KR101242358B1 - Apparatus of emergency evacuation using QR code and method thereof - Google Patents

Abstract

The present invention relates to an emergency evacuation apparatus and method using the QR code. According to the present invention, a photographing unit for photographing a QR code disposed in the facility, a current location corresponding to the QR code, a database for storing a plurality of evacuation routes corresponding to the current location, and in the current location An emergency evacuation apparatus and method using a QR code includes a control unit for selecting a corresponding evacuation route, and a display unit for displaying the selected evacuation route together with the current location.
According to the emergency evacuation device and the method using the QR code, it is possible to guide the optimal emergency evacuation route corresponding to the current location by photographing the QR code disposed in the facility. Therefore, when a disaster occurs in various facilities such as buildings and subways, there is an advantage that people can induce safe and rapid evacuation.

Description

Apparatus of emergency evacuation using QR code and method

The present invention relates to an emergency evacuation apparatus and method using a QR code, and more particularly, an emergency evacuation apparatus using a QR code that can guide the emergency evacuation route corresponding to the photographing QR code disposed in the facility It is about a method.

Various disasters such as fire, explosion, and toxic gas leakage may occur in various facilities such as buildings and subways due to human carelessness and natural disasters. Since these disasters spread relatively quickly, separate means are required to induce rapid evacuation of those in the facility.

However, in the conventional case, when a disaster occurs, people in the facility are simply evacuated by relying on emergency exit markings displayed on corridors and the like. Therefore, disaster response information for each area or exit cannot be considered at all, and appropriate evacuation can not be made accordingly. There is a problem that various human thinking is increased.

The present invention relates to: It is an object of the present invention to provide an emergency evacuation apparatus and method using a QR code that can guide the optimal emergency evacuation route corresponding to the current location by photographing the QR code disposed in the facility.

The present invention provides a photographing unit for photographing a QR code disposed in a facility, a current location corresponding to the QR code, a database storing a plurality of evacuation paths corresponding to the current location, and corresponding to the current location. It provides an emergency evacuation device using a QR code including a control unit for selecting an evacuation route to be displayed, and a display unit for displaying the selected evacuation route with the current location.

Here, the controller may select a path from the current position to the nearest exit as an evacuation path.

The emergency evacuation apparatus using the QR code may further include a communication unit configured to receive sensing information on at least one of smoke, temperature, and gas in the facility from an external management server. In this case, the controller may select an evacuation path using the received sensing information.

Here, the communication unit may receive the current location and the evacuation path for each QR code from the information providing device disposed in the entrance of the facility and store it in the database.

In addition, the management server may be installed inside the facility to receive the respective sensing information from the sensing means for sensing at least one of smoke, temperature, gas to transmit to the communication unit. In this case, the controller may analyze the risk factor according to the sensing information and select an evacuation path having the smallest risk factor among the plurality of evacuation paths.

And, the present invention is installed in the facility of the management server for receiving and transmitting each sensing information from the sensing means for sensing at least one of smoke, temperature, gas, and receives the sensing information from the management server, Photographs a QR code arranged in a facility, stores a current location corresponding to the QR code and a plurality of evacuation paths corresponding to the current location, and selects an evacuation path corresponding to the current location when the QR code is photographed. However, the emergency evacuation using the QR code including an emergency evacuation device for analyzing the risk factor according to the sensing information, and selecting the evacuation route with the smallest risk factor among the plurality of evacuation paths and displayed along with the current location Provide a system.

In addition, the present invention, storing the current location corresponding to the QR code disposed in the facility, a plurality of evacuation routes corresponding to the current location, photographing the QR code, and corresponding to the current location It provides an emergency evacuation method using a QR code comprising the step of selecting the evacuation route to be, and displaying the selected evacuation route with the current location.

According to the emergency evacuation apparatus and method using the QR code according to the present invention, it is possible to guide the optimal emergency evacuation route corresponding to the current location by photographing the QR code disposed in the facility. Therefore, when a disaster occurs in various facilities such as buildings and subways, there is an advantage that people can induce safe and rapid evacuation.

1 is a block diagram of an emergency evacuation device using a QR code according to an embodiment of the present invention.
2 is a flowchart illustrating an embodiment of an emergency evacuation method using FIG. 1.
3 is a flowchart illustrating another embodiment of the emergency evacuation method using FIG. 1.

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

The present invention relates to an emergency evacuation apparatus and method using a QR code, to provide an emergency evacuation apparatus and method for inducing people to evacuate safely and quickly when a disaster occurs in various facilities, such as buildings, subways, etc. do.

To this end, QR codes for emergency evacuation are attached to corridors, stairs, and floors in the facility. In the present invention, by using the emergency evacuation device when a disaster occurs by taking a QR code and grasping the current location corresponding to the QR code, it is possible to provide an optimal evacuation route at the current location.

1 is a block diagram of an emergency evacuation system using a QR code according to an embodiment of the present invention. The emergency evacuation system using the QR code includes an emergency evacuation device 100 and a management server 200 for exchanging information with the emergency evacuation device 100.

The emergency evacuation device 100 may be implemented as a device capable of transmitting and receiving information by connecting to a network by wire or wirelessly, such as a smart phone, a smart pad, a mobile phone, a notebook computer, and a PDA.

More specifically, the emergency evacuation device 100 includes a photographing unit 110, a database 120, a control unit 130, a display unit 140, a communication unit 150.

First, the photographing unit 110 is a part for photographing the QR code disposed in the facility. Since the photographing principle and the recognition process of the QR code are known in the art, a detailed description thereof will be omitted.

The database 120 stores a current location corresponding to the QR code and a plurality of evacuation paths corresponding to the current location.

Various embodiments of the method of storing information in the database 120 may exist. For example, the communication unit may be configured to locate the current location and the evacuation path for each QR code from an information providing device (not shown) disposed at an entrance of the facility (ex, a building entrance) to enable wired and wireless communication with the communication unit 150. Received at 150 and stored in the database 120.

That is, as soon as the user carrying the emergency evacuation device 100 enters the entrance of the building, the current location of each QR code arranged in the building and the evacuation path thereof are received from the information providing device to the database 120. Can be stored.

In addition, the emergency evacuation apparatus 100 may be connected to a separate Internet server that manages a QR code in a building in advance, and then a corresponding building may be selected from a plurality of buildings to receive corresponding information.

The controller 130 selects at least one evacuation path corresponding to the current location by referring to the database 120 when the QR code is photographed. For example, one evacuation route that is optimal for the current location may be provided, or several evacuation paths that are suitable for the current location may be provided as candidate groups.

The display unit 140 displays the selected evacuation route together with the current location. In this case, the evacuation route may be provided in connection with an internal map of the facility to facilitate the evacuation of the evacuation route. In addition, the evacuation route may be provided as a real time trajectory. In addition, the emergency evacuation device 100 may be provided with a separate voice guide unit 160 to guide the evacuation route by voice.

 Meanwhile, the method of selecting the evacuation path in the controller 130 varies depending on whether network connection is possible. The embodiments are as follows.

2 is a flowchart illustrating an embodiment of an emergency evacuation method using FIG. 1. This is an example of when network connectivity is not possible within a facility (eg, in the absence of an access point, or when a network device is broken).

First, the database 120 stores a current location corresponding to a QR code disposed in a facility and a plurality of evacuation paths corresponding to the current location (S210). Then, the QR code is photographed through the photographing unit 110 (S220).

Thereafter, the control unit 130 selects an evacuation path of the shortest distance corresponding to the current position of the plurality of evacuation paths (S230). At this time, the path from the current location to the nearest exit is selected as the evacuation path.

In other words, in an environment in which the network connection is impossible, the controller 130 selects a path to the nearest exit from the current location among the plurality of evacuation paths as an evacuation path. This induces the user to make a quick evacuation from the current location to the exit located at the shortest distance.

Next, the selected evacuation route is displayed together with the current position through the display unit 140 (S240). As described above, since the emergency evacuation device 100 cannot receive information from the management server 200 when the network connection is impossible, the emergency evacuation device 100 has its own standard (select the exit closest to the current location). Determine and provide evacuation routes according to

3 is a flowchart illustrating another embodiment of the emergency evacuation method using FIG. 1. This is an example of when network connections are possible within a facility.

When the network connection is possible, the controller 130 may select a safer evacuation path by identifying risk factors in the facility while communicating with an external management server 200.

As a premise, the management server 200 receives each sensing information from a sensing means (not shown) installed inside the facility to sense at least one of smoke, temperature, and gas, and transmits the sensing information to the communication unit 150. do. Here, the sensing means may be installed in each exit, corridor, passage, emergency exit of the facility.

On the premise of the above, description of the said other Example is as follows. First, the database 120 stores a current location corresponding to a QR code disposed in a facility and a plurality of evacuation paths corresponding to the current location (S310).

In addition, the communication unit 150 receives sensing information on at least one of smoke, temperature, and gas in the facility from the external management server 200 (S320).

Next, the QR code is photographed through the photographing unit 110 (S330). Here, step S320 may be performed after step S330.

Thereafter, the controller 130 analyzes a risk factor according to the sensing information and selects an evacuation path having the smallest risk factor among the plurality of evacuation paths (S340).

As described above, when the communication unit 150 receives the sensing information, the control unit 130 selects an optimal evacuation path among the plurality of evacuation paths using the received sensing information. That is, the controller 130 analyzes a risk factor according to the sensing information and selects an evacuation path having the smallest risk factor among the plurality of evacuation paths. Then, the selected evacuation route is displayed along with the current position through the display unit 140 (S350).

As described above, the emergency evacuation device 100 may receive the sensing information of the interior of the facility from the management server 200, when the network connection is possible, providing an evacuation path based on the safety level, not the shortest distance standard. Try to reduce the damage to life.

In addition, the control unit 130 may be configured to immediately notify the display unit 140 when the sensing information after receiving the sensing information is greater than or equal to the threshold. This may inform the emergency situation itself in the emergency evacuation device 100 even when the user does not directly recognize the emergency situation, it can lead to more rapid disaster response.

The analysis of the sensing information and the provision of the evacuation route based thereon are not limited to those implemented in the emergency evacuation apparatus 100, and are provided by the management server 200 to provide corresponding information to the emergency evacuation apparatus 100. It is also possible. That is, the management server 200 may be changed to a configuration in which the sensing information in the facility is analyzed in advance and the emergency evacuation path corresponding thereto is transmitted to the emergency evacuation device 100 to be notified.

As described above, according to the emergency evacuation apparatus and the method using the QR code according to the embodiment of the present invention, it is possible to guide the optimal emergency evacuation route corresponding to the current location by photographing the QR code disposed in the facility. Therefore, when a disaster occurs in various facilities such as buildings and subways, there is an advantage that people can induce safe and rapid evacuation.

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

100: emergency evacuation device 110: imaging unit
120: database 130: control unit
140: display unit 150: communication unit
160: voice guide 200: management server

Claims (11)

Communication unit for receiving the sensing information on at least one of the smoke, temperature, gas in the facility from an external management server;
A photographing unit for photographing a QR code disposed in the facility;
A database for storing a current location corresponding to the QR code and a plurality of evacuation paths corresponding to the current location;
A control unit for selecting an evacuation path corresponding to the current location using the received sensing information, analyzing a risk factor according to the sensing information, and selecting an evacuation path having the least risk factor among the plurality of evacuation paths; And
A display unit for displaying the selected evacuation route together with the current location;
Wherein,
Receive the current location and the evacuation route for each QR code from the information providing device disposed in the entrance of the facility and stores in the database,
The management server includes:
Emergency evacuation device using a QR code installed in at least one of the exit, passage and emergency exit inside the facility to receive each sensing information from the sensing means for sensing at least one of smoke, temperature, gas to the communication unit. delete delete delete delete A management server installed at at least one of an outlet, a passage, and an emergency exit inside the facility to receive and transmit respective sensing information from sensing means for sensing at least one of smoke, temperature, and gas; And
Receiving the sensing information from the management server, photographing a QR code disposed in the facility, storing a current location corresponding to the QR code and a plurality of evacuation paths corresponding to the current location, When taking a picture, the evacuation path corresponding to the current location is selected using the received sensing information, the risk factor according to the sensing information is analyzed, and the evacuation path having the least risk factor among the plurality of evacuation paths is selected. An emergency evacuation device for displaying with the current location;
The emergency evacuation device,
Emergency evacuation system using a QR code for receiving the current location and the evacuation route for each QR code from the information providing device disposed in the entrance of the facility and stored in the database. In the emergency evacuation method using a QR code using an emergency evacuation device using a QR code,
Receiving a current location corresponding to a QR code disposed in the facility and a plurality of evacuation paths corresponding to the current location from the information providing apparatus disposed at the entrance of the facility for each QR code and storing the current location in a database;
Receiving sensing information on at least one of smoke, temperature, and gas in the facility from an external management server;
Photographing the QR code;
Selecting an evacuation path corresponding to the current location using the received sensing information, analyzing a risk factor according to the sensing information, and selecting an evacuation path having the least risk factor among the plurality of evacuation paths; And
Displaying the selected evacuation route along with the current location;
The management server includes:
Emergency evacuation method using a QR code installed in at least one of the exit, passage and emergency exit inside the facility to receive each sensing information from the sensing means for detecting at least one of smoke, temperature, gas to the emergency evacuation device . delete delete delete delete

Images