CN117193065A - Multi-system intelligent linkage remote control method for comprehensive control platform of coal mine - Google Patents

Abstract

The invention discloses a multi-system intelligent linkage remote control method for a coal mine comprehensive management and control platform, which comprises the following steps: step one, a comprehensive control system is established; step two, establishing relevance; step three, establishing an electronic fence; step four, establishing an event processing scheme; fifthly, data analysis; step six, intelligent treatment; according to the invention, the linkage module is used for carrying out event association on various data, so that the connection between the execution ends of different subsystems is established, the intelligent linkage and unified management of different subsystems are realized, and the false alarm rate is effectively reduced by carrying out association analysis on the received data; according to the invention, the operation area of personnel is limited through the electronic fence, so that personnel management and control are enhanced, and the operation safety is improved; according to the invention, the intelligent processing module is used for automatically processing the event, and the execution end is used for remotely controlling the operation equipment, so that the problem of slow manual management response is solved, the operation safety is further improved, and meanwhile, the burden of management personnel is also reduced.

Description

Multi-system intelligent linkage remote control method for comprehensive control platform of coal mine

Technical Field

The invention relates to the technical field of comprehensive control platforms of coal mines, in particular to a multi-system intelligent linkage remote control method for a comprehensive control platform of a coal mine.

Background

In the prior art, in order to ensure the safety of the coal mining process, the real-time monitoring of each production link is realized, a large number of sensors are generally arranged in the operation equipment and the operation place to collect data, the management and control platform is utilized to perform unified management, and once the occurrence of faults is monitored, the alarm reminding can be performed immediately through the management and control platform; however, the existing management and control platform still has the following defects in practical application: firstly, the existing management and control platform often comprises a plurality of subsystems, such as safety management, production management, video monitoring, fire alarm and the like, wherein the subsystems lack linkage and are mutually independent, so that data sharing cannot be realized, the complexity of management is increased, the management efficiency is reduced, the false alarm rate of the system is higher, and the production is influenced; secondly, the comprehensive management and control platform lacks a personnel management and control function, and part of production areas have certain dangers for non-professional personnel, so that production accidents are easily caused by personnel entering by mistake; thirdly, the comprehensive management and control platform lacks intellectualization and relies on manual management, so that timely response to the processing of emergency events cannot be achieved.

Disclosure of Invention

The invention aims to provide a multi-system intelligent linkage remote control method for a coal mine comprehensive control platform, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the intelligent linkage remote control method for the coal mine comprehensive control platform comprises the following steps: step one, a comprehensive control system is established; step two, establishing relevance; step three, establishing an electronic fence; step four, establishing an event processing scheme; fifthly, data analysis; step six, intelligent treatment;

in the first step, the comprehensive control system comprises a comprehensive control platform, an execution end and a mobile end, wherein the comprehensive control platform is in communication connection with the execution ends and the mobile ends, and the comprehensive control platform comprises a data acquisition unit, a main control unit, a data storage unit and a man-machine interaction unit;

in the second step, a correlation rule between the data and the event is established by using a correlation establishing sub-module and stored in a rule base;

in the third step, an electronic fence module is utilized to divide an alarm range on the electronic map, and the alarm range is divided outside the alarm range, and the access permission is set and stored in a permission library;

in the fourth step, the processing schemes corresponding to the security events and the false alarm events are edited by using the scheme editing submodule, the execution scheme is simulated by using the scheme simulation submodule, the feasibility analysis of the scheme is carried out, the scheme passing through the feasibility analysis is stored in the scheme library, and the content of the processing scheme specifically comprises control instructions and priorities of instructions on each execution end and each mobile end;

in the fifth step, the data acquisition unit acquires production data and transmits the production data to the main control unit, and the main control unit analyzes the data and transmits an analysis result to the intelligent processing module;

in the sixth step, the intelligent processing module performs intelligent processing according to the data analysis result.

Preferably, in the first step, the main control unit establishes data connection with the data acquisition unit, the data storage unit and the man-machine interaction unit respectively, and the mobile terminal is provided with an alarm module, an emergency instruction sending module, an identity information sending module and a power module.

Preferably, the data acquisition unit comprises a sensor module, an image acquisition module and an identity recognition module, the main control unit comprises an image recognition module, a linkage module, an electronic fence module and an intelligent processing module, and the data storage unit comprises a database, a rule base, a scheme base and a permission base.

Preferably, the linkage module comprises an abnormality analysis sub-module, a relevance analysis sub-module and a relevance establishment sub-module, the electronic fence module comprises a fence warning range setting sub-module, a fence warning range setting sub-module and a permission setting sub-module, and the intelligent processing module comprises a scheme editing sub-module, a scheme simulation sub-module, a remote control sub-module and a fault recording sub-module.

Preferably, in the second step, the association rule between the data and the event includes an event commonly associated with multiple data and an event singly associated with the data, wherein the event commonly associated with the multiple data is a security event, and the event singly associated with the data is a false alarm event.

Preferably, in the third step, specifically: the fence alarm range setting sub-module is utilized to divide an alarm range on the electronic map, the fence alarm range setting sub-module is utilized to divide an alarm range outside the alarm range, the permission setting sub-module is utilized to set access permission, and the access permission is stored in the permission library.

Preferably, in the fourth step, the processing scheme for the false alarm event specifically includes: and sending the data to an error recording sub-module.

Preferably, in the fifth step, specifically: the data acquisition unit acquires production data and transmits the production data to the linkage module, wherein image information is identified by the image identification module, an identification result is transmitted to the linkage module, an anomaly analysis submodule in the linkage module analyzes the received data to judge whether the data are anomaly data, if yes, the data are transmitted to the relevance analysis submodule and stored in the database, if no, the data are directly stored in the database, and the relevance analysis submodule judges whether relevance exists among the anomaly data according to the rule base and transmits the result to the intelligent processing module.

Preferably, in the sixth step, specifically: if the relevance analysis submodule judges that the abnormal data are related, the remote control submodule calls and executes a scheme in the scheme library according to the type of the abnormal data and the relevance, if the relevance analysis submodule judges that the abnormal data are not related, the abnormal data are sent to the error recording submodule, the error recording submodule records the abnormal data, and when the recording number of the abnormal data in a set time period exceeds a threshold value, a fault signal related to a corresponding module of the data acquisition unit is sent to the man-machine interaction unit.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the linkage module is used for carrying out event association on various data, so that the connection between the execution ends of different subsystems is established, the intelligent linkage and unified management of different subsystems are realized, and the false alarm rate is effectively reduced by carrying out association analysis on the received data; according to the invention, the operation area of personnel is limited through the electronic fence, so that personnel management and control are enhanced, and the operation safety is improved; according to the invention, the intelligent processing module is used for automatically processing the event, and the execution end is used for remotely controlling the operation equipment, so that the problem of slow manual management response is solved, the operation safety is further improved, and meanwhile, the burden of management personnel is also reduced.

Drawings

FIG. 1 is a flow chart of an integrated control system of the present invention;

fig. 2 is a flow chart of the method of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2, an embodiment of the present invention is provided: the intelligent linkage remote control method for the coal mine comprehensive control platform comprises the following steps: step one, a comprehensive control system is established; step two, establishing relevance; step three, establishing an electronic fence; step four, establishing an event processing scheme; fifthly, data analysis; step six, intelligent treatment;

in the first step, the comprehensive control system comprises a comprehensive control platform, an execution end and a mobile end, wherein the comprehensive control platform is in communication connection with a plurality of execution ends and a plurality of mobile ends, the comprehensive control platform comprises a data acquisition unit, a main control unit, a data storage unit and a man-machine interaction unit, the main control unit is respectively in data connection with the data acquisition unit, the data storage unit and the man-machine interaction unit, the mobile end is provided with an alarm module, an emergency instruction sending module, an identity information sending module and a power module, the data acquisition unit comprises a sensor module, an image acquisition module and an identity recognition module, the main control unit comprises an image recognition module, a linkage module, an electronic fence module and an intelligent processing module, the data storage unit comprises a database, a rule base, a scheme base and a permission base, the linkage module comprises an abnormal analysis sub-module, a relevance analysis sub-module and a relevance establishment sub-module, the electronic fence warning range setting sub-module, the fence warning range setting sub-module and the permission setting sub-module, and the intelligent processing module comprises a scheme editing sub-module, a scheme simulation sub-module, a remote control sub-module and a fault recording sub-module;

in the second step, an association rule between the data and the event is established by using an association establishing sub-module and stored in a rule base, wherein the association rule between the data and the event comprises an event commonly associated with various data and an event singly associated with the data, the event commonly associated with the various data is a security event, and the event singly associated with the data is a false alarm event;

in the third step, the fence alarm range setting sub-module is used for dividing an alarm range on the electronic map, the fence alarm range setting sub-module is used for dividing an alarm range outside the alarm range, the permission setting sub-module is used for setting the access permission, and the access permission is stored in the permission library;

in the fourth step, the processing schemes corresponding to the security events and the false alarm events are edited by using the scheme editing submodule, the feasibility analysis of the scheme is performed by using the scheme simulation submodule to simulate the execution scheme, the scheme passing the feasibility analysis is stored in the scheme library, the content of the processing scheme specifically comprises control instructions and priorities of instructions about each execution end and each mobile end, and the processing scheme for the false alarm events specifically comprises: the data is sent to an error recording sub-module;

in the fifth step, the data acquisition unit acquires production data and transmits the production data to the main control unit, the main control unit analyzes the data and transmits an analysis result to the intelligent processing module, and the method specifically comprises the following steps: the data acquisition unit acquires production data and transmits the production data to the linkage module, wherein image information is identified by the image identification module, an identification result is transmitted to the linkage module, an anomaly analysis submodule in the linkage module analyzes the received data to judge whether the data is anomaly data, if yes, the data is transmitted to the relevance analysis submodule and stored in the database, if no, the data is directly stored in the database, and the relevance analysis submodule judges whether the anomaly data are relevant according to a rule base and transmits the result to the intelligent processing module;

in the sixth step, the intelligent processing module performs intelligent processing according to the data analysis result, if the correlation analysis submodule judges that there is a correlation between the abnormal data, the remote control submodule calls and executes a scheme in the scheme library according to the type of the abnormal data and the correlation, if the correlation analysis submodule judges that there is no correlation between the abnormal data, the abnormal data is sent to the error recording submodule, the error recording submodule records the abnormal data, and when the recording number of the abnormal data in a set time period exceeds a threshold value, a fault signal about a corresponding module of the data acquisition unit is sent to the man-machine interaction unit.

Based on the above, the comprehensive management and control platform has the advantages that when the comprehensive management and control platform is used, the comprehensive management and control platform collects data through the data collection unit, the sensor module is used for collecting equipment data, the image collection module is used for collecting image information of a monitoring area, and the identity recognition module is used for obtaining an identity recognition result for permission recognition; the method comprises the steps of carrying out data analysis and processing through a main control unit, utilizing an image recognition module to recognize image information, utilizing a linkage module to establish relevance, carrying out anomaly analysis and relevance analysis on data, utilizing an electronic fence module to carry out electronic fence area and authority setting, triggering intrusion reminding when an unauthorized mobile terminal enters a warning range, triggering intrusion alarm when the unauthorized mobile terminal enters the warning range, enabling equipment in the warning range to enter a shutdown state, avoiding personnel from being injured, utilizing an intelligent processing module to add or modify a scheme, simulating and calling the scheme, utilizing a data storage unit to store data, and utilizing a human-computer interaction unit to realize data visualization and data input; in the mobile terminal, the alarm module is used for sending alarm information, such as a security accident alarm, an intrusion electronic fence alarm and the like, the emergency instruction sending module is used for sending emergency instructions, such as a help seeking instruction, an equipment emergency stop instruction and the like, the instruction types comprise a voice instruction and a key instruction, so that personnel can save oneself and help, the identity information sending module is used for providing identity ID and position information for the comprehensive management and control platform, so that identity identification and position positioning are facilitated, and the power module is used for supplying power to the mobile terminal.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The intelligent linkage remote control method for the coal mine comprehensive control platform comprises the following steps: step one, a comprehensive control system is established; step two, establishing relevance; step three, establishing an electronic fence; step four, establishing an event processing scheme; fifthly, data analysis; step six, intelligent treatment; the method is characterized in that:

in the first step, the comprehensive control system comprises a comprehensive control platform, an execution end and a mobile end, wherein the comprehensive control platform is in communication connection with the execution ends and the mobile ends, and the comprehensive control platform comprises a data acquisition unit, a main control unit, a data storage unit and a man-machine interaction unit;

in the second step, a correlation rule between the data and the event is established by using a correlation establishing sub-module and stored in a rule base;

in the third step, an electronic fence module is utilized to divide an alarm range on the electronic map, and the alarm range is divided outside the alarm range, and the access permission is set and stored in a permission library;

in the fourth step, the processing schemes corresponding to the security events and the false alarm events are edited by using the scheme editing submodule, the execution scheme is simulated by using the scheme simulation submodule, the feasibility analysis of the scheme is carried out, the scheme passing through the feasibility analysis is stored in the scheme library, and the content of the processing scheme specifically comprises control instructions and priorities of instructions on each execution end and each mobile end;

in the fifth step, the data acquisition unit acquires production data and transmits the production data to the main control unit, and the main control unit analyzes the data and transmits an analysis result to the intelligent processing module;

in the sixth step, the intelligent processing module performs intelligent processing according to the data analysis result.

2. The intelligent linkage remote control method for the coal mine comprehensive control platform multi-system according to claim 1, which is characterized by comprising the following steps: in the first step, the main control unit respectively establishes data connection with the data acquisition unit, the data storage unit and the man-machine interaction unit, and the mobile terminal is provided with an alarm module, an emergency instruction sending module, an identity information sending module and a power module.

3. The intelligent linkage remote control method for the coal mine comprehensive control platform multi-system according to claim 2, which is characterized by comprising the following steps: the data acquisition unit comprises a sensor module, an image acquisition module and an identity recognition module, the main control unit comprises an image recognition module, a linkage module, an electronic fence module and an intelligent processing module, and the data storage unit comprises a database, a rule base, a scheme base and a permission base.

4. The intelligent linkage remote control method for the coal mine comprehensive control platform multi-system according to claim 3, which is characterized by comprising the following steps: the linkage module comprises an abnormality analysis sub-module, a relevance analysis sub-module and a relevance establishment sub-module, the electronic fence module comprises a fence warning range setting sub-module, a fence warning range setting sub-module and a permission setting sub-module, and the intelligent processing module comprises a scheme editing sub-module, a scheme simulating sub-module, a remote control sub-module and a fault recording sub-module.

5. The intelligent linkage remote control method for the coal mine comprehensive control platform multi-system according to claim 1, which is characterized by comprising the following steps: in the second step, the association rule between the data and the event includes an event commonly associated with multiple data and an event singly associated with the data, wherein the event commonly associated with the multiple data is a security event, and the event singly associated with the data is a false alarm event.

6. The intelligent linkage remote control method for the coal mine comprehensive control platform multi-system according to claim 1, which is characterized by comprising the following steps: in the third step, specifically: the fence alarm range setting sub-module is utilized to divide an alarm range on the electronic map, the fence alarm range setting sub-module is utilized to divide an alarm range outside the alarm range, the permission setting sub-module is utilized to set access permission, and the access permission is stored in the permission library.

7. The intelligent linkage remote control method for the coal mine comprehensive control platform multi-system according to claim 1, which is characterized by comprising the following steps: in the fourth step, the processing scheme for the false alarm event specifically includes: and sending the data to an error recording sub-module.

8. The intelligent linkage remote control method for the coal mine comprehensive control platform multi-system according to claim 1, which is characterized by comprising the following steps: in the fifth step, specifically: the data acquisition unit acquires production data and transmits the production data to the linkage module, wherein image information is identified by the image identification module, an identification result is transmitted to the linkage module, an anomaly analysis submodule in the linkage module analyzes the received data to judge whether the data are anomaly data, if yes, the data are transmitted to the relevance analysis submodule and stored in the database, if no, the data are directly stored in the database, and the relevance analysis submodule judges whether relevance exists among the anomaly data according to the rule base and transmits the result to the intelligent processing module.

9. The intelligent linkage remote control method for the coal mine comprehensive control platform multi-system according to claim 1, which is characterized by comprising the following steps: in the sixth step, specifically: if the relevance analysis submodule judges that the abnormal data are related, the remote control submodule calls and executes a scheme in the scheme library according to the type of the abnormal data and the relevance, if the relevance analysis submodule judges that the abnormal data are not related, the abnormal data are sent to the error recording submodule, the error recording submodule records the abnormal data, and when the recording number of the abnormal data in a set time period exceeds a threshold value, a fault signal related to a corresponding module of the data acquisition unit is sent to the man-machine interaction unit.