CN111784192A - Industrial park emergency plan executable system based on dynamic evolution - Google Patents

Abstract

The invention provides an industrial park emergency plan executable system based on dynamic evolution, which comprises a plan decomposition and structural reorganization module, a plan modeling module, a plan visualization module, a plan search module and a plan training module. According to the invention, the historical plans are decomposed, structurally recombined and modeled, and the visual plans are generated in emergency scenes, so that the textual and electronic emergency plans are converted into practical, modeled and flow emergency plans, and full preparation is made for dealing with various emergency events. The invention comprises intelligent search of the plan, and can quickly match the best plan for the user. The invention can help decision makers to effectively react to emergencies and is an important component of an emergency system.

Description

Industrial park emergency plan executable system based on dynamic evolution

Technical Field

The invention belongs to a dynamic and executable system of an emergency plan in an industrial park, and relates to a plan decomposition method, a plan structure recombination method, a plan modeling method and the like.

Background

The emergency plan systems in various places of China are initially large-scale.

But the research of emergency management theory and technology in China is late, and although the construction of an emergency platform is listed in the national science and technology development plan, the popularization and application progress of the domestic digital plan technology is still slow at present. One of the important reasons is that a perfect emergency service management system is not established from the state to the place from the industry management department to all levels of production enterprises, and the digital city management resources such as related geographic information, video monitoring information, material management, traffic information and the like are not effectively integrated, so that the additional cost for developing the digital plan system is greatly increased.

At present, many foreign countries are actively developing the research of digital plan technology, and widely applying to the fields of military, energy, public health, industrial manufacturing, agricultural production and the like, and typically there are a digital emergency plan system in the coastal region of savana, an emergency response system in the oil and gas field in ohio, and an emergency plan and management system in dales port in england.

The emergency plan is the emergency basis for preventing and treating various emergencies. Although the traditional text type emergency plan defines related responsibility subjects and basic work flows in the emergency rescue process, a series of inherent defects of difficult query, non-intuitive expression, poor operability and the like exist.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

Object of the Invention

The invention realizes the decomposition, structural reorganization and modeling of emergency plans, and converts textual and electronic emergency plans into practical, modeled and flow emergency plans.

Technical solution

In order to achieve the purpose, the invention provides an industrial park emergency plan executable system based on dynamic evolution, which comprises the following steps:

1. the industrial park emergency plan executable system based on dynamic evolution comprises a plan decomposition and structure recombination module, a plan modeling module, a plan visualization module, a plan search module and a plan training module.

2. The plan decomposition and structure recombination module comprises two parts, namely plan decomposition and plan structure recombination.

3. The plan decomposition is to describe the structure of the plan by using XML, so that the content of the plan can be effectively decomposed; more importantly, the logical relationship among the components of the plan can be maintained and reflected. Different from general database storage, the XML storage scheme can be used for effectively adjusting the structure of the plan. In the process of emergency treatment by using information technology, data transmission between heterogeneous platforms is often involved, and XML is just an effective means for solving data transmission of the heterogeneous platforms.

4. The plan decomposition is to design a storage model of the emergency plan by using an XML Schema, so that the decomposition of emergency rescue measures is realized, and the hierarchy structure of emergency response is clearly reflected. The scheme of combining XML and database not only keeps the flexibility of the digital plan, but also ensures the safety of the plan. In addition, to realize the query and matching of the plan in the system, the characteristic attribute is extracted from the text content of the plan to be used as the basis for searching and matching the plan, namely, a plan characteristic information data table is required to be designed to serve as the index of the plan, and the emergency plan library is composed of a plan characteristic information table and a plan detailed design table.

5. The plan modeling module comprises business cooperation process modeling, plan command system model construction, plan node configuration, guarantee resource configuration, knowledge configuration and external service management.

6. And modeling the business cooperation process. Drawing a business cooperation flow chart, wherein the flow is associated with the post, the business steps below the post are embodied in 'responsibility', and the cooperation between the responsibilities is embodied through a directional event chain. And whether the composition, the post, the responsibility and the task of the plan command system are clear and accurate is further determined through the modeling of the business cooperation flow chart.

7. And constructing the plan command system model. According to the requirements of the plan service, relevant organizations and responsibilities of the emergency command department, the expert consultation committee, the field command department, each member unit and the like of the plan are analyzed. And establishing a command system model, and determining the post and the responsibility.

8. And each node represents a pre-arranged task, and the node information comprises the name of the task, the purpose of the task, the task execution place, the task time requirement, the importance of the task, the content of the task, the task undertaking body, the task execution condition and the like. The parent node may aggregate all attribute information for tasks, resources, etc. of the child nodes. While the child node may inherit the external services of the parent node. When maintaining node attributes, if a plurality of child nodes need the same external service function, the parent node can be configured with the function, and the child nodes directly inherit the function, and then personalized modification is carried out if personalization is needed.

9. And configuring the guaranteed resources. Managing related emergency resources required by task nodes in the flow chart; and calling resource information in the emergency guarantee library, and matching the resource information to the task. The resource information comprises resource names, resource types, resource requirements, resource quantity, resource positions, resource contact ways and the like; and the emergency resources and the space-time distribution condition managed by the existing system can be displayed in an intuitive mode, so that a commander can timely and accurately carry out global deployment on the existing resources when commanding and scheduling, the support on resource management is provided for emergency tasks, and the inaccuracy of information such as resource types, resource space-time distribution, resource quantity and the like is prevented.

10. And configuring the knowledge. Managing related emergency knowledge required by task nodes in the flow chart; and calling the relevant knowledge information in the knowledge base to be matched to the task. The emergency knowledge information comprises knowledge names, knowledge types, corresponding chapters and the like.

11. The external service management. Mainly aims at the related external service management needed by the task node in the flow chart; including GIS services, communication services, models, external related system interfaces, etc. Corresponding parameters need to be set during configuration, and related services can be started quickly when a plan is called conveniently.

12. The plan visualization module comprises four parts of analyzing the composition structure of a plan, representing plan elements by adopting basic graphs, visualizing a plan template and generating a digital plan.

13. The analysis of the composition structure of the plan refers to the extraction of the basic elements of the plan. For each element, the basic properties of the element are defined reasonably.

14. The basic graph is used for representing the plan elements, and the relation among the elements is represented by different line types. The relationship between the elements is defined by connecting lines. The element graph and the relation connecting line form a plan visual template.

15. The visualized plan template refers to the specific attribute values and relationships of the specified elements in an interactive mode. After all the element values and the element relations are determined, the element values and the element relations are stored as a specific digital plan.

16. The digital plan generation is to extract the names and attribute values of the elements by using the hierarchical structure form among the elements and automatically generate the required plan.

17. The plan search comprises a full text retrieval part and a classified retrieval part.

18. The full-text retrieval uses a two-level retrieval strategy.

19. The two-stage retrieval strategy is as follows: firstly, searching out a candidate case set of a corresponding type according to the type of the emergency; secondly, calculating the similarity of the target case and each case in the candidate case set, selecting a plurality of cases with the highest similarity, preliminarily screening the candidate case set through event types, and calculating the similarity to obtain a reference case.

20. The plan training comprises a training plan and a plan training.

21. The training plan provides a training plan template, and the training plan is managed according to a training target, wherein the management comprises creating, modifying, inquiring, deleting and counting the training plan. Deletion and modification are not allowed for training plans that the trainee has selected to execute. The training plan comprises a plurality of training courses relevant to time and a plurality of sets of test questions, and the progress of the training plan is relevant to the number of the training courses. The training plan comprises a training target, a training mode, training contents, a trained object, an examination mode, examination contents, completion time and the like.

Technical effects

The industrial park emergency plan executable system based on dynamic evolution can produce the following technical effects:

1. the system and the method for implementing the industrial park emergency plan based on dynamic evolution are applied to the industrial park, and the dynamic decomposition and the structural reorganization of the plan can be realized.

2. The system and the method for implementing the industrial park emergency plan based on the dynamic evolution are applied to the industrial park, and the visualization of the execution flow of the plan can be realized.

3. The system and the method for implementing the industrial park emergency plan based on the dynamic evolution are applied to the industrial park, and the dynamic combination of the plans can be realized.

4. The system and the method for implementing the industrial park emergency plan based on the dynamic evolution are applied to the industrial park, and the system for servicing the industrial park emergency plan can operate efficiently.

The system and the method for implementing the industrial park emergency plan based on the dynamic evolution are applied to the industrial park, and the overall planning and the cooperative response among multiple departments are really realized.

Brief description of the drawings

FIG. 1 is a flow chart of an industrial park emergency plan based on dynamic evolution

Description of the drawings: the matching process of the case is mainly carried out through two-stage retrieval: firstly, searching out a candidate case set of a corresponding type according to the type of the emergency; secondly, calculating the similarity of the target case and each case in the candidate case set, selecting a plurality of cases with the highest similarity, preliminarily screening the candidate case set through event types, and calculating the similarity to obtain a reference case.

Detailed Description

The present invention will be further described with reference to specific embodiments for carrying out the invention, in order to make the objects, aspects and advantages of the invention more apparent.

1. Uploading all the plan libraries in the industrial park to a plan decomposition and structure recombination module, and decomposing and mechanically recombining the existing plan documents by using the module.

2. The content output in the specific embodiment 1 is subjected to plan modeling, which includes business cooperation process modeling, plan command system model construction, plan node configuration, guarantee resource configuration, knowledge configuration, and external service management.

3. The content processed by the specific embodiment 2 is processed by the plan visualization, which comprises four parts of analyzing the composition structure of the plan, representing the plan elements by basic graphics, visualizing the plan template and generating the digital plan

4. When a user needs to use a specific plan, the user can search in the plan searching module.

5. The user can carry out the plan training before using the plan, and the plan training comprises a training plan and a plan training.

Claims (20)

1. An industrial park emergency plan executable system based on dynamic evolution comprises a plan decomposition and structure recombination module, a plan modeling module, a plan visualization module, a plan search module and a plan training module.

2. The plan decomposition and structure reorganization module of claim 1, comprising two parts of plan decomposition and plan structure reorganization.

3. The plan decomposition according to claim 2, wherein the structure of the plan is described by using XML, so that the content of the plan can be effectively decomposed; more importantly, the method can maintain and reflect the logical relationship among various parts of the plan, is different from the common database storage, can effectively adjust the plan structure by utilizing an XML storage scheme, often relates to data transmission among heterogeneous platforms in the process of carrying out emergency treatment by utilizing an information technology, and XML is just an effective means for solving the data transmission of the heterogeneous platforms.

4. The plan modeling module of claim 1, comprising business collaboration flow modeling, plan command system model construction, plan node configuration, provisioning resources, knowledge configuration, and external service management.

5. The business collaboration process modeling as claimed in claim 4 wherein a business collaboration process diagram is drawn, the process is associated with the post, the business steps below the post are embodied in "responsibilities", the collaboration between responsibilities is embodied by a chain of directional events, and the business collaboration process diagram modeling is used to further determine whether the composition, post, responsibilities, and tasks of the plan command system are clear and accurate.

6. The construction of the plan command system model according to claim 4, wherein according to the requirements of plan services, the relevant institutions and responsibilities of the emergency command department, the expert counseling committee, the field command department, the member units and the like of the plan are analyzed, and the command system model is established to make the post and the responsibilities clear.

7. The configuration of the preplan node according to claim 4, wherein each node represents a preplan task, the node information includes a name of the task, a purpose of the task, a location where the task is executed, a task time requirement, an importance of the task, a content of the task, a task undertaking subject, a task execution condition, and the like, the parent node can collect all attribute information of tasks, resources, and the like of child nodes, and meanwhile, the child nodes can inherit external services of the parent node, and when the node attributes are maintained, if a plurality of child nodes need the same external service function, the parent node can be configured with the function, and the child nodes directly inherit the function, and if personalization is needed, then personalized modification is performed.

8. The configuration of guaranteed resources according to claim 4, wherein relevant emergency resources required by task nodes in the flow chart are managed; and calling resource information in the emergency guarantee library, and matching the resource information to the task: the resource information comprises resource names, resource types, resource requirements, resource quantity, resource positions, resource contact ways and the like; and the emergency resources and the space-time distribution condition managed by the existing system can be displayed in an intuitive mode, so that a commander can timely and accurately carry out global deployment on the existing resources when commanding and scheduling, the support on resource management is provided for emergency tasks, and the inaccuracy of information such as resource types, resource space-time distribution, resource quantity and the like is prevented.

9. The knowledge configuration of claim 4, characterized in that, related emergency knowledge required by task nodes in the flow chart is managed; and calling related knowledge information in the knowledge base, and matching the related knowledge information to the task, wherein the emergency knowledge information comprises a knowledge name, a knowledge type, a corresponding chapter and the like.

10. The external service management of claim 4, wherein the external service management is mainly related to the task node requirement in the flow chart; the method comprises the following steps of GIS service, communication service, model, external related system interface and the like: corresponding parameters need to be set during configuration, and related services can be started quickly when a plan is called conveniently.

11. The protocol visualization module of claim 1, comprising four parts of analyzing the composition structure of the protocol, representing the protocol elements with basic graphics, visualizing the protocol templates, and generating the digital protocol.

12. The composition structure of an analysis plan as claimed in claim 11, wherein the basic elements of the plan are extracted, and the basic attributes of the elements are defined for each element.

13. The method of claim 11, wherein the basic graphic representation of the plan elements means that the relationship between the elements is represented by different line types, the relationship between the elements is defined by connecting lines, and the plan visualization template is composed of the element graphic and the connecting lines of the relationship.

14. The visual plan template of claim 11, wherein the specific attribute values and relationships of the elements are interactively specified, and after all the values and relationships of the elements are determined, the values and relationships are saved as a specific digital plan.

15. The digital plan generation of claim 11, wherein the required plan is automatically generated by extracting the name and attribute value of the element using the hierarchical structure form between the elements.

16. The plan search according to claim 1, comprising a full text search and a classified search.

17. The full-text search of claim 16, wherein a two-level search strategy is used.

18. The two-stage search strategy of claim 17, further comprising: firstly, searching out a candidate case set of a corresponding type according to the type of the emergency; secondly, calculating the similarity of the target case and each case in the candidate case set, selecting a plurality of cases with the highest similarity, preliminarily screening the candidate case set through event types, and calculating the similarity to obtain a reference case.

19. The protocol training of claim 1, comprising a training plan and a protocol training.

20. The training plan of claim 19, wherein a training plan template is provided for managing the training plan according to the training objectives, the training plan template includes new creation, modification, query, deletion, and statistics of the training plan, the training plan is not allowed to be deleted or modified for the training plan that the trainee has selected to execute, the training plan includes a plurality of training courses and a plurality of test questions related to time, the progress of the training plan is related to the number of training courses to be completed, and the training plan includes the training objectives, the training modes, the training contents, the trainee objects, the examination modes, the examination contents, the completion time, and the like.

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