CN112633695A - Intelligent safety management system - Google Patents
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Abstract
The invention provides an intelligent safety management system, which comprises: the system comprises a safety management informatization platform, an inspection management subsystem and a safety state monitoring subsystem which are in communication connection with each other for data interaction; the system also comprises a safe handheld shooting WeChat platform which is in communication connection with the safe management information platform. The patrol management subsystem interacts with the safety management informatization platform to realize closed-loop management of the whole process of hidden danger; and the patrol management subsystem interacts with the safety state monitoring subsystem to form closed-loop management of the whole risk process. Through the data interaction between the safety management information platform, the patrol management subsystem and the safety state monitoring subsystem, and the data interaction between the safety management information platform and the safety random shot WeChat platform, the internal and external full-flow closed-loop management of hidden dangers and risks is formed.
Description
Technical Field
The invention belongs to the field of safety management, and relates to an intelligent safety management system for airport safety.
Background
With the continuous development of society and the increasing beautiful living needs of people, the passenger throughput in 2019 of the first airport is broken by one hundred million people, and the requirement on safety management work is continuously improved. On one hand, the existing working mode causes that the normative and the relevance of safety management are insufficient, and the closed loop for completing information-driven risk, hidden danger and problem management cannot be effectively formed; on the other hand, safety management personnel are faced with a large amount of safety information data daily, the traditional offline processing mode with more complicated processing and analysis obviously cannot meet the safety management requirements of companies, a new technical means is explored and applied, and a safety management working mode is imperative to be innovated.
The management work such as safety, operation of capital airport is in a lot of, wide in range, big characteristics, and before this system is on-line, capital airport safety management personnel still develop daily work through traditional modes such as off-line spreadsheet, paper inspection list, paper filing, have complex operation, the nonstandard, the public aperture of data is not enough scheduling problem, lack systematic scientific's technical support. The working mode is extensive, the later statistical analysis is difficult, and the management difficulty and the cost are higher. In addition, the management and control capability of background management personnel on the job-performing condition, the working quality and relevant parties of front-line personnel is limited, and macroscopic data acquisition and management decision support on situations such as safety and operation is lacked.
And the shortcomings of the first airport safety management are summarized by combining the internal and external conditions. Firstly, the system is relatively complicated and difficult to understand, and particularly for common staff, the system is often not strong in operability; secondly, the execution initiative and the execution quality of safety work of personnel at all levels are insufficient, for example, hidden danger rectification is not regularly tracked, the problem of safe random shooting is not confirmed by people for a long time, and the like; thirdly, an offline safety management mode, including information data processing and the like, wastes time and labor and has low efficiency; and fourthly, with the increase of the business volume of the enterprise, the well blowout of the safety information presentation is increased, how to effectively present and utilize the information to guide the safety management work is short of effective tools.
Disclosure of Invention
In order to solve the problems in the prior art, by means of the characteristics of timeliness, data structuring and visual visibility of information technology, the invention provides an intelligent safety management system, which provides effective support for safety management work, realizes safety data interaction, and forms full-process closed-loop management of hidden dangers, risks, safety information and the like.
The invention provides an intelligent safety management system, which comprises: the system comprises a safety management informatization platform, an inspection management subsystem and a safety state monitoring subsystem which are in communication connection with each other for data interaction;
the patrol management subsystem transmits legal self-check data, finds hidden dangers and measures implementation conditions to the safety management information platform; the safety management informatization platform sends hidden danger states, relieving measure contents and sending inspection task instructions to the inspection management subsystem;
the patrol management subsystem transmits safety data associated with the risk factors to the safety state monitoring subsystem in real time, and aims at the task execution condition of risk mitigation measures; the safety state monitoring subsystem transmits risk alarm, risk relieving measures and risk state data to the patrol management subsystem in real time;
the safety state monitoring subsystem and the safety management information platform carry out risk state and information synchronization in real time; the safety management information platform transmits hidden danger information data, risk management and control list data and event information data to the safety state monitoring subsystem in real time;
the intelligent safety management system also comprises a safety hand-shooting WeChat platform which is in communication connection with the safety management information platform and used for sending external safety information; the safety information data of the safety management information platform provides basis for safety prompt of the safe hand-shooting WeChat platform;
through the data interaction between the safety management information platform, the patrol management subsystem and the safety state monitoring subsystem, and the data interaction between the safety management information platform and the safety random shot WeChat platform, the internal and external full-flow closed-loop management of hidden dangers and risks is formed.
The invention realizes the close butt joint among the safety management informatization platform, the patrol management subsystem and the safety state monitoring subsystem, and realizes the mutual dependence of functions and the mutual sharing of data. The patrol management subsystem is used as a bottom data collection system, hidden danger data information is pushed to the safety management information platform, risk data information is pushed to the safety state monitoring subsystem, meanwhile, the safety management information platform and the safety state monitoring subsystem carry out risk state and information synchronization in real time, full-flow closed-loop management of hidden dangers and risks is formed through data interaction between the systems, full-flow closed-loop management of safety information is further created, and a capital airport safety management big data platform is constructed.
The safety information management platform is used for carding and refining to form an on-line flow of the first airport safety management line, designing a specific mechanism with operability for each element of a safety management system, developing a mobile supervision terminal and constructing the first airport safety data platform.
The patrol management subsystem of the invention utilizes intelligent information technology, innovates patrol management mode, realizes visual, flow and standard supervision of patrol activities, and standardizes and promotes the security patrol management work of capital airports.
The safety state monitoring subsystem of the invention establishes a risk monitoring index system and a safety evaluation model algorithm through the whole process tracking management of real-time monitoring of the safety state and safety risk alarm disposal, thereby realizing the digital management of the airport safety risk closed loop based on data analysis.
The safe and convenient WeChat shooting platform adopts a WeChat public platform with wide user base, good user experience, convenient and fast communication and interaction and chain type propagation effect as a medium, has wide popularization range, strong interactivity, convenient operation and pleasure participation of people, extends the safety risk identification work to each post, each flow and each corner of a capital airport, ensures that the risk report work is really realized in real time and everywhere, and provides great help for safety management personnel when each reporter pays attention to the safety risk together.
Drawings
The above and other objects, features and advantages of the present disclosure will become more apparent by describing in greater detail exemplary embodiments thereof with reference to the attached drawings, in which like reference numerals generally represent like parts throughout.
Fig. 1 is a block diagram illustrating a system configuration of an intelligent security management system according to the present invention.
Fig. 2 is a block diagram illustrating a system configuration of an intelligent security management system according to an embodiment of the present invention.
FIG. 3 is a block diagram of data interaction of an intelligent security management system according to an embodiment of the present invention.
Fig. 4 is a schematic diagram of a mobile patrol terminal patrol task interface of a patrol management subsystem according to an embodiment of the present invention.
Fig. 5 is a schematic view of an inspection monitoring module interface of an inspection management subsystem according to an embodiment of the present invention.
Fig. 6 (a) and (b) are schematic interface diagrams of a safety state monitoring subsystem according to an embodiment of the present invention.
Fig. 7 is a schematic diagram of a background management interface of a security management information platform according to an embodiment of the present invention.
Fig. 8 is a schematic diagram of a mobile monitoring terminal interface of a security management information platform according to an embodiment of the present invention.
Fig. 9 is a schematic diagram of a secure handheld WeChat platform interface according to an embodiment of the invention.
Detailed Description
Preferred embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While the preferred embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.
As shown in fig. 1, the present invention discloses an intelligent security management system, which comprises: the system comprises a safety management informatization platform, a patrol management subsystem and a safety state monitoring subsystem which are in communication connection with each other for data interaction.
The patrol management subsystem transmits legal self-check data, finds hidden dangers and measures implementation conditions to the safety management information platform; and the safety management information platform sends hidden danger states, rectification measures and inspection task initiating instructions to the inspection management subsystem.
Specifically, the patrol management subsystem interacts with the security management information platform:
and each department manager creates a patrol task in the patrol management subsystem and pushes the patrol task to a task list of a PAD mobile terminal of a front-line patrol worker. The problems found by the patrolman in the process of patrolling are filled in a check list at the PAD mobile terminal and transmitted back to the patrolling management subsystem. And each department manager judges whether the problem is a hidden danger or not, and pushes the problem judged to be the hidden danger to a safety information platform through the patrol management subsystem. A hidden danger manager can make hidden danger rectification measures aiming at hidden dangers which are put in a warehouse on a safety management information platform, and meanwhile, basic information of the hidden danger rectification measures, including hidden danger numbers, hidden danger names, hidden danger levels, rectification measures, hidden danger states and the like, is synchronized to an inspection management subsystem. And after receiving the hidden danger rectification measures, the patrol management subsystem appoints a rectification responsible person and a rectification supervising responsible person to push the measures to be implemented, and pushes the hidden danger rectification result to the safety management informatization platform. And the hidden danger manager updates the state information of the hidden danger on the safety management information platform according to the hidden danger rectification result and synchronizes to the patrol management subsystem, so that the closed-loop management of the whole process of the hidden danger is realized.
The patrol management subsystem transmits safety data associated with the risk factors to the safety state monitoring subsystem in real time, and aims at the task execution condition of the risk mitigation measures; and the safety state monitoring subsystem transmits risk alarm, risk relieving measures and risk state data to the patrol management subsystem in real time.
Specifically, the patrol management subsystem interacts with the security status monitoring subsystem:
and a line patrol worker carries out daily patrol, and the patrol result is recorded at the PAD mobile terminal and is transmitted back to the patrol management subsystem. And if the returned check item is bound with the risk factor, the backstage of the patrol management subsystem automatically synchronizes the check item bound with the risk factor to the safety state monitoring subsystem in real time. And based on the patrol result and a risk factor pushing result corresponding to the real-time monitoring result of the external monitoring system, the safety state monitoring subsystem calculates a risk value in real time, and once a risk alarm is triggered, the alarm information and the risk relieving measure are pushed back to the patrol management subsystem. After the patrol management subsystem receives the relieving measures, background management personnel push the patrol tasks to the mobile patrol terminal in a task dispatching mode, and front-line disposal personnel fill the patrol tasks and transmit the patrol tasks to the patrol pipe system background management terminal and simultaneously synchronize the patrol tasks to the safety state monitoring subsystem in real time. And the safety state monitoring subsystem calculates the risk value and the risk state in real time and feeds the risk state back to the patrol management subsystem to form closed-loop management of the whole risk process.
The safety state monitoring subsystem and the safety management information platform carry out risk state and information synchronization in real time; and the safety management information platform transmits hidden danger troubleshooting data, risk management and control list data and event data to the safety state monitoring subsystem in real time.
Specifically, the safety state monitoring subsystem and the safety management information platform perform data interaction:
hidden danger troubleshooting data, risk management and control list data and event data of the safety management informatization platform are used as a data source for risk index monitoring of the safety state monitoring subsystem and are provided for the risk state monitoring subsystem.
And forming full-flow closed-loop management of hidden dangers and risks through data interaction among the safety management information platform, the patrol management subsystem and the safety state monitoring subsystem.
As shown in fig. 2, the intelligent security management system of the present invention further includes a security snapshot WeChat platform, which is in communication connection with the security management information platform and transmits external security information.
Specifically, the safety management informatization platform is associated with a safety random-shooting WeChat background management platform and has the function of background processing of safety random-shooting problems. After receiving the submission content, the safety management information platform starts a disposal process: receiving and recording the report, rechecking the question, informing of drawing the prize, conducting rectification and rechecking, and feeding back the result. The whole flow of the random shooting activity is standardized.
By combining the popular WeChat self-media platform with the risk voluntary reporting work, the staff can find hidden dangers and report the hidden dangers to the safety management informatization platform through the handheld WeChat platform. The safe random-shooting WeChat platform enables the safe risk identification work to extend to each post, each flow and each corner of the capital airport, real time and everywhere are really achieved in the risk report work, and each reporter pays attention to the safe risk together, so that huge help is provided for safety management personnel.
As shown in fig. 3, the security management information platform includes a background management end and a mobile monitoring terminal, where the background management end includes a hidden danger risk management module. The patrol management subsystem comprises a background management end and a mobile patrol terminal, wherein the background management end comprises a task management module and a patrol monitoring module. The safety state monitoring subsystem comprises a risk monitoring module, an upper voice recognition module and a video analysis recognition module.
Specifically, as shown in fig. 3, the data interaction between the modules of the intelligent security management system of the present invention is as follows:
(1) problems found in the patrol; inspecting task execution conditions; adjusting, modifying and relieving the execution condition of measures;
(2) legal self-checking data; hidden danger data; the execution condition of the rectification measure;
(3) a patrol task instruction; hidden danger rectification measures; a hidden danger state;
(4) a patrol task; partial rectification and relief measures;
(5) a check item bound to a risk factor; a mitigation measure execution condition;
(6) a risk alarm is given; risk mitigation measures; a risk status;
(7) inspecting the position and track of a person;
(8) synchronizing risk information;
(9) security data related to risk;
(10) monitoring the required data;
(11) monitoring the result;
(12) upper voice data;
(13) video monitoring data;
(14) security information data;
(15) and reporting external information.
As shown in fig. 4, by developing a mobile APP suitable for a front-line patrol officer, a complex paper inspection list is eliminated, a mobile patrol terminal receives tasks distributed by a back-end management officer, electronic patrol is carried out, grid responsibility is fulfilled, an inspection result is returned in real time, and inspection problems are fed back.
The patrol management subsystem of the invention can customize patrol plans and automatic task distribution: based on the safety gridding duties, the management personnel can generate a patrol plan in a self-defined way at the background according to the type, time, area, frequency, ending time, patrol route, patrol point location, check sheet and executive person of the task and the corresponding gridding duties, so as to ensure that the patrol task is actually performed to the responsible person of each grid. According to the type and the area of the patrol task, a manager can draw a patrol area, select or mark patrol points and draw a patrol route on a map in a visual mode at the background.
As shown in fig. 5, the patrol monitoring module can accurately collect the position data information of the patrol personnel and return the patrol track based on a Geographic Information System (GIS) by combining an outdoor Global Positioning System (GPS) and a bluetooth positioning technology in the terminal building through a mobile communication technology. The online supervision visualization is realized through the background management end, the real-time position information and the historical track playback of the patrolman are checked in real time in two modes, the first airport safety patrol management work is standardized and promoted, the first line patrol quality and efficiency are improved, and the patrolman is ensured to arrive at the spot and carry out patrol inspection service and problem disposal work in place.
In addition, the patrol management subsystem can electronize the existing paper inspection list, the content of the paper inspection list is structured by splitting the form, and a user can freely combine the inspection content to realize the self-definition of the inspection list. According to the actual business rules, managers can customize inspection modes, paths and frequencies and carry out online electronic inspection work. Analyzing problem distribution through problem point location marks; and calibrating the position of key equipment facilities to realize rapid fault positioning. The system can also comprise modules such as a gridding general graph, a medical record type file, a statistical analysis module, a legal self-check item base, a knowledge base, a message communication module, a short message reminding module and the like. The construction and application of the patrol management subsystem utilize an intelligent information technology, innovate a patrol management mode, and simultaneously facilitate later-period companies to integrate and manage patrol inspection work to provide data bases.
As shown in fig. 6, (a) and (b) are schematic interface diagrams of a safety state monitoring subsystem according to an embodiment of the present invention, which respectively provide different forms of risk step structure diagrams, and rank according to risk factors to prompt risk information.
Specifically, in order to grasp the security state in time and develop preventive security management, the security state monitoring subsystem realizes statistics of 6 major service data information such as risk classification topology, organization structure topology, monitoring alarm, alarm handling, system monitoring, risk maps and the like, can perform trend analysis of 20 dimensions, and provides data support and decision support for company security decision.
The safety state monitoring subsystem of the invention can also comprise modules of risk maps, safety statistics, algorithm model management, mails, short message notification, monitoring alarm and the like. The safety state monitoring and risk control process is realized through an informationized means, and all levels of personnel are assisted to implement safety risk control behaviors, so that the capital airport safety management system is promoted to land more firmly. Monitoring alarm and trend analysis are carried out on various safety index states through business modeling and multidimensional big data analysis, related managers and front-line operators are prompted to control risks in time, early warning on safety risks of airports is achieved, safety situations are analyzed and predicted, and data support and decision basis are provided for safety management.
Specifically, the safety state monitoring subsystem customizes and develops a capital airport safety evaluation model algorithm. According to the rules of the algorithm and the contribution of the monitoring indexes to the consequences, the monitoring indexes are evaluated and scored according to four levels of low, medium, high and breakdown, and the safety states of all levels of organizational structures and all kinds of risks of the capital airport are calculated step by step from bottom to top. And a set of method which accords with the actual running state of the capital airport and can objectively evaluate the safety state is ensured.
Specifically, a basic security evaluation algorithm (a comprehensive evaluation method and a fuzzy membership function) is selected, the actual operation environment, the special operation environment and the security management service of the capital airport are fully considered, and the capital airport security evaluation algorithm is customized and developed. According to an evaluation algorithm rule, an evaluation rule is made for each terminal monitoring index, the contribution to the occurrence result of an unsafe event is considered, and the evaluation rules are distinguished according to four grades of low (1-3 points), medium (4-6 points), high (7-9 points) and breakdown (10 points) under different situations, wherein low risk does not need to be concerned, medium risk does not need to be concerned but relief measures are not needed, and the relief measures are adopted to reduce the index risk value by triggering and establishing an information alarm pushing mechanism aiming at the high and breakdown risks. And the system performs function and data interaction with the patrol management subsystem, automatically pushes high-risk alarm to the patrol management subsystem, performs task processing by the patrol management subsystem, relieves risks, automatically pushes relieved information back to the safety state monitoring subsystem, and performs risk calculation and real-time safety state evaluation by the safety state monitoring subsystem.
In addition, the safety state monitoring subsystem directly establishes an interface with the production operation system, data statistics and circulation transmission under a large number of lines are not needed, monitored data are updated in the safety state monitoring subsystem in real time, data support is provided for safety state monitoring and evaluation, and real-time performance and objectivity of safety state monitoring are achieved.
In order to improve the monitoring capability of the system and the automation level supported by monitoring data, an upper speech recognition analysis module is arranged. Through the real-time voice extraction, voice recognition, word translation and conversation standard comparison of the air-ground conversation of the previous operation, the real-time monitoring and alarming of the conversation normalization of the previous operation are realized. The likelihood of unsafe events that produce runway intrusions due to unplanned calls is reduced.
In addition, the safety state monitoring subsystem is internally provided with a video analysis and identification module for monitoring and analyzing typical scenes, so that the video analysis capability of safety management services is realized, and the technological capability of safety management is improved.
As shown in fig. 7, the security management information platform of the present invention may further include a plurality of modules, such as security target and performance management, hidden danger management, security supervision and inspection, and security information management. The safety management process is solidified through an informationization means, the safety management behaviors of personnel at all levels are standardized, the safety information closed-loop management process is established, the incidence relation among the services of safety information, risk and hidden danger, supervision and inspection, event investigation, safety performance, system file management and the like is perfected, the functions of efficient circulation, automatic incidence, statistical analysis and the like of the safety information are realized, the safety information closed-loop management system is effectively applied to safety supervision, event investigation and safety performance management, and risk factors are discovered and early-warning prompt is given by means of an information analysis method.
As shown in fig. 8, the safety management information platform develops the mobile terminal APP in a matching manner, so as to realize mobile supervision of the supervision personnel. Before the safety supervision personnel supervise at every turn, need not to prepare loaded down with trivial details paper inspection list again, only need carry arbitrary one install the first airport "safety tree" APP handheld terminal directly attend to the scene can. The APP supports the site to directly call data such as a hidden danger library, a dangerous source library, safety system regulations and the like, an inspection list can be directly generated, and an inspection result can be input and then transmitted back to the system in real time, so that the maneuverability and the working efficiency of safety supervision and inspection are greatly improved.
In addition, the safety management information platform aims at the consulting authority distributed by the personnel, and the safety management personnel at different levels can acquire corresponding safety information through the safety management information platform.
As shown in fig. 9, the safe handheld WeChat public number problem reporting interface includes information such as the name of a reporter, a contact manner, a problem discovery date, a discovery location, a unit or department where the problem is located, a problem description, a picture upload, an improvement suggestion, and the like, and can report the discovered problems conveniently and quickly through the public number. And the problem finding can be improved at will, for example, the object blocking the fire fighting access is removed, and the like, and the condition of the change at will is filled in.
In addition, the safe and convenient WeChat shooting platform can also carry out personnel certificate scoring and vehicle violation inquiry, and issues a safety prompt according to data provided by the safety management informatization platform.
The intelligent safety management system is a closed-loop management system of safety information, information triggering correlation functions are provided among all business processes, for example, an investigation process can be started aiming at a typical abnormal event, safety problems found in the investigation process can directly enter hidden danger management or risk management, and then the problems are thoroughly solved by continuously carrying out periodic feedback, tracking verification, upgrading and downgrading, listing supervision and the like, so that the effect of problem closed-loop is finally achieved. The intelligent safety management system of the invention fully utilizes the big data of the safety risk, drives the normal operation of the risk management work, and really combines the three elements of hazard source identification, risk assessment and risk control with the actual work.
It will be appreciated by persons skilled in the art that the above description of embodiments of the invention is intended only to illustrate the benefits of embodiments of the invention and is not intended to limit embodiments of the invention to any examples given.
Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments.
Claims (10)
1. An intelligent security management system, comprising: the system comprises a safety management informatization platform, an inspection management subsystem and a safety state monitoring subsystem which are in communication connection with each other for data interaction;
the patrol management subsystem transmits legal self-check data, finds hidden dangers and measures implementation conditions to the safety management information platform; the safety management informatization platform sends hidden danger states, relieving measure contents and sending inspection task instructions to the inspection management subsystem;
the patrol management subsystem transmits safety data associated with the risk factors to the safety state monitoring subsystem in real time, and aims at the task execution condition of risk mitigation measures; the safety state monitoring subsystem transmits risk alarm, risk relieving measures and risk state data to the patrol management subsystem in real time;
the safety state monitoring subsystem and the safety management information platform carry out risk state and information synchronization in real time; the safety management information platform transmits hidden danger information data, risk management and control list data and event information data to the safety state monitoring subsystem in real time;
the intelligent safety management system also comprises a safety hand-shooting WeChat platform which is in communication connection with the safety management information platform and used for sending external safety information; the safety information data of the safety management information platform provides basis for safety prompt of the safe hand-shooting WeChat platform;
through the data interaction between the safety management information platform, the patrol management subsystem and the safety state monitoring subsystem, and the data interaction between the safety management information platform and the safety random shot WeChat platform, the internal and external full-flow closed-loop management of hidden dangers and risks is formed.
2. The intelligent security management system according to claim 1, wherein the security management information platform comprises a background management end, and the background management end comprises a hidden danger risk management module, and is configured to receive hidden danger data, including security information sent by the security random-shooting WeChat platform and hidden danger data sent by a task management module in the patrol management system;
and the hidden danger risk management module formulates hidden danger rectification measures according to the received safety information and the hidden danger data, and sends the hidden danger rectification measures and initiates an inspection task instruction to the inspection management subsystem.
3. The intelligent security management system of claim 2, wherein the security management information platform further comprises a mobile monitoring terminal, which is in communication connection with the background management terminal of the security management information platform, and is used for supporting security monitoring personnel to call data from the background management terminal of the security management information platform on site, generate a check list on line, and return a monitoring result to the background management terminal of the security management information platform.
4. The intelligent security management system according to claim 1, wherein the patrol management subsystem comprises a background management end and a mobile patrol terminal, and the background management end comprises a task management module;
the mobile patrol terminal is used for on-line recording of problems found in the patrol process by a patrol worker and transmitting the problems back to the task management module;
and the task management module judges the problems and sends the hidden danger data to the safety management information platform.
5. The intelligent security management system according to claim 4, wherein the task management module of the background management end of the patrol management subsystem is further configured to receive hidden danger rectification measures and patrol task initiation instructions from the security management information platform, and dispatch a patrol task to the mobile patrol terminal;
the mobile patrol terminal executes a patrol task and sends patrol task execution data to the task management module, and the task management module returns the patrol task execution data to the safety management informatization platform;
and the safety management information platform judges that the hidden danger rectification measure is completely executed, closes the hidden danger flow and returns the state to the patrol management subsystem.
6. The intelligent security management system of claim 5, wherein the task management module of the patrol management subsystem is further configured to transmit the check items bound with the security risk factors to the security status monitoring subsystem in real time.
7. The intelligent security management system of claim 4, wherein the background management end of the patrol management subsystem further comprises a patrol monitoring module, which is used for collecting patrol personnel position data information in real time and recording patrol tracks.
8. The intelligent security management system of claim 1, wherein the security status monitoring subsystem comprises a risk monitoring module, and the risk monitoring module receives the security data from the patrol management subsystem, the security data from the security management informatization platform, the security data from the upper voice recognition module and the video analysis recognition module, and the business data from the production operation system;
the risk monitoring module calculates a value of the safety data, formulates a risk relieving measure aiming at the risk higher than a preset value, and sends a risk alarm and the risk relieving measure to the patrol management subsystem;
the patrol management subsystem executes the task after receiving the risk relieving measures and feeds back the task execution result to the safety state monitoring subsystem;
and after the safety state monitoring subsystem judges that the risk is eliminated, the risk process is closed and the risk state data is fed back to the patrol management subsystem.
9. The intelligent security management system of claim 8, wherein the security status monitoring subsystem further comprises a voice recognition module for receiving voice data from the production operation system, intelligently recognizing and extracting security data, and monitoring security risks.
10. The intelligent safety management system according to claim 8, wherein the safety state monitoring subsystem further comprises a video analysis and identification module for receiving monitoring video data in the production operation system and intelligently identifying and extracting safety data to monitor safety risks.
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