KR102009468B1 - Number of Person Prediction System of Building using GIS Information and Method thereof - Google Patents

Abstract

According to a system for predicting the number of persons to be admitted of a building using GIS information and a method thereof, the number of persons to be admitted is calculated by inputting GIS information such as the use, the height and the surface area of a building so the number of persons in the building can be predicted in advance. By providing an evacuation simulation image of persons in the building, if a disaster such as earthquake or fire occurs, time for firefighting can be planned more effectively and the persons in the building can be rapidly evacuated to the outside.

Description

Number of Person Prediction System of Building using GIS Information and Method

The present invention relates to a system and method for estimating capacity of a building using GIS information, and more particularly, to more efficiently fire fighting activities in the event of an earthquake, fire, etc. The present invention relates to a system and method for estimating the capacity of a building using GIS information that can predict the number of people in advance and provide evacuation simulation information.

Recently, skyscrapers and large-scale buildings are increasing based on the increase of urban population and the development of building technology.

In such buildings, evacuation takes a long time due to the nature of the building if there is a fire, and there is a high risk of large-scale human injury.

In the past, large-scale casualties were inevitable at fire accident sites such as the September 11 terrorist attacks and the Daegu subway disaster due to the lack of simulation technology for preparing / analyzing an emergency situation.

In addition, after analyzing the stories of people and evaluating the evacuation route and situation manually, the evacuation information was calculated.

However, this method does not reflect the actual behavior of people, and thus it is difficult to obtain accurate analysis results.

In addition, it was difficult to predict the progress of a fire situation before an accident occurred, and there was a limit in that it was not possible to accurately determine the information necessary for minimizing human injury.

In addition, recently, one of the reasons for the failure of firefighting in Jecheon fire was that the evacuation route was not properly secured and the emergency exit was blocked, so there was a difficult problem of fire fighting or evacuation.

Korea Patent Registration No. 10-1064890

The present invention has been made to solve the above problems, by inputting the GIS information, such as the use, height, area of the building into the capacity calculation module to calculate the capacity, it is possible to predict the number of people inside the building in advance, By providing the evacuation simulation image of the people inside the building, GIS enables more efficient time planning for firefighting activities in the event of an earthquake or fire, and allows people inside the building to evacuate to the outside quickly. It is to provide a system and method for estimating capacity of a building using information.

The capacity estimation system of a building using the GIS information of the present invention for achieving the above object is provided with the property information of the building from the GIS providing server for providing the property information of the building to the capacity calculation module people inside the building Calculate the capacity of; Evaluate the evacuation progress of people moving along the evacuation route inside the building by inputting the calculated capacity and structure information of the building into the simulation module, and evacuation simulation result data matching the structure information of the building. It is configured to include a control server to generate.

에 의해 산출될 수 있다.Capacity

Can be calculated by

Evacuation simulation result data can be calculated for each floor of the building.

Each floor of the building may be provided with a floor-by-floor display for evacuation simulation data.

And the capacity estimation method of a building using the GIS information of the present invention for achieving the above object is (A) the control server receiving the property information of the building from the GIS providing server for providing the property information of the building calculation capacity Entering the module to calculate the capacity of the people in the building and the (B) the number of people calculated through the personnel calculation step and the structure information of the building into the simulation module by the control server along the evacuation path inside the building And a simulation step of predicting and displaying an evacuation progress state of moving people, and generating an evacuation simulation result data matching the structural information of the building.

에 의해 산출되는 단계를 포함할 수 있다.At the counting stage, the capacity is

It may include the step calculated by.

Evacuation simulation result data in the simulation step may include a step that is respectively calculated for each floor of the building.

After the simulation step, the evacuation simulation result data may be displayed through the floor-by-floor display provided in each floor of the building.

According to the system and method for estimating capacity of a building utilizing the GIS information of the present invention as described above, the building capacity is calculated by inputting GIS information such as the use, height, and area of the building into the capacity calculation module. By predicting the number of people in the building in advance, and providing simulation images of evacuation of people inside the building, when disasters such as earthquakes and fires occur, you can more efficiently plan the time for firefighting activities. It is effective to evacuate to the outside quickly.

1 is a view showing a capacity estimation system of a building using GIS information according to an embodiment of the present invention,
2 is a diagram illustrating a process of calculating a capacity in a system for predicting a capacity of a building using GIS information according to an embodiment of the present invention.
3 is a diagram illustrating an example of building characteristic information provided to a system for predicting a seating capacity of a building using GIS information according to an embodiment of the present invention.
4 is an exemplary view showing capacity per unit area for each building use used in a capacity estimation system for a building using GIS information according to an embodiment of the present invention.
5 and 6 are views showing an example of the evacuation simulation generated in the system for predicting the occupancy of the building using the GIS information according to an embodiment of the present invention,
7 is a view showing a state in which the evacuation simulation generated by the capacity estimation method of the building using the GIS information according to an embodiment of the present invention is used.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

Capacity estimation system using the GIS information according to an embodiment of the present invention, as shown in Figure 1 and 2, GIS providing server 100, control server 210 provided in the building 200, floor display It is configured to include a 250 and the government server 300.

The GIS providing server 100 provides information on a property of a building, such as a building's use, number of floors, an area, and a height. As shown in FIG. 3, when a specific building is selected on a map displayed in 2D or 3D, the property of the building is provided. The information may be provided in tabular form.

The control server 210 receives the property information of the building 200 from the GIS providing server 100 (S110), and inputs the building property information into the capacity calculation module to calculate the expected capacity of people in the building (S120). ).

Expected capacity is calculated by Equation 1.

Where Pt represents total building capacity, P represents one floor capacity, M represents ground floor number and N represents underground floor number.

In order to calculate the expected capacity, first calculate the capacity of a floor through [Equation 2] (S120).

Where R is the building area and K is the capacity per unit area.

For reference, the accommodation capacity per unit area may be provided in advance for each building use, as shown in FIG. 4.

Subsequently, the total building capacity is calculated using the capacity of one floor and the number of floors of the building (S140).

At this time, if the building is a one-story building, the total occupancy is the same as the occupancy of one floor (S150).

On the other hand, in addition to calculating the expected capacity, it is possible to calculate the estimated evacuation time of the people inside the building.

The estimated evacuation time is calculated by [Equation 3].

Where T is the estimated evacuation time, E is the number of exits from the building, A is the total distance traveled between floors, and V is the pedestrian speed.

In order to calculate the evacuation time, the number of building exits is calculated using Equation 4.

Subsequently, the sum of the distances between the floors is calculated using Equation 5 below.

Subsequently, the population density of the building is calculated using Equation 6.

Where D represents population density.

Next, the pedestrian speed is calculated using Equation 7 below.

[Equation 1] to [Equation 7] described above can calculate the estimated capacity and the expected evacuation time, which is the maximum expected capacity in the building and the expected evacuation time in the worst case In practice, the capacity may be less than anticipated in the actual situation, and it may take less time to evacuate.

Subsequently, the control server 210 inputs the structure information of the building 200, such as the calculated estimated capacity, estimated evacuation time, and floor plan of each floor, into the simulation module, and the capacity and evacuation time are displayed. A simulation is performed to predict and display an evacuation progress state of people moving along the evacuation path, thereby generating evacuation simulation result data matching the structural information of the building as shown in FIGS. 5 and 6.

The evacuation simulation shows that the actual person can evacuate, such as general men and women, the elderly, children, people who move by wheelchairs, and people who move by elevators.

In addition, evacuation simulation sets the movement target positions of emergency stairs, emergency exits, etc., determines the route that can be moved to the nearest movement target position, and selects the movement route to determine the bottleneck or collision in the process of moving to the final destination. Accordingly, the moving direction or the moving area may be calculated to display another route for evacuation.

The evacuation simulation result data is calculated for each floor of the building.

Each floor of the building 200 is provided with a floor display 250 for displaying an image, and the evacuation simulation result data calculated for each floor is displayed on the floor display 250 provided in the floor.

Therefore, when a disaster such as a fire or earthquake occurs and people inside the building evacuate outside, evacuation can be performed while watching the evacuation simulation image displayed on each floor, thereby effectively preparing for the evacuation situation.

In addition, the generated evacuation simulation result data is transmitted to the GIS providing server 100 to be stored, when a specific building on the map displayed in 2D or 3D is selected to provide the property information of the building in the form of a table, stored evacuation simulation The resulting data can be provided together and displayed.

The public office server 300 may be provided in a public office that performs disaster prevention such as a fire station. When a disaster occurs such as a risk of collapse of a building due to a fire or an earthquake in a building, a GIS provision server is dispatched. Property information of the building provided at 100 may be used.

For example, as shown in FIG. 7, when a fire occurs in a building and a fire truck is dispatched for fire suppression, the government server 300 connects to the GIS providing server 100 to display a building in which a fire occurs on a map. By selecting, the characteristic information of the displayed building can be utilized.

In addition to the property information of the building, the path to the shortest time is displayed to the building in which the fire occurred, and the estimated capacity of the people in the building, the estimated evacuation time of the people, and the evacuation route of the people inside the building Displays simulation information to predict and display evacuation progress.

The estimated capacity, estimated evacuation time, and the number of fire trucks that the fire department should inject, and how much fire personnel should inject, can help to plan the effective fire suppression.

In addition, the evacuation simulation information can be used to predict which route people are moving out of the building, and thus, a rescue team can be first put into a route crowded with a lot of people, so that casualties can be minimized.

According to the system and method for estimating capacity of a building utilizing the GIS information of the present invention as described above, the building capacity is calculated by inputting GIS information such as the use, height, and area of the building into the capacity calculation module. By predicting the number of people in the building in advance, and providing simulation images of evacuation of people inside the building, when disasters such as earthquakes and fires occur, you can more efficiently plan the time for firefighting activities. It is effective to evacuate to the outside quickly.

Meanwhile, a method for estimating the capacity of a building using GIS information according to steps S110 to S150 may be programmed and stored in a recording medium such as a CD-ROM, a memory, a ROM, or an EEPROM for computer reading.

In the above description, the present invention has been described with reference to preferred embodiments, but the present invention is not necessarily limited thereto, and a person having ordinary skill in the art to which the present invention pertains does not depart from the technical spirit of the present invention. It will be readily appreciated that various substitutions, modifications and variations can be made.

100: GIS server 200: building
210: control server 250: floor display
300: government office

Claims (9)

Receives the property information of the building from the GIS providing server that provides the property information of the building and inputs it to the capacity calculation module to calculate the capacity of people in the building, and input the calculated capacity and structure information of the building into the simulation module. A control server configured to perform a simulation for predicting and displaying an evacuation progress state of people moving along an evacuation path inside a building, and to generate evacuation simulation result data matching the structure information of the building; Capacity is to calculate the total capacity of the building by using the capacity of one floor and the number of floors of the building.

Calculated by (where Pt is the total building capacity, P is the number of floors, M is the number of floors, N is the number of floors), and

Calculated by R where R is building area and K is capacity per unit area;
The control server inputs the structure information of the building using the calculated estimated capacity, estimated evacuation time, and floor plan of each floor to the simulation module, and the people moving along the evacuation route inside the building while the capacity and evacuation time are displayed. The simulation is performed to predict and display the evacuation progress of the building, and to generate the evacuation simulation result data that matches the structural information of the building. Display images of how people can evacuate, including those who move to and elevators, so that you can easily visualize the evacuation status of people moving along the evacuation route inside the building. To show;
Evacuation simulation sets the movement target position of emergency stairs and emergency exits, determines the path that can be moved to the nearest movement target position, and moves according to the bottleneck or collision in the process of selecting the movement route and moving to the final destination. Calculate a direction or moving area so that other routes for evacuation are displayed; The evacuation simulation result data is respectively calculated for each floor of the building; Each floor of the building is equipped with a floor-by-floor display where images are displayed, and the evacuation simulation data calculated for each floor is displayed on the floor-by-floor display provided on that floor. If so, evacuate while watching the evacuation simulation image displayed on each floor; The generated evacuation simulation result data is delivered to the GIS providing server for storage.When a specific building is selected on a map displayed in 2D or 3D and the property information of the building is provided in a tabular form, the saved evacuation simulation result data is stored. Capacity estimation system for buildings using GIS information, which is provided and displayed together. delete delete delete (A) Personnel calculation step of calculating the capacity of people in the building by inputting to the capacity calculation module by the control server receiving the property information of the building from the GIS providing server providing the property information of the building; And (B) a simulation that predicts and displays the evacuation status of people moving along the evacuation route inside the building by inputting the capacity information and the structure information of the building calculated by the personnel calculation step into the simulation module. Performing a simulation step of generating evacuation simulation result data matching the structural information of the building; At the counting stage, the capacity is

Calculated by, where Pt is the total building capacity, P is the number of floors, M is the number of floors, and N is the number of floors.

Calculated by (where R is building area and K is capacity per unit area);
Enter the structure information of the building using the estimated capacity, estimated evacuation time and floor plan of each floor calculated in the control server, and people who move along the evacuation route inside the building while the capacity and evacuation time are displayed. The simulation is performed to predict and display the evacuation progress of the building, and to generate evacuation simulation result data matching the structural information of the building. The evacuation simulation matching the structural information of the building is performed by general men, women, the elderly, children, and wheelchairs. Displaying images of actual people evacuating, including people who move and elevators, to make it easier to visually see the evacuation progress of people moving along the evacuation route inside the building. and;
Evacuation simulation sets the movement target position of emergency stairs and emergency exits, determines the path that can be moved to the nearest movement target position, and moves according to the bottleneck or collision in the process of selecting the movement route and moving to the final destination. Calculating a direction or moving area so that other routes for evacuation are displayed; Calculating the evacuation simulation result data for each floor of the building; Evacuation simulation data calculated for each floor is displayed on the floor display provided in the floor, and when the disaster situation occurs and people inside the building evacuate, the evacuation simulation image displayed on each floor is displayed. To evacuate while watching; The generated evacuation simulation result data is transmitted to the GIS providing server for storage.When a specific building is selected on a map displayed in 2D or 3D and the property information of the building is provided in a tabular form, the saved evacuation simulation result data is also included. A method for estimating capacity of a building using GIS information, comprising the step of providing and displaying. delete delete delete delete

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