CN114691405A - Big data based automatic information storage inspection method - Google Patents

Abstract

The invention relates to the field of artificial intelligence, in particular to an automatic inspection method for information storage based on big data. The method comprises the following steps: receiving a command input by an administrator, converting the command into an inspection instruction and sending the inspection instruction; receiving the inspection command, processing the inspection command to generate an inspection task and sending the inspection task; receiving and executing the inspection task to obtain inspection data, comparing the inspection data with a preset reference value to generate an inspection result and sending the inspection result; receiving, analyzing and counting the inspection result to generate an inspection report, and monitoring the inspection report to judge whether an abnormal problem exists; in response to the confirmation that the routing inspection report has an abnormal problem, searching a solution for the routing inspection report with the abnormality from a database and sending the solution; the solution is received and executed to fix the exception problem. The automatic information storage inspection method based on the big data realizes automatic inspection of information storage, and improves operation and maintenance efficiency.

Description

Big data based automatic information storage inspection method

Technical Field

The invention relates to the field of artificial intelligence, in particular to an automatic inspection method for information storage based on big data.

Background

The storage of information is an important aspect of information systems, and if the information is not stored, the collected and processed information cannot be fully utilized, and meanwhile, the information is collected and processed again by consuming resources, people and objects. With the information storage, the user can be ensured to take at any time, and conditions are created for the multifunctional utilization of unit information, thereby greatly reducing the cost. Its advantages are high access speed and high data storage capacity. With the continuous progress of science and technology, the application of information storage is very wide, the information storage in life is also visible everywhere, the most common information storage in life is the storage with small capacity, in the big data era, a lot of information storage needs large capacity, the storage devices are more and more numerous when the capacity is larger, and the storage system is more complicated and complicated.

Most of the existing data storage devices and systems are patrolled manually, the safety, stability and reliability of the information storage process are guaranteed, normal operation of the information storage process can be guaranteed, but the manual patrol of the storage devices and the systems is low in efficiency and low in speed, the labor cost is high, a large amount of manpower and material resources are needed, even if a system for patrolling the storage systems or the devices is arranged on the market, the system is simple, remote patrol control cannot be achieved, the patrol state cannot be watched in real time, the patrol result cannot be fed back in time, a solution cannot be provided for the patrol problem, automatic repair cannot be achieved, the service lives of the storage devices and the systems are short, the storage is unstable, the safety performance is poor, and the failure rate is frequent.

Disclosure of Invention

In view of the above, it is necessary to provide an automatic inspection method for information storage based on big data, the method including:

receiving a command input by an administrator, converting the command into an inspection instruction and sending the inspection instruction;

receiving the inspection command, processing the inspection command to generate an inspection task and sending the inspection task;

receiving and executing the inspection task to obtain inspection data, comparing the inspection data with a preset reference value to generate an inspection result and sending the inspection result;

receiving, analyzing and counting the inspection result to generate an inspection report, and monitoring the inspection report to judge whether an abnormal problem exists;

in response to the confirmation that the routing inspection report has an abnormal problem, searching a solution for the routing inspection report with the abnormality from a database and sending the solution;

the solution is received and executed to fix the exception problem.

In some embodiments, the step of receiving a command input by an administrator, converting the command into a patrol instruction and sending the patrol instruction comprises the following steps;

an administrator logs in a manual account and a password through a client;

the administrator generates a routing inspection instruction by inputting different commands;

and transmitting and receiving the generated patrol inspection instruction.

In some embodiments, the step of receiving the inspection command, processing the inspection command to generate an inspection task and sending the inspection task comprises the following steps;

listing and reading the inspection instruction to generate an inspection task, and recording inspection time;

and sending the generated polling task.

In some embodiments, the step of receiving the inspection command, processing the inspection command to generate an inspection task and sending the inspection task further includes:

the number of cycles of the patrol is recorded.

In some embodiments, the steps of receiving and executing the inspection task to obtain inspection data, comparing the inspection data with a preset reference value to generate an inspection result, and sending the inspection result include;

executing the inspection task to generate inspection data;

reading and recording the routing inspection data;

comparing the routing inspection data with a preset reference value to generate a comparison result;

analyzing whether the polling data is normal or not according to the comparison result to generate a polling result;

and sending the generated inspection result.

In some embodiments, the step of reading and recording the patrol data comprises;

self-detection is carried out through a detection system, and software detection data are read and recorded;

the temperature, humidity and maintenance time of the information storage device are read and recorded.

In some embodiments, the receiving, analyzing and counting the inspection result to generate an inspection report, and the monitoring the inspection report to determine whether an abnormal problem exists includes;

counting the inspection result to generate an inspection report;

automatically packaging the inspection report and transmitting the inspection report to a software client of an administrator;

and reading the contents of the polling report, sending an alarm instruction when the polling report result is abnormal, and giving an alarm through a loudspeaker on the client.

In some embodiments, the step of searching a solution for the routing inspection report with the exception from the database and sending the solution in response to confirming that the routing inspection report has the exception problem comprises;

extracting problems existing in the routing inspection report;

searching a plurality of solutions from historical exception handling records in a database for the extracted problem;

evaluating the plurality of solutions to determine advantages and disadvantages of each solution and pushing each solution, solution advantages and disadvantages together to an administrator;

receiving selection operation of the plurality of solutions by an administrator to determine a target solution.

In some embodiments, the step of receiving and executing the solution to fix the problem of the anomaly comprises;

converting the target solution into a preset repair instruction, and executing the automatic repair instruction;

and manual operation repair is provided for abnormal problems of the solution which is not found.

In some embodiments, the step of receiving and executing the solution to fix the exception problem further comprises;

starting to inspect again after repairing;

and comparing the previous and subsequent polling reports to determine whether the abnormal problem is solved and feeding back the abnormal problem to the administrator.

The automatic inspection method for the information storage based on the big data has the advantages that automatic inspection control of the information storage is achieved, flexibility is high, operability is good, inspection results of the storage device can be obtained at the first time, an optimal solution can be provided based on the big data to be selected by a manager, problem finding and problem solving are effectively guaranteed, the storage device is maintained timely when problems occur, normal operation of the information storage device is guaranteed, operation and maintenance efficiency is improved, workload of operation and maintenance personnel is reduced, and inspection results are fed back timely, so that the service life of the information storage device is prolonged, and cost is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other embodiments can be obtained by using the drawings without creative efforts.

Fig. 1 is a schematic flow chart of an information storage automatic inspection method based on big data according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an automatic inspection system for information storage based on big data according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an information storage detection module 31 according to another embodiment of the present invention.

[ description of reference ]

10: an instruction issuing module;

11: a remote login module; 12: an instruction input module; 13: an instruction remote sending module; 14: an instruction remote transmission module; 15: an instruction remote receiving module;

20: a task management module;

21: a module for polling task list; 22: a polling time module; 23: a cycle inspection time module;

30: an analysis module;

31: an information storage detection module; 311: a software detection module; 312: a hardware detection module;

32: a detection data extraction module; 33: a data comparison module; 34: a data analysis module;

40: a result feedback module;

41: a patrol report forming module; 42: a routing inspection report sending module; 43: a routing inspection report transmission module; 44: a patrol report receiving module; 45: a patrol report reading module;

50: an anomaly diagnosis module;

51: a routing inspection problem extraction module; 52: a solution problem forming module; 53: a protocol analysis module; 54: an administrator confirmation module;

60: an exception handling module;

61: the system self-repairing module; 62: a manual assistance repair module; 63: and a repair result feedback module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following embodiments of the present invention are described in further detail with reference to the accompanying drawings.

It should be noted that all expressions using "first" and "second" in the embodiments of the present invention are used for distinguishing two entities with the same name but different names or different parameters, and it should be noted that "first" and "second" are merely for convenience of description and should not be construed as limitations of the embodiments of the present invention, and they are not described in any more detail in the following embodiments.

In one embodiment, referring to fig. 1, the present invention provides an automatic inspection method 100 based on big data information storage, specifically, the method includes:

step 101, receiving a command input by an administrator, converting the command into an inspection instruction and sending the inspection instruction;

102, receiving the inspection command, processing the inspection command to generate an inspection task and sending the inspection task;

103, receiving and executing the inspection task to obtain inspection data, comparing the inspection data with a preset reference value to generate an inspection result and sending the inspection result;

104, receiving, analyzing and counting the inspection result to generate an inspection report, and monitoring the inspection report to judge whether an abnormal problem exists;

step 105, in response to the fact that the routing inspection report has abnormal problems, searching a solution for the routing inspection report with the abnormality from a database and sending the solution;

step 106, receiving and executing the solution to repair the abnormal problem.

The automatic inspection method for the information storage based on the big data has the advantages that automatic inspection control of the information storage is achieved, flexibility is high, operability is good, inspection results of the storage device can be obtained at the first time, an optimal solution can be provided based on the big data to be selected by a manager, problem finding and problem solving are effectively guaranteed, the storage device is maintained timely when problems occur, normal operation of the information storage device is guaranteed, operation and maintenance efficiency is improved, workload of operation and maintenance personnel is reduced, and inspection results are fed back timely, so that the service life of the information storage device is prolonged, and cost is reduced.

In some embodiments, the foregoing step 101, receiving a command input by an administrator, converting the command into a patrol instruction, and sending the patrol instruction specifically includes;

step 1011, the administrator logs in through the client by manual account and password;

step 1012, the administrator generates a patrol inspection instruction by inputting different commands;

and 1013, transmitting and receiving the generated inspection instruction.

In some embodiments, the step 102 of receiving the inspection command, processing the inspection command to generate an inspection task, and sending the inspection task specifically includes;

step 1021, listing and reading the inspection instruction to generate an inspection task, and recording the inspection time;

and step 1022, sending the generated patrol task.

In some embodiments, the aforementioned step 102 further comprises:

step 1023, the cycle number of the polling is recorded.

In some embodiments, in step 103, the inspection task is received and executed to obtain inspection data, the inspection data is compared with a preset reference value to generate an inspection result, and the inspection result is sent to a specific device;

step 1031, executing the inspection task to generate inspection data;

step 1032, reading and recording the routing inspection data;

step 1033, comparing the routing inspection data with a preset reference value to generate a comparison result;

step 1034, analyzing whether the inspection data is normal or not according to the comparison result to generate an inspection result;

and 1035, sending the generated polling result.

In some embodiments, the step 1032 specifically includes reading and recording the inspection data;

step 10321, performing self-detection by the detection system, and reading and recording software detection data;

in step 10322, the temperature, humidity, and maintenance time of the information storage device are read and recorded.

In some embodiments, the foregoing step 104 receives, analyzes, and counts the inspection result to generate an inspection report, and monitors the inspection report to determine whether there is an abnormal problem specifically includes;

step 1041, counting the inspection result to generate an inspection report;

step 1042, automatically packaging the inspection report and transmitting the inspection report to a software client of an administrator;

and 1043, reading the contents of the polling report, sending an alarm instruction when the polling report result is abnormal, and giving an alarm through a loudspeaker on the client.

In some embodiments, in response to determining that there is an abnormal problem in the inspection report, the foregoing step 105 searches a solution for the inspection report with the abnormality from the database and sends a specific packet;

extracting problems existing in the routing inspection report;

searching a plurality of solutions from historical exception handling records in a database for the extracted problem;

evaluating the plurality of solutions to determine advantages and disadvantages of each solution and pushing each solution, solution advantages and disadvantages together to an administrator;

receiving selection operation of the plurality of solutions by an administrator to determine a target solution.

In some embodiments, in the aforementioned step 106, the step of receiving and executing the solution to fix the abnormal problem includes;

converting the target solution into a preset repair instruction, and executing the automatic repair instruction;

and manual operation repair is provided for abnormal problems of the solution which is not found.

In some embodiments, the aforementioned step 106 further comprises;

starting to inspect again after repairing;

and comparing the previous and subsequent polling reports to determine whether the abnormal problem is solved and feeding back the abnormal problem to the administrator.

In some embodiments, referring to fig. 2, the present invention further provides an automatic inspection system for storing information based on big data, where all or part of the modules in the system may be implemented by software, hardware, and a combination thereof, and the following detailed description will be given in conjunction with the functions of each module and the interaction between the modules, where the system includes:

the system comprises an instruction issuing module 10, an inspection module and a control module, wherein the instruction issuing module 10 is used for receiving an instruction input by an administrator, converting the instruction into an inspection instruction and sending the inspection instruction;

the task management module 20 is configured to receive the inspection command, process the inspection command to generate an inspection task, and send the inspection task;

the analysis module 30 is used for receiving and executing the inspection task to obtain inspection data, comparing the inspection data with a preset reference value to generate an inspection result and sending the inspection result;

the result feedback module 40 is used for receiving, analyzing and counting the inspection result to generate an inspection report, and monitoring the inspection report to judge whether an abnormal problem exists;

an anomaly diagnosis module 50, wherein the anomaly diagnosis module 50 is used for searching a solution for the inspection report with the anomaly from a database and sending the solution when the result feedback module 40 confirms that the inspection report has the anomaly problem;

an exception handling module 60, the exception handling module 60 to receive and execute the solution to fix the exception problem.

The utility model provides an above-mentioned automatic system of patrolling and examining of information storage based on big data, the realization is patrolled and examined the control automatically to information storage, the flexibility is strong, good operation, simultaneously can also obtain storage device's the result of patrolling and examining the very first time, can also provide the best solution based on big data and let the administrator select, let the discovery of problem and the solution of problem obtain effectual guarantee, make storage device in time obtain maintaining when the problem appears, guarantee information storage device's normal operating, the operation and maintenance efficiency is improved, reduce the work load of operation and maintenance personnel, thereby it is in time to prolong information storage device's life reduce cost to patrol and examine the result feedback.

In some embodiments, the instruction issuing module 10 includes: the remote login module 11, the instruction input module 12, the instruction remote sending module 13, the instruction remote transmission module 14 and the instruction remote receiving module 15;

the remote login module 11 is used for an administrator to log in a manual account and a password through a client;

the instruction input module 12 is used for an administrator to generate an inspection instruction by inputting different commands; different commands exist according to the types of the routing inspection, manual input is not needed in simple routing inspection, a command is simply issued, and for example, a certain character or character group can be used, but instructions of different levels need to be called from a database in general routing inspection, special routing inspection and the like.

The instruction remote sending module 13, the instruction remote transmission module 14 and the instruction remote receiving module 15 are used for sending, transmitting and receiving the generated inspection instruction.

In some embodiments, the task management module 20 includes: a polling task list module 21 and a polling time module 22;

the inspection task list module 21 is configured to list and read the inspection instruction to generate an inspection task, and record inspection time through the inspection time module 22.

In some embodiments, the task management module 20 further includes a cycle patrol time module 23, and the cycle patrol time module 23 is configured to record a number of cycles of patrol.

In some embodiments, the analysis module 30 includes: the information storage detection module 31, the detection data extraction module 32, the data comparison module 33 and the data analysis module 34;

the information storage detection module 31 is configured to execute the inspection task sent by the task management module 20 to generate inspection data;

the detection data extraction module 32 is configured to read and record the inspection data;

the data comparison module 33 is configured to compare the inspection data with a preset reference value to generate a comparison result;

the data analysis module 34 is used for analyzing whether the inspection data are normal or not according to the comparison result so as to generate an inspection result.

In some embodiments, please refer to fig. 3, the information storage detecting module 31 includes: a software detection module 311 and a hardware detection module 312;

the software detection module 311 is used for performing self-detection through a detection system;

the hardware detection module 312 is used for detecting the temperature, humidity and maintenance time of the information storage device.

In some embodiments, the result feedback module 40 includes: an inspection report forming module 41, an inspection report sending module 42, an inspection report transmitting module 43, an inspection report receiving module 44 and an inspection report reading module 45;

the inspection report forming module 41 is configured to count the inspection results to generate an inspection report;

the patrol inspection report sending module 42, the patrol inspection report transmitting module 43 and the patrol inspection report receiving module 44 are used for automatically packaging the patrol inspection report and transmitting the patrol inspection report to a software client of an administrator;

the patrol inspection report reading module 45 is used for reading the contents of the patrol inspection report, sending an alarm instruction when the patrol inspection report result is abnormal, and giving an alarm through a loudspeaker on the client.

In some embodiments, the anomaly diagnosis module 50 includes: a patrol problem extraction module 51, a problem solution formation module 52, a solution analysis module 53, and an administrator confirmation module 54;

the inspection problem extraction module 51 is used for extracting problems existing in the inspection report;

the solution problem forming module 52 is configured to search a plurality of solutions from historical exception handling records in a database for the extracted problem;

the solution analysis module 53 is configured to evaluate the plurality of solutions to determine advantages and disadvantages of each solution, and to push each solution, solution advantages and disadvantages together to an administrator;

in a specific implementation process, a solution can be obtained based on a previous repair example or obtained through big data query, for example, a certain repair scheme is adopted, the advantage is that the repair time is fast, the disadvantage is that the repair times are many and are all recorded in a database, and the advantage and the disadvantage carried by the solution are displayed through a scheme analysis module when the scheme is provided.

The administrator confirmation module 54 is configured to receive an administrator selection operation of the plurality of solutions to determine a target solution.

In some embodiments, the exception handling module 60 includes: a system self-repairing module 61 and a manual assistance repairing module 62;

the system self-repairing module 61 is configured to convert the target solution into a preset repairing instruction and execute the automatic repairing instruction;

the manual assistance repair module 62 is used to provide a manual repair for abnormal problems that have not been addressed to a solution.

In some embodiments, the exception handling module 60 further includes a repair result feedback module 63;

and the repair result feedback module 63 is used for starting inspection again after repair, comparing the two inspection reports before and after repair to determine whether the abnormal problem is solved and feeding back the abnormal problem to the administrator.

In some embodiments, to facilitate understanding of the technical solution of the present invention, the following describes an embodiment of the present invention in detail by taking a server as an execution subject, and details the functions of the respective modules and the interactions between the respective modules are described with reference to fig. 2 and 3, specifically, the usage and the operation principle of the system are as follows:

an administrator adopts a software client end which is operated on a server and is remotely controlled by an information storage automatic inspection system based on big data to realize an instruction issuing module 10, firstly, remote account login is carried out through a remote login module 11 on the client end, an account and a password of the administrator are input, then the software client end enters an instruction input module 12, inspection types and methods are transmitted by the instruction input module 12, then, instructions are transmitted into a task management module 20 through an instruction remote transmitting module 13, an instruction remote transmitting module 14 and an instruction remote receiving module 15, instruction tasks are subjected to list classification through an inspection task list module 21 in the task management module 20, inspection time is recorded and automatically set through an inspection time module 22 according to instruction requirements, cycle period time is also recorded and set through a cycle inspection time module 23, the task management module records and classifies inspection task instructions and executes the instructions through an analysis module 30 In the analysis module 30, the information storage detection module 31 inspects the hardware and the system of the information storage device, the hardware mainly includes the temperature, the humidity, the last maintenance time and the like of the device, the system mainly detects each control function, the system and the hardware set data in a normal state in the database, the detection data extraction module 32 extracts the data detected by the database and the information storage detection module 31, the data obtained by inspection is compared with standard data in the database through the data comparison module 33, then the data analysis module 34 analyzes the data, the analyzed result is displayed through the result feedback module 40, the inspection report forming module 41 in the result feedback module 40 counts the analyzed result to form an inspection report, and the inspection report is formed through the inspection report sending module 42, the inspection report sending module 34, the inspection report sending module and the inspection report sending module, The patrol report transmission module 43 and the patrol report receiving module 44 quickly transmit the patrol report to the software client of the administrator, and the patrol report reading module 45 reads the contents of the patrol report.

When the inspection report result is abnormal, the client sends an alarm, so that an administrator is reminded at the first time; when the polling report is not abnormal, the whole information storage system and hardware can be continuously polled according to the cycle polling time module 23 in the task management module 20, when the polling result is abnormal, the abnormal result of polling can be processed through the abnormal diagnosis module 50, the polling problem extraction module 51 in the abnormal diagnosis module 50 extracts and reads the abnormal result information, a method for solving the problem is found through big data, a plurality of better solutions are comprehensively provided through the big data and solution scheme forming module 52, then the advantages and the disadvantages of each solution are analyzed through the scheme analysis module 53, finally a manager finally confirms the scheme through the manager confirming module 54, and the manager executes the scheme through the abnormal processing module 60 after confirming, wherein the execution ways are two: the other is to solve the problem through the system self-repairing module 61, and the other is to solve the abnormal problem through the manual assisting repairing module 62 if the system self-repairing can not be completed, and after the problem is solved, the repairing effect is fed back through polling the problem again and the repairing result feedback module 63.

It should be noted that the whole inspection process includes automatic inspection execution, inspection result analysis and problem solution, the implementation process and the process of executing the scheme are recorded in the database of the automatic inspection system, and an administrator can inquire the problem with the highest failure rate through the database, so that the problem can be thoroughly solved in later maintenance.

The automatic information storage inspection system based on the big data at least has the following beneficial technical effects: (1) the server sends out a command remotely to carry out inspection control, so that the flexibility is strong, the speed is high, and the inspection types and methods can be changed; (2) the system can comprehensively inspect hardware and systems for information storage, and can provide a better solution for inspection problems based on big data, so that a manager can quickly process the problems and the inspection quality is improved; (3) the inspection state and the result fed back by inspection at each time can be observed in real time, the result is abnormal and is reminded in an alarming mode, the process and the result of inspection at each time can be stored, and the later-stage targeted evaluation and maintenance on frequently-occurring problems are facilitated.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An automatic inspection method for information storage based on big data is characterized by comprising the following steps:

receiving a command input by an administrator, converting the command into an inspection instruction and sending the inspection instruction;

receiving the inspection command, processing the inspection command to generate an inspection task and sending the inspection task;

receiving and executing the inspection task to obtain inspection data, comparing the inspection data with a preset reference value to generate an inspection result and sending the inspection result;

receiving, analyzing and counting the inspection result to generate an inspection report, and monitoring the inspection report to judge whether an abnormal problem exists;

in response to the confirmation that the routing inspection report has an abnormal problem, searching a solution for the routing inspection report with the abnormality from a database and sending the solution;

the solution is received and executed to fix the exception problem.

2. The method of claim 1, wherein the step of receiving a command input by an administrator, converting the command into a patrol instruction and transmitting the patrol instruction comprises;

an administrator logs in a manual account and a password through a client;

the administrator generates a routing inspection instruction by inputting different commands;

and transmitting and receiving the generated patrol inspection instruction.

3. The method of claim 1, wherein the step of receiving the routing inspection command, processing the routing inspection command to generate a routing inspection task, and transmitting the routing inspection task comprises;

listing and reading the inspection instruction to generate an inspection task, and recording inspection time;

and sending the generated polling task.

4. The method of claim 3, wherein the steps of receiving the routing inspection command, processing the routing inspection command to generate a routing inspection task, and transmitting further comprise:

and recording the cycle number of the inspection.

5. The method according to claim 1, wherein the step of receiving and executing the inspection task to obtain inspection data, comparing the inspection data with a preset reference value to generate an inspection result and sending the inspection result comprises;

executing the inspection task to generate inspection data;

reading and recording the routing inspection data;

comparing the routing inspection data with a preset reference value to generate a comparison result;

analyzing whether the polling data is normal or not according to the comparison result to generate a polling result;

and sending the generated polling result.

6. The method of claim 5, wherein the step of reading and recording the patrol data comprises;

self-detection is carried out through a detection system, and software detection data are read and recorded;

the temperature, humidity and maintenance time of the information storage device are read and recorded.

7. The method of claim 1, wherein the receiving and analyzing the routing inspection results to generate a routing inspection report, and the step of monitoring the routing inspection report to determine whether an abnormal problem exists includes;

counting the inspection result to generate an inspection report;

automatically packaging the inspection report and transmitting the inspection report to a software client of an administrator;

and reading the contents of the polling report, sending an alarm instruction when the polling report result is abnormal, and giving an alarm through a loudspeaker on the client.

8. The method of claim 1, wherein the step of finding a solution from a database for the patrol report with the exception and sending the solution in response to confirming that the patrol report has the exception problem comprises;

extracting problems existing in the routing inspection report;

searching a plurality of solutions from historical exception handling records in a database for the extracted problem;

evaluating the plurality of solutions to determine advantages and disadvantages of each solution and pushing each solution, solution advantages and disadvantages together to an administrator;

receiving selection operation of the plurality of solutions by an administrator to determine a target solution.

9. The method of claim 8, wherein the step of receiving and executing the solution to fix the problem of the anomaly comprises;

converting the target solution into a preset repair instruction, and executing the automatic repair instruction;

and manual operation repair is provided for abnormal problems of the solution which is not found.

10. The method of claim 9, wherein the step of receiving and executing the solution to fix the problem further comprises;

starting to inspect again after repairing;

and comparing the previous and subsequent polling reports to determine whether the abnormal problem is solved and feeding back the abnormal problem to the administrator.

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