CN114519490A - Multi-department gridding cooperative system and method for community risk prevention - Google Patents

Abstract

The invention discloses a multi-department gridding cooperative system and a method for community risk prevention, wherein the cooperative system comprises: the system comprises an information acquisition module, a monitoring module and a control module, wherein the information acquisition module is used for monitoring and intelligently identifying potential safety hazards in communities in real time; a management center to: determining the type of the potential safety hazard and formulating a corresponding disposal flow based on the potential safety hazard information reported by the information processing module; the information and the task of the potential safety hazard are issued to all relevant departments, and multi-department cooperative processing is realized; the tasks which are not finished or do not reach the standard are redistributed; the gridding staff terminal is used for collecting the task completion conditions of all departments; and the supervision module is used for supervising the tracking and handling processes of the task completion conditions uploaded by the gridding member terminals by each department and feeding the task completion conditions back to the management center.

Description

Multi-department gridding cooperative system and method for community risk prevention

Technical Field

The invention relates to the field of community risk prevention and control, in particular to a multi-department gridding collaborative system and method for community risk prevention.

Background

Urban risk prevention and control are important contents for social governance, and elimination and prevention of various risk factors are more basic and deeper requirements for realizing public safety. The community risk management system is standing in the perspective of daunting lives, promotes public safety management work from the basic level of communities, fully plays the role of the community risk management work in emergency disaster prevention, fundamentally eliminates disasters in a bud state through scientific planning, prevention and reduction of various risk sources, reduces the possibility of community public safety events, reduces and even avoids loss, and really achieves 'prevention in the bud'. Therefore, the safety risk control of the primary community is urgent to improve quality and efficiency.

Aiming at the problems of single current community risk event handling department, unshared information, uncertain handling responsibility and the like, the efficiency of modern government management is improved by division and specialization, and the problems of division and fragmentation of department data are solved by constructing an urban public information platform, but the construction of a matching system at different levels on the administrative system of the government department is still deficient, and the community management problems of multi-element main body management lack, dislocation and offside, mass contradiction and complexity, numerous potential safety hazards and lagged exploration and verification are highlighted in the grid management.

Therefore, a multi-department gridding cooperative system for community risk prevention is expected, so that the early warning of the community risk can be accurately pushed, and a multivariate management subject can be cooperatively scheduled; the closed-loop management of 'discovery-dispatch-treatment-feedback-evaluation' is realized.

Disclosure of Invention

The invention aims to provide a multi-department gridding cooperative system and a multi-department gridding cooperative method for community risk prevention, which are used for realizing multi-department gridding cooperative disposal.

In order to achieve the above object, the present invention provides a multi-department gridding collaboration system for community risk prevention, which comprises:

the system comprises an information acquisition module, a monitoring module and a control module, wherein the information acquisition module is used for monitoring and intelligently identifying potential safety hazards in communities in real time;

a management center to: determining the type of the potential safety hazard and formulating a corresponding disposal flow based on the potential safety hazard information reported by the information processing module; the information and the task of the potential safety hazard are issued to all relevant departments, and multi-department cooperative processing is realized; the tasks which are not finished or do not reach the standard are redistributed; the gridding staff terminal is used for collecting the task completion conditions of all departments;

and the supervision module is used for supervising the tracking and handling processes of the task completion conditions uploaded by the gridding member terminals by each department and feeding the task completion conditions back to the management center.

In an alternative, the information acquisition module is specifically configured to: the potential safety hazard problem is monitored in real time according to remote sensing satellite images and city monitoring video equipment, and intelligent identification of the potential safety hazard is achieved by information extraction and image interpretation.

In an alternative scheme, the types of the potential safety hazards comprise conventional safety events and emergency emergencies, and for the conventional safety events, the management center pre-judges a principal and responsibility department and an assistance department and distributes corresponding task instructions; and for the emergency, the management center disposes according to the related emergency plan and starts a corresponding special plan.

In an alternative scheme, the system comprises a department responsibility module, wherein the part of responsibility modules store the responsibility of each department, and the management center issues corresponding tasks based on the department responsibility module.

In an alternative scheme, the management center is provided with a potential safety hazard data analysis model, and the management center determines the type of the potential safety hazard based on the potential safety hazard data analysis model.

In the alternative, each department comprises fire fighting, civil administration, water conservancy and hydropower, municipal administration, earthquake, natural resources, forestry, traffic, environmental protection, health defense and public security, and market supervision.

In an alternative scheme, the system comprises a guarantee module, and the guarantee module is used for realizing information communication and sharing among related departments.

The invention also provides a multi-department gridding cooperation method for community risk prevention, based on the system, the cooperation method comprises the following steps:

the method comprises the following steps of monitoring potential safety hazards in a community in real time and intelligently identifying the potential safety hazards through an information acquisition module;

the following steps are completed through a management center: determining the type of the potential safety hazard and formulating a corresponding disposal flow based on the potential safety hazard information reported by the information processing module; the information and the task of the potential safety hazard are issued to all relevant departments, and multi-department cooperative processing is realized; the tasks which are not finished or do not reach the standard are redistributed;

acquiring the task completion conditions of all departments through a grid member terminal;

and monitoring the tracking and handling process of the task completion condition uploaded by each department through the gridding member terminal through a monitoring module, and feeding the task completion condition back to the management center.

In an alternative scheme, the types of the potential safety hazards comprise conventional safety events and emergency emergencies, and for the conventional safety events, the management center designates a principal department and a subordinate department and distributes corresponding task instructions; and for the emergency, the management center disposes according to the related emergency plan and starts a corresponding special plan.

The invention has the beneficial effects that

The multi-department gridding cooperative system for community risk prevention intelligently identifies the potential safety hazard of a community and accurately pushes the potential safety hazard to a management center, and performs cooperative scheduling on all relevant departments; the closed-loop management of discovery-dispatch-treatment-feedback is realized. In the public security management process of the community, community safety events are reduced, economic losses caused by community resident risk events are directly reduced, the follow-up treatment is carried out afterwards, the prevention control in advance is adjusted, and the air defense cost such as manpower and material resources is greatly saved.

The present invention has other features and advantages which will be apparent from or are set forth in detail in the accompanying drawings and the following detailed description, which are incorporated herein, and which together serve to explain certain principles of the invention.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent by describing in more detail exemplary embodiments thereof with reference to the attached drawings.

Fig. 1 is a schematic structural diagram of a multi-department gridding collaborative system for community risk prevention according to an embodiment of the present invention.

Detailed Description

The present invention will be described in more detail below. While the present invention provides preferred embodiments, it should be understood that the present invention may be embodied in various forms and should not be limited by 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 invention to those skilled in the art.

An embodiment of the present invention provides a multi-department grid collaborative system for community risk prevention, and fig. 1 shows a schematic structural diagram of a multi-department grid collaborative system for community risk prevention according to an embodiment of the present invention. Referring to fig. 1, the system includes:

the system comprises an information acquisition module, a monitoring module and a control module, wherein the information acquisition module is used for monitoring and intelligently identifying potential safety hazards in communities in real time;

a management center to: determining the type of the potential safety hazard and formulating a corresponding disposal flow based on the potential safety hazard information reported by the information processing module; the information and the task of the potential safety hazard are issued to all relevant departments, and multi-department cooperative processing is realized; the tasks which are not finished or do not reach the standard are redistributed;

the gridding staff terminal is used for collecting the task completion conditions of all departments;

and the supervision module is used for supervising the tracking and handling processes of the task completion conditions uploaded by the gridding member terminals by each department and feeding the task completion conditions back to the management center.

In this embodiment, the information acquisition module is specifically configured to: the potential safety hazard problem is monitored in real time according to remote sensing satellite images and city monitoring video equipment, and intelligent identification of the potential safety hazard is achieved by information extraction and image interpretation. And intelligent identification of urban potential safety hazards is realized by using a multi-source data fusion and analysis technology.

In this embodiment, the types of the potential safety hazards include a conventional safety event and an emergency incident, and for the conventional safety event, the management center pre-judges a principal and liability department and an assistance department, and distributes a corresponding task instruction; and for the emergency, the management center disposes according to the related emergency plan and starts a corresponding special plan.

In this embodiment, the system includes a department responsibility module, where part of the responsibility modules store the responsibility of each department, and the management center issues corresponding tasks based on the department responsibility module.

In this embodiment, the management center has a potential safety hazard data analysis model, and the management center determines the type of the potential safety hazard based on the potential safety hazard data analysis model. The data analysis model is a model known in the art, and of course, the type of the potential safety hazard can be determined according to the actual situation of the site by a gridder.

In this embodiment, each department includes fire control, civil administration, water conservancy and hydropower, municipal administration, earthquake, natural resources, forestry, traffic, environmental protection, health defense and welfare commission, and market supervision.

In this embodiment, the system includes a support module, and the support module is configured to implement information communication and sharing between related departments.

The multi-department gridding cooperative system for community risk prevention intelligently identifies the potential safety hazard of a community and accurately pushes the potential safety hazard to a management center, and performs cooperative scheduling on all relevant departments; the closed-loop management of discovery-dispatch-treatment-feedback is realized. In the public security management process of the community, community safety events are reduced, economic losses caused by community resident risk events are directly reduced, the follow-up treatment is carried out afterwards, the prevention control in advance is adjusted, and the air defense cost such as manpower and material resources is greatly saved. When a community risk event occurs, peripheral resources and an influence range of the event are analyzed in real time by using data fusion and big data analysis technologies, a main department to which the event belongs is intelligently pre-judged, and the department accurately processes the event task and the analysis result according to the received event task and the analysis result, and finally multi-department gridding cooperative disposal based on data fusion result support is realized.

The multi-department gridding cooperative system for community risk prevention is mainly carried out from the following aspects:

1. basic research for community collaboration system construction

In the top-level system construction, a basic system for coordinating the responsibilities of relevant departments in a division manner is established. Making a coordination duty rule with a mandatory meaning for each department, making clear that the coordination work is the basic duty of all government departments, and defining and classifying the basic duty; setting a quantitative index system for coordination work and bringing the quantitative index system into the work examination of departments; aiming at the public management matters participated in by multiple departments, a uniform and universally applicable performance evaluation system and a subsequent reward and punishment system are formulated, so that the participated departments can obtain the coordinated income consistent with the contribution of the participated departments.

In terms of service means, various service tools are innovated, the cooperation degree of establishing a partnership with social organizations is increased, the public service function of the government is better fulfilled, and the cooperation efficiency of social services is improved.

In the business processing flow, the horizontal and vertical structures of government departments are combed, the horizontal and vertical boundary lines of the existing departments are perfected, and the cooperative processing flow of different public security events is completed through different horizontal and vertical sequences.

2. Overall design of community gridding collaborative system

Through the channel of multisource information collection, including utilizing high resolution remote sensing satellite image, city monitoring video equipment, adopt technologies such as information extraction, image interpretation, can monitor the potential safety hazard problem that the community exists fast accurately, utilize multisource data fusion and analytical technique, realize the intelligent recognition of city potential safety hazard.

After identification and extraction of community potential safety hazard information, various types of potential safety hazard information and event information are rapidly classified through a potential safety hazard data analysis model and enter a cooperative disposal stage, a system is responsible for formulating corresponding disposal processes according to different types of event potential hazards, issuing specific event potential safety hazard information and task instructions to all departments, monitoring the execution state of tasks in real time in the cooperative disposal process, and redistributing and disposing incomplete or unqualified tasks.

And each related linkage department is responsible for executing tasks or handling the hidden danger events after receiving platform task instructions, and during execution, the execution condition information is fed back to the management center through the grid operator terminal, so that information interaction among different linkage departments is realized, and finally, the high-efficiency handling of the community hidden danger events is realized.

In the process of multi-department cooperative treatment, the task cooperative mode in cross-department is mainly divided into a sequential mode, a synchronous mode, a resource sharing mode and a message mode.

Sequential mode: certain tasks of one department must be performed after certain tasks of another department are completed.

A synchronous mode: meaning that multiple departments participate together in performing the same task.

Resource sharing mode: the resource sharing mode refers to a resource sharing mode when a plurality of departments need to use the same resource when executing different tasks.

Message mode: there is message transmission in the department execution process.

3. Multi-department collaborative structural construction

1) Mechanism of formation

The most fundamental purpose of forming the mechanism is to clarify the handling work of the community security risk event and the target and responsibility of each action subject in the system, and lay a foundation for realizing the mechanism. The target responsibility system forms the core content of the mechanism.

(1) Design of mobile subject

In combination with the practical need of community security risk event co-disposal, the action subject mainly includes: government administration departments at all levels (including grid management centers, public security administration departments, other relevant administration departments, and the like), community staff, grid managers, security experts, and the like.

2) Design of principal responsibility

Community grid management center

The community grid management center is used for managing and supervising responsibilities in a multi-department cooperative system and mainly plays roles of emergency guard, information operation, comprehensive coordination, opportunistic disposal and macroscopic supervision.

② administrative departments of all levels of governments

The system mainly comprises fire control, civil administration, water conservancy and hydropower, municipal administration, earthquake, natural resources, forestry, traffic, environmental protection, health and defense committee, market supervision and other departments, and is used as a principal and subordinate department in different community security event handling systems according to the existing ownership responsibility.

Action department of responsibility: the main responsibility department is a community working department which has legal responsibility and undertakes main tasks for the construction of a disposal system of a certain public event, the drawing up of emergency measures, the guarantee organization, the disposal implementation and the like.

The action assistance department: the assistant department is a community work department which assists and cooperates with the main department to prevent and treat some public events according to the department responsibilities and work needs.

Thirdly staff

The system consists of various levels of government organization staff, community staff and the like, is responsible for the effective operation of a multi-department cooperative mechanism in a basic department, and is responsible for responsibilities of commanding, coordination, disposal and the like.

Person in mesh

The grid members are important and vital force for innovating social management at present, play an important role in the aspects of sensing, reporting, checking and the like of the hidden danger information, and are mainly responsible for the acquisition of the potential safety hazard information of the affiliated grid, the checking of the hidden danger events and the like.

Security specialist

Each department of the city government is responsible for establishing an emergency professional talent bank, forms a uniform safety expert consultant group in the whole city, and provides related suggestions for tracking the development trend of community public safety events and emergency emergencies, evaluating disposal methods and the like.

4. Operation of

The community risk prevention multi-department cooperative system mainly comprises information receiving and reporting, comprehensive decision making and department linkage among various action main bodies.

Information receiving newspaper

Accessing various community risk events and various hidden danger alarms and clues which may cause the community risk events in real time, and receiving information in real time through a gridder terminal and a system platform.

② comprehensive decision making

After the community risk alarm information is reported to the platform, the event attribute type is researched and analyzed, the conventional safety event is distributed to each business department, and the related business department acts as a main responsibility department of the event and is cooperatively disposed by combining other departments; and if the emergency is an emergency, the emergency is disposed according to the related emergency plan, and the corresponding special plan is started.

Linkage of departments

The establishment of department communication is established on the basis of the interconnection and intercommunication of the whole-city government affair data, and after the main responsibility department of the community risk event evaluates the scale of the event, the corresponding department is selected for cooperative disposal.

Processing and checking

When each department deals with the task, accessible supervise module supervision visual system checks each department's processing information, also can distribute the inspection task to the net personnel through net personnel terminal simultaneously, accomplishes the collection of on-the-spot inspection information.

5. Restriction of

The restriction is mainly embodied in the supervision and inspection of the mobile subject.

In order to clearly and intuitively monitor the cooperative disposal condition among multiple departments in the disposal process of the community risk event, the system platform mainly realizes the tracking of disposal information of each department and the monitoring of the disposal process through a visual monitoring module.

For supervision personnel of a community grid management center, the dynamics of task flows need to be controlled globally, emergency rescue task flows need to be formulated according to emergency accidents, and task execution conditions of all departments need to be supervised all the time in the emergency linkage process, namely, the flow trend. Thus, operations within their scope of authority, including query feedback, revocation, termination of tasks, completion of rescues, setup to a typical disposition scheme, etc., are provided in the tables of the task list editing environment.

6. Excitation

The method comprises the steps that a gridding cooperative management service assembly for community risk prevention is used for treating and managing each action subject in a traceable mode, and performance assessment and reward punishment of each subject are achieved.

7. Guarantee (security)

Including high-specification coordination organizations (institutions) for government functional departments and information communication and sharing among various agents.

The prior cooperative guarantee

The pre-cooperation is to define the functions and tasks of each department in the pre-preparation stage of the community risk event, form an emergency system with quick response, unified command and complete functions, and provide sufficient basic tasks for cooperation in the event.

② cooperative guarantee in affairs

The cooperative in-business is in an emergency response or cooperative disposal stage of the community risk event, and is used for uniformly commanding and scheduling emergency or hidden danger event disposal tasks by each department.

Third, after-the-fact cooperative guarantee

After the event is collaborated in the recovery stage of the community risk event, each department summarizes experience and teaching of event disposal, and as emergency flows, authority ranges and collaboration modes of all departments are different, the method solves the problem of collaborative emergency of the cross-organization, and simultaneously, except for selecting a proper collaboration mode, training, running-in and emergency resource sharing among all organizations are further enhanced in the emergency preparation stage.

8. Interaction(s)

The method is characterized in that interaction of each action subject and interaction between a disposal department and the public are reflected, and the diversified participation of urban community risk prevention is promoted through the guidance of a relevant policy mechanism, so that the participation groups of the cooperation mechanism are further enriched, and the working benefit of the cooperation mechanism is improved.

The multi-department gridding cooperative system for community risk prevention intelligently identifies the potential safety hazard of a community and accurately pushes the potential safety hazard to a management center, and performs cooperative scheduling on all relevant departments; the method realizes the closed-loop management of discovery-dispatch-treatment-feedback. In the public security management process of the community, community safety events are reduced, economic losses caused by community resident risk events are directly reduced, the follow-up treatment is carried out afterwards, the prevention control in advance is adjusted, and the air defense cost such as manpower and material resources is greatly saved.

An embodiment of the present invention further provides a multi-department gridding collaborative method for community risk prevention, based on the above system, the method includes:

the method comprises the following steps of monitoring potential safety hazards in a community in real time and intelligently identifying the potential safety hazards through an information acquisition module;

the following steps are completed through a management center: determining the type of the potential safety hazard and formulating a corresponding disposal flow based on the potential safety hazard information reported by the information processing module; the information and the task of the potential safety hazard are issued to all relevant departments, and multi-department cooperative processing is realized; the tasks which are not finished or do not reach the standard are redistributed;

collecting the task completion conditions of all departments through a gridding member terminal;

and monitoring the tracking and handling process of the task completion condition uploaded by each department through the gridding member terminal through a monitoring module, and feeding the task completion condition back to the management center.

For the specific process of the method, reference is made to the foregoing description, and details are not repeated herein.

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 (9)

1. A multi-department gridding collaborative system for community risk prevention is characterized by comprising:

the system comprises an information acquisition module, a monitoring module and a control module, wherein the information acquisition module is used for monitoring and intelligently identifying potential safety hazards in communities in real time;

a management center to: determining the type of the potential safety hazard and formulating a corresponding disposal flow based on the potential safety hazard information reported by the information processing module; the information and the task of the potential safety hazard are issued to all relevant departments, and multi-department cooperative processing is realized; the tasks which are not finished or do not reach the standard are redistributed;

the gridding staff terminal is used for collecting the task completion conditions of all departments;

and the supervision module is used for supervising the tracking and handling processes of the task completion conditions uploaded by the gridding member terminals by each department and feeding the task completion conditions back to the management center.

2. The multi-department gridding collaborative system for community risk prevention according to claim 1, wherein the system comprises a support module for implementing information communication and sharing between related departments.

3. The multi-department grid-based collaboration system for community risk prevention according to claim 1, wherein the types of the potential safety hazards include conventional security incidents and emergency incidents, and for the conventional security incidents, the management center pre-judges a principal and responsible department and an assistance department and distributes corresponding task instructions; and for the emergency, the management center disposes according to the related emergency plan and starts a corresponding special plan.

4. The system of claim 1, wherein the system comprises a department responsibility module, the part of responsibility modules stores responsibility of each department, and the management center issues corresponding tasks based on the department responsibility module.

5. The multi-department gridding collaborative system for community risk prevention according to claim 1, wherein the management center has a potential safety hazard data analysis model, and the management center determines the type of the potential safety hazard based on the potential safety hazard data analysis model.

6. The multi-department gridding collaborative system for community risk prevention according to claim 1, wherein the information collection module is specifically configured to:

the potential safety hazard problem is monitored in real time according to remote sensing satellite images and city monitoring video equipment, and intelligent identification of the potential safety hazard is achieved by information extraction and image interpretation.

7. The multi-department grid collaborative system for community risk prevention according to claim 1, wherein each department includes public security, fire protection, civil administration, water conservancy and hydropower, municipal administration, earthquake, natural resources, forestry, traffic, environmental protection, health and welfare commission, and market monitoring.

8. A multi-department gridding collaborative method for community risk prevention based on the system of any one of claims 1-7, comprising:

the method comprises the following steps of monitoring potential safety hazards in a community in real time and intelligently identifying the potential safety hazards through an information acquisition module;

the following steps are completed through a management center: determining the type of the potential safety hazard and formulating a corresponding disposal flow based on the potential safety hazard information reported by the information processing module; the information and the task of the potential safety hazard are issued to all relevant departments, and multi-department cooperative processing is realized; the tasks which are not finished or do not reach the standard are redistributed;

acquiring the task completion conditions of all departments through a grid member terminal;

and monitoring the tracking and handling process of the task completion condition uploaded by each department through the gridding member terminal through a monitoring module, and feeding the task completion condition back to the management center.

9. The multi-department gridding collaborative method for community risk prevention according to claim 1, wherein the types of the potential safety hazards include a conventional security incident and an emergency incident, and for the conventional security incident, the management center designates a principal department and an assistance department and distributes corresponding task instructions; and for the emergency, the management center disposes according to the related emergency plan and starts a corresponding special plan.

Images