CN113780983A - Emergency plan driving system based on process engine - Google Patents

Abstract

The invention discloses an emergency plan driving system based on a process engine, which comprises an emergency resource management module, a process engine and a control module, wherein the emergency resource management module is used for providing resource information for plan formulation; the plan template management module is used for establishing a plan classification level according to the applicable object range of the plan; the plan recommending module is used for recommending a processing plan template matched with the event through an algorithm; the plan compiling module provides the functions of quick compiling, plan updating and inquiring of emergency plans of emergency events, and compilers quickly compile a scientific emergency plan according to a standard flow; the plan approval module is used for distributing and recording a file number to the approved plan after the plan is compiled; the plan maintenance module is used for regularly checking and updating the emergency plan; and the plan evaluation module is used for checking the filling degree of the plan in the template. The invention can generate corresponding emergency plans under the drive of the process engine, reduce manual intervention, schedule various emergency resources by an optimal scheme and quickly respond and process emergency events.

Description

Emergency plan driving system based on process engine

Technical Field

The invention relates to the technical field of emergency management, in particular to an emergency plan driving system based on a process engine.

Background

In recent years, due to frequent occurrence of emergencies such as natural disasters, urban safety, production accident disasters and the like, in order to effectively solve the problem of emergency plans, an effective driving mechanism needs to be established among emergency parties so that the emergency parties can cooperate and cooperate to the greatest extent, and the efficiency of emergency management is improved. The existing plan system framework has the following defects:

1. the emergency plan content is not elaborately formulated, the contents of rescue force deployment, rescue schemes, cautionary matters and the like are fuzzy and disordered, and on the arrangement and deployment of rescue force advancing and retreating routes, rescue routes and defense retreating routes exist, and the interactive cooperation of rescue force is ignored;

2. emergency rescue resources are not adequately scheduled. When an emergency plan is formulated, part of emergency resources, such as social resources, are easy to omit, and often only emergency resources of related departments are planned, so that the generation of the emergency plan lacks necessary information;

3. the emphasis is not prominent when the emergency plan is made. Similarly, in the process of preparing an emergency rescue plan of the same accident, if the emergency rescue center, the unit and each place are not well controlled in the preparation process, no emphasis is placed on the starting point, and the emphasis is not highlighted, so that the plan loses the specific guiding significance.

Disclosure of Invention

The invention aims to overcome the defects that the efficiency of generating a plan offline is low, and an emergency plan cannot be generated in time to respond to an emergency event, and provides an emergency plan driving system based on a process engine.

The purpose of the invention is realized by the following technical scheme:

an emergency plan driving system based on a process engine comprises

The emergency resource management module is used for providing resource information for the planning of a plan and mainly performing addition, modification, query and deletion operations on emergency resources;

the plan template management module is used for establishing a plan template and establishing a plan classification level according to the applicable object range of the plan;

the plan recommending module is used for issuing an emergency plan in the processing process after the emergency event is reported, and the system recommends a processing plan template matched with the event through a TF-IDF algorithm according to the event basic information and plan library information;

the plan compiling module is used for searching the same type of event plan templates in the plan library when an emergency occurs, providing the functions of quick compiling, plan updating and inquiring of emergency plans of the emergency event, and quickly compiling a scientific emergency plan by a compiling staff according to a standard flow when the system is matched to obtain a corresponding plan template;

the pre-arranged case examination and approval module is used for browsing the pre-arranged case by an approver after the pre-arranged case is compiled, examining and approving the pre-arranged case, and distributing and recording a case number to the approved pre-arranged case;

the plan maintenance module is used for regularly checking and updating the emergency plan, a maintainer revises the plan, the plan is checked after the revision is finished, the plan maintenance is finished after the check is finished, and the original state is not maintained when the check is not finished;

and the plan evaluation module is used for checking the filling degree of the plan in the template, and if the filling degree of the key specified item does not meet the preset requirement, the system requires the entry personnel to fill the plan.

The emergency plan driving system based on the process engine further comprises a communication module used for carrying out communication connection between an emergency site and a management background.

The emergency resources comprise emergency materials, emergency experts, emergency equipment, emergency vehicles and emergency teams.

The plan template comprises a national standard plan template, a common plan template and a self-defined template.

The specific process for establishing the plan template comprises the following steps:

selecting the template type, and selecting and establishing a standard plan template or a custom plan template;

if a standard plan template is selected, firstly, a command organization needs to be selected; then, carrying out grading treatment on the pre-warning of the plan template, and configuring response measures; and then collaboratively checking the template, and performing emergency response configuration after the template is checked to finally form a complete emergency plan.

If a user-defined plan template is selected, firstly, configuring CI items of template conditions through a template plug-in, and simultaneously adding different rules according to a template engine; secondly, configuring corresponding command mechanism organizations according to the types of the plan templates; secondly, carrying out early warning classification on the plan template and generating response measures according to the early warning classification; and finally, generating corresponding emergency response according to the type and the level of the emergency plan template to complete the establishment of the plan template.

The TF-IDF plan recommendation implementation process specifically comprises the following steps: firstly, establishing an emergency plan portrait to obtain a plan keyword; then, establishing an inverted index through the preset keywords and storing the inverted index; according to the events reported by the user, putting all keywords reported by the user together, counting word frequency, and taking the most appeared keywords as time image keywords; and finding the plans corresponding to the keywords according to the keywords reported by the user, and recommending the keyword weights corresponding to each plan to the user in a summing and sorting manner.

The plan compiling module comprises a plan classification management module, a plan basic information management module, a plan organization structure management module and a plan resource allocation management module.

The invention has the beneficial effects that:

the invention processes the stages of plan compilation, approval, perfection, warehousing, starting, evaluation, recommendation, execution and the like in a workflow way. And after the event processing is finished or the drilling is finished, whether the plan needs to be modified again is determined through the evaluation of the plan, if the plan needs to be modified, the plan returns to the presentation stage, and if the plan needs to be modified, the plan is stored in the warehouse after the completion of the modification. The invention can generate corresponding emergency plans under the drive of the process engine, reduce manual intervention, schedule various emergency resources by an optimal scheme and quickly respond and process emergency events.

Drawings

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a block flow diagram of an implementation of the present invention;

FIG. 3 is a flowchart of protocol emergency resource management of the present invention;

FIG. 4 is a flowchart of protocol template management of the present invention;

FIG. 5 is a flowchart of the protocol of the present invention;

FIG. 6 is a protocol approval flow diagram of the present invention;

FIG. 7 is a protocol maintenance flow diagram of the present invention;

FIG. 8 is a plan evaluation flow chart of the present invention;

FIG. 9 is a protocol recommendation flow diagram of the present invention;

FIG. 10 is a flow chart of instant messenger call in the execution of the protocol of the present invention.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will now be described with reference to the accompanying drawings.

The emergency plan should form a system, a special emergency plan and a field disposal scheme are formulated according to various possible events and all danger sources at all levels, and the responsibilities of relevant departments and related personnel in each process before, after, in the process of doing things and after the events are clear.

The comprehensive emergency plan is a comprehensive working scheme which is set by a production and operation unit for dealing with various production safety accidents, and is a general outline of the overall working procedures and measures of the unit for dealing with the production safety accidents and an emergency plan system.

The special emergency plan is a special working scheme which is made by a production and operation unit for dealing with one or more types of production safety accidents or aiming at important production facilities, major hazard sources and major activities. The special emergency plan emphasizes the speciality, and a corresponding professional command and coordination mechanism, a response program and a targeted disposal measure are determined according to the types and characteristics of possible accidents. When the emergency organization and the emergency response program in the special emergency plan and the comprehensive emergency plan are close, the special emergency plan is not compiled, and corresponding emergency disposal measures are merged into the comprehensive emergency plan.

The field disposal scheme is a production safety accident working scheme which is made by a basic unit aiming at a specific place, device or facility. The scene disposal scheme mainly defines the contents of accident risk description, emergency organization responsibility, emergency disposal and attention points of the basic unit, and embodies the characteristics of self-rescue and mutual rescue and early disposal. The production and operation unit with single accident risk and small danger can only make a field disposal scheme.

Except the three main body components, the emergency plan of the production and operation unit needs to be supported by sufficient accessories, and mainly comprises: contact details about emergency departments, institutions, or personnel; a directory or list of emergency material equipment; normalizing the format text; key routes, logos and drawings; the name of the relevant emergency plan, and emergency support protocol or memo signed with the relevant emergency rescue department.

An emergency plan driving system based on a process engine comprises

The emergency resource management module is used for providing resource information for the planning of a plan and mainly performing addition, modification, query and deletion operations on emergency resources;

the plan template management module is used for establishing a plan template and establishing a plan classification level according to the applicable object range of the plan;

the plan recommending module is used for issuing an emergency plan in the processing process after the emergency event is reported, and the system recommends a processing plan template matched with the event through a TF-IDF algorithm according to the event basic information and plan library information;

the plan compiling module is used for searching the same type of event plan templates in the plan library when an emergency occurs, providing the functions of quick compiling, plan updating and inquiring of emergency plans of the emergency event, and quickly compiling a scientific emergency plan by a compiling staff according to a standard flow when the system is matched to obtain a corresponding plan template;

the pre-arranged case examination and approval module is used for browsing the pre-arranged case by an approver after the pre-arranged case is compiled, examining and approving the pre-arranged case, and distributing and recording a case number to the approved pre-arranged case;

the plan maintenance module is used for regularly checking and updating the emergency plan, a maintainer revises the plan, the plan is checked after the revision is finished, the plan maintenance is finished after the check is finished, and the original state is not maintained when the check is not finished;

and the plan evaluation module is used for checking the filling degree of the plan in the template, and if the filling degree of the key specified item does not meet the preset requirement, the system requires the entry personnel to fill the plan.

The emergency plan driving system based on the process engine further comprises a communication module used for carrying out communication connection between an emergency site and a management background.

As shown in FIG. 2, the present invention processes the stages of planning, approving, perfecting, warehousing, starting, evaluating, recommending, executing, etc. of the plan in a workflow manner. And after the event processing is finished or the drilling is finished, whether the plan needs to be modified again is determined through the evaluation of the plan, if the plan needs to be modified, the plan returns to the presentation stage, and if the plan needs to be modified, the plan is stored in the warehouse after the completion of the modification.

As shown in fig. 3, the emergency resource management module provides the administrator with operations such as adding, modifying, querying, and deleting emergency resources, and if the administrator logs in, the administrator can only view the emergency resources. The emergency resources comprise emergency materials, emergency experts, emergency equipment, emergency vehicles and emergency teams.

As shown in fig. 4, the plan template includes a national standard plan template, a common plan template, and a custom template. The national standard plan template and the common plan template are preset, and related templates can be selected for planning the plan, or can be customized to be used as the preset template for repeated use, and the templates can be imported and exported, and the operations of increasing, deleting, modifying and checking can be carried out. And establishing a plan classification level according to the applicable object range of the plan, and establishing plan templates of different classifications to ensure standardization and normalization of the emergency plan.

The specific process for establishing the plan template comprises the following steps:

selecting the template type, and selecting and establishing a standard plan template or a custom plan template;

if a standard plan template is selected, firstly, a command organization needs to be selected; then, carrying out grading treatment on the pre-warning of the plan template, and configuring response measures; and then collaboratively checking the template, and performing emergency response configuration after the template is checked to finally form a complete emergency plan.

If a user-defined plan template is selected, firstly, configuring CI items of template conditions through a template plug-in, and simultaneously adding different rules according to a template engine; secondly, configuring corresponding command mechanism organizations according to the types of the plan templates; secondly, carrying out early warning classification on the plan template and generating response measures according to the early warning classification; and finally, generating corresponding emergency response according to the type and the level of the emergency plan template to complete the establishment of the plan template.

The plan compiling module comprises a plan classification management module, a plan basic information management module, a plan organization structure management module and a plan resource allocation management module. As shown in FIG. 5, after the system completes the search and matching, the system provides a candidate set of plans to the decision maker. The emergency personnel can make an emergency scheme by looking up the plan set and integrating the information provided by other application auxiliary subsystems according to the experience of similar event handling in the past.

If there is no plan successfully matched with the emergency or matched with the emergency in the plan library, the emergency personnel is required to participate, various files issued by the emergency management department are integrated, the category of the current emergency is preliminarily judged, the special plan of the category is searched out, the emergency organization leader and department established in the special plan of the category are immediately notified, and the emergency command leader directs emergency rescue work. When the emergency event evolves or has new dynamic, the emergency personnel can search the plan library again by the current information to find all the related plans. This is the form of the protocol generated during the actual emergency command.

Aiming at a certain emergency accident, the emergency plan provides a rapid compiling function of the emergency plan of the emergency accident and provides a standardized template of the emergency plan, so that a compiling personnel of the plan can rapidly compile a scientific emergency plan according to a standardized flow. For the existing plan, the system should have the maintenance functions of updating and inquiring the plan. The current situation of the existing plan should be quickly known and the dynamic adjustment of the plan should be realized for the sudden event.

The function of the plan compiling module is realized as follows:

plan classification management

There are various methods for classifying the plans, such as national level, provincial level, city level, district (county) and enterprise plans according to administrative regions; according to the time characteristics, the method can be divided into a permanent scheme and a temporary scheme (such as a large gathering meeting which is occasionally organized, etc.); according to the type of accident disaster or emergency, the method can be divided into plans such as natural disaster, accident disaster, emergent public health event, emergent social security event and the like. The classification method of the plan file system is most suitable for city organization, the classification is carried out according to the application object range of the plan, and the city emergency plan can be divided into a comprehensive plan, a special plan and a field plan so as to ensure the level clarity and the development of the plan file system. After logging in, the administrator can add, modify, delete and inquire the comprehensive plan, the special plan and the field plan.

Plan basic information management

Plan basic information: and managing basic information such as plan name, plan range, plan number, plan type, plan level, event type, organization unit, release unit, plan security level, contact person, contact telephone, attachment uploading and the like.

Plan organization structure management

Organization structure management: the mechanisms associated with emergency disposal mainly include three categories: the emergency command centers, expert consultation committees and field command departments at all levels are commonly used, namely, members of the emergency command centers, the expert consultation committees and the field command departments respectively have their own full-time work in a daily state, and the members are immediately gathered together after emergency events occur to form the emergency mechanism according to the requirements of a plan. The members should be automatically notified at the fastest speed after the event occurs, enter the working state of emergency response, and inform the relevant members about the event progress at any time during the event handling process.

Plan resource allocation management

And (3) plan resource allocation management: the decision to rescue an action at any moment depends on two important factors: event development trend and available rescue resource state scheduling; and the emergency resource management module is linked, so that a user can configure emergency resources according to resource contents and realize linkage with a GIS map and an emergency command visualization system.

As shown in fig. 6, after the plan is prepared, the plan must be approved by the audit before the plan can be released formally. Because the plan is sensitive information such as staff, resources, scheduling and the like, the plan is a sensitive file, and therefore the distribution range, the distribution object and the limitation of reading the contents of the plan by each reader are regulated in the distribution of the plan.

The method comprises the following steps: the approver browses the plan and reviews and approves the plan. And allocating a file number to the approved pre-records for recording.

As shown in fig. 7, in order to ensure that the plan can correctly reflect the changes of the emergency requirements, the organization and the emergency strategy of the system, the emergency plan must be checked and updated regularly. The protocol content revision has the same function as the protocol content compilation.

The purpose of the plan maintenance management is to issue maintenance tasks and authorize maintenance personnel to carry out plan revision.

The plan maintenance implementation process comprises the following steps: and issuing a plan maintenance task, revising the plan by maintainers, auditing the plan after revision is completed, and completing the plan maintenance after the audit is passed, wherein the original state is not maintained after the audit is passed.

As shown in fig. 8, the template evaluation is to check the filling degree of the plan in the template. For example, there are the application range of the plan, descriptions of the category, grade, nature, etc. of the emergency, clear emergency leaders, emergency workers and corresponding experts, and the completion of emergency response process and information reporting process, etc. And if the filling degree of the key specified item does not meet certain requirements, the system requires the entry personnel to fill.

The implementation process of the plan evaluation: the auditor checks the plan information, judges whether the plan key information is missing, and if the key information is missing, the auditor issues a task to the designated personnel to perform plan maintenance.

As shown in fig. 9, after an emergency event is reported, an emergency plan needs to be issued in the processing process, and the system recommends a processing plan matched with the event through a TF-IDF algorithm according to the event basic information and plan library information, thereby reducing a large amount of manual search comparison work.

The plan recommendation implementation process based on TF-IDF comprises the following steps:

(1) creating an emergency plan sketch

The data source is as follows: inputting a tag and a classification value of a plan by a user; screening top-n (larger td-idf) keywords for each plan according to the tf-idf result; and generating a mapping relation of 'plan id-key words weight'.

(2) Establishing inverted index

Finding the predetermined plan through the keywords, traversing the weight of the predetermined plan id-keywords to read each keyword, using the keywords as keys, and storing [ (the keywords correspond to movie id, tfidf) ] as values in the fact.

(3) Event representation

Finding all keywords in the data of 'plan id-keyword weight' according to the events reported by the user; putting all keywords reported by a user together to count word frequency; the keywords that appear in many cases are actually keywords of the event image as keywords of the event.

(4) According to the keywords reported by the user, finding the plans corresponding to the keywords, wherein a plurality of key values possibly correspond to one plan { plan id: [ keyword 1 weight, keyword 2 weight ] }; and summing and sorting the keyword weights corresponding to each plan and recommending the keyword weights to the user.

As shown in fig. 10, when the user reports an emergency and needs to issue a plan for emergency handling, the plan is pushed to the organization users and related affiliates in the plan through the capability of instant messaging, and the user can receive messages both at the web end and the mobile end. In the execution process of the plan, the command center can connect the scene or the nearest grid personnel at the periphery in real time through the Web page on the large screen to know the dynamic progress of the event.

The whole implementation process is as follows:

and (4) reporting the emergency event by the user, wherein the emergency event belongs to a major event, and holding the video conference through instant messaging, and carrying out the on-line video conference on the on-duty personnel, the responsible personnel of each organization and the on-site grid personnel of the command center.

And issuing a plan according to the plan recommended by the system and the conference conclusion.

In the execution process of the plan, the command center can call the instant communication function through the Web page of the large screen at any time to call the local microphone and the audio equipment to carry out real-time video call with the grid personnel on site.

The site grid personnel can transmit the site condition to the server side in real time through the instant messaging of the mobile terminal at any time and synchronize the site condition to the command center.

The command center can follow up the event processing condition in real time until the event processing is finished.

While there has been shown and described the fundamental principles of the invention and the principal features and advantages thereof, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are given by way of illustration of the principles of the invention, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. An emergency plan driving system based on a process engine is characterized by comprising

The emergency resource management module is used for providing resource information for the planning of a plan and mainly performing addition, modification, query and deletion operations on emergency resources;

the plan template management module is used for establishing a plan template and establishing a plan classification level according to the applicable object range of the plan;

the plan recommending module is used for issuing an emergency plan in the processing process after the emergency event is reported, and the system recommends a processing plan template matched with the event through a TF-IDF algorithm according to the event basic information and plan library information;

the plan compiling module is used for searching the same type of event plan templates in the plan library when an emergency occurs, providing the functions of quick compiling, plan updating and inquiring of emergency plans of the emergency event, and quickly compiling a scientific emergency plan by a compiling staff according to a standard flow when the system is matched to obtain a corresponding plan template;

the pre-arranged case examination and approval module is used for browsing the pre-arranged case by an approver after the pre-arranged case is compiled, examining and approving the pre-arranged case, and distributing and recording a case number to the approved pre-arranged case;

the plan maintenance module is used for regularly checking and updating the emergency plan, a maintainer revises the plan, the plan is checked after the revision is finished, the plan maintenance is finished after the check is finished, and the original state is not maintained when the check is not finished;

and the plan evaluation module is used for checking the filling degree of the plan in the template, and if the filling degree of the key specified item does not meet the preset requirement, the system requires the entry personnel to fill the plan.

2. The emergency plan driving system based on the process engine as claimed in claim 1, further comprising a communication module for performing communication connection between the emergency site and the management background.

3. The process engine based emergency plan driving system of claim 1, wherein the emergency resources comprise emergency supplies, emergency experts, emergency equipment, emergency vehicles and emergency teams.

4. The emergency plan driving system based on the process engine as claimed in claim 1, wherein the plan template includes a national standard plan template, a common plan template and a custom template.

5. The emergency plan driving system based on the process engine as claimed in claim 1, wherein the specific process for creating the plan template includes:

selecting the template type, and selecting and establishing a standard plan template or a custom plan template;

if a standard plan template is selected, firstly, a command organization needs to be selected; then, carrying out grading treatment on the pre-warning of the plan template, and configuring response measures; then collaboratively checking the template, and performing emergency response configuration after the template passes the checking to finally form a complete emergency plan;

if a user-defined plan template is selected, firstly, configuring CI items of template conditions through a template plug-in, and simultaneously adding different rules according to a template engine; secondly, configuring corresponding command mechanism organizations according to the types of the plan templates; secondly, carrying out early warning classification on the plan template and generating response measures according to the early warning classification; and finally, generating corresponding emergency response according to the type and the level of the emergency plan template to complete the establishment of the plan template.

6. The emergency plan driving system based on the process engine as claimed in claim 1, wherein the TF-IDF plan recommendation implementation process specifically includes: firstly, establishing an emergency plan portrait to obtain a plan keyword; then, establishing an inverted index through the preset keywords and storing the inverted index; according to the events reported by the user, putting all keywords reported by the user together, counting word frequency, and taking the most appeared keywords as time image keywords; and finding the plans corresponding to the keywords according to the keywords reported by the user, and recommending the keyword weights corresponding to each plan to the user in a summing and sorting manner.

7. The emergency plan driving system based on the process engine as claimed in claim 1, wherein the plan planning module includes a plan classification management module, a plan basic information management module, a plan organization structure management module and a plan resource allocation management module.

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