KR20160110867A - System and method for constructing of respose on disaster based on scenario - Google Patents

Abstract

The present invention relates to a system to construct a disaster response based on a scenario. The system to construct a disaster response based on a scenario comprises: a scenario planning unit that a user logs in and configures a simulation environment to simulate a scenario by disaster type; a disaster type-based scenario generation unit to generate a scenario in accordance with the user conditions and the simulation environment configured by the scenario planning unit, wherein the scenario is generated by combining a standard operation procedure (SOP) corresponding to a disaster management step by disaster type, emergency support function and geographic information; a simulation unit to execute a simulation to realize a scenario with respect to the disaster type-based scenario generated by the scenario generation unit, generate an emergency warning along the scenario, distribute response resources in accordance with a crisis situation, manage a command system and recover the disaster situation; a post-event analysis unit to generate user assessment data in accordance with the simulated results, generate and store a report; and a disaster variable introduction unit to search not only analyzed disaster variables but also disaster type-based disaster variables from a variety of internet webpages using a web robot module and provide the searched disaster variables to the scenario generation unit.

Description

 [0001] The present invention relates to a system and method for constructing a scenario based on disaster response,

The present invention relates to a system and method for constructing a scenario-based disaster response, more specifically, a scenario based response scenario for each type of disaster, a dynamic priority setting scenario is calculated through a type-specific disaster response scenario simulation tool, Based disaster response establishment system and method capable of providing a rapid and safe response system in accordance with the scenario.

Recently, various kinds of disasters such as subway, big fire, collapse of department store, aircraft crash, and earthquake have occurred. In order to deal with various types of disasters quickly and smoothly, close cooperation among various related organizations is required.

In this regard, the National Security Agency plays a role as a dedicated disaster response agency in Korea, and emergency response activities, rules on on - site command, and various on - site response manuals are established.

However, since these manuals are produced and distributed in the form of booklets and their contents are vast, it is a reality that the situation response by the judgment of the commander is proceeding rather than the response by these manuals. There is a problem that it is difficult to respond promptly when close cooperation among related organizations is required.

In addition, in order to prepare for natural disasters such as large-scale floods and earthquakes by the change of disaster prevention environment, and to secure the lives of the people, it is required to develop not only on-site response strategies but also scenario-based guidelines for more systematic and on-site response.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the conventional problems as described above, and its object is to establish a scenario-based response system for each type of disaster, to calculate a dynamic priority setting scenario through a type- A scenario-based disaster response establishment system and a method for providing a quick and safe response system according to a scenario.

The scenario-based disaster response establishment system according to the present invention includes a scenario planning unit for setting a user's login and simulation environment in order to simulate a scenario according to a disaster type; A scenario is generated according to a user condition and a simulation environment set by the scenario planning unit, and a scenario is created by combining a standard operation procedure (SOP) corresponding to a disaster processing step, an emergency support function resource, and geographic information according to a disaster type A scenario generation unit for each disaster type to be generated; A scenario is generated for the scenarios according to the disaster type generated by the scenario generator, a crisis alarm is generated according to the scenario progress, a corresponding resource is allocated according to the priority according to the crisis, A simulation unit for executing a simulation to process the data; A post-analysis unit for generating user evaluation data according to a result of the simulation and generating and storing a result report; And a disaster variable introduction unit for searching a disaster type for each type of disaster from various internet sites by the web robot module as well as a disaster variable to be analyzed and providing the retrieved disaster variable to the scenario generation unit.

Also, in the scenario-based disaster response establishment system according to the present invention, the scenario generation unit may include a disaster type database that defines a plurality of disaster type information corresponding to natural disaster, human disaster, and country-based protection system; An SOP manual database defining a standard operating procedure (SOP) manual defined step by step according to the disaster process step according to the progress of the disaster type; A database for defining a list of emergency support function resources available to the simulation user according to the progress of the disaster type; And a database for defining terrain information according to a disaster type occurrence or progress according to the disaster type according to the disaster type information; A matrix module for combining and providing the information of the plurality of databases according to variables introduced in the scenario; And a scenario generation server for generating scenarios for each type of catastrophe designed by the plurality of databases and the matrix module.

Further, in the scenario-based disaster response construction system according to the present invention, the simulation unit may include: a scenario drive module that displays the designed disaster type scenarios; An alarm module for generating a disaster risk occurrence alarm according to progress of the scenario; A priority processing module for determining a corresponding priority in the event of a disaster risk situation according to the alert module; A resource allocation module for distributing corresponding resources according to the priority; A command system module for managing the command system of the crisis response field commander according to the priority order; And a recovery processing module for executing the disaster recovery processing management generated according to the implemented scenario.

In the scenario-based disaster response establishing system according to the present invention, the scenario planning unit may provide a user interface for a user to log in and set a simulation environment.

Meanwhile, a scenario-based disaster response establishment method according to the present invention comprises the steps of: setting a user's login and simulation environment in a scenario planning unit in order to simulate scenarios according to a disaster type by logging in a user; Generating a scenario according to the disaster type by combining a standard operating procedure (SOP) corresponding to a disaster processing step, an emergency support function resource, and geographic information according to a user condition and a simulation environment set by the scenario planning unit; The simulation unit implements the scenario for the scenario of the disaster type, generates a crisis alarm according to the scenario progress, distributes the corresponding resource according to the priority according to the crisis situation, manages the command system, and executes the simulation to recover the disaster situation ; And the post-analysis unit includes a step of generating user evaluation data according to the result of the simulation and generating and storing a result report, and the disaster variable introduction unit notifies the user of various types of disaster type Searching for a disaster variable and providing the retrieved disaster variable to the scenario generating unit.

The present invention has the effect of providing a dynamic priority setting scenario through a type-specific disaster response scenario simulation tool by constructing a scenario-based response system for each type of disaster, and providing a quick and safe response system according to the dynamic priority scenario.

In addition, it implements the crisis situation according to the disaster type and generates and train various command and decision scenarios, so that the crisis manager can train the command and discipline mastery of the disaster highly.

1 is a schematic block diagram of a scenario-based disaster response establishment system according to the present invention.
2 is a detailed block diagram of a scenario generating unit of a scenario-based disaster response building system according to the present invention.
3 is a detailed block diagram of a simulation unit of a scenario-based disaster response building system according to the present invention.
4 is a flowchart of a scenario-based disaster response establishment method according to the present invention.

Hereinafter, a system and method for constructing a scenario-based disaster response according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic block diagram of a scenario-based disaster response establishment system according to the present invention.

Referring to FIG. 1, a scenario-based disaster response establishment system according to an embodiment of the present invention includes a scenario planning unit 100 for setting a user's login and simulation environment, A scenario generation unit 200 for generating a scenario according to a simulation environment, a scenario generation unit for generating a crisis occurrence alarm by generating a scenario for a scenario according to the type of a disaster generated in the scenario generation unit 200, A post-analysis unit 400 for generating user evaluation data according to a result of the simulation and generating and storing a result report, and a post-analysis unit 400 for analyzing the post- A web robot module 510 for searching for a disaster variable and a disaster-analyzed disaster And a disaster variable introducing unit 500 for providing the disaster variable from the web robot module 510 to the scenario generating unit 200.

The scenario planning unit 100 provides a user interface (UI) 110 to allow a user to log in and set conditions and variables for scenario creation according to a disaster type.

Types of disasters for scenario creation include natural disasters, human disasters, and state-based protection systems, including forest fires, dam collapses, large-scale environmental pollution, communal disasters, livestock diseases, infectious diseases, chemical harmful material spills, Subway large fires, high-speed railway large fires, nuclear safety, electric power, and health care.

As a condition for generating the scenario, it is possible to designate the contents of the training according to the training object and designate the limit of the alternative resource.

In addition, scenario variables include situation variables, damage variables, and response variables, and temporal and regional variables can be considered.

When the scenario generation unit 200 generates a scenario according to a user condition and a simulation environment set by the scenario planning unit 100, the scenario generation unit 200 generates a standard operating procedure corresponding to the disaster alarm, A standard operation procedure (SOP), an emergency support function (ESF) resource, and a variety of configurable geographic information and disaster variables.

The simulation unit 300 implements a scenario for the scenario according to the disaster type generated in the scenario generator 200, generates a crisis occurrence alert according to the scenario progression, distributes the corresponding resource according to the priority according to the crisis situation, And manages the command system to execute the simulation to recover the disaster situation.

The crisis alert generates the terrain for the disaster situation and the site, and provides the SOP according to the activities of the responsible authority and the related organizations and implements the selected SOP.

In addition, according to the disaster type, the corresponding resources are allocated according to the priority according to the crisis situation, and the simulation according to the scenario for securing the alternative resource according to the disaster type is executed.

Recovery in response to a type-specific disaster can utilize equipment and equipment that can be executed in the simulation, and various parameters can be introduced again in the recovery simulation as needed.

In addition, if a recovery strategy is established in the recovery simulation, it can be further adopted as a new SOP.

The post-analysis unit 400 generates user evaluation data according to the simulation progress, and generates and stores a result report.

When the disaster situation for each type is terminated, a recovery status report and a report are generated so as to generate and store evaluation data according to the user evaluation and the SOP fitness according to the progress of the simulation. The stored data is again stored in the scenario- Can be fed back to the unit (300).

Meanwhile, the web robot module 510 searches for disaster variables for various types of disasters from various internet sites and provides the retrieved disaster variables to the scenario generator 200 through the disaster variable introducing unit 500, Or to update unprecedented or complex types of disaster scenarios of the type so that they can be prepared for new trends and response strategies.

2 is a detailed block diagram of a scenario generating unit of a scenario-based disaster response building system according to the present invention.

2, the scenario generating unit 200 includes a scenario generating module 210, a disaster type database 230 for providing various disaster scenario information, an SOP manual database 240, an ESF database 250, A geographic information database 260 and a matrix module 220 for combining the information provided from the databases according to the disaster variables introduced in the scenario for each disaster type.

The disaster type database 230 is a disaster type database that defines a plurality of disaster type information corresponding to a natural disaster, a human disaster, and a nation-based protection system.

The SOP manual database 240 defines a standard operating procedure (SOP) manual defined step by step according to the disaster type step according to the disaster type progress step.

In addition, the ESF database 250 defines a list of emergency support function resources that can be used by the simulation user according to the progress of the disaster type, and the geographic information database 260 stores the emergency support function resource list in accordance with the disaster type information, To define the terrain information.

Various information for generating the scenarios provided from the disaster type database 230, the SOP manual database 240, the ESF database 250 and the geographic information database 260 may be stored in the matrix module 250 according to the disaster variable introduced in the scenario to be generated. The scenario generation module 210 generates a plurality of scenarios according to the disaster type designed by the matrix module 220 and the plurality of databases.

3 is a detailed block diagram of a simulation unit of a scenario-based disaster response building system according to the present invention.

Referring to FIG. 3, the simulation unit 300 executes a disaster scenario simulation generated according to various disaster variables, scenario conditions, and disaster type information from the scenario generating unit 200.

The simulation unit 300 includes a scenario driving module 310, an alarm module 320, a priority processing module 330, a resource allocation module 340, a command system processing module 350, and a recovery processing module 350 .

First, the scenario driving module 310 displays the scenario according to the designed disaster type and implements the simulation screen in 2D or 3D to the logged-in user.

At this time, the alert module 320 generates a disaster crisis occurrence alarm during the simulation process according to the progress of the scenario, and assigns a user task or a disaster situation.

The priority processing module 330 determines and selects a corresponding priority in the event of a disaster crisis according to the alert module 320.

In accordance with the determined priority, the simulation user performs the actual training to distribute the corresponding resources through the resource allocation module 340.

In addition, the simulation user can apply the standard operating procedure (SOP) through the command system module 350 and experience the role of the actual crisis response field commander.

The simulation user can execute the disaster recovery process management in the recovery process module 360 by training the disaster avoidance situation generated according to the scenario implemented after the process of the elapse of the simulation and the command system management applying the resource allocation according to the priority and the SOP .

4 is a flowchart of a scenario-based disaster response establishment method according to the present invention.

Referring to FIG. 4, in the scenario-based disaster response establishment method according to the present invention, a user logs in and simulated environment is set in the scenario planning unit 100 in order to simulate a scenario according to a disaster type (S10).

Here, the scenario planning unit 100 provides a user interface (UI) 110 so that a user can log in and set conditions and variables for scenario creation according to a disaster type.

Also, before entering the step S30, the disaster variable introducing unit 500 retrieves the disaster variables for various types of disasters from various internet sites by the web robot module 510 as well as the disaster analysis variables analyzed and analyzes the disaster variables, (S20).

Next, the scenario generating unit 200 for each type of disaster includes a standard operating procedure (SOP) corresponding to the disaster processing step, an emergency support function resource, and a combination of geographic information according to the user conditions and the simulation environment set by the scenario planning unit And creates a scenario (S30).

The scenario generating unit 200 for each type of disaster includes a standard operation procedure (SOP) corresponding to a disaster alarm, a process, and a coping step according to a disaster type, and an emergency operation procedure Scenario is created by combining the support function (Emergency Support Function, ESF) and various configurable geographical information.

Next, the simulation unit 300 implements the scenario for the scenario according to the disaster type, generates a crisis occurrence alert according to the scenario progress, distributes the corresponding resource according to the priority according to the crisis situation, manages the command system, (Step S40).

Finally, the post-analysis unit 400 generates the user evaluation data according to the simulation progress, and generates and stores a result report (S50).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. .

100: scenario planning unit 110: user interface
200: scenario generating unit 210: scenario generating module
220: Matrix module 230: Disaster type database
250: SOP database 250: ESF database
260: Geographic information database 300: Simulation section
310: scenario driving module 320: alarm module
330: priority processing module 340: resource allocation module
350: command system processing module 360: recovery processing module
400: Post analysis section 500: Disaster variable introduction section
510: Web Robot Module

Claims (5)

A scenario planning unit for a user to log in and set up a simulation environment to simulate a scenario for each disaster type;
A scenario is generated according to a user condition and a simulation environment set by the scenario planning unit, and a scenario is created by combining a standard operation procedure (SOP) corresponding to a disaster processing step, an emergency support function resource, and geographic information according to a disaster type A scenario generation unit for each disaster type to be generated;
A scenario is generated for the scenarios according to the disaster type generated by the scenario generator, a crisis alarm is generated according to the scenario progress, a corresponding resource is allocated according to the priority according to the crisis, A simulation unit for executing a simulation to process the data;
A post-analysis unit for generating user evaluation data according to a result of the simulation and generating and storing a result report; And
And a disaster variable introduction unit for retrieving a disaster variable for each type of disaster from various internet sites by the web robot module in addition to the disaster analysis parameters analyzed and providing the retrieved disaster variable to the scenario generator. system. The method according to claim 1,
The scenario generation unit generates,
A disaster type database defining a number of disaster type information corresponding to natural disasters, human disasters, and state-based protection schemes;
An SOP manual database defining a standard operating procedure (SOP) manual defined step by step according to the disaster process step according to the progress of the disaster type;
A database for defining a list of emergency support function resources available to the simulation user according to the progress of the disaster type;
A database for defining terrain information according to the disaster type occurrence or progress according to the disaster type information according to the disaster type information;
A matrix module for combining and providing information of the plurality of databases according to a disaster variable introduced in the scenario; And
And a scenario generation module for generating a scenario for each type of catastrophe designed by the plurality of databases and the matrix module. The method according to claim 1,
The simulation unit includes:
A scenario driving module for displaying the designed disaster type scenario;
An alarm module for generating a disaster risk occurrence alarm according to progress of the scenario;
A priority processing module for determining a corresponding priority in the event of a disaster risk situation according to the alert module;
A resource allocation module for distributing corresponding resources according to the priority;
A command system module for managing the command system of the crisis response field commander according to the priority order; And
And a recovery processing module for executing the disaster recovery processing management generated according to the implemented scenario. The method according to claim 1,
Wherein the scenario planning unit provides a user interface for logging in and setting a simulation environment. Establishing a user's login and simulation environment in the scenario planning section in order to simulate the scenario according to the disaster type;
Generating a scenario according to the disaster type by combining a standard operating procedure (SOP) corresponding to a disaster processing step, an emergency support function resource, and geographic information according to a user condition and a simulation environment set by the scenario planning unit;
The simulation unit implements the scenario for the scenario of the disaster type, generates a crisis alarm according to the scenario progress, distributes the corresponding resource according to the priority according to the crisis situation, manages the command system, and executes the simulation to recover the disaster situation ; And
Wherein the post-analysis unit includes a step of generating user evaluation data according to a result of the simulation and generating and storing a result report,
The disaster variable introduction section may further include a step of retrieving a disaster variable for each type of disaster from various internet sites by the web robot module as well as the disaster parameter analyzed and providing the retrieved disaster variable to the scenario generation section How to build a disaster response.

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