an optical transceiver, a satellite communication product, wireless transmission transceiver, WIFI, 4G, 5G or other communication products. The three general categories of communication transmission devices include optical communication devices, wired communication devices or wireless communication transmission devices.

Preferably, the detection module detects and processes the working state information of the front-end electronic equipment unit, when the abnormal working state information of the front-end electronic equipment unit is detected, the detection result is sent to the computer management platform for analysis and processing, and the computer management platform controls the restart and reset of the front-end electronic equipment unit through the communication transmission equipment unit. The front-end electronic equipment unit can be remotely controlled to restart and reset through the computer management platform, and the normal working state is reached.

The embedded detection assembly further comprises an artificial intelligence recovery module, the embedded detection assembly detects and processes the working state information of the front-end electronic equipment unit through the detection module, when the abnormal working state information of the front-end electronic equipment unit is detected, the abnormal working state information is coded to form a fault code, the artificial intelligence recovery module correspondingly processes the fault code, the front-end electronic equipment unit is reset through automatic control restart of the artificial intelligence recovery module when the fault code appears, and the normal working state information can be output until the front-end electronic equipment unit runs in a normal state. The front-end electronic equipment unit can output normal working state information through automatic repair of the artificial intelligence recovery module, and normal state operation is achieved.

The fault code refers to abnormal working state information when the detected module of the front-end electronic equipment detects that the front-end electronic equipment unit cannot work normally, and is also abnormal working state information in the working state information; the working state information comprises power failure information, power supply working state information, port information, front-end electronic equipment working state information, communication transmission equipment working state information, embedded detection assembly working state information, communication line unit working state information, communication transmission receiving unit working state information and the like.

The artificial intelligence recovery module is characterized in that when the front-end electronic equipment unit has a fault code, the embedded detection assembly can detect and find that the front-end electronic equipment unit has a fault through the detection module, and the artificial intelligence recovery module is started to output a signal to reset the front-end electronic equipment unit, wherein the reset means that the artificial intelligence recovery module generates reset information to the front-end electronic equipment unit and the front-end electronic equipment unit is reset after being restarted, if the reset is unsuccessful, namely the front-end electronic equipment unit does not work normally, the artificial intelligence recovery module cuts off power transmission to stop supplying power, a restart interval is set to restart the power switch to supply power again until the front-end electronic equipment unit works normally again, the automatic recovery is realized to become a normal working state running function, and the automatic recovery means that the embedded detection assembly in the communication transmission equipment unit automatically detects the fault problem and can automatically recover to the normal working state; the artificial intelligence recovery module controls the hardware output port according to the human brain thinking algorithm software to realize the normal working state of the front-end electronic equipment unit again, such as power off, power supply restart and reset.

The code group means that the working state information is grouped by software and divided into normal working state information and abnormal working state information, the abnormal working state information is separately extracted and processed correspondingly, the abnormal working state information is divided into a plurality of sections according to the size of a code value, and each section represents the characteristics of the normal working state information or the abnormal working state information of a coded object.

Preferably, the detection module detects that the abnormal working state information is coded into a fault code, and after the reset processing is restarted through the artificial intelligence recovery module, the communication transmission equipment unit transmits the fault code to the computer management platform to alarm and prompt the failure of the reset starting and prompt the manual processing when the front-end electronic equipment unit is in the abnormal working state. When the artificial intelligence recovery module can not automatically recover the front-end electronic equipment unit to reach the normal working state, the computer management platform can be timely prompted to arrange artificial processing.

Preferably, the detection module comprises a power supply detection analysis module for calculating and managing power supply power or current of the front-end electronic equipment unit, comparing the current output value with a normal value, and judging the abnormal or normal working state information of the power supply output; when the detection analysis is abnormal working state information, the fault code is formed by a code group, the fault code is processed by an artificial intelligence recovery module, and the working state information is transmitted to a computer management platform for analysis and processing.

The power supply detection and analysis module is used for calculating and managing the power supply power or current of the front-end electronic equipment unit, comparing the current output value (P1) with the normal value (P) for data difference, and judging whether the power supply output is abnormal or the normal working state information is in a reasonable range or not by comparing the comparison result; wherein P1 is the current actual output power value and is also the power supply power operation value of the front-end electronic equipment unit; p is a power supply power operation value of the front-end electronic device unit in a normal state, and a value that needs to be manually configured at a current value in the normal state operation. When the absolute value P1-P is approximately equal to 0, the system operates in a normal working state; when | P1-P | > Y is in an abnormal working state, wherein Y is a power supply power operation parameter value when the front-end electronic equipment unit is in an abnormal state, a threshold value determines the parameter value according to the fault efficiency of the front-end electronic equipment unit, wherein Y is ny, n is the number of the front-end electronic equipment in the front-end electronic equipment unit in the abnormal working state, and Y is a parameter threshold value determined by the fault efficiency of single front-end electronic equipment. Y/Y/n represents the number of faults of n front-end electronic devices, so that the abnormal working state of the front-end electronic devices with power of | P1-P | > Y needs to be processed by an artificial intelligence recovery module. Where the voltage is a fixed value, the current for P and P1 corresponds to a significant value. When the artificial intelligence recovery module can not enable the front-end electronic equipment unit to normally and stably operate through restarting starting processing, the communication transmission equipment unit transmits information data of the fault code to the computer management platform to prompt starting failure and need manual processing; when the front-end electronic equipment unit is automatically restarted and reset to be invalid, the detection fault code is transmitted to the computer management platform through the communication transmission equipment unit and the communication transmission receiving unit, and the computer management platform informs maintenance personnel to reach the site where the front-end electronic equipment is located at the first time for manual maintenance.

As shown in fig. 5, the number of the front-end electronic equipment units is more than one, and the communication transmission equipment units are connected in series to form a multi-stage front-end electronic equipment unit, and transmit the multi-stage working state information to the computer management platform for analysis and processing; that is to say, the front-end electronic equipment unit and the communication transmission equipment unit are correspondingly combined and connected, and the front-end electronic equipment unit and the communication transmission equipment unit at the next stage are correspondingly combined and connected, so that a plurality of groups can be continuously connected and finally connected with the communication transmission receiving unit and the computer management platform in sequence through the communication line unit.

Preferably, the front-end electronic device unit includes more than one front-end electronic device (including one front-end electronic device), each front-end electronic device is connected with a corresponding communication interface in the communication transmission device unit, the front-end electronic device outputs data information to the communication transmission device unit through the communication interface, the detection module detects the working state information of the front-end electronic device, the working state information is transmitted to the communication transmission receiving unit through the communication transmission device, the communication transmission receiving unit transmits the working state information to the computer management platform, and the computer management platform analyzes and manages the working state information of all the front-end electronic devices.

Preferably, the front-end electronic equipment outputs the working message information to the detection module for detection, real-time monitoring and management are carried out on the working state information of the front-end electronic equipment, and the detection module carries out real-time detection, monitoring and management on whether the front-end electronic equipment runs normally or not and monitors the running working state of the front-end electronic equipment; if the working message information is not detected, the detection module considers that the front-end electronic equipment works abnormally.

When the communication interface corresponding to the communication transmission equipment unit does not receive the working message information output by the front-end electronic equipment, the front-end electronic equipment unit is considered to be in a fault state, and the embedded detection component in the communication transmission equipment unit is required to restart and reset the front-end electronic equipment.

Preferably, the operating state information of each unit device in the front-end electronic device unit, the communication transmission device unit, the communication line unit and the communication transmission receiving unit forms multi-unit operating state information of different levels in a computer management platform.

The working state information is formed by coding the working state information of all the units in the communication transmission equipment unit, the communication line unit and the communication transmission receiving unit in equipment software through data when the embedded detection component in the communication transmission equipment unit detects that the working state information of the front-end electronic equipment unit, the communication transmission equipment unit, the communication line unit and the communication transmission receiving unit are coded; the working state information includes all the electronic equipment unit working state normal information and abnormal working state information.

Preferably, the computer management platform receives the working state information of the front-end electronic equipment by using the communication transmission receiving unit, and when the front-end electronic equipment is in a fault state, the artificial intelligence recovery module controls the power-off of the front-end electronic equipment to restart the computer; and when the front-end electronic equipment cannot be started, notifying maintenance management personnel to carry out field maintenance management according to the configuration number and the geographical position information of the front-end electronic equipment.

Preferably, the detection module detects the working state information of the front-end electronic equipment unit, the working state information of the communication transmission equipment unit, the working state information of the communication line unit and the working state information of the communication transmission receiving unit, and the computer management platform records and stores the working state information of all the unit equipment in real time, so that the working state information of the front-end electronic equipment is prevented from being deleted and tampered manually; and fault code output alarm display is also carried out on all unit equipment, manual quick and accurate judgment and processing are carried out, and fault code data can be recorded, stored, analyzed and processed.

The communication transmission equipment unit sends working message information during working to detect the fault of the communication transmission equipment unit or the abnormal working state information of the communication line unit; the communication transmission equipment unit outputs the working state information including the front-end electronic equipment unit or the output data and the working state information of the front-end electronic equipment. The output data of the front-end electronic equipment refers to the normal work information output of the front-end electronic equipment; for example, the video image information (H.264\ H.265 video code stream) output by the security monitoring camera is also the normal working information.

The communication transmission receiving unit is used for outputting the working state information by the front-end electronic equipment or detecting the working state information and the output data of the front-end electronic equipment, namely the normal working information, by a detection module processed by an embedded detection component in the communication transmission equipment unit. The working state information and the normal working information of the front-end electronic equipment are jointly transmitted to the communication transmission and receiving unit through the communication line unit and are output.

The communication transmission receiving unit receives and forwards the working state information detected by the detection module in the communication transmission equipment unit, and forwards the working state information to the computer management platform for data processing and analysis. The communication transmission receiving unit and the receiving device corresponding to the communication transmission device unit are, for example, a converged optical fiber receiving optical switch, a wireless communication server, an optical transceiver or an optical transceiver. The data receiving device corresponding to the front-end electronic device unit and the communication transmission device unit includes, but is not limited to, a data receiving device for receiving the working state information or the common data of the output data of the front-end electronic device and the working state information.

In the technical scheme of the application, the reset is to enable the electronic equipment to recover the normal working state again through the control signal. The method comprises the steps of turning off a power supply of the electronic equipment and turning on power supply again to restart the electronic equipment or restarting a main control chip of the electronic equipment by a reset signal and the like.

In the technical scheme, the communication transmission equipment unit is embedded in the front-end electronic equipment unit to form intelligent integrated terminal equipment.

The prior art is not mentioned in the invention.

Has the advantages that: the front-end electronic equipment fault detection and intelligent maintenance application management system can automatically analyze the fault of the front-end electronic equipment and restart the front-end electronic equipment to achieve normal operation when the front-end electronic equipment fails under the condition of no need of personnel field management, and when the front-end electronic equipment cannot automatically recover the normal working state, a computer management platform outputs and displays fault codes to the front-end electronic equipment, the fault codes are rapidly and accurately judged and processed by manpower, the fault code data can be recorded, stored and analyzed, the product fault rate and the product fault type of manufacturers and models of the front-end electronic equipment can also be analyzed and counted, and large data are provided for the manufacturers and using units to maintain and count and select products; the system can save the maintenance cost of the system equipment, improve the working efficiency of the front-end electronic equipment, can carry out data storage on the running record of the front-end electronic equipment when the electronic equipment fails, and can inquire the working state information record of the front-end electronic equipment and other related electronic equipment so as to effectively improve the running state of the whole system.

Drawings

FIG. 1 is a schematic diagram of a front-end electronic device fault detection and intelligent maintenance application management system according to the present invention;

fig. 2 is a schematic structural diagram of a communication transmission device unit;

FIG. 3 is a schematic view of an embedded detection assembly;

fig. 4 is a schematic diagram of the connection between the front-end electronic device unit component and the communication transmission device unit in embodiment 5;

fig. 5 is a schematic diagram of multistage data transmission performed by a serial communication transmission device unit according to an application embodiment.

Detailed Description

In order to better understand the present invention, the following examples are further provided to illustrate the content of the present invention, but the content of the present invention is not limited to the following examples. For those skilled in the art, other similar technical solutions can be obtained according to the present embodiment and the attached drawings without creative efforts.

Example 1

As shown in fig. 1-3, a front-end electronic device fault detection and intelligent maintenance application management system includes a front-end electronic device unit, a communication transmission device unit, a communication line unit, a communication transmission receiving unit, and a computer management platform; the front-end electronic equipment unit, the communication transmission equipment unit, the communication line unit, the communication transmission receiving unit and the computer management platform are sequentially connected; the system comprises a communication transmission equipment unit, an embedded detection assembly, a computer management platform and a communication management platform, wherein the communication transmission equipment unit consists of communication transmission equipment and the embedded detection assembly, the embedded detection assembly comprises a detection module, the detection module detects and processes working state information of a front-end electronic equipment unit, detects the working state information of the front-end electronic equipment unit, and transmits the working state information of the front-end electronic equipment unit to the computer management platform for analysis and processing, and the working state information comprises normal working state information and abnormal working state information; the detection module detects and processes the working state information of the front-end electronic equipment unit, when the abnormal working state information of the front-end electronic equipment unit is detected, the detection result is sent to the computer management platform for analysis and processing, and the computer management platform controls the restart and reset of the front-end electronic equipment unit through the communication transmission equipment unit.

The invention can automatically monitor, detect, manage and maintain the working running state of the front-end electronic equipment unit, and when the embedded detection component detects that the front-end electronic equipment unit works abnormally, the front-end electronic equipment unit is reset by restarting for the first time until the working state of the front-end electronic equipment unit keeps normal running.

Example 2

Essentially the same as in example 1, except that: the embedded detection assembly further comprises an artificial intelligence recovery module, the embedded detection assembly detects and processes the working state information of the front-end electronic equipment unit through the detection module, when the abnormal working state information of the front-end electronic equipment unit is detected, the abnormal working state information is coded to form a fault code, the artificial intelligence recovery module correspondingly processes the fault code, the front-end electronic equipment unit is reset through automatic control of the artificial intelligence recovery module when the fault code appears, and the normal working state information can be output until the front-end electronic equipment unit reaches normal state operation. The front-end electronic equipment unit can output normal working state information through automatic repair of the artificial intelligence recovery module, and normal state operation is achieved.

Example 3

Essentially the same as in example 2, except that: the detection module detects that the abnormal working state information is coded into a fault code, and after the reset processing is restarted through the artificial intelligence recovery module, the front-end electronic equipment unit transmits the fault code to the computer management platform to alarm and prompt the failure of the reset starting and prompt the manual processing when the front-end electronic equipment unit is in the abnormal working state. When the artificial intelligence recovery module can not automatically recover the front-end electronic equipment unit to reach the normal working state, the computer management platform can be timely prompted to arrange artificial processing.

Example 4

Essentially the same as in example 3, except that: the detection module comprises a power supply detection analysis module which is used for calculating and managing the power supply power or current of the front-end electronic equipment unit, comparing the current output value with the normal value and judging the abnormal or normal working state information of the power supply output; when the detection analysis is abnormal working state information, the fault code is formed by a code group, the fault code is processed by an artificial intelligence recovery module, and the working state information is transmitted to a computer management platform for analysis and processing.

Example 5

Essentially the same as in example 2, except that: as shown in fig. 4, the front-end electronic device unit includes more than one front-end electronic device, each front-end electronic device is connected to a corresponding communication interface in the communication transmission device unit, the front-end electronic device outputs data information to the communication transmission device unit through the communication interface, the detection module detects the working state information of the front-end electronic device, and transmits the working state information to the communication transmission receiving unit through the communication transmission device, the communication transmission receiving unit transmits the working state information to the computer management platform, and the computer management platform analyzes and manages the working state information of all the front-end electronic devices; the front-end electronic equipment outputs the working message information to the detection module for detection, real-time monitoring management is carried out on the working state information of the front-end electronic equipment, the detection module carries out real-time detection, monitoring and management on whether the front-end electronic equipment runs normally or not, and the running working state of the front-end electronic equipment is monitored; if the working message information is not detected, the detection module considers that the front-end electronic equipment works abnormally.

Example 6

Essentially the same as in example 3, except that: the working state information of the running of each unit device in the front-end electronic device unit, the communication transmission device unit, the communication line unit and the communication transmission receiving unit forms the working state information of different levels on the computer management platform; the computer management platform receives the working state information of the front-end electronic equipment by using the communication transmission receiving unit, and when the front-end electronic equipment is in a fault state, the artificial intelligence recovery module controls the power-off of the front-end electronic equipment to restart the computer; when the front-end electronic equipment cannot be started, notifying maintenance management personnel to carry out field maintenance management according to the configuration number and the geographical position information of the front-end electronic equipment; the detection module detects the working state information of the front-end electronic equipment unit, the working state information of the communication transmission equipment unit, the working state information of the communication line unit and the working state information of the communication transmission receiving unit, and the computer management platform records and stores the working state information of all the unit equipment in real time so as to prevent the working state information of the front-end electronic equipment from being deleted and tampered manually; and fault code output alarm display is also carried out on all unit equipment, manual quick and accurate judgment and processing are carried out, and fault code data can be recorded, stored, analyzed and processed.

The front-end electronic equipment fault detection and intelligent maintenance application management system can automatically analyze the fault of the front-end electronic equipment and restart the front-end electronic equipment to achieve normal operation when the front-end electronic equipment fails under the condition of no need of personnel field management, and when the front-end electronic equipment cannot automatically recover the normal working state, a computer management platform outputs and displays fault codes to the front-end electronic equipment, the fault codes are rapidly and accurately judged and processed by manpower, the fault code data can be recorded, stored and analyzed, the product fault rate and the product fault type of manufacturers and models of the front-end electronic equipment can also be analyzed and counted, and large data are provided for the manufacturers and using units to maintain and count and select products; the system can save the maintenance cost of the system equipment, improve the working efficiency of the front-end electronic equipment, can carry out data storage on the running record of the front-end electronic equipment when the electronic equipment fails, and can inquire the working state information record of the front-end electronic equipment and other related electronic equipment so as to effectively improve the running state of the whole system.

Application example 1:

when the front-end electronic equipment fault detection and intelligent maintenance application management system is used for road traffic management, a video monitoring camera at a road traffic intersection is the front-end electronic equipment, when the communication transmission equipment unit detects the working state information of the video monitoring camera, the information is transmitted in the optical fiber communication line through the communication transmission equipment of the switch, and is transmitted to the computer management platform through the communication transmission and receiving equipment unit in the traffic management center machine room, when the video monitoring camera cannot be in a normal working state, the communication transmission receiving equipment outputs corresponding interface data to the video monitoring camera to be abnormal, when the detection module detects that the video monitoring camera is in a fault state, the detection module sends a fault code to the artificial intelligence recovery module, and the artificial intelligence recovery module is used for powering off the video monitoring camera and restarting and resetting the video monitoring camera until the front-end electronic equipment unit can operate in a normal working state; after the artificial intelligence recovery module is reset, the front-end electronic equipment unit is still in an abnormal working state, the communication transmission equipment unit transmits the fault code to the computer management platform, and the artificial intelligence recovery module alarms to prompt that the automatic start fails and needs artificial processing; and the computer management platform informs maintenance management personnel to carry out field maintenance management according to the configuration number and the geographical position information of the front-end electronic equipment.

Application example 2

Essentially the same as in application example 1, except that: as shown in fig. 5, the communication transmission device units are in a serial connection structure, that is, the video surveillance cameras at the first intersection, the second intersection … to the nth intersection are connected to the corresponding switch communication transmission device units, the switch communication transmission device units are connected in series in the optical fiber communication line, and each front-end electronic device unit transmits the fault code to the computer management platform through the corresponding switch communication transmission device, the optical fiber communication line and the communication transmission receiving device in the traffic management center room.

Application example 3

Essentially the same as in application example 2, except that: the communication transmission equipment unit is connected in series to form a multi-stage front-end electronic equipment unit, and multi-stage working state information is transmitted to a computer management platform for analysis and processing; the whole management system comprises a plurality of areas, each area is provided with a front-end electronic equipment unit, each front-end electronic equipment unit is the same as the application embodiment 2, the front-end electronic equipment units of the plurality of areas contained in the whole management system are connected in series to form a plurality of stages of front-end electronic equipment units, and the front-end electronic equipment units are uniformly managed by a computer management platform.

Application example 4

Essentially the same as in application example 3, except that: as shown in fig. 4, there are more than one front-end electronic device units, and the communication transmission device units are connected in parallel to form multi-stage working state information of the front-end electronic device units, and the multi-stage working state information is transmitted to the computer management platform for analysis and processing; when applied to ITS intelligent traffic management, the RSU in the ETC system of the vehicle acquisition module in the highway entrance and exit toll station system is equivalent to a vehicle acquisition module for acquiring license plate information by a video camera, the vehicle-mounted OBU electronic license plate is equivalent to a common vehicle license plate, in the ETC system with a plurality of barrier gates, a plurality of vehicle collection module RSU devices are also arranged corresponding to the barrier gates, when a plurality of RSU vehicle acquisition modules are connected in parallel to form a front-end electronic equipment unit and are connected into a communication transmission equipment unit, the application comprises a plurality of driving barrier channels, each barrier channel is provided with a front-end electronic equipment vehicle acquisition module RSU equipment, each RSU equipment is connected with a communication transmission equipment unit communication interface, front-end electronic equipment of the RSU vehicle acquisition module is formed and connected in parallel to form a front-end electronic equipment unit, and data management is carried out by a computer management platform software system. When the communication transmission equipment unit detects the working state information of the RSU vehicle acquisition module, the working state information is transmitted to the communication transmission receiving equipment unit in the central machine room through the communication transmission equipment and is transmitted to the computer management platform for analysis and processing.

The above is only a preferred embodiment of the present invention, and it should be noted that: it will be apparent to those skilled in the art that the location of each facility can be adjusted without departing from the principles of the invention, and such adjustments should be considered within the scope of the invention.

Claims (10)

1. The utility model provides a front-end electronic equipment fault detection and intelligent maintenance application management system which characterized in that: the system comprises a front-end electronic equipment unit, a communication transmission equipment unit, a communication line unit, a communication transmission receiving unit and a computer management platform; the front-end electronic equipment unit, the communication transmission equipment unit, the communication line unit, the communication transmission receiving unit and the computer management platform are sequentially connected; the communication transmission equipment unit consists of communication transmission equipment and an embedded detection assembly, the embedded detection assembly comprises a detection module, the detection module detects and processes the working state information of the front-end electronic equipment unit, detects the working state information of the front-end electronic equipment unit, transmits the working state information of the front-end electronic equipment unit to a computer management platform for analysis and processing, and the working state information comprises normal working state information and abnormal working state information.

2. The front-end electronics failure detection and intelligent maintenance application management system of claim 1, wherein: the detection module detects and processes the working state information of the front-end electronic equipment unit, when the abnormal working state information of the front-end electronic equipment unit is detected, the detection result is sent to the computer management platform for analysis and processing, and the computer management platform controls the restart and reset of the front-end electronic equipment unit through the communication transmission equipment unit.

3. The front-end electronics failure detection and intelligent maintenance application management system of claim 1, wherein: the embedded detection assembly further comprises an artificial intelligence recovery module, the embedded detection assembly detects and processes the working state information of the front-end electronic equipment unit through the detection module, when the abnormal working state information of the front-end electronic equipment unit is detected, the abnormal working state information is coded to form a fault code, the artificial intelligence recovery module correspondingly processes the fault code, the front-end electronic equipment unit is enabled to reset through automatic control of the front-end electronic equipment unit by the artificial intelligence recovery module when the fault code appears, and the normal working state information can be output until the front-end electronic equipment unit can output, so that the normal working state operation is achieved.

4. The front-end electronics failure detection and intelligent maintenance application management system of claim 3, wherein: the detection module detects that the abnormal working state information is coded into a fault code, and after the reset processing is restarted through the artificial intelligent recovery module, the front-end electronic equipment unit transmits the fault code to the computer management platform to alarm and display the automatic reset failure when the front-end electronic equipment unit is in the abnormal working state, so that the manual processing is prompted.

5. The front-end electronics failure detection and intelligent maintenance application management system of any of claims 1-4, wherein: the detection module comprises a power supply detection analysis module which is used for calculating and managing the power supply power or current of the front-end electronic equipment unit, comparing the current working output value with the normal working value and judging the working state information of the working power supply which is abnormal or normal in output; when the detection analysis is abnormal working state information, the fault code is formed by a code group, the fault code is processed by an artificial intelligence recovery module, and the working state information is transmitted to a computer management platform for analysis and processing.

6. The front-end electronics failure detection and intelligent maintenance application management system of claim 5, wherein: the front-end electronic equipment unit comprises more than one front-end electronic equipment, each front-end electronic equipment is connected with a corresponding communication interface in the communication transmission equipment unit, the front-end electronic equipment outputs data information to the communication transmission equipment unit through the communication interface, the detection module detects the working state information of the front-end electronic equipment, the working state information is transmitted to the communication transmission receiving unit through the communication transmission equipment, the working state information is transmitted to the computer management platform through the communication transmission receiving unit, and the computer management platform analyzes and manages the working state information of all the front-end electronic equipment.

7. The front-end electronics failure detection and intelligent maintenance application management system of claim 6, wherein: the front-end electronic equipment outputs the working message information to the detection module for detection, real-time monitoring management is carried out on the working state information of the front-end electronic equipment, and the detection module carries out real-time detection, monitoring and management on whether the front-end electronic equipment runs normally or not and monitors the running working state of the front-end electronic equipment; if the working message information is not detected, the detection module considers that the front-end electronic equipment works abnormally.

8. The front-end electronics failure detection and intelligent maintenance application management system of claim 7, wherein: the working state information of the running of each unit device in the front-end electronic device unit, the communication transmission device unit, the communication line unit and the communication transmission receiving unit forms multi-unit working state information with different levels in a computer management platform.

9. The front-end electronics failure detection and intelligent maintenance application management system of claim 8, wherein: the computer management platform receives the working state information of the front-end electronic equipment by using the communication transmission receiving unit, and when the front-end electronic equipment is in a fault state, the artificial intelligent recovery module controls the front-end electronic equipment to restart and reset; and when the front-end electronic equipment cannot be restarted and reset, notifying maintenance management personnel to carry out field maintenance management according to the configuration number and the geographical position information of the front-end electronic equipment.

10. The front-end electronics failure detection and intelligent maintenance application management system of claim 9, wherein: the detection module detects the working state information of the front-end electronic equipment unit, the working state information of the communication transmission equipment unit, the working state information of the communication line unit and the working state information of the communication transmission receiving unit, and the computer management platform records and stores the working state information of all the unit equipment in different grades in real time so as to prevent the working state information of the front-end electronic equipment from being deleted and tampered manually; and fault code output alarm display is also carried out on all unit equipment, manual quick and accurate judgment and processing are carried out, and fault code data can be recorded, stored, analyzed and processed.

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