KR102416892B1 - Intelligent disaster response system between sensors and servers based on disaster response procedures - Google Patents

Abstract

The present invention relates to a sensor-server intelligent disaster response system capable of automatically sorting symptoms related with a diameter from a large amount of sensing information provided in real time to report accurate information to a user, thereby enabling the user to quickly become ready for ethe diameter. The sensor-server intelligent disaster response system comprises: various types of disaster sensors; CCTVs installed along with the sensors in a site; a disaster information communication server receiving data sensed by the sensors and the CCTVs through a communication network; an external disaster data system connected to provide information of a densely populated area, disaster damage and history information to the disaster information communication server; and a disaster information visualization dashboard displaying the disaster information through visualization information outputted from the disaster information communication server. The sensor-server intelligent disaster response system receives the sensing information from the various sensors in real time, and, when detecting a symptom related with a disaster, provides a corresponding location and an abnormal sensor value to a user, while automatically visualizing a screen of an adjacent CCVT of the location in which the symptom is detected, to cause the user to doublecheck whether the disaster occurs, calculates a phenomenon value of a sensor and the degree of risk of a neighboring area to diagnose a current disaster occurrence level, and maps the sensing information, the sensor information, the degree of risk and disaster responses with a map, schematizes the information into numerical values, or indicates the information in a graph, thereby enabling the user to quickly and accurately become ready for the disaster situation or respond thereto.

Description

Intelligent disaster response system between sensors and servers based on disaster response procedures}

The present invention relates to an intelligent disaster response system between a sensor and a server that automatically selects anomalies related to a disaster from a large number of sensed information provided in real time and notifies a user of accurate information to quickly prepare for a disaster,

Receives sensing information from various sensors in real time, and when an abnormal symptom related to a disaster is found, the user is provided with the corresponding location and the abnormal sensor value. Reconfirms whether the occurrence has occurred, calculates the sensor current value and the level of risk in the nearby area to diagnose the current level of disaster, and maps the sensing information, sensor information, risk level and disaster response on a map or charts numerically Or, by displaying it in a graph, it relates to an intelligent disaster response system between a sensor-server based disaster response procedure that enables a user to quickly and accurately prepare or respond to a disaster state.

Recently, due to global warming caused by the increase in greenhouse gas emissions worldwide, the occurrence cycle of El Niño and La Niña is getting shorter. Lightning strikes and droughts are increasing in both intensity and frequency, and the resulting damage to human life and property is also increasing rapidly on a large scale.

In addition, due to the sophistication and concentration of urban structures, facilities such as high-rise buildings, multi-use facilities, and new industry facilities are diversified, resulting in diversification of safety accidents and disaster patterns. and size are also on the rise.

Due to various environmental changes, the earth's temperature will gradually rise, and the average temperature at the end of this century is expected to rise by up to 64 degrees and sea level by about 60 cm. It is expected that this will increase the frequency of heat waves and heavy snowfall, and lead to an increase in the intensity and precipitation of tropical cyclones (typhoons).

In Korea, assuming that all energy sources are used in a balanced way during the 21st century, the average temperature at the end of this century is expected to rise by about 4 degrees compared to the end of the 20th century (1971~2000), and the precipitation is expected to increase by about 17%.

Considering this trend, it is expected that a variety of disasters of different magnitudes and sizes will occur in the future, and countermeasures against them are very urgent.

Existing disaster countermeasures mostly involve post-mortem measures, so the damage was great. However, disaster management policies centered on prevention and preparedness are gradually being promoted, and each local government is taking active measures such as installing CCTV (Closed Circuit Television).

It is a well-known fact that in order to prepare for various disasters that are becoming more diversified and complicated, it is not possible to cope with the existing simple damage recovery and emergency response alone. The establishment of an organic disaster prevention system based on this is urgently required.

In particular, in order to compensate for the shortcomings of the conventional disaster response system, which has been built mainly on various sensors for natural and human disasters, intelligent CCTV, which has recently been in the spotlight in the public safety and security field, is used for disaster prevention work in connection with disaster and disaster-related information. An intelligent disaster prevention and management system is very necessary.

In addition, it is important to distinguish the information corresponding to a true disaster in relation to local information and damage histories among the sensing information received from various sensors,

It is very important to quickly identify the degree of risk and expected progress in the event of an abnormality and provide an accurate response method to each response step, but the conventional disaster response system is insufficient in these fields.

Meanwhile, in recent smart cities or complex buildings, there is a trend of monitoring in the situation room by installing sensors to detect various disaster-related phenomena along with CCTV for quick response to disasters occurring in indoor and outdoor spaces.

In order to increase the detection rate of a disaster, the number of detectors must be increased, and significant manpower is required to monitor a large number of sensors installed in a large area within a city, so efficiency is reduced.

In addition, even if a disaster situation is detected, in order to effectively respond to it, the user must be able to select the necessary information for each disaster and each disaster situation. If judgment is withheld or misjudged, there is also a risk of causing a significant error in disaster response.

Patent Document 1: Korean Patent Publication No. 2017-0022607 Patent Document 2: Korean Patent Publication No. 2018-0114814

In the present invention, it is possible to automatically select an abnormal symptom related to a disaster from a large number of sensing information provided in real time and notify accurate information, so that the first object is to be able to quickly prepare for a disaster.

In addition, sensing information is received from various sensors in real time, and when an abnormal symptom related to a disaster is found, the user is provided with the corresponding location and the abnormal sensor value. It allows you to reconfirm whether a disaster has occurred, calculates the current sensor value and the level of risk in the vicinity to diagnose the current level of disaster, and maps the sensing information, sensor information, risk and disaster response on a map or numerically The second purpose is to enable the user to quickly and accurately prepare for or respond to a disaster situation by displaying it in a chart or graph.

In the disaster response procedure-based sensor-server intelligent disaster response system of the present invention for achieving the above object,

various types of disaster detection sensors; CCTVs installed in the field together with the sensors; a disaster information communication server to which data sensed by the sensors and CCTVs are transmitted through a communication network; an external disaster data system connected to the disaster information communication server to provide information on densely populated areas, disaster damage and history information, etc.; Consists of a disaster information visualization dashboard that displays disaster information according to the visualization information output from the disaster information communication server,

Receives sensing information from various sensors in real time, and when an abnormality related to a disaster is found, the corresponding location and abnormal sensor value are provided to the user. It allows you to reconfirm whether a disaster has occurred, calculates the current sensor value and the level of risk in the nearby area to diagnose the current level of disaster, and displays sensing information, sensor information, risk level and disaster response on the map on the disaster information visualization dashboard. It is characterized in that it is mapped, numerically tabulated, or displayed as a graph, so that the user can quickly and accurately prepare for or respond to a disaster state.

The disaster information communication server includes: a communication unit provided therein to receive data from sensors and an external disaster data system;

an external disaster data receiving unit for receiving static data of an external system closely related to disaster response, such as disaster damage information, disaster history information, and dense population areas, from the external disaster data system;

Storing the sensing information received from the sensors, recognizing a disaster situation when an abnormal symptom occurs when the sensing information exceeds a preset value in the sensor, and providing a preset disaster response process for the disaster situation, but a sensing information processing unit for determining the actual state of a disaster by being combined with static data such as disaster damage information, disaster history information, and dense population areas in the external disaster data system;

When the sensing information processing unit recognizes a disaster situation, the CCTV around the corresponding sensor is automatically activated and the CCTV image is mapped on the map through the disaster information visualization dashboard and provided.

The disaster information communication server stores the information recognized as a disaster situation by the sensing information processing unit, provides a rule of disaster occurrence related to static data of an external system and a rule for determining the disaster stage, and informs the response step for each disaster It may be connected to a disaster situation recognition DB for providing information, and may also be connected to a sensor meta DB for providing information related to sensors and CCTVs to the sensing information processing unit.

The sensing information processing unit is to provide an appropriate disaster response step process by determining whether there are abnormal symptoms by the sensing information received from the sensors, and considering the type and risk of the disaster,

a sensing information collecting unit for collecting the sensing information of the sensor and loading it into a sensing information storage DB; a sensor identification unit for mapping and identifying the sensing information received from the sensor and the sensor information of the sensor meta DB; It may be composed of a disaster judgment analysis unit for judging a current disaster by comparing and analyzing the received sensing information with the definition and rules of the disaster occurrence rule unit.

When the sensing information processing unit recognizes a disaster situation, the CCTV control unit automatically activates the CCTV around the sensor so that the CCTV image is mapped and provided on the map through the disaster information visualization dashboard,

A disaster-occurring area CCTV mapping unit for mapping the disaster-occurring area and the CCTV in order to confirm the actual disaster according to the abnormal symptoms determined by the intelligent system; It may be composed of a CCTV operation unit to provide up/down, left/right, and zoom-in functions of the connected CCTV.

The disaster situation recognition DB includes: a disaster DB for storing information recognized by the sensing information processing unit as a disaster situation; a disaster occurrence rule unit for providing a disaster occurrence rule related to static data of an external system; a disaster level determination rule unit for providing a rule for disaster level determination related to static data of an external system; a disaster response step DB for informing the response step for each disaster; It may be composed of a layer list for each disaster response procedure to provide a preset layer for each talent response procedure.

The sensor meta DB includes: sensor location and property information for providing a location and property of a sensor; It may be composed of CCTV location and property information for providing location and properties of CCTV.

The disaster information visualization dashboard is for displaying disaster information by visualization information output from the disaster information communication server,

layer visualization for each stage of the disaster response for displaying the layer by stage according to the disaster response state determined by the disaster response stage analysis unit; disaster occurrence information visualization for displaying disaster occurrence information according to the disaster type determined by the disaster determination and analysis unit; an anomaly detection alarm for alerting when an abnormality is detected by the disaster determination and analysis unit; When the disaster determination and analysis unit detects an abnormality, the CCTV in the vicinity of the sensor is automatically activated and displayed, and the CCTV visualization in the vicinity of the disaster; It may be composed of a CCTV operation interface unit provided to adjust the CCTV screen up and down, left and right, and zoom-in.

Sensing information from various sensors is input in real time to the disaster information communication server, and local information, damage history, risk, etc. are input in the external disaster data system. to determine the type of disaster and the degree of risk;

In accordance with the disaster occurrence rules and disaster response step-by-step procedures stored in the disaster situation recognition DB, the disaster response stage is determined and provided according to the determined disaster type and risk level;

The determined disaster type, risk level, and disaster response stage information is either mapped to a map through the disaster information visualization dashboard, or information on the corresponding sensor and local situation is visualized and provided.

Since the CCTV is automatically activated when an abnormal symptom is found in the disaster judgment analysis unit, the corresponding sensor and information in the vicinity thereof can be visualized and provided on the visualization dashboard.

In the disaster response procedure-based sensor-server intelligent disaster response system according to the present invention, it is possible to quickly prepare for disasters by automatically selecting anomalies related to disasters from a large number of sensing information provided in real time and notifying accurate information. has the effect of making it

In addition, sensing information is received from various sensors in real time, and when abnormal symptoms related to a disaster are found, the location and abnormal sensor values are provided to the user. It allows you to reconfirm whether a disaster has occurred, calculates the current sensor value and the level of risk in the nearby area to diagnose the current level of disaster, and maps the sensing information, sensor information, risk and disaster response on a map or numerically By charting or displaying a graph, there is also an effect of enabling the user to quickly and accurately prepare for or respond to a disaster situation.

1 is a block diagram schematically showing an intelligent disaster response system between a sensor and a server based on a disaster response procedure according to the present invention;
2 is a block diagram showing the disaster information communication server and the disaster information visualization dashboard, which are the main parts of the present invention, in more detail;
3 is a flowchart showing a process of an intelligent disaster response system between a sensor and a server based on a disaster response procedure according to the present invention;
4 is an exemplary diagram of a visualization dashboard screen displayed by the disaster response procedure-based sensor-server intelligent disaster response system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, it goes without saying that the scope of the present invention is not limited thereto.

In the present specification, the present embodiment is provided so that the disclosure of the present invention is complete, and is provided to completely inform those of ordinary skill in the art to which the present invention belongs, the scope of the invention, the scope of the present invention is only It is only defined by the claims. Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described in order to avoid obscuring the present invention.

The terms used herein are for the purpose of describing the embodiments and are in no way intended to limit the present invention. In this specification, the singular also includes the plural unless otherwise specified in the phrase. In addition, elements and operations referred to as 'include (or include)' do not exclude the presence or addition of one or more other elements and operations.

1 is a block diagram schematically showing an intelligent disaster response system between a sensor-server based on a disaster response procedure according to the present invention, and FIG. 2 is a more detailed view of the disaster information communication server and the disaster information visualization dashboard, which are the main parts of the present invention. 3 is a flowchart showing the processing process of the intelligent disaster response system between the sensor-server based on the disaster response procedure according to the present invention, and FIG. 4 is the intelligent disaster response procedure-based sensor-server according to the present invention. It is an exemplary diagram of the visualization dashboard screen displayed by the disaster response system.

Basically, the present invention, as shown in Figure 1,

Various types of disaster detection sensors (6) currently owned by institutions and local governments; CCTVs (7) installed in the field together with the sensors (6); a disaster information communication server (1) through which data sensed by the sensors (6) and CCTVs (7) are transmitted through a communication network; an external disaster data system (5) connected to the disaster information communication server (1) to provide information on densely populated areas, disaster damage and history information, and the like; It is composed of a disaster information visualization dashboard (2) that displays disaster information according to the visualization information output from the disaster information communication server (1).

The sensors 4 may use all of the various types of sensors built so far, and if there is an area where the sensor construction is insufficient, necessary sensors may be additionally installed and used.

1 is an exemplary view in mind of a gas leak accident, a fire accident, a immersion accident, or a complex accident between them;

As the type of the sensor 6, a gas sensor, a temperature sensor, a fire sensor, a smoke sensor, a water immersion sensor, and a heat sensor have been specifically exemplified, but the present invention is not limited thereto, and other sensors may be freely used.

The CCTV (7) is installed in the field together with the sensors (4), and is arranged to face the sensors (6) and its surroundings.

Therefore, in the disaster response procedure-based sensor-server intelligent disaster response system according to the present invention, when sensing information of various sensors 4 is received by the disaster information communication server 1, the disaster information communication server 1 By determining abnormal signs according to the rules, the user is provided with the corresponding location and the abnormal sensor value.

In addition, by automatically visualizing the CCTV screen near the location where the abnormality was found, the user can reconfirm the situation of the disaster and confirm the occurrence of the disaster.

The system diagnoses the current level of disaster by calculating the sensor's current value and the level of risk in the nearby area, and accordingly provides the necessary information of the current disaster and the current stage to support the decision of the person in charge of disaster response.

The external disaster data system 5 is an external system closely related to disaster response such as disaster damage information, disaster history information, and population-dense areas, and provides various static information.

As described above, in the present invention, sensing information is received from various sensors 6 in real time, and when an abnormal symptom related to a disaster is found, the corresponding location and abnormal sensor value are provided to the user. The screen of (7) is automatically visualized so that the user can reconfirm whether a disaster has occurred, and the current level of disaster is diagnosed by calculating the current value of the sensor and the level of risk in the nearby area, and sensing information, sensor information, risk and disaster As for the response, the user can quickly and accurately prepare for or respond to a disaster state by being mapped on a map, numerically charted, or displayed in a graph on the disaster information visualization dashboard 2 .

2 is a block diagram showing in more detail the disaster information communication server and the disaster information visualization dashboard, which are the main parts of the present invention, and FIG. 3 is a process of the intelligent disaster response system between the sensor-server based on the disaster response procedure according to the present invention. is a flowchart showing

The disaster information communication server 1 is configured such that the disaster information communication server 1 can receive data from the sensors 6 and the external disaster data system 5 as shown in FIG. 2 , the disaster information communication server 1 ) and the communication unit 11 provided therein;

an external disaster data receiving unit 12 for receiving, from the external disaster data system 5, static data of an external system closely related to disaster response such as disaster damage information, disaster history information, and dense population areas;

The sensing information received from the sensors 6 is stored, and when an abnormal symptom occurs because the sensing information exceeds a preset value in the sensor, it is recognized as a disaster situation, and a disaster response process set in advance for the disaster situation A sensing information processing unit 13 that provides a sensing information processing unit 13 to determine the actual state of a disaster by being combined with static data such as disaster damage information, disaster history information, and dense population areas in the external disaster data system 5 and

When the sensing information processing unit 13 recognizes a disaster situation, the CCTV 7 around the sensor 6 is automatically activated so that the CCTV image is mapped on the map and provided through the disaster information visualization dashboard 2 It is composed of a CCTV control unit (14).

In addition, the disaster information communication server 1 stores information recognized as a disaster situation by the sensing information processing unit 13, and provides a rule of disaster occurrence related to static data of an external system and a rule of determining the disaster stage, each It is connected to the disaster situation recognition DB (3) to inform the response stage for disasters,

It is also connected to the sensor meta DB 4 for providing information related to the sensor and CCTV to the sensing information processing unit 13 .

On the other hand, the sensing information processing unit 13 determines whether there are abnormal symptoms by the sensing information received from the sensors 6 and provides an appropriate disaster response step process in consideration of the type and risk of the disaster,

a sensing information collecting unit for collecting the sensing information of the sensor 6 and loading it into a sensing information storage DB; a sensor identification unit for mapping and identifying the sensing information received from the sensor 6 and the sensor information of the sensor meta DB; It is composed of a disaster judgment analysis unit for judging the current disaster by comparing and analyzing the received sensing information with the definition and rules of the disaster occurrence rule unit.

In addition, when the sensing information processing unit 13 recognizes a disaster situation, the CCTV control unit 14 automatically activates the CCTV 7 around the corresponding sensor 6 to enable the CCTV through the disaster information visualization dashboard 2 . In order to provide the image mapped on the map,

a disaster-occurring area CCTV mapping unit for mapping the disaster-occurring area and the CCTV 7 in order to confirm the actual disaster according to the abnormal symptoms determined by the intelligent system; It is composed of a CCTV operation unit to provide up, down, left and right zoom-in functions of the connected CCTV.

The disaster situation recognition DB includes: a disaster DB for storing information recognized as a disaster situation by the sensing information processing unit 13; a disaster occurrence rule unit for providing a disaster occurrence rule related to static data of an external system; a disaster level determination rule unit for providing a rule for disaster level determination related to static data of an external system; a disaster response step DB for informing the response step for each disaster; It consists of a layer list for each disaster response procedure to provide preset layers for each talent response procedure.

In addition, the sensor meta DB includes: sensor location and property information for providing the location and properties of the sensor 6; It consists of CCTV location and property information for providing the location and properties of the CCTV (7).

And the disaster information visualization dashboard 2 is for displaying disaster information by the visualization information output from the disaster information communication server 1,

a layer visualization 21 for each stage of disaster response for displaying a layer by stage according to the disaster response state determined by the disaster response stage analysis unit; Disaster occurrence information visualization 22 for displaying disaster occurrence information according to the disaster type determined by the disaster determination and analysis unit; an anomaly detection alarm 23 for alerting when an abnormality is detected by the disaster determination and analysis unit; When the disaster determination and analysis unit detects an abnormality, the CCTV 7 around the sensor 6 is automatically activated and displayed. It consists of a CCTV operation interface unit 25 provided to adjust the CCTV screen up and down, left and right, and zoom-in.

The processing process of the disaster response system according to the present invention configured as described above is the same as in FIG. 3 .

The disaster information communication server 1 receives sensing information from various sensors 4 in real time, and the external disaster data system 5 inputs local information, damage history, risk, etc., the sensing information processing unit 13 If an abnormal symptom is found in the disaster judgment and analysis department of the

In accordance with the disaster occurrence rules and disaster response step-by-step procedures stored in the disaster situation recognition DB (3), the disaster response stage is determined and provided according to the determined disaster type and risk level,

The determined disaster type, risk and disaster response stage information is mapped to a map through the disaster information visualization dashboard 2, or information on the corresponding sensor and local situation is visualized and provided.

Since the CCTV is automatically activated when an abnormal symptom is found in the disaster judgment analysis unit, the corresponding sensor 4 and information in the vicinity thereof are visualized and provided on the visualization dashboard 2 .

4 is an exemplary diagram of a visualization dashboard screen displayed by an intelligent disaster response system between a sensor and a server based on a disaster response procedure according to the present invention;

The sensing information (eg, hazardous substance CO sensor information) received from the disaster information communication server 1 may be displayed as a graph, numerically displayed on a diagram, or mapped on a drawing.

The sensor identification unit of the sensor information processing unit 13 maps the sensing information and the sensor information of the sensor registry DB so that it can be identified, so the state information of the sensor equipment is provided together with the sensing information, and the location of the sensor equipment on the drawing can be displayed.

In FIG. 4, in the window of 'equipment status information', the sensor operation is configured to be displayed as 'in check', 'normal' or 'reception error', and the sensor location is mapped and displayed on the drawing, and the event from the sensor Alternatively, when it is recognized that a disaster has occurred, the color of the sensor may be changed for easy identification.

In addition, in FIG. 4, the sensed values are mapped on the map and displayed as numerical values or graphs on the chart. The sensing information value at that time is displayed in the 'Situation occurrence information' window, and it can be displayed in a different color for easy identification, and the sensor at the corresponding location on the map can be configured to change to a different color.

As described above, in the present invention, it is possible to automatically select an abnormal symptom related to a disaster from a large number of sensing information provided in real time and notify accurate information, thereby enabling rapid preparation for a disaster.

In addition, sensing information is received from various sensors in real time, and when an abnormal symptom related to a disaster is found, the user is provided with the corresponding location and the abnormal sensor value. It allows you to reconfirm whether a disaster has occurred, calculates the current sensor value and the level of risk in the vicinity to diagnose the current level of disaster, and maps the sensing information, sensor information, risk and disaster response on a map or numerically By charting or displaying a graph, there is an effect that allows the user to quickly and accurately prepare for or respond to a disaster situation.

Although the technical idea of the present invention has been specifically described in the preferred embodiment, it should be noted that the above-described embodiment is for the description and not the limitation. It is obvious to those skilled in the art that various changes and modifications are possible within the scope of the technical spirit of the present invention, and therefore, it is natural that such variations and modifications belong to the appended claims.

1: Disaster information communication server 2: Disaster information visualization dashboard
3: Disaster situation recognition DB 4: Sensor meta DB
5: External disaster data system 6: Sensor
7: CCTV 11: Ministry of Communication
12: external disaster data receiving unit 13: sensing information processing unit
14: CCTV control unit 21: Layer visualization for each stage of disaster response
22: Visualization of disaster information 23: Alarm after abnormality
24: CCTV visualization in the vicinity of the disaster 25: CCTV operation interface unit

Claims (9)

various types of disaster detection sensors; CCTVs installed in the field together with the sensors; a disaster information communication server through which data sensed by the sensors and CCTVs are transmitted through a communication network; an external disaster data system connected to the disaster information communication server to provide information on densely populated areas, disaster damage and history information, etc.; Consists of a disaster information visualization dashboard that displays disaster information according to the visualization information output from the disaster information communication server,
Receives sensing information from various sensors in real time, and when an abnormality related to a disaster is found, the corresponding location and abnormal sensor value are provided to the user. To reconfirm whether a disaster has occurred, to calculate the current level of the sensor and the level of risk in the vicinity to diagnose the current level of disaster, and to display sensing information, sensor information, risk level and disaster response on the disaster information visualization dashboard is composed,
The disaster information communication server has an external disaster data receiving unit for receiving static data of an external system closely related to disaster response, such as disaster damage information, disaster history information, and dense population areas, from the external disaster data system and the actual state of the disaster. Since the sensing information processing unit for determining is provided, and it is connected to the disaster situation recognition DB for providing the rules for disaster occurrence and disaster stage determination related to static data of the external system,
When the sensing information received from the sensors exceeds a preset value and an abnormal symptom occurs, it is recognized as a disaster situation and a preset disaster response process is provided for the disaster situation. Visualization information is displayed by data combining the static data of the system and the sensing information,
The visualization information represents the mapping of the sensing information and the sensor information of the sensor meta DB, the numerically tabulated one, and the graphed one together,
In the window of 'Equipment status information', it is configured to distinguish and display that the sensor operation is 'in check', 'normal' or 'receive error', and displays the location of the sensor by mapping it on the drawing, and event or disaster from the sensor It is configured to change the color of the sensor so that it can be easily identified when it is recognized that it is occurring.
When an abnormality is identified in the sensing information processing unit, the sensing information value at that time is displayed in the 'situation occurrence information' window according to the risk level, displayed in different colors for easy identification, and the sensor of the corresponding location mapped on the map Disaster response procedure-based sensor-server intelligent disaster response system, characterized in that configured to change to a different color.
The method of claim 1,
The disaster information communication server includes: a communication unit provided therein to receive data from sensors and an external disaster data system;
an external disaster data receiving unit for receiving static data of an external system closely related to disaster response, such as disaster damage information, disaster history information, and dense population areas, from the external disaster data system;
Storing the sensing information received from the sensors, recognizing a disaster situation when an abnormal symptom occurs when the sensing information exceeds a preset value in the sensor, and providing a preset disaster response process for the disaster situation, but a sensing information processing unit for determining the actual state of a disaster by being combined with static data such as disaster damage information, disaster history information, and dense population areas in the external disaster data system;
Disaster response procedure, characterized in that, when the sensing information processing unit recognizes a disaster situation, the CCTV around the sensor is automatically activated, and the CCTV image is mapped and provided on the map through the disaster information visualization dashboard. Based sensor-server intelligent disaster response system.
3. The method of claim 2,
The disaster information communication server stores the information recognized as a disaster situation by the sensing information processing unit, provides a rule of disaster occurrence related to static data of an external system and a rule for determining the disaster stage, and informs the response step for each disaster Disaster response procedure-based sensor-server intelligent disaster response system, characterized in that it is connected to a disaster situation recognition DB for giving, and also connected to a sensor meta DB for providing sensor and CCTV-related information to the sensing information processing unit.
4. The method of claim 2 or 3,
The sensing information processing unit is to provide an appropriate disaster response step process in consideration of the type of disaster and the degree of risk by determining whether there are abnormal symptoms by the sensing information received from the sensors,
a sensing information collection unit for collecting the sensing information of the sensor and loading it into a sensing information storage DB; a sensor identification unit for mapping and identifying the sensing information received from the sensor and the sensor information of the sensor meta DB; A disaster response procedure-based sensor-server intelligent disaster response system, characterized in that it consists of a disaster judgment analysis unit for judging the current disaster by comparing and analyzing the received sensing information with the definition and rules of the disaster occurrence rule unit.
4. The method of claim 2 or 3,
When the sensing information processing unit recognizes a disaster situation, the CCTV control unit automatically activates the CCTV around the sensor so that the CCTV image is mapped and provided on the map through the disaster information visualization dashboard,
A disaster-occurring area CCTV mapping unit for mapping the disaster-occurring area and the CCTV in order to confirm the actual disaster according to the abnormal symptoms determined by the intelligent system; An intelligent disaster response system between sensors and servers based on a disaster response procedure, characterized in that it consists of a CCTV operation unit to provide up, down, left and right zoom-in functions of the connected CCTV.
4. The method of claim 3,
The disaster situation recognition DB includes: a disaster DB for storing information recognized by the sensing information processing unit as a disaster situation; a disaster occurrence rule unit for providing a disaster occurrence rule related to static data of an external system; a disaster level determination rule unit for providing a rule for disaster level determination related to static data of an external system; a disaster response step DB for informing the response step for each disaster; Disaster response procedure-based sensor-server intelligent disaster response system, characterized in that it consists of a layer list for each disaster response procedure to provide a preset layer for each talent response procedure.
4. The method of claim 3,
The sensor meta DB includes: sensor location and property information for providing a location and property of a sensor; An intelligent disaster response system between a sensor and a server based on a disaster response procedure, characterized in that it consists of CCTV location and attribute information for providing the location and properties of CCTV.
The method of claim 1,
In the disaster information visualization dashboard that displays disaster information by visualization information, the sensor identification unit maps the sensing information and the sensor information of the sensor registry DB so that they can be identified. Disaster response procedure-based sensor-server intelligent disaster response system, characterized in that it is displayed in the mapped state above, and the state information of the sensor equipment and the location of the sensor equipment are also displayed in the mapped state on the drawing.
5. The method of claim 4,
Sensing information from various sensors is input in real time to the disaster information communication server, and local information, damage history, risk, etc. are input in the external disaster data system. to determine the type of disaster and the degree of risk;
In accordance with the disaster occurrence rules and disaster response step-by-step procedures stored in the disaster situation recognition DB, the disaster response stage is determined and provided according to the determined disaster type and risk level;
The determined disaster type, risk level, and disaster response stage information is either mapped to a map through the disaster information visualization dashboard, or information on the relevant sensor and local situation is visualized and provided.
Since the CCTV is automatically activated when an abnormal symptom is found in the disaster judgment analysis unit, the sensor and its vicinity information are visualized and provided on the visualization dashboard. response system.

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