CN113886627A - Mobile communication system based on information synchronization - Google Patents

Abstract

The invention relates to the technical field of equipment management, and particularly discloses a mobile communication system based on information synchronization, which comprises a master control end and an equipment end, wherein the master control end is used for receiving a work task input by a user and generating a work instruction list according to the work task; sending a working instruction to the equipment end according to the working instruction table, monitoring feedback information of the equipment end in real time, and unlocking the equipment lock according to the feedback information; receiving an adjusting instruction sent by a device end, and correcting a working instruction list according to the adjusting instruction; and receiving the product image collected by the monitoring end, identifying the content of the product image, positioning the defective equipment according to the content identification result, and generating a maintenance plan. According to the technical scheme, the working instruction is issued to each intelligent device, and then the information synchronization is realized by means of the device lock by receiving the feedback information of each intelligent device, so that the integrity of the system is greatly improved.

Description

Mobile communication system based on information synchronization

Technical Field

The invention relates to the technical field of equipment management, in particular to a mobile communication system based on information synchronization.

Background

With the progress of society and the development of science and technology, most of the existing production processes are finished by intelligent equipment with extremely high intelligent level, and naturally, the equipment is controlled by a central control system; since most of the intelligent devices are in motion state in the working process, the intelligent devices and the central control system together construct a mobile communication system.

In other words, in the process of issuing the work instruction, the system is a mobile communication system with asynchronous information, although the efficiency is high, the integrity is not strong, and once a certain intelligent device has a problem, the central control system can only obtain the work instruction by other modes.

Disclosure of Invention

The present invention is directed to a mobile communication system based on information synchronization to solve the above-mentioned problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a mobile communication system based on information synchronization, the system comprising:

the master control end is used for receiving a work task input by a user and generating a work instruction list according to the work task; the work instruction list comprises task items and equipment number items; sending a working instruction to the equipment end according to the working instruction table, monitoring feedback information of the equipment end in real time, and unlocking the equipment lock according to the feedback information; receiving an adjusting instruction sent by a device end, and correcting a working instruction list according to the adjusting instruction; receiving a product image acquired by a monitoring end, performing content identification on the product image, positioning problem equipment according to a content identification result, and generating a maintenance plan;

the equipment end is used for receiving the working instruction sent by the master control end and sending feedback information containing equipment numbers to the master control end; when an equipment lock opening instruction sent by a master control end is received, a control instruction is generated according to a working instruction; and opening the request acquisition port, receiving an adjustment request containing the adjustment level input by a user, generating an adjustment instruction, and sending the adjustment instruction to the master control end.

As a further limitation of the technical scheme of the invention: the total control end comprises:

the instruction list generating module is used for receiving a work task input by a user and generating a work instruction list according to the work task; the work instruction list comprises task items and equipment number items;

the equipment lock unlocking module is used for sending a working instruction to the equipment end according to the working instruction table, monitoring feedback information of the equipment end in real time and unlocking the equipment lock according to the feedback information;

the instruction list correction module is used for receiving an adjusting instruction sent by the equipment end and correcting the working instruction list according to the adjusting instruction;

and the plan generating module is used for receiving the product image acquired by the monitoring end, identifying the content of the product image, positioning the defective equipment according to the content identification result and generating an overhaul plan.

As a further limitation of the technical scheme of the invention: the device side includes:

the feedback module is used for receiving the working instruction sent by the master control end and sending feedback information containing the equipment number to the master control end;

the instruction conversion module is used for generating a control instruction according to the working instruction when receiving an equipment lock opening instruction sent by the master control end;

and the adjusting module is used for opening the request acquisition port, receiving an adjusting request containing an adjusting level input by a user, generating an adjusting instruction and sending the adjusting instruction to the master control end.

As a further limitation of the technical scheme of the invention: the plan generation module includes:

the image acquisition unit is used for determining a wave band range according to the product type, sequentially sending the wave band range to the monitoring end and receiving a product image acquired by the monitoring end according to the wave band range;

the classification unit is used for classifying the collected product images according to the wave band range to obtain a sub-image library with the wave band range as a name;

the content identification unit is used for identifying the content of the product image based on the sub-image library and acquiring the defect type and the influence level of the corresponding product;

and the processing execution unit is used for marking the corresponding equipment according to the influence level and generating a maintenance plan according to the marked equipment.

As a further limitation of the technical scheme of the invention: the content recognition unit includes:

the characteristic identification subunit is used for carrying out contour identification on the product images in the sub-image database to obtain characteristic contours;

the comparison subunit is used for comparing the characteristic outline with a reference outline corresponding to the corresponding wave band range, and determining the defect type and the corresponding defect size according to the comparison result;

the level determining subunit is used for reading the influence level of the defect type in a preset defect influence table according to the defect type and the corresponding defect size;

and the maximum value calculating subunit is used for calculating the maximum value of the corresponding influence levels of the different sub-image libraries as the influence levels of the corresponding products.

As a further limitation of the technical scheme of the invention: the plan generation module includes:

the statistical unit is used for counting the marked corresponding equipment and sequentially calculating the distance between each equipment and the overhaul room;

a starting and ending point determining unit, which is used for taking the equipment with the minimum distance with the maintenance room as an inspection starting point and taking the equipment with the maximum distance with the maintenance room as an inspection ending point;

a route generating unit for generating an inspection route based on the inspection start point and the inspection end point.

As a further limitation of the technical scheme of the invention: the route generation unit includes:

the first calculating subunit is used for reading an inspection starting point, taking the inspection starting point as a source point, taking an inspection end point as an end point, and inputting the inspection end point into a Dijkstra algorithm model to obtain a first boundary distance;

the second calculation subunit is used for reading an inspection end point, taking the inspection end point as a source point, taking the inspection starting point as an end point, and inputting the inspection starting point into a Dijkstra algorithm model to obtain a second boundary distance;

the third calculation subunit is used for taking other processing equipment as a central point, taking the central point as an end point, taking the inspection starting point and the inspection end point as source points, and inputting the source points into a Dijkstra algorithm model to obtain an inspection distance;

and the distance analysis subunit is used for determining the inspection route based on the first boundary distance, the second boundary distance and the acquired other inspection distances.

As a further limitation of the technical scheme of the invention: the total control end comprises:

the test module is used for sending test data to the request acquisition port of the equipment terminal at regular time; the test data comprises random data and instruction data, and the length of the random data is determined based on the register type of the request acquisition port;

the instruction receiving module is used for receiving an adjusting instruction generated by the equipment terminal according to the test data and generating an instruction list to be detected;

the model analysis module is used for inputting the adjusting instruction and corresponding instruction data in the instruction table to be detected into a trained association analysis model to obtain the association degree;

and the risk equipment marking module is used for marking the corresponding equipment end as risk equipment when the association degree reaches a preset association degree threshold value.

As a further limitation of the technical scheme of the invention: the adjustment module includes:

the authority determining unit is used for acquiring the face information of the user and determining the authority of the user according to the face information of the user;

the radio box generating unit is used for determining the type of the adjusting level according to the user authority and generating a radio box;

and the selection information receiving unit is used for receiving the selection information input by the user, determining an adjusting request containing an adjusting level, generating an adjusting instruction and sending the adjusting instruction to the master control terminal.

As a further limitation of the technical scheme of the invention: the master control end further comprises:

the background determining module is used for acquiring size data of the working area and generating a scene model according to a preset scale;

the dynamic point generating module is used for generating a dynamic point according to the position of the equipment end and the position data of the equipment end;

and the display module is used for inserting the dynamic point into the scene model and displaying the scene model.

Compared with the prior art, the invention has the beneficial effects that: according to the technical scheme, the working instruction is issued to each intelligent device, and then the information synchronization is realized by means of the device lock by receiving the feedback information of each intelligent device, so that the integrity of the system is greatly improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, 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.

Fig. 1 shows a block diagram of a composition structure of a master control end in a mobile communication system based on information synchronization.

Fig. 2 is a block diagram illustrating a device side component structure in a mobile communication system based on information synchronization.

Fig. 3 shows a first composition structure block diagram of the plan generation module in the master control end.

Fig. 4 is a block diagram showing the constituent structure of the content identification unit in the plan generation module.

Fig. 5 shows a second component structure block diagram of the calculation generation module in the master control end.

Fig. 6 is a block diagram showing a configuration of a route generation unit in the calculation generation module.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

In an embodiment of the present invention, there is provided a mobile communication system based on information synchronization, the system including:

the master control terminal 10 is used for receiving a work task input by a user and generating a work instruction list according to the work task; the work instruction list comprises task items and equipment number items; sending a working instruction to the equipment end according to the working instruction table, monitoring feedback information of the equipment end in real time, and unlocking the equipment lock according to the feedback information; receiving an adjusting instruction sent by a device end, and correcting a working instruction list according to the adjusting instruction; receiving a product image acquired by a monitoring end, performing content identification on the product image, positioning problem equipment according to a content identification result, and generating a maintenance plan;

the equipment end 20 is used for receiving the working instruction sent by the master control end and sending feedback information containing equipment numbers to the master control end; when an equipment lock opening instruction sent by a master control end is received, a control instruction is generated according to a working instruction; and opening the request acquisition port, receiving an adjustment request containing the adjustment level input by a user, generating an adjustment instruction, and sending the adjustment instruction to the master control end.

For example, if the application range of the technical solution of the present invention is a workshop, the master control end 10 may be understood as a central control system, and the actual installation position of the central control system is not limited, and the central control system may be installed in the workshop or in a control room far away from the workshop. The device side 20 may be hardware or software, and if the device side 20 is hardware, it may be a microprocessor installed on the processing device, and if the device side 20 is software, it may be installed on the microprocessor or directly installed in the control system of the processing device.

Fig. 1 shows a block diagram of a general control end in a mobile communication system based on information synchronization, where the general control end 10 includes:

the instruction list generating module 11 is configured to receive a work task input by a user, and generate a work instruction list according to the work task; the work instruction list comprises task items and equipment number items;

the equipment lock unlocking module 12 is used for sending a working instruction to the equipment end according to the working instruction list, monitoring feedback information of the equipment end in real time, and unlocking the equipment lock according to the feedback information;

the instruction list correction module 13 is configured to receive an adjustment instruction sent by the device side, and correct the work instruction list according to the adjustment instruction;

and the plan generating module 14 is used for receiving the product image acquired by the monitoring end, identifying the content of the product image, positioning the problem equipment according to the content identification result, and generating an overhaul plan.

The functions of the master control end 10 are refined, and the master control end 10 comprises an instruction list generating module 11, an equipment lock opening module 12, an instruction list correcting module 13 and a plan generating module 14; the purpose of the instruction list generating module 11 is to split a general task into work instructions for multiple devices, and this splitting process is often preset, because for a mature processing flow, the types of processing tasks are limited, and it is not difficult to pre-split each processing task; the device lock unlocking module 12 is configured to receive feedback information sent by the device 20, and then unlock the device lock according to the feedback information, so that the device is synchronized; the instruction list modification module 13 is a modification module on the instruction list generation module 11 and the device lock unlocking module 12; the plan generation module 14 is a security module that determines the problem equipment by means of images and then generates an inspection plan.

Fig. 2 is a block diagram illustrating a component structure of a device side in a mobile communication system based on information synchronization, wherein the device side 20 includes:

the feedback module 21 is used for receiving a working instruction sent by the master control end and sending feedback information containing equipment numbers to the master control end;

the instruction conversion module 22 is used for generating a control instruction according to the working instruction when receiving an equipment lock opening instruction sent by the master control end;

the adjusting module 23 is configured to open the request obtaining port, receive an adjusting request containing an adjusting level input by a user, generate an adjusting instruction, and send the adjusting instruction to the master control end.

The above-mentioned content provides the detailed function of the device end 20, and the function is simpler, the feedback module 21 and the instruction conversion module 22 are trigger signal modules, and the trigger source is the master control end; the adjusting module 23 converts the adjusting request containing the adjusting level input by the user into an adjusting instruction, and then sends the instruction to the overall control terminal 20.

Fig. 3 shows a first constitutional block diagram of a plan generation module in the master control end, wherein the plan generation module 14 comprises:

the image acquisition unit 141 is used for determining a wave band range according to the product type, sequentially sending the wave band range to the monitoring end, and receiving a product image acquired by the monitoring end according to the wave band range;

the classifying unit 142 is configured to classify the acquired product images according to the wave band range to obtain a sub-image library with the wave band range as a name;

the content identification unit 143 is configured to perform content identification on the product image based on the sub-image library, and acquire the defect type and the influence level of the corresponding product;

and the processing execution unit 144 is used for marking the corresponding equipment according to the influence level and generating a maintenance plan according to the marked equipment.

Firstly, determining the wave band of image acquisition according to the product type, and if the image can be acquired by using infrared light or ultraviolet light, the acquired image can reflect more details, so that the defect identification process is more accurate; the problematic products are determined, and the problematic vehicles can be determined according to the problematic products.

Fig. 4 is a block diagram showing a composition structure of a content recognition unit in the plan generation module, where the content recognition unit 143 includes:

a feature identification subunit 1431, configured to perform contour identification on the product image in the sub-image library to obtain a feature contour;

a comparison subunit 1432, configured to compare the feature profile with a reference profile corresponding to the corresponding band range, and determine a defect type and a corresponding defect size according to a comparison result;

a level determination subunit 1433, configured to read an influence level of the defect type in a preset defect influence table according to the defect type and the corresponding defect size;

and a maximum value operator unit 1434, configured to calculate a maximum value of the impact levels corresponding to different sub-image libraries, as the impact level of the corresponding product.

The content provides a specific content identification method, which comprises the steps of firstly carrying out outline identification on an image, then comparing the identified outline with a preset defect influence table, and determining the defect type and the corresponding defect size; and finally, taking the maximum value of the influence levels under different wave bands as the final influence level.

Fig. 5 shows a second constitutional block diagram of the calculation generation module in the master control end, and the plan generation module 14 includes:

the statistical unit 145 is used for counting the marked corresponding devices and sequentially calculating the distance between each device and the overhaul room;

a start/end point determining unit 146 configured to use the device having the smallest distance to the service room as an inspection start point and use the device having the largest distance to the service room as an inspection end point;

a route generating unit 147 for generating an inspection route based on the inspection start point and the inspection end point.

The above-mentioned content provides an inspection route generating method, which is essentially a basic algorithm based on graph data, and it is worth mentioning that the technical solution of the present invention relates to an inspection room besides each device, and the inspection room is generally a place for storing appliances, and it can also be a place for installing the master control end 20.

Fig. 6 is a block diagram showing a configuration of a route generation unit in the calculation generation module, and the route generation unit 147 includes:

a first calculating subunit 1471, configured to read an inspection starting point, use the inspection starting point as a source point, and input the inspection end point as an end point into a dijkstra algorithm model to obtain a first boundary distance;

a second calculating subunit 1472, configured to read an inspection end point, use the inspection end point as a source point, and input the inspection start point as an end point into the dijkstra algorithm model to obtain a second boundary distance;

a third calculation subunit 1473, configured to sequentially use other processing devices as a central point, use the central point as an end point, and input the inspection starting point and the inspection end point as source points into a dijkstra algorithm model to obtain an inspection distance;

a distance analysis subunit 1474, configured to determine the inspection route based on the first boundary distance, the second boundary distance, and the acquired other inspection distances.

The calculation process finally generates a plurality of distances, and the distances are not necessarily all the cases and only need to reach a certain number; the core function of the method is completed by the third calculation subunit 1473, an original path is divided into two paths, and then a plurality of distances are calculated.

Further, the master control end comprises:

the test module is used for sending test data to the request acquisition port of the equipment terminal at regular time; the test data comprises random data and instruction data, and the length of the random data is determined based on the register type of the request acquisition port;

the instruction receiving module is used for receiving an adjusting instruction generated by the equipment terminal according to the test data and generating an instruction list to be detected;

the model analysis module is used for inputting the adjusting instruction and corresponding instruction data in the instruction table to be detected into a trained association analysis model to obtain the association degree;

and the risk equipment marking module is used for marking the corresponding equipment end as risk equipment when the association degree reaches a preset association degree threshold value.

The above is another innovation point of the technical solution of the present invention, and it is known that the performance requirement of the device end 20 is not high, and only the most basic functions need to be satisfied, in an actual hardware architecture, a request acquisition port in the device end 20 is likely to be only a simple register or registers, the memory of the registers is very small, once the input data exceeds the storage range of the registers, the final value of the registers is important, if the input data is regular, some malicious software will generate some special "adjustment instructions" by using the rule, and the special "adjustment instructions" are likely to be instructions that attack the master control end 10.

In the technical scheme of the invention, the master control end 10 sends some test data to the equipment end 20 at regular time, the test data comprises random data and instruction data, the length of the random data is determined based on the register type of the request acquisition port, then the equipment end 20 generates ' adjusting instructions ' according to the random data and sends the adjusting instructions ' to the master control end 10, and the master control end 10 judges whether a certain relation exists between the ' adjusting instructions ' and the test data by means of a trained association analysis model; in fact, the test data and the "adjustment command" may be converted into two values according to a preset certain rule, and then the two values are used as a dependent variable and an independent variable to determine a point, and the points are subjected to regular judgment graphically. It should be noted that, in general, random data in the test data is removed, and only instruction data in the test data is retained for regular judgment.

There is a situation where the outputs of two identical inputs are identical, in other words the data generated at the device side 20 is identical for the same test data, which is in fact also unsafe, because there is the possibility that the resulting erroneous data, i.e. the "adjustment commands", can be made intentional by successive attempts.

The purpose of the above is to improve the safety, in the normal working range of the register, there will be some most basic judgments for the adjustment request input by the user, but once too much data is input, the register cannot be used normally, the corresponding judgments will no longer exist, and it is conceivable that if too much data is input, the intentional instruction will be generated, and it is a dangerous matter for the system.

Specifically, the adjusting module includes:

the authority determining unit is used for acquiring the face information of the user and determining the authority of the user according to the face information of the user;

the radio box generating unit is used for determining the type of the adjusting level according to the user authority and generating a radio box;

and the selection information receiving unit is used for receiving the selection information input by the user, determining an adjusting request containing an adjusting level, generating an adjusting instruction and sending the adjusting instruction to the master control terminal.

The adjusting module is limited by the content, and the input mode of the user is limited as a selection question, so that the convenience of user operation is improved, and the safety is improved in a phase-changing manner.

Example 2

Different from the embodiment 1, in the embodiment of the present invention, the master control end further includes:

the background determining module is used for acquiring size data of the working area and generating a scene model according to a preset scale;

the dynamic point generating module is used for generating a dynamic point according to the position of the equipment end and the position data of the equipment end;

and the display module is used for inserting the dynamic point into the scene model and displaying the scene model.

The above provides a dynamic display model that allows the user to control the state of the work area in real time.

The functions that can be realized by the above-mentioned mobile communication system based on information synchronization are all completed by a computer device, which comprises one or more processors and one or more memories, wherein at least one program code is stored in the one or more memories, and the program code is loaded and executed by the one or more processors to realize the functions of the mobile communication system based on information synchronization.

The processor fetches instructions and analyzes the instructions one by one from the memory, then completes corresponding operations according to the instruction requirements, generates a series of control commands, enables all parts of the computer to automatically, continuously and coordinately act to form an organic whole, realizes the input of programs, the input of data, the operation and the output of results, and the arithmetic operation or the logic operation generated in the process is completed by the arithmetic unit; the Memory comprises a Read-Only Memory (ROM) for storing a computer program, and a protection device is arranged outside the Memory.

Illustratively, a computer program can be partitioned into one or more modules, which are stored in memory and executed by a processor to implement the present invention. One or more of the modules may be a series of computer program instruction segments capable of performing certain functions, which are used to describe the execution of the computer program in the terminal device.

Those skilled in the art will appreciate that the above description of the service device is merely exemplary and not limiting of the terminal device, and may include more or less components than those described, or combine certain components, or different components, such as may include input output devices, network access devices, buses, etc.

The Processor may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. The general-purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is the control center of the terminal equipment and connects the various parts of the entire user terminal using various interfaces and lines.

The memory may be used to store computer programs and/or modules, and the processor may implement various functions of the terminal device by operating or executing the computer programs and/or modules stored in the memory and calling data stored in the memory. The memory mainly comprises a storage program area and a storage data area, wherein the storage program area can store an operating system, application programs (such as an information acquisition template display function, a product information publishing function and the like) required by at least one function and the like; the storage data area may store data created according to the use of the berth-state display system (e.g., product information acquisition templates corresponding to different product types, product information that needs to be issued by different product providers, etc.), and the like. In addition, the memory may include high speed random access memory, and may also include non-volatile memory, such as a hard disk, a memory, a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), at least one magnetic disk storage device, a Flash memory device, or other volatile solid state storage device.

The terminal device integrated modules/units, if implemented in the form of software functional units and sold or used as separate products, may be stored in a computer readable medium. Based on such understanding, all or part of the modules/units in the system according to the above embodiment may be implemented by a computer program, which may be stored in a computer readable medium and used by a processor to implement the functions of the embodiments of the system. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer readable medium may include: any entity or device capable of carrying computer program code, recording medium, U.S. disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-Only Memory (ROM), Random Access Memory (RAM), electrical carrier wave signals, telecommunications signals, software distribution media, and the like.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A mobile communication system based on information synchronization, the system comprising:

the master control end is used for receiving a work task input by a user and generating a work instruction list according to the work task; the work instruction list comprises task items and equipment number items; sending a working instruction to the equipment end according to the working instruction table, monitoring feedback information of the equipment end in real time, and unlocking the equipment lock according to the feedback information; receiving an adjusting instruction sent by a device end, and correcting a working instruction list according to the adjusting instruction; receiving a product image acquired by a monitoring end, performing content identification on the product image, positioning problem equipment according to a content identification result, and generating a maintenance plan;

the equipment end is used for receiving the working instruction sent by the master control end and sending feedback information containing equipment numbers to the master control end; when an equipment lock opening instruction sent by a master control end is received, a control instruction is generated according to a working instruction; and opening the request acquisition port, receiving an adjustment request containing the adjustment level input by a user, generating an adjustment instruction, and sending the adjustment instruction to the master control end.

2. The mobile communication system based on information synchronization according to claim 1, wherein the master control end comprises:

the instruction list generating module is used for receiving a work task input by a user and generating a work instruction list according to the work task; the work instruction list comprises task items and equipment number items;

the equipment lock unlocking module is used for sending a working instruction to the equipment end according to the working instruction table, monitoring feedback information of the equipment end in real time and unlocking the equipment lock according to the feedback information;

the instruction list correction module is used for receiving an adjusting instruction sent by the equipment end and correcting the working instruction list according to the adjusting instruction;

and the plan generating module is used for receiving the product image acquired by the monitoring end, identifying the content of the product image, positioning the defective equipment according to the content identification result and generating an overhaul plan.

3. The information synchronization-based mobile communication system according to claim 1, wherein the device side comprises:

the feedback module is used for receiving the working instruction sent by the master control end and sending feedback information containing the equipment number to the master control end;

the instruction conversion module is used for generating a control instruction according to the working instruction when receiving an equipment lock opening instruction sent by the master control end;

and the adjusting module is used for opening the request acquisition port, receiving an adjusting request containing an adjusting level input by a user, generating an adjusting instruction and sending the adjusting instruction to the master control end.

4. The information synchronization-based mobile communication system according to claim 2, wherein the plan generation module comprises:

the image acquisition unit is used for determining a wave band range according to the product type, sequentially sending the wave band range to the monitoring end and receiving a product image acquired by the monitoring end according to the wave band range;

the classification unit is used for classifying the collected product images according to the wave band range to obtain a sub-image library with the wave band range as a name;

the content identification unit is used for identifying the content of the product image based on the sub-image library and acquiring the defect type and the influence level of the corresponding product;

and the processing execution unit is used for marking the corresponding equipment according to the influence level and generating a maintenance plan according to the marked equipment.

5. The information synchronization-based mobile communication system according to claim 4, wherein the content identification unit comprises:

the characteristic identification subunit is used for carrying out contour identification on the product images in the sub-image database to obtain characteristic contours;

the comparison subunit is used for comparing the characteristic outline with a reference outline corresponding to the corresponding wave band range, and determining the defect type and the corresponding defect size according to the comparison result;

the level determining subunit is used for reading the influence level of the defect type in a preset defect influence table according to the defect type and the corresponding defect size;

and the maximum value calculating subunit is used for calculating the maximum value of the corresponding influence levels of the different sub-image libraries as the influence levels of the corresponding products.

6. The information synchronization-based mobile communication system according to claim 2, wherein the plan generation module comprises:

the statistical unit is used for counting the marked corresponding equipment and sequentially calculating the distance between each equipment and the overhaul room;

a starting and ending point determining unit, which is used for taking the equipment with the minimum distance with the maintenance room as an inspection starting point and taking the equipment with the maximum distance with the maintenance room as an inspection ending point;

a route generating unit for generating an inspection route based on the inspection start point and the inspection end point.

7. The information synchronization-based mobile communication system according to claim 6, wherein the route generation unit comprises:

the first calculating subunit is used for reading an inspection starting point, taking the inspection starting point as a source point, taking an inspection end point as an end point, and inputting the inspection end point into a Dijkstra algorithm model to obtain a first boundary distance;

the second calculation subunit is used for reading an inspection end point, taking the inspection end point as a source point, taking the inspection starting point as an end point, and inputting the inspection starting point into a Dijkstra algorithm model to obtain a second boundary distance;

the third calculation subunit is used for taking other processing equipment as a central point, taking the central point as an end point, taking the inspection starting point and the inspection end point as source points, and inputting the source points into a Dijkstra algorithm model to obtain an inspection distance;

and the distance analysis subunit is used for determining the inspection route based on the first boundary distance, the second boundary distance and the acquired other inspection distances.

8. The mobile communication system based on information synchronization according to claim 1, wherein the master control end comprises:

the test module is used for sending test data to the request acquisition port of the equipment terminal at regular time; the test data comprises random data and instruction data, and the length of the random data is determined based on the register type of the request acquisition port;

the instruction receiving module is used for receiving an adjusting instruction generated by the equipment terminal according to the test data and generating an instruction list to be detected;

the model analysis module is used for inputting the adjusting instruction and corresponding instruction data in the instruction table to be detected into a trained association analysis model to obtain the association degree;

and the risk equipment marking module is used for marking the corresponding equipment end as risk equipment when the association degree reaches a preset association degree threshold value.

9. The system of claim 3, wherein the adjusting module comprises:

the authority determining unit is used for acquiring the face information of the user and determining the authority of the user according to the face information of the user;

the radio box generating unit is used for determining the type of the adjusting level according to the user authority and generating a radio box;

and the selection information receiving unit is used for receiving the selection information input by the user, determining an adjusting request containing an adjusting level, generating an adjusting instruction and sending the adjusting instruction to the master control terminal.

10. The mobile communication system based on information synchronization according to any one of claims 1 to 9, wherein the master control end further comprises:

the background determining module is used for acquiring size data of the working area and generating a scene model according to a preset scale;

the dynamic point generating module is used for generating a dynamic point according to the position of the equipment end and the position data of the equipment end;

and the display module is used for inserting the dynamic point into the scene model and displaying the scene model.

Images