KR20180059356A - Integrated control system for urgent response against disaster situations including chemical hazard, and disaster response method using thereof - Google Patents

Abstract

The present invention relates to an integrated control system to urgently respond to a disaster situation including a chemical hazardous substance and a disaster response method using the same. According to the present invention, in a disaster situation, such as a chemical substance leakage accident occurring in a factory and an institution, such as a research center, and the like, where a chemical hazardous substance is handled, the integrated control system to urgently respond to a disaster situation, including a chemical hazardous substance, safely evacuates persons from a disaster area, prevents secondary diffusion of a leaked chemical substance through fast situation propagation and initial response, and supports fast dispatch of a special chemical substance disaster response team based on machine-to-machine (M2M) and Internet of things (IoT). Moreover, through information exchange with related organization, such as a city, a fire station, a chemical rescue team, a resident company, a joint control center, a public health center, a medical institution, a police station, an environmental protection agency, a fire head office (integrated 911 monitoring room), and the like, requiring cooperation in disaster management, a disaster response scenario is able to be improved in an enhanced way. According to the present invention, the integrated control system comprises an initial response control unit, an integrated control unit, and each user terminal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated control system for an emergency response of a disaster situation including harmful chemical substances, and a disaster response method using the system. 2. Description of the Related Art INTRODUCTION [

The present invention relates to an integrated control system for emergency response of a disaster situation including harmful chemical substances and a disaster response method using the same. More particularly, the present invention relates to a system for managing chemical accident (M2M, Machine-to-Machine) and Internet (IoT, Internet of Things) in the disaster situation of the disaster area, And a disaster countermeasure method using the integrated control system for the emergency response of a disaster situation including a toxic chemical substance which is configured to simultaneously prevent the spread of a car and promptly dispatch a chemical disaster specialist class.

In recent years, there has been a growing concern about the damage caused by large and small toxic chemical spills, and many cases of toxic chemical spill accidents are due to the fact that they depend on manpower to monitor the dust and odors near the factory have.

In particular, SMEs handling chemical substances recognize the need for safety management, but they face difficulties in coping with the shortage of personnel and facilities. Therefore, the national government directly cooperates with the Ministry of Environment and the Ministry of Environment , Plans to detect the release of harmful chemical substances in advance and minimize accident damage.

Specifically, the Safety Administration and the Ministry of Environment plan to carry out a pilot project for three small and medium enterprises of the Yeosu Industrial Complex, the largest petrochemical complex in the country, by installing a detection sensor at a place where leakage of chemical storage tanks, Will build a control system capable of

In addition, dust, odor sensor, and weather sensor are installed near the factory and analysis of weather information such as wind direction, wind speed, temperature and humidity when an accident occurs, so that the range of spread of toxic chemicals will be predicted.

Therefore, once the system is established, hazardous chemical spill information is immediately sent to the Yeosu Chemical Disaster Prevention Center when an accident occurs, and employees are transferred to Yeosu City Hall and 119 fire brigades. .

In other words, by establishing a toxic substance spill and atmospheric monitoring system, it is possible to secure a golden time for evacuation of residents by promptly spreading an accident and responding promptly to chemical accident response organizations. In addition, accident information is shared with residents in the complex, It can be an opportunity to build a system.

In order to prevent and respond to chemical accidents, the Chemical Hazardous Disaster Prevention Center has been involved in voluntary participation of chemical handling companies such as the Ministry of Environment, the Ministry of Employment and Labor, the Ministry of Industry and Commerce, the National Security Agency, and local governments. It is effective in prevention of chemical accidents, rapid response, improvement of handling facilities, safety education and disaster prevention training.

On the other hand, the above-mentioned chemical disaster joint disaster prevention system prepares a disaster response manual that specifies guidelines for each relevant organization in case of a disaster, and prepares for chemical disaster through periodical simulation training.

However, the conventional disaster response manuals sometimes contain guidelines somewhat different from actual disaster situations. Furthermore, when such problems are not corrected and similar disaster situations occur, they are pointed out in the post evaluation .

Therefore, it is necessary to check the manual performance status of each relevant organization at each occurrence of disasters, reduce unnecessary administrative time and manpower for practitioners coping with actual disasters, The present applicant has been troubled with the integrated control system for emergency response of a disaster situation including a new type of harmful chemical substance that can be updated to a corresponding scenario and a disaster response method using the same.

Korean Patent No. 10-1674999 Korean Patent No. 10-1674048 Korean Patent Publication No. 10-2016-0138647

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and more particularly, to-Machine and Internet of Things (IoT), and to respond quickly to emergency situations, to safeguard the lives of people in disaster areas, to prevent the secondary spread of spilled chemicals, And a disaster response method using the integrated control system for emergency response of a disaster situation including harmful chemical substances configured to simultaneously support dispatch.

According to one preferred embodiment of the present invention, in a disaster situation such as a chemical substance leakage accident occurring in a factory or a research institute dealing with a harmful chemical substance, a machine-to-machine (M2M) Things include hazardous chemicals designed to safely evacuate people in disaster areas, prevent secondary spreading of spilled chemicals, and support rapid dispatch of chemical disaster specialists, The integrated control system includes a sensor module 110 composed of different kinds of sensors installed at a place where the harmful chemical substance is initially handled to detect the leakage of harmful chemical substances, And supports the communication of objects between different types of sensors and transmits a chemical disaster detection signal received from the sensor module 110 to a disaster occurrence notification And a disaster propagation module (120) for transmitting the signals to all the user terminals and the integrated control unit servers located in the disaster occurrence area; Upon receipt of the disaster occurrence notification signal from the initial response control unit 100, it instantaneously propagates simultaneously the tasks corresponding to the initial actions for each relevant institution through the wired / wireless network, and reports the instantaneous response scenario And provides the feedback information to the related organizations such as the scenario modification by backing up and evaluating the disaster response scenario data in a database for each disaster event in the integrated control unit server 210. The GPS position information of the user terminal and the current disaster occurrence location An integrated control unit (200) for generating and transmitting emergency safe evacuation route information that can be safely evacuated from the corresponding location to the outside of the disaster area for each user terminal; A comparison is made between the current disaster occurrence location and its own location information received at the time of receiving the disaster occurrence notification signal from the initial response management unit 100 and the nearest person to the disaster occurrence location is compared with the highest- Each of the user terminals 300 is automatically alarmed and informed by the integrated control unit 200 of the shortest evacuation route information according to the current GPS position information and informed to the user by voice or message .

According to another embodiment of the present invention, the sensor module 110 includes a temperature sensor for detecting an abnormal temperature change; Fire sensor that detects flame or smoke when a fire occurs: gas sensor that detects harmful or lethal micro gas; A leak detection sensor for detecting leaks or leakage of chemicals; And a CCTV camera for real-time monitoring of the management room management personnel.

According to another embodiment of the present invention, the disaster propagation module 120 collects disaster situation clue information detected or detected from each of different types of sensors, collects and analyzes one or more collected data, And judging whether or not a chemical spill accident has occurred. (Note that temperature sensor = a, fire sensor = b, gas sensor = c, and leak sensor = d, where ON means a state in which disaster situation clue information is captured in the sensor, while OFF is not captured (B), (b), (c), (d), and (d) (A, b = OFF)}, iv) the risk of fire due to chemical spillage, if (a, c, d = OFF) (A, b, c = ON) AND (b = OFF)}, v) Judging by the situation only if { d = OFF)}

According to another embodiment of the present invention, the integrated control unit server 210 generates an initial action corresponding scenario execution list of each related institution coping with a disaster event every time a chemical outbreak disaster occurs, In comparison with the real-time mission performance report received, it is checked whether it is successful, active, passive, inactive, or not performed in post evaluation, and scenario report is generated for each relevant organization participating in disaster response and provided to relevant organizations , The problem of the predetermined scenario is corrected and the capability of performing the initial response in the next disaster situation is supplemented.

According to another embodiment of the present invention, the integrated control unit 200 may include a disaster response setting manual 221, a crisis alert and situation propagation 222, an initial response corresponding to the emergency response preparation procedure 223 ), Organizational task 224 and catalogs and stores the history of the chemical substance disasters set in each scenario, including date and time, location, weather information, occurrence type, accident development report, And a disaster response scenario DB 220 that forms a database.

According to another embodiment of the present invention, the disaster state setting manual 221 may include an institution name, a responsible department, an on-site dispatcher who is obliged to participate in the initial response scenario when it is determined by the disaster propagation module 120 (222) includes information on the GPS information of the storage room, the laboratory, and the processing zone where the chemical is handled, and the safety countermeasures and disposal of harmful chemicals And transmits the specific outflow and damage situation of the harmful chemicals collected from the sensor module 110 to the related organization in real time when a disaster occurs. The initial response corresponding development procedure 223 is a system When a disaster occurs, an alarm for emergency evacuation and safe shortest evacuation route information according to the GPS location information of the current user are transmitted to the user terminal 300 The task 224 is a procedure for assigning dispatch personnel, support equipment, scope of tasks, cooperation targets, etc., according to the task attributes of each relevant organization. And the information of the information processing apparatus.

According to another embodiment of the present invention, there is provided a disaster response method using an integrated control system for emergency response of a disaster situation including a toxic chemical substance, wherein the disaster response method comprises the steps of: An abnormal symptom detection step (S100) of collecting disaster situation clue information through detection of the sensor module (110); The analysis and disaster situation occurrence is determined using the disaster propagation module 120 with respect to the disaster state cue information collected through the sensor module 110 and the disaster occurrence notification signal is transmitted to all the user terminals 300 To the integrated control unit server 210 (S200); A coordinating step for cooperating with the associated control center server 210 to simultaneously transmit the primary task corresponding to the disaster situation setting manual 221 stored in the disaster response scenario DB 220 to the respective related institutions simultaneously S300); Under the integrated control of the Integrated Control Department (200), the personnel in the disaster area can be quickly and safely evacuated. At the same time, the hazardous chemical substances leaked with the support of related organizations are treated safely, Developing step S400; An agency response evaluation step (S500) of storing the real-time mission performance report reported from the related organization in the disaster response scenario DB 220 and comparing the same with the predetermined mission execution check list to evaluate the initial response result for each relevant institution; A scenario evaluation report for each relevant organization participating in the disaster response is generated and is made into a database for each disaster event in the integrated control unit server 210. The problems of the initial response scenario are identified according to the evaluated agency agency response grade, And a scenario modification step (S600).

According to another embodiment of the present invention, the first emergency response development step (S400) includes the steps of creating a scenario for a hazardous chemical substance leakage accident, a fire department, a chemical rescue team, a moving company, The disaster response scenario database 220 is constructed through consultation with the field practitioner and the disaster experts of the relevant organizations, which are composed of at least one of a health center, a medical institution, a police station, an environmental office, a fire department, and 119 general departments.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the term " comprises " or " having ", etc. is intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

The integrated control system for the emergency response of the disaster situation including the harmful chemical substances according to the present invention and the disaster response method using the system have the following advantages.

First, the initial response control unit (100) detects and identifies the occurrence of a chemical disaster at an early stage to warn the immediate evacuation of personnel in the disaster occurrence area, and promptly develops response to the chemical disaster emergency response Disaster Disaster Prevention

Second, the initial response scenario for each organization is listed and stored in a disaster situation setting manual, crisis alert and situation propagation, initial response development procedure, and organization - specific tasks. , Location, weather information, type of occurrence, accident development report, agency response report, and damage scale.

Third, through information exchange with related organizations that need cooperation in disaster response such as city, fire department, chemical rescue team, residents, joint control center, public health center, material medical institution, police station, environmental office, fire department, 119 general situation room, We can improve on further improvement.

FIG. 1 is a block diagram for explaining an integrated control system for urgent handling of a disaster situation including a hazardous chemical according to the present invention;
FIG. 2 is a reference view for explaining a sensor module of the integrated control system of FIG. 1;
FIG. 3 is a flowchart for explaining a disaster response method using an integrated control system for emergency response in a disaster situation including a toxic chemical according to the present invention;
FIG. 4 is a reference diagram for explaining a related-art coordination system of a disaster response scenario according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram for explaining an integrated control system for urgent handling of a disaster situation including a toxic chemical according to the present invention.

As shown in FIG. 1, the present invention relates to an apparatus and a method for controlling a machine to machine (M2M) and an Internet of objects (IoT, etc.) in a disaster situation such as a chemical substance accident occurring in a factory, Internet of Things) to safely evacuate people in the disaster area, to prevent the secondary spread of spilled chemicals, and to support the rapid dispatch of chemical disaster specialists at the same time. The integrated control system includes an initial response control unit 100, an integrated control unit 200, and a user terminal 300.

Hereinafter, each configuration of the integrated control system for the emergency response of the disaster situation including the harmful chemical substances according to the present invention will be described in detail.

First, the initial response control unit 100 includes the sensor module 110 and the disaster propagation module 120 again.

2, the sensor module of the integrated control system shown in FIG. 1 is described in detail with reference to FIG. 1, For reference.

Referring to FIG. 2, the sensor module 110 includes a temperature sensor for detecting an abnormal temperature change, a fire sensor for detecting a flame or smoke when a fire occurs, a gas sensor for detecting a harmful or lethal micro gas, Leak detection sensor to detect leaks or leakage of chemicals, and CCTV camera for real-time monitoring of management personnel.

Next, the disaster propagation module 120 supports object communication between the different types of sensors, converts a chemical disaster detection signal received from the sensor module 110 into a disaster occurrence notification signal, To the terminal and the integrated control unit server.

At this time, the disaster propagation module 120 collects disaster situation clue information detected or detected from each of different types of sensors, collects and analyzes one or more collected data, and determines whether or not a chemical substance leakage accident has occurred according to the following conditional expression do.

In this case, temperature sensor = a, fire sensor = b, gas sensor = c, and leak sensor = d, where ON means a state in which disaster situation clue information is captured in the sensor, State.

i) It is judged as an initial stage of disaster risk possibility only if {(a = ON) AND (b, c, d = OFF)}

ii) Simple fire is judged to occur only if (b = ON) AND (a, c, d = OFF)

iii) Judged as a chemical spill accident if {(c, d = ON) AND (a, b = OFF)}

iv) Judged as a fire hazard situation due to chemical leaks only if {(a, d = ON) AND (b = OFF)}

v) Determination of dangerous situation of hazardous gas secondary to fire 2) Only if {(a, b, c = ON) AND (d = OFF)}

Next, when the integrated control unit 200 receives the disaster occurrence notification signal from the initial response control unit 100, the integrated control unit 200 simultaneously propagates the initial task corresponding to each relevant institution through the wired / wireless network simultaneously.

Then, the first response scenario to be performed by each agency is reported in real time, and a database is prepared for each disaster event in the integrated control unit server 210 to backup and post-evaluate the disaster response scenario data to provide feedback information to each relevant institution do.

At this time, the integrated control unit server 210 generates an initial action corresponding scenario execution list of each relevant institution that responds to a disaster event every time a chemical outbreak event occurs.

Then, it is compared with the real-time mission performance report reported from the related authority, and it is checked whether it is a successful execution, an active execution, a passive execution, a poor execution, or a non-execution in post evaluation.

Accordingly, a scenario evaluation report for each relevant organization participating in the disaster response is generated and provided to each relevant organization, thereby correcting the problems of the predetermined scenario and supplementing the ability to perform the initial response in the next disaster situation.

In addition, the integrated control unit 200 compares the GPS position information of the user terminal with the current disaster occurrence location, and generates emergency escape route information that can be safely evacuated from the corresponding location to the outside of the disaster area for each user terminal do.

Meanwhile, the integrated control unit (200) manages the disasters corresponding to the disasters in the past including the date and place, the weather information, the occurrence type, the accident development report, the agency response report, And may further include a scenario DB 220. [

Here, the disaster response scenario DB 220 includes a disaster response setting manual 221, a crisis alert and situation propagation 222, an initial response correspondence development procedure 223, an agency task 224, Are cataloged and stored.

In this case, the disaster state setting manual 221 may include an institution name, a responsible department, a field dispatch staff, a liaison report line, and an institutional coordinator who are obliged to participate in the emergency response scenario when it is determined by the disaster propagation module 120 Includes system information.

The crisis alert and the state propagation 222 provide GPS information of a storage room, a laboratory, and a process zone where a chemical is handled, a safety countermeasure for a hazardous chemical substance, and a disposal treatment method to a related organization. Refers to a system that propagates specific leakage and damage conditions of harmful chemical substances collected from the module 110 to the related organs in real time.

When the emergency disaster occurs, the first emergency response development procedure 223 instructs the user terminal 300 to transmit the alarm for emergency evacuation and the safe shortest evacuation route information according to the GPS position information of the current user, Which means the procedure to instantly propagate the initial response scenario set in advance.

Finally, the organizational task 224 refers to a list of tasks including information on dispatched personnel, support equipment, scope of tasks, cooperation targets, and the like, which are allocated according to task attributes of respective related organizations.

Finally, the user terminal 300 compares the current disaster occurrence location and its own location information received when the disaster occurrence notification signal is received from the initial response control unit 100, and provides emergency evacuation to the persons close to the disaster occurrence location The highest level of vibration and beeps for alarming are automatically alarmed.

Specifically, each of the user terminals 300 receives the shortest safe route information according to the current GPS position information from the integrated controller 200, and notifies the user of the shortest route information by voice or message.

Accordingly, the user terminal located close to the disaster occurrence area is notified of the most urgent alarm, and a safe evacuation route is also guided to the user terminal having a somewhat distant place, so that the evacuation is the most important.

FIG. 3 is a flow chart for explaining a disaster response method using an integrated control system for emergency response of a disaster situation including a toxic chemical according to the present invention, FIG. 4 is a flowchart illustrating a disaster response scenario according to an embodiment of the present invention This is a reference diagram for explaining the cooperation system of the related organizations.

As shown in FIG. 3, in the disaster response method using an integrated control system for emergency response of a disaster situation including a toxic chemical according to the present invention, the disaster response method includes an abnormal symptom detection step (S100) A disaster situation propagation step S200, a related organization cooperation step S300, an initial correspondence deployment step S400, an agency response evaluation step S500, and a scenario modification step S600.

In the following, each step will be described in detail.

First, the abnormality symptom detection step (S100) is a step of collecting disaster situation clue information through detection of the sensor module 110 installed at a place where toxic chemicals are handled.

Next, the disaster state propagation step (S200) uses the disaster propagation module 120 to analyze the disaster situation clue information collected through the sensor module 110 to determine whether an analysis and a disaster situation have occurred.

Then, a disaster occurrence notification signal is transmitted to all the user terminals 300 and the integrated control server 210 located in the disaster occurrence area.

The related organization coordination step S300 refers to the disaster situation setting manual 221 stored in the disaster response scenario DB 220 and simultaneously collects the initial correspondence task through the integrated control unit server 210 It is a stage spreading by related organization.

In step S400, the integrated control unit 200 controls the integrated control unit 200 to quickly and safely evacuate the personnel in the disaster area, and safely handles the harmful chemical substances leaked through the support of related organizations. To prevent the spread of the second disaster.

At this time, the first emergency response development step (S400) is a step for developing and responding to a hazardous chemical substance leakage accident scenario, such as a city, a fire station, a chemical rescue team, a moving company, a joint control center, a public health center, The Disaster Response Scenario DB (220) will be constructed through consultation with the field practitioners and disaster experts of related organizations composed of one or more of the fire service headquarters and 119 general situation rooms.

4, the related organizations constructed in the disaster response scenario DB 220 are Yeosu City, Yeosu Fire Department, Yeosu Fire Department Chemical Rescue Team, Yeosu Industrial Complex, Joint Control Center, Yeosu City Public Health Center, Yeosu City Yeonsu Police Station, Yeongsan River Basin Environment Agency, and Jeonnam Fire Department Headquarters 119 general situation room.

The agency response evaluation step S500 is a step of storing the real-time mission performance report reported from the related organization in the disaster response scenario DB 220 and comparing the result with the predetermined mission execution check list to evaluate the initial response result for each relevant institution .

In the scenario modification step S600, a scenario evaluation report for each relevant organization participating in the disaster response is generated and a database is created in the integrated control unit server 210 for each disaster event.

At this time, according to the evaluated agency agency coping grade, problems of the first response scenario are identified, and supplementary measures are taken and updated.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Initial correspondence control unit 110: Sensor module
120: Disaster radio module
200: Integrated control unit 210: Integrated control unit server
220: Disaster response scenario DB
300: user terminal

Claims (5)

(M2M, Machine to Machine) and Internet of things (IoT, Internet of Things) in case of disasters such as chemical spills occurring in factories and research institutes dealing with hazardous chemicals, For the emergency response of disasters, including hazardous chemicals, designed to safely evacuate people in disaster areas, prevent secondary spread of spilled chemicals, and support rapid dispatch of chemical disaster specialists. In the system, the integrated control system
A sensor module 110 composed of different types of sensors installed in a place where the harmful chemical substance is initially detected to handle the leakage of the toxic chemical substance and a sensor module 110 for supporting object communication between the different types of sensors, An initial response control unit 100 configured to convert a material disaster detection signal into a disaster occurrence notification signal and transmit the disaster alarm signal to all user terminals and integrated control unit servers located in the disaster occurrence area;
Upon receipt of the disaster occurrence notification signal from the initial response control unit 100, it instantaneously propagates simultaneously the tasks corresponding to the initial actions for each relevant institution through the wired / wireless network, and reports the instantaneous response scenario And provides the feedback information to the related organizations such as the scenario modification by backing up and evaluating the disaster response scenario data in a database for each disaster event in the integrated control unit server 210. The GPS position information of the user terminal and the current disaster occurrence location An integrated control unit (200) for generating and transmitting emergency safe evacuation route information that can be safely evacuated from the corresponding location to the outside of the disaster area for each user terminal;
A comparison is made between the current disaster occurrence location and its own location information received at the time of receiving the disaster occurrence notification signal from the initial response management unit 100 and the nearest person to the disaster occurrence location is compared with the highest- Each of the user terminals 300 being automatically alarmed and informing the user of the shortest escape route information according to current GPS position information from the integrated control unit 200 by voice or message Integrated control system for emergency response of disaster situations including hazardous chemicals.
The method according to claim 1,
The sensor module (110)
A temperature sensor for detecting an abnormal temperature change;
Fire sensor that detects flame or smoke in case of fire:
A gas detection sensor for sensing a harmful or lethal micro gas to the human body;
A leak detection sensor for detecting leaks or leakage of chemicals;
And a CCTV camera for real-time monitoring of personnel in the management room; and an integrated control system for urgent handling of a disaster situation including toxic chemicals.
The method according to claim 1,
The disaster propagation module 120 collects disaster situation clue information detected or detected from each of the different types of sensors, collects and analyzes one or more collected data, and determines whether a chemical substance leakage accident has occurred according to the following conditional expression Integrated control system for emergency response of disaster situations including hazardous chemical substances.
(Note that temperature sensor = a, fire sensor = b, gas sensor = c, and leak sensor = d, where ON means a state in which disaster situation clue information is captured in the sensor, while OFF is not captured ≪ / RTI >
i) It is judged as an initial stage of disaster risk possibility only if {(a = ON) AND (b, c, d = OFF)}
ii) Simple fire is judged to occur only if (b = ON) AND (a, c, d = OFF)
iii) Judged as a chemical spill accident if {(c, d = ON) AND (a, b = OFF)}
iv) Judged as a fire hazard situation due to chemical leaks only if {(a, d = ON) AND (b = OFF)}
v) Determination of dangerous situation of hazardous gas secondary to fire 2) Only if {(a, b, c = ON) AND (d = OFF)}
The method according to claim 1,
The integrated control unit server 210
Each time a chemical outbreak disaster occurs, a scenario execution list is generated for each agency that responds to a disaster event, and compared with the real-time mission performance report reported from the relevant agencies, successful execution, active execution, and passive execution , Insufficient performance, and undecided stages, and generates a scenario evaluation report for each relevant organization participating in the disaster response and provides it to each relevant organization, thereby correcting the problems of the predetermined scenario and performing the initial response in the next disaster situation The system comprising: an integrated control system for emergency response of a disaster situation including toxic chemicals.
The method according to claim 1,
The integrated control unit 200 lists the initial response corresponding to each agency as a disaster state setting manual 221, a crisis alert and situation propagation 222, an initial response corresponding development procedure 223, and a task specific task 224 and records a disaster response scenario database (DB) in the database including date and time, place, weather information, occurrence type, accident development report, agency response report, and damage scale for the past occurrence record of the chemical substance disaster set in each scenario (220). The integrated control system for an emergency response of a disaster situation including a hazardous chemical substance.

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