KR20180086648A - System and method for providing evacuation route - Google Patents

Abstract

A system and a method for guiding an evacuation route are disclosed. According to the present invention, the system for guiding an evacuation route comprises: a beacon arranged in a building, and sensing whether a user is positioned inside the building; a fire sensor arranged in the building, and generating sensing information by measuring information related to a fire accident; a management server for generating, on a pre-stored internal drawing of the building, guidance information reflecting a fire occurring zone and an evacuation route based on the sensing information when the fire accident occurs while analyzing the sensing information received from the first sensor to determine whether the fire accident occurs; and a user terminal for displaying the internal drawing reflecting the fire occurring zone and the evacuation route as image information by executing a pre-installed application when the guidance information is received.

Description

SYSTEM AND METHOD FOR PROVIDING EVACUATION ROUTE [0002]

The present invention relates to an evacuation route guidance system and method, and more particularly, to a evacuation route guidance system and method capable of providing fire information and a safe evacuation route to a user terminal in the event of a fire.

Fire accidents can generally lead to serious loss of life and property damage. In the case of fire accidents where there are many people, such as public places and buildings, the damage increases exponentially. Therefore, various means are provided inside the building to prevent such a fire accident. Typical examples are the installation, guidance, and marking of firefighting facilities and emergency exits during construction of the building, and provide images that guide evacuation routes in the event of a fire in a movie theater.

However, since these preventive measures do not pay a great deal of attention to people at ordinary times, there is a limitation that can not be practically provided to those who do not understand it when an actual fire accident occurs. Furthermore, when a fire accident occurs in a building with a complicated internal structure such as a department store or a movie theater, those who are not familiar with the structure inside the building often fail to find an appropriate evacuation route and waste golden time to escape the disaster situation. Therefore, there is a need for a technique to provide a fire situation and a evacuation route in real time to a person at a fire site in the event of a fire accident.

Korean Patent No. 10-0632445 Korean Patent Publication No. 10-2017-0004913

One aspect of the present invention is to provide a fire extinguishing system and a fire extinguishing system that can transmit a fire progress situation and a evacuation route in real time to a user terminal inside a building in case of a fire accident, The present invention provides a system and method for evacuation route guidance.

The technical problem of the present invention is not limited to the technical problems mentioned above, and other technical problems which are not mentioned can be understood by those skilled in the art from the following description.

The evacuation route guiding system according to an embodiment of the present invention includes a beacon disposed inside a building to detect whether a user is located inside the building, a beacon disposed inside the building, A fire detection sensor for generating a fire detection signal from the fire detection sensor, and a fire detection unit for detecting a fire occurrence by analyzing the sensing information received from the fire detection sensor, And a user terminal for displaying the internal drawing reflecting the fire occurrence area and the evacuation route as image information by executing a preinstalled application upon receiving the guide information .

Wherein the user terminal receives guidance information on all the buildings managed by the management server and receives any one of the guide information from the management server to determine whether or not the application satisfies predetermined conditions, .

Wherein the user terminal determines that any one of the guide information is guide information for the building and determines that the predetermined condition is satisfied and executes the application, , It is possible to ignore any one of the received guide information.

Wherein the user terminal determines that the user is located within the building if the user terminal is communicated with the beacon within a predetermined radius by near field wireless communication and if the guide information is guide information for the building, Can be executed.

If the beacon does not exist within a predetermined radius, the user terminal can ignore all guide information received from the management server when it can not perform near field wireless communication with the beacon.

The user terminal may register the specific building designated by the user in advance and receive the guide information for the specific building, thereby executing the application regardless of whether the beacon is communicated with the beacon.

Wherein the management server recognizes the fire occurrence area using the identification information received together with the sensing information from the fire detection sensor when it is determined that a fire accident has occurred, It is possible to generate the evacuation route.

The management server can update the guide information in real time according to the change of the received sensing information, and transmit the updated guide information to the user terminal.

The management server counts the number of all user terminals located in a building where a fire occurs when a fire accident occurs, classifies all the user terminals into at least one group, and transmits guidance information reflecting different evacuation routes for each group have.

The management server can determine the number of evacuating means capable of evacuating in consideration of the fire occurrence area among the plurality of evacuation means shown in the internal drawing and determine the number of the groups according to the number of evacuable evacuating means.

Wherein the management server calculates a congestion degree by counting the number of other user terminals existing on the evacuation route and generates another evacuation route in the internal drawing when the congestion degree exceeds a preset threshold value to update the guidance information can do.

The evacuation route guiding method according to an embodiment of the present invention includes the steps of: a management server analyzing sensing information received from a fire sensor to determine whether a fire accident has occurred; if the management server determines that a fire accident has occurred, Generating guide information reflecting the fire occurrence area and the evacuation route on the basis of the sensing information in the internal drawing of the stored building, and transmitting the guide information to the user terminal, and when the user terminal receives the guidance information, Dynamically determining whether or not to execute an application installed in advance in the user terminal, and executing the application if it is determined that the preset specific condition is satisfied, Outputting the internal drawing as image information It includes.

According to one aspect of the present invention, a user can quickly escape a dangerous area by providing a fire progress situation and a evacuation route accordingly to a user in the event of a fire accident, The guide information can be selectively provided only to the user, thereby enabling efficient data operation.

1 is a view showing a schematic configuration of an evacuation route guidance system according to an embodiment of the present invention.
2 is a diagram illustrating a specific function of the user terminal of FIG.
FIGS. 3 to 4 are views showing embodiments according to specific functions of the management server of FIG. 1. FIG.
5 is a diagram illustrating a schematic flow of an evacuation route guidance method according to an embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

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

FIG. 1 is a block diagram showing a schematic configuration of an evacuation route guidance system 1000 according to an embodiment of the present invention.

Specifically, the evacuation route guidance system 1000 according to the present embodiment includes a beacon 10, a fire detection sensor 20, a management server 30, and a user terminal 40.

The beacon 10 may be disposed inside the building to detect whether the user is located inside the building. That is, the beacon 10 may be fixedly installed at a position where the beacon 10 can sense the entire area where the building is located, so as to confirm whether the user is located inside the building. In addition, the beacon 10 may be disposed more than once to improve the accuracy of user detection using the beacon 10 when the building area is larger than the communication radius of the beacon 10.

The beacon 10 may communicate with the user terminal 40 carried by the user to detect whether the user is located inside the building. The beacon 10 can sense the user terminal 40 located within a predetermined radius from the place where the beacon 10 is disposed. The beacon 10 senses the user terminal 40 using short range wireless communication and communicates with the user terminal 40 using a wireless communication technique such as Bluetooth, Zigbee, infrared communication, or RFID, It is possible to determine whether or not the terminal 40 is present.

The beacon 10 may be interlocked with the user terminal 40 when communication with the user terminal 40 is started. The user terminal 40 interlocked with the beacon 10 can display the guidance information received from the management server 30 by executing an application installed in advance in the event of a fire accident.

The fire detection sensor 20 may be disposed inside the building to generate sensing information by measuring information related to a fire accident. The fire detection sensor 20 may be at least one of a flame detection sensor, a smoke detection sensor, a gas detection sensor, and a temperature sensor so as to detect heat or smoke generated in a fire. Alternatively, the fire detection sensor 20 may be in a form in which at least one of the above-described sensors is integrated.

The fire detection sensor 20 may be disposed at a main position of the building. For example, if the building is a hotel such as a hotel, a fire detection sensor 20 may be provided for each room. In addition, the fire detection sensor 20 may be provided at a place where a fire accident is highly likely to occur according to characteristics of the building, or may be disposed at a position where it is determined that a person or material damage is high if a fire accident occurs. That is, a plurality of fire detection sensors 20 may be arranged for each main location according to the area, characteristics, and risk of the building.

The fire detection sensor 20 can transmit the generated sensing information to the management server 30. At this time, the fire detection sensor 20 can transmit its own location information or identification information to the management server 30 together with the generated sensing information.

The management server 30 may receive the sensing information and the identification information (or position information) from the fire detection sensor 20. The management server 30 may analyze the received sensing information to determine whether a fire accident has occurred or not. Specifically, the management server 30 compares the received sensing information with a preset reference value, and can determine that a fire accident has occurred when the sensing information exceeds the reference value.

In addition, the management server 30 can determine the point of fire occurrence based on the identification information or location information received from the fire detection sensor 20. [ As described above, the fire detection sensor 20 can be disposed at a point where a fire accident is high or a point where a fire accident damage is high, respectively. Accordingly, when it is determined that a fire accident has occurred, the management server 30 can inquire the identification information of the fire detection sensor 20 that has transmitted the data, and can confirm the ignition point or the area where the fire exists.

When it is determined that a fire accident has occurred, the management server 30 can generate guidance information reflecting the fire occurrence area and the evacuation route in the internal drawing of the building. That is, the management server 30 can display on the internal view whether fire exists at any position in the inside of the building using the previously stored internal drawings of the building. The management server 30 analyzes the location of a major evacuation facility such as an emergency exit using previously stored internal drawings and further displays the evacuation route on the internal view in consideration of the location of the fire evacuation site and major evacuation facilities have.

In this way, the management server 30 can determine whether or not a fire has occurred for all buildings managed by the management server 30. [ That is, the management server 30 analyzes sensing information received from a plurality of different fire detection sensors 20 disposed in different buildings, and can determine in real time whether or not a fire accident has occurred in each building.

On the other hand, when the management server 30 determines that a fire accident has occurred and generates the guidance information as described above, the management server 30 can transmit the guidance information to the user terminal 40.

The user terminal 40 is a computing device carried by the user. For example, the user terminal 40 may be a portable electronic device such as a smart phone, a wearable device, a notebook, a tablet PC, and the like.

When the user terminal 40 receives the guidance information from the management server 30, the user terminal 40 can output the internal drawing showing the fire occurrence area and the evacuation route as image information through the application installed in advance. That is, the user terminal 40 can display the guidance information through the application that can receive the service using the evacuation route guidance system 1000 according to the present embodiment. Specifically, upon reception of the guidance information, the user terminal 40 can execute the pre-installed application, and the internal drawing showing the fire occurrence area and the evacuation route can be outputted as image information through the executed application.

At this time, when the user terminal 40 receives the guidance information from the management server 30, it does not always execute the application, and can execute the application only when the specific condition is satisfied. In this embodiment, the user terminal 40 basically receives the guidance information for all the buildings, but can ignore the received guidance information if the specific condition is not satisfied. On the other hand, the user terminal 40 can execute the application upon receiving the guide information satisfying the specific condition. Here, the specific condition may be any one of the following cases.

First, the user terminal 40 can determine that the user satisfies a specific condition when the user is located inside a building where a fire accident occurs.

The user terminal 40 can confirm which building is located by communicating with the beacon 10. The user terminal 40 can ignore the guidance information related to the other building, that is, the guidance information related to the fire accident occurring in another building, and can execute the application upon receiving the guidance information on the building where the user terminal 40 is located. In other words, the user terminal 40 can output the internal drawing reflecting the fire occurrence point and the evacuation route as image information through the application only when the user is located in the building where the fire accident occurred.

For this, when the user terminal 40 enters the inside of the user building, it can start communication with any one beacon 10 disposed inside the building. As described above, the beacon 10 may be disposed at a suitable location to cover all areas of a particular building within a communication radius. Here, the area of the building means a three-dimensional area, and therefore, in the case of a high-rise building, each beacon 10 can be arranged for each floor. The user terminal 40 can display the current position of the user terminal 40 by interlocking the beacon 10 when the local area wireless communication with the beacon 10 is started.

Accordingly, the user terminal 40 can ignore all the guidance information received from the management server 30 if the beacon 10 currently interlocked does not exist. When the beacon 10 is interlocked, the user terminal 40 may compare the current position of the user terminal 40 with the guide information to determine whether to execute the application.

In addition, the user terminal 40 can regard the specific condition as being satisfied when the guide information about the building previously designated by the user is received from the management server 30. [

Referring to FIG. 2, the user terminal 40 can execute the application when receiving guidance information on a specific building designated by the user, regardless of whether or not the beacon 10 currently interlocked with the beacon 10 exists. For example, a user can pre-register information associated with his or her apartment in an application. In this case, the user terminal 40 can execute the application by receiving the guide information about the apartment regardless of the current location. Therefore, even if the user is located at a position separated from the house, the user can confirm in real time whether or not a fire occurs in his or her residence.

As another example, if the user is a person responsible for a fire accident such as a firefighter, the building for the area occupied by the user is registered in the application, and the user terminal 40 displays guidance information for any one building Upon receipt, it can inform the user. To this end, the application installed in the user terminal 40 may be operated in either the normal user mode or the administrator mode.

The general user mode is a mode used by users whose evacuation is a top priority purpose in the event of a fire accident, and the administrator mode is a mode used by users whose main purpose is fire suppression and structure in the event of a fire accident, as in the above- have. The administrator mode can be used only by a user who is preset in the management server 30. For this purpose, the administrator mode can perform an authentication process such as a password when accessing the administrator mode.

As described above, the user terminal 40 executes the application only when receiving the guide information satisfying the preset specific condition, and can output the internal drawing reflecting the fire occurrence area and the evacuation route through the executed application as the image information have. Therefore, it is possible to reduce unnecessary battery consumption in a normal situation, and to provide relevant information in real time when a fire accident occurs to a building of interest of a user or a building where a current user is located.

Referring to Figs. 3 to 4, the specific functions of the management server 30 of Fig. 1 are shown.

As described above, the management server 30 analyzes the sensing information received from the fire detection sensor 20, and displays the fire occurrence area and the evacuation route in the previously stored internal drawing 15 when it is determined that a fire accident has occurred , It can be converted into guidance information, which is digital data, and transmitted to the user terminal 40.

At this time, the management server 30 can update the guidance information in real time according to the progress of the fire and transmit it to the user terminal 40. Specifically, the management server 30 can update the guidance information in real time by reflecting the change in the sensing information in the internal drawing 15. Also, the management server 30 can update the evacuation path in real time according to the change of the sensing information.

For example, as shown in FIG. 3 (a), the management server 30 can generate guidance information related to the occurrence of the first fire accident. The management server 30 may transmit the initial ignition point and the guide information indicating the evacuation route to the user terminal 40 using the sensing data. 3 (b), the management server 30 may transmit the modified guidance information to the user terminal 40 in consideration of the traveling direction of the flames and the toxic gas. That is, when the management server 30 analyzes the current position of the user terminal 40 and the trend of the sensing information, it is determined that the toxic gas caused by the fire is generated on the initially provided evacuation route, can do.

4, the management server 30 can update the evacuation path in consideration of the evacuees.

As shown in FIG. 4A, the management server 30 can provide the user terminal 40 with an optimal evacuation route considering the initial fire occurrence point. In this process, as shown in FIG. 4 (b), the management server 30 can reset the evacuation path considering other users existing around the displayed path. That is, the management server 30 can reset the evacuation path in consideration of the congestion of the evacuation path. Specifically, the management server 30 collects location information from the other user terminals 41, 42, and 43 installed with the application in which the evacuation route guidance system 1000 according to the present embodiment is installed, The congestion degree of the evacuation path can be calculated by counting the number of the user terminals 41, 42, The management server 30 can update the guidance information even if the number of the other user terminals 41, 42, 43 on the evacuation route exceeds the preset threshold value, even if there is no variation in the fire occurrence area.

In some other embodiments, when a fire accident occurs, the management server 30 counts the number of all user terminals located in the area, divides the user terminals into a plurality of groups, assigns different evacuation routes to the user terminals belonging to each group Can be transmitted. Specifically, when a fire accident occurs, the management server 30 can determine the number of groups to be grouped according to the number of escape routes. For example, if the number of escape routes that can be escaped is two, the management server 30 can classify all the user terminals located in a scene where a fire accident occurs into two groups. The management server 30 transmits guidance information reflecting the evacuation route using the first exit to the user terminal included in the first group and guidance information reflecting the evacuation route using the second exit to the user terminal included in the second group Can be transmitted. Therefore, the congestion degree of the evacuation route can be prevented in advance by the management server 30.

In some other embodiments, the evacuation route guidance system 1000 according to the present invention may further include a display device (not shown). The display device may be installed in the interior of the building and may be provided at a main location associated with a fire accident, such as at the top of the fire hydrant.

The display device may display at least one path of the evacuation path or the fire suppression path. That is, the display device can display the evacuation route to the users whose evacuation purpose is aimed, or can display the route guiding the fire occurrence area to the users who intend to extinguish the fire.

Referring to FIG. 5, a schematic flow of the evacuation route guidance method according to an embodiment of the present invention is shown.

The management server 30 may collect sensing information from the fire detection sensor 20 to determine whether a fire accident has occurred (110).

As a result of the determination, if it is determined that the fire accident does not occur, the step of collecting the sensing information can be continuously performed. On the other hand, if it is determined that a fire accident has occurred, the management server 30 can generate guidance information using the sensing information (120). Specifically, the management server 30 can generate guidance information reflecting the fire occurrence area and the evacuation route based on the sensing information in the previously stored internal drawing.

Upon receiving the guidance information, the user terminal 40 may determine whether to execute the application (130). The user terminal 40 can confirm whether or not the application is executed by confirming that the predetermined condition is satisfied. The specific conditions that have been set in advance have been described above with reference to Fig. 1, and a detailed description thereof will be omitted.

When receiving the guidance information, the user terminal 40 can wait until the guidance information received from the management server 30 is received, if it is confirmed that the predetermined condition is not satisfied.

On the other hand, when receiving the guide information, the user terminal 40 can execute the pre-installed application and output the guide information as the image information through the executed application if it is confirmed that the predetermined condition is satisfied. That is, the user terminal 40 can output an internal drawing showing the fire occurrence area and the evacuation route through the application.

Such a technique for providing the evacuation route guidance method can be implemented in an application or can be implemented in the form of program instructions that can be executed through various computer components and recorded in a computer-readable recording medium. The computer-readable recording medium may include program commands, data files, data structures, and the like, alone or in combination.

The program instructions recorded on the computer-readable recording medium may be ones that are specially designed and configured for the present invention and are known and available to those skilled in the art of computer software.

Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROMs and DVDs, magneto-optical media such as floptical disks, media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like.

Examples of program instructions include machine language code such as those generated by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware device may be configured to operate as one or more software modules for performing the processing according to the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be possible.

10: Beacon
20: Fire sensor
30: Management server
40: User terminal

Claims (12)

A beacon disposed inside the building to detect whether the user is located inside the building;
A fire detection sensor disposed inside the building for measuring information related to a fire accident to generate sensing information;
And a control unit for determining whether or not a fire has occurred by analyzing the sensing information received from the fire detection sensor, wherein, when it is determined that a fire accident has occurred, a fire occurrence area and a evacuation route are reflected on the internal drawing of the building, A management server for generating guidance information; And
And a user terminal for executing the preinstalled application when receiving the guide information and displaying the fire occurrence area and the internal drawing reflecting the evacuation route as image information.
The method according to claim 1,
The user terminal comprises:
Receiving guidance information on all the buildings managed by the management server,
And when the guidance information is received from the management server, determining whether or not the application is executed is determined by determining whether or not the predetermined condition set in advance is satisfied.
3. The method of claim 2,
The user terminal comprises:
If the one of the guide information is guide information for the building, determines that the predetermined condition is satisfied and executes the application,
And if any one of the guide information is not guide information for the building, ignores any one of the guide information received. The method of claim 3,
The user terminal comprises:
Wherein the control unit determines that the user is located inside the building if the beacon is communicated with the beacon located within a predetermined radius by near field wireless communication and executes the application when any one of the guide information is guidance information on the building, Guidance system.
5. The method of claim 4,
The user terminal comprises:
And ignores all guidance information received from the management server when the beacon does not exist within a predetermined radius and can not perform near field wireless communication with the beacon.
6. The method of claim 5,
The user terminal comprises:
Registers a specific building designated by the user in advance,
And when the guidance information on the specific building is received, executes the application regardless of whether the beacon is communicated with the beacon.
The method according to claim 1,
The management server includes:
And a control unit configured to identify the fire occurrence area using the identification information received together with the sensing information from the fire detection sensor when it is determined that a fire accident has occurred, A evacuation route guidance system for generating a route.
8. The method of claim 7,
The management server includes:
And updates the guidance information in real time according to a variation of the sensing information received, and transmits the guidance information to the user terminal.
8. The method of claim 7,
The management server includes:
Counting the number of all user terminals located in a building where a fire occurs when a fire accident occurs and classifying all the user terminals into at least one group and transmitting guide information reflecting different evacuation routes for each group, . 10. The method of claim 9,
The management server includes:
Determining a number of evacuating means capable of evacuating in consideration of the fire occurrence area among a plurality of evacuation means shown in the internal drawing,
And determines the number of groups according to the number of evacuable evacuating means.
The method according to claim 1,
The management server includes:
Calculating a congestion degree by counting the number of other user terminals existing on the evacuation route,
And if the congestion degree exceeds a preset threshold value, another evacuation route is generated in the internal drawing and the guidance information is updated. The evacuation route guiding method using the evacuation route guiding system according to claim 1,
Analyzing sensing information received from the fire detection sensor to determine whether a fire accident has occurred;
If the management server determines that a fire accident has occurred, generating guidance information reflecting a fire occurrence zone and a evacuation route based on the sensing information in an internal drawing of a building previously stored, and transmitting the generated guidance information to a user terminal;
Determining whether an application installed in the user terminal is dynamically determined whether the predetermined condition is satisfied when the user terminal receives the guide information; And
Executing the application and outputting, as image information, the internal drawing reflecting the fire occurrence area and the evacuation route through the application, if it is determined that the preset specific condition is satisfied .

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