KR102133303B1 - The Method and Apparatus for identifying a number of people using employee card in disaster situation - Google Patents

Abstract

The present specification provides a method for responding to a disaster situation using a disaster response device. At this time, the method for responding to a disaster situation comprises the steps of: confirming that the disaster response device is located within a preset area; receiving a disaster situation message from a disaster response server by the disaster response device located in a preset area when the disaster situation is generated; transmitting location information of the disaster response device to the disaster response server based on the disaster situation message; and receiving evacuation guide information from the disaster response server. At this time, when the disaster response device is located in an action radius area, the evacuation guide information is determined based on main action pattern information, and the evacuation guide information may be determined based on the preset evacuation information, when the disaster response device is located outside the action radius area.

Description

The Method and Apparatus for identifying a number of people using employee card in disaster situation}

This specification relates to a method and apparatus for identifying the number of people in a disaster situation. Specifically, it is possible to provide a method and apparatus for grasping the number of people in a building in a disaster situation using an identification card or an employee ID.

When a disaster occurs in a building or in a small area, it is difficult to identify and respond to the people in the area where the disaster occurred. In particular, in the event of a fire or other disaster in the building, power may be cut off and the lights and other lighting devices may be turned off and may not operate properly. In the above-mentioned situation, people in the building may lose sense of direction, and it may not be possible to evacuate the disaster within the golden time. When a disaster occurs in consideration of the above points, it may be necessary to find a location of people in the building and provide a guide for evacuating the disaster based on the location of the people. In particular, people located in the same building can carry identification cards that indicate belonging to the same building, and by using this, it is possible to easily grasp the location of people in the building. The following describes a specific method for identifying personnel in a disaster situation and providing an evacuation guide to the identified personnel using an employee ID or identification card based on the foregoing.

Korean Registered Patent No. 10-1976979

The present specification is intended to provide a method and apparatus for identifying personnel in a disaster situation.

The purpose of this specification is to provide a guide for evacuating disasters to personnel identified in a disaster situation.

The purpose of this specification is to identify personnel in a building using a disaster response device and to provide a guide for disaster evacuation.

It is an object of the present disclosure to provide a method for establishing a disaster evacuation route based on information recorded in a disaster response device.

According to one embodiment of the present specification, a method of responding to a disaster situation using a disaster response device may be provided. At this time, the method for responding to the disaster situation comprises the steps of confirming that the disaster response device is located in a predetermined area, and when a disaster situation occurs, the disaster response device located in the preset area receives a disaster situation message from the disaster response server The method may include transmitting location information of the disaster response device to the disaster response server based on the disaster situation message, and receiving evacuation guide information from the disaster response server. At this time, when the disaster response device is located in the action radius area, evacuation guide information is determined based on the main action pattern information, and when the disaster response device is located outside the action radius area, the evacuation guide information is based on the predetermined evacuation information Can be determined.

In addition, according to an embodiment of the present invention, it is possible to provide a disaster response device. At this time, the disaster response device may include a transceiver for transmitting and receiving signals and a control unit for controlling the transceiver. At this time, the control unit confirms that the disaster response device is located within a predetermined area, and if a disaster situation occurs, receives a disaster situation message from the disaster response server, and responds to the location information of the disaster response device based on the disaster situation message When it is sent to the server and receives the evacuation guide information from the disaster response server, when the disaster response device is located in the action radius area, the evacuation guide information is determined based on the main behavior pattern information, and the disaster response device is outside the action radius area When located, evacuation guide information may be determined based on preset evacuation information.

In addition, according to an embodiment of the present invention, a method for responding to a disaster situation using a disaster response server may be provided. At this time, the disaster response server confirms at least one disaster response device located in the preset area, and when a disaster situation occurs, transmitting a disaster situation message to at least one or more disaster response devices located in the preset area The method may include receiving location information of each disaster response device from at least one or more disaster response devices and transmitting respective evacuation guide information to each of the at least one disaster response device. At this time, when the disaster response device is located in the action radius area, evacuation guide information is determined based on the main action pattern information, and when the disaster response device is located outside the action radius area, the evacuation guide information is based on the predetermined evacuation information Can be determined.

In addition, according to an embodiment of the present invention, it is possible to provide a disaster response server. At this time, the disaster response server may include a transmitting and receiving unit for transmitting and receiving signals and a control unit for controlling the transmitting and receiving unit. At this time, the control unit identifies at least one disaster response device located in the preset area, and when a disaster occurs, transmits a disaster situation message to at least one or more disaster response devices located in the preset area, and at least one Receiving the location information of each disaster response device from the above-described disaster response device, and transmitting the respective evacuation guide information to each of at least one or more disaster response devices, if the disaster response device is located in the area of action, evacuation guide Information is determined based on the main behavior pattern information, and when the disaster response device is located outside the radius of action area, evacuation guide information may be determined based on predetermined evacuation information.

In addition, the following items may be commonly applied to a method, apparatus, and server for responding to a disaster situation.

According to an embodiment of the present invention, access information of a disaster response device is confirmed based on a device installed in a preset area, and it can be confirmed that the disaster response device is located in a preset area based on the access information.

Further, according to an embodiment of the present invention, the disaster response device may include identification information.

In addition, according to an embodiment of the present invention, the disaster response server may check the number of disaster response devices in a preset area based on identification information of each disaster response device.

In addition, according to an embodiment of the present invention, the disaster response server sets additional information for each disaster response device based on the identification information of each disaster response device, and evacuation guide information is determined by further reflecting the additional information Can.

In addition, according to an embodiment of the present invention, the additional information may include at least one or more of the number of years of service information, information on the number of days worked in a preset area, information on whether a person has a disability, information on whether a woman is pregnant or not and information input by a disaster response device. have.

In addition, according to an embodiment of the present invention, the location information of the disaster response device may be identified based on at least one of an identification device and a local area network installed in a preset area.

In addition, according to an embodiment of the present invention, the disaster response device periodically acquires the movement path and movement pattern information of the disaster response device, and the disaster response device acquires the same movement path and movement pattern information more than a preset number of times , The main action pattern information is determined based on the obtained movement path and the movement pattern information, and the action radius may be determined based on the main action pattern information.

The present specification can provide a method and apparatus for identifying personnel in a disaster situation.

The present specification may provide guides for evacuating disasters to personnel identified in a disaster situation.

The present specification can identify a person in the building using a disaster response device and provide a guide for disaster evacuation.

The present specification can provide a method of establishing a disaster evacuation route based on information recorded in the disaster response device.

The effects obtained in the present specification are not limited to the above-mentioned effects, and other effects not mentioned may be clearly understood by those skilled in the art from the following description. will be.

1 is a view showing a disaster response device according to an embodiment of the present invention.
2 is a view showing a disaster response server according to an embodiment of the present invention.
3 is a view showing the function of a disaster response device according to an embodiment of the present invention.
4 is a diagram illustrating a method of implementing a disaster response apparatus through a mobile device according to an embodiment of the present invention.
5 is a view showing the function of a disaster response device according to an embodiment of the present invention.
6 is a flowchart illustrating a method of responding to a disaster situation according to an embodiment of the present invention.
7 is a flowchart illustrating a method of responding to a disaster situation according to an embodiment of the present invention.
8 is a flowchart illustrating a method of operating a disaster response device in a disaster situation according to an embodiment of the present invention.
9 is a diagram illustrating a method of recording a behavior pattern by a disaster response device according to an embodiment of the present invention.
10 is a flowchart illustrating a method of responding to a disaster situation based on a main behavior pattern according to an embodiment of the present invention.
11 is a view showing a method of grasping the location of a disaster response device in a disaster situation according to an embodiment of the present invention.
12 is a flow chart illustrating a method for grasping the location of a disaster response device in a disaster situation according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION The following detailed description, together with the accompanying drawings, is intended to describe exemplary embodiments of the present invention, and is not intended to represent the only embodiments in which the present invention may be practiced. The following detailed description includes specific details to provide a thorough understanding of the present invention. However, one of ordinary skill in the art knows that the present invention may be practiced without these specific details.

The following embodiments are combinations of components and features of the present invention in a predetermined form. Each component or feature can be considered to be optional, unless expressly stated otherwise. Each component or feature may be implemented in a form that is not combined with other components or features. In addition, some components and/or features may be combined to form an embodiment of the present invention. The order of the operations described in the embodiments of the present invention can be changed. Some configurations or features of one embodiment may be included in other embodiments, or may be replaced with corresponding configurations or features of other embodiments.

Certain terms used in the following description are provided to help the understanding of the present invention, and the use of these specific terms may be changed to other forms without departing from the technical spirit of the present invention.

In some cases, in order to avoid obscuring the concept of the present invention, well-known structures and devices are omitted or shown in block diagram form focusing on core functions of each structure and device. In addition, throughout this specification, the same components will be described using the same reference numerals.

Further, in this specification, terms such as first and/or second may be used to describe various components, but the components should not be limited by the terms. The above terms are only for the purpose of distinguishing one component from other components, for example, without departing from the scope of rights according to the concept of the present specification, the first component may be referred to as the second component, and similarly , The second component may also be referred to as a first component.

Also, in the specification, when a part “includes” a certain component, it means that the component may further include other components, not to exclude other components, unless otherwise stated. In addition, terms such as “? unit” and “? unit” described in the specification mean a unit that processes at least one function or operation, which may be implemented by a combination of hardware and/or software.

1 is a view showing a disaster response device according to an embodiment of the present invention. Referring to FIG. 1, a disaster response device 100 may be provided. At this time, the disaster response device 100 includes identification information of the holder of the disaster response device 100, and the server may be a device for identifying the holder. For example, the disaster response device 100 may be in a form combined with a company employee ID. As a more specific example, the disaster response device 100 may be implemented in an employee ID necklace. As another example, the disaster response device 100 may be implemented in the employee ID card. That is, the employee ID can be implemented not only to identify access and holders in the company building, but also to respond to a disaster situation. That is, the disaster response device 100 may be implemented in various forms as a device for responding to a disaster situation, and is not limited to the above-described embodiment.

As another example, the disaster response device 100 may be implemented in a mobile device. For example, the employee ID may be implemented as a mobile device, and the disaster response device 100 may also be implemented as a mobile device. In this case, as an example, the disaster response device 100 implemented in the mobile device 100 may be controlled to operate only in a space identified as a specific building or a specific company. Further, as an example, the disaster response device 100 may be controlled to operate only in a disaster situation in the above-described space, and is not limited to the above-described embodiment.

For example, referring to FIG. 1, the disaster response device 100 may include a control unit 110, a transmission/reception unit 120, a light emitting unit 130, and an output unit 140. As another example, the disaster response device may further include a display unit (not shown). The control unit 310 may receive a disaster message or transmit a rescue signal through the transmission/reception unit. For example, the control unit 110 may control the transmission/reception unit 120, the light emission unit 130, and the output unit 140. In addition, the control unit 110 may further control other configurations, and is not limited to the above-described embodiment. Further, as an example, the transceiver 120 may be configured to transmit and receive signals. For example, the disaster response device 100 may receive or transmit disaster-related information from the server and other devices through the transceiver 120. In addition, as an example, the light emitting unit 330 has a light emitting function, and the light emitting function may be activated in a disaster situation. As another example, the disaster response device 100 may include an output unit 140. At this time, the output unit 140 may generate a signal informing the disaster situation through the speaker and other devices. In addition, as an example, the output unit 140 may generate a rescue signal in a distress situation, and may request rescue through this, which will be described later. In addition, as an example, the disaster response device 100 may further include a display unit (not shown). In this case, as an example, the display unit may display disaster-related information.

2 is a view showing a disaster response server according to an embodiment of the present invention.

Referring to FIG. 2, a disaster response server 200 may be implemented. For example, the disaster response server 200 may be required to operate the above-described disaster response device. For example, the disaster response server 200 may include a control unit 210 that controls each configuration. In addition, the disaster response server 200 may include a transceiver 220 for transmitting and receiving signals. At this time, as an example, when a disaster situation occurs, the disaster response server may provide a message informing the disaster response device to the disaster response device. At this time, in one day, the disaster response server 200 determines the disaster situation, but it may not be clear whether it is a disaster situation based on a lot of information. Therefore, unnecessary actions may be performed when a disaster situation is sensed indiscriminately. Considering the above, the disaster response server 200 may determine the disaster situation. For example, the disaster response server 200 may determine a disaster situation based on input and output information, such as deep learning or machine learning. At this time, when the disaster response server 200 determines that the disaster situation is clear, the disaster response server 200 may determine the disaster situation and transmit a message about the disaster situation to the disaster response device. At this time, the disaster message may include only information to recognize the disaster situation. As another example, the disaster message may include specific information about the disaster situation, and is not limited to the above-described embodiment.

In addition, as an example, the disaster response server 200 may include a sensor unit (not shown). For example, the sensor unit may be a sensor for detecting a disaster situation. For example, the sensor unit may be connected to a fire detector, smoke detector, and power failure checking device in the area. In addition, it may also include sensors that can detect a disaster situation, which will be described later.

3 is a view showing the function of a disaster response device according to an embodiment of the present invention.

Referring to FIG. 3, the disaster response device 310 may be implemented in an employee ID card. More specifically, the employee ID may be composed of a necklace, an employee ID 320, and a connecting portion connecting the employee ID. At this time, the above-described disaster response device 310 may be implemented in the connecting portion connecting the employee ID. As another example, the disaster response device may be implemented as the employee ID 320 itself, and is not limited to the above-described embodiment.

That is, the disaster response device 310 may be implemented in various forms, and is not limited to the above-described embodiment. At this time, the disaster response device 310 may be a device that operates by identifying the disaster situation. As a specific example, the disaster situation may be determined by the disaster response server described above. That is, when it is determined that the disaster response server is a disaster situation, the disaster response server may transmit a message informing the disaster response device 310 of the disaster situation. When the disaster response device 310 receives a message informing of the disaster situation, the disaster response device 310 may operate to respond to the disaster situation. As another example, the disaster response device 310 may directly detect a disaster situation. For example, the disaster response device 310 may include a sensor, detect a fire or smoke, and is not limited to the above-described embodiment.

As another example, the disaster response device 310 may determine the disaster situation through the input of the holder. That is, the disaster response device 310 holder can recognize the disaster situation and provide an input to the disaster response device 310 for notifying the disaster situation. At this time, the disaster response device 310 may activate the paging function based on the input of the holder. In addition, as an example, the disaster response device 310 may transmit information about the disaster situation to the disaster response server. At this time, the disaster response server may transmit information about the disaster situation to another disaster response device, and thereby notify the disaster situation. As another example, a light emission function and an output function may be implemented in the disaster response device 310. For example, when a disaster situation occurs, the light may be turned off by power cutoff or the light may be blocked by collapse of a building. In consideration of the above, the disaster response device 310 may include a light emission function, and the light emission function may be activated to confirm the location of the disaster response device 310 in a disaster situation. Further, as an example, the disaster response device 310 may output a signal for a rescue request through an output function. At this time, the output function may be an output signal through a speaker. For example, when a disaster situation occurs, it may not be easy to grasp the location of the disaster response device 310 holder. In consideration of the above-described situation, the disaster response device 310 may activate the output function in the disaster situation. At this time, the disaster response device 310 may output the rescue request signal to the outside through the activated output function, through which it can request the rescue.

As another example, the disaster response device 310 may include an identification device. For example, the identification device may be a radio frequency identification (RFID) device. Further, as an example, the identification device may be a low power device. More specifically, the disaster response device 310 may be a device operating in an authorized space associated with a specific building or a specific company. At this time, each of the people in a specific building or a specific company may have each disaster response device 310. At this time, the disaster response device 310 may include identification information for each holder, through which it is possible to check the location of people within a specific building or a specific company. As another example, since the disaster response device 310 may be implemented in the employee ID card, a high capacity battery may not be easy to use. In addition, since it is a device for preparing for a disaster situation, it is possible to maintain a low-power state or not operate in a non-disaster situation. In consideration of the above, the disaster response device 310 may be implemented as a low power device. In this case, as an example, the low power device may be a beacon device. In addition, as an example, the low power device may be a device that operates through Bluetooth, Zigbee, or LoRa networks, and is not limited to the above-described embodiment. Further, as an example, the disaster response device 310 is not activated in a situation other than a disaster situation, and may be activated only in a disaster situation. For example, the disaster response device 310 may be activated and operated only when a message regarding a disaster situation is received from the server, which will be described later. Accordingly, the disaster response device 310 may be set to perform only an operation for determining whether or not a disaster message is received from a server. In addition, as an example, the disaster response device 310 may be a device that is charged based on the user's movement as it is carried by the user, and is not limited to the above-described embodiment. That is, the disaster response device 310 may operate with low power.

As another example, the disaster response device 310 may not be limited to low power. For example, the disaster response device 310 includes a display unit and may be a device capable of charging. At this time, the disaster response device 310 may be used by displaying an advertisement or periodically charging, and in such a device, a signal exchange for disaster preparedness may be possible and may include the above-described identification device.

For example, the disaster response device 310 may be identified by an identification device provided. For example, when a disaster occurs, a user's location may be identified based on the identification device of the disaster response device 310. In addition, the disaster response server can grasp the location and number of the victims based on the disaster response device 310, thereby performing the rescue.

4 is a diagram illustrating a method of implementing a disaster response apparatus through a mobile device according to an embodiment of the present invention.

For example, the disaster response device may be a mobile device 410. As an example, the employee ID may be implemented and operated in the mobile device 410. In this case, as an example, the functions of the disaster response device may also be implemented by the mobile device 410. That is, the mobile device 410 is a counterpart device 310 reinvented, and the above-described operations of FIGS. 1 to 3 may be implemented as functions of the mobile device 410. As an example, the mobile device 410 may include a speaker function for rescue request, a light emission function, a call function, and an identification function as a disaster response device. That is, the operations of the disaster response apparatus of FIG. 3 described above may be implemented as a function of the mobile device, and are not limited to the above-described embodiment.

In this case, as an example, the disaster response device may be a device for disaster response, and the disaster response device may be deactivated in the mobile device. For example, the disaster response device may be deactivated in consideration of power consumption of a mobile device or collision with other software. At this time, as an example, when the mobile device receives a message about the disaster situation from the disaster response server, the mobile device can prepare for a disaster situation by activating a function for the disaster response device. As another example, when a function for a disaster response device is activated in a mobile device, the mobile device may be controlled to operate a function corresponding to the disaster response device as a top priority. That is, in consideration of the disaster situation, the function for the disaster response device may be set as the highest priority function in the mobile device so that the function for the disaster response device is not limited by other software or functions of the mobile device. As another example, a mobile device may utilize emergency power for a disaster response device function. For example, it is necessary to operate a function for a disaster response device even when a battery of a mobile device is discharged or turned off. When the disaster response apparatus is implemented and activated in the mobile device in consideration of the above points, the mobile device may activate the function for the disaster response apparatus through emergency power, and is not limited to the above-described embodiment. That is, even when the mobile device is turned off, the function for the disaster response device may be activated. For example, the turned off mobile device may transmit a rescue request message to inform the location information to the disaster response server. Further, as an example, the turned off mobile device may receive disaster-related information transmitted from the disaster response server, through which a disaster response may be performed, and is not limited to the above-described embodiment.

5 is a view showing the function of a disaster response device according to an embodiment of the present invention.

Referring to FIG. 5, a disaster response device may perform various operations for informing a disaster situation. For example, when a disaster occurs, the light emission function of the disaster response device may be activated, as described above. For example, when a disaster occurs, it may be difficult to identify surrounding objects based on a power outage or a fire, so the light emission function of the disaster response device may be activated. Through this, evacuation of the victim can be facilitated. Further, as an example, the disaster response device may output disaster-related information. As a specific example, the disaster response device may generate a warning sound. In addition, the disaster response device may determine the disaster situation through the disaster message, and output information about the disaster situation. Specifically, specific disaster situations and evacuation information can be provided, such as "Prepare a fire in area A, prepare for the doorway." In addition, the disaster response device may provide vibration information or other output information, and is not limited to the above-described embodiment. Further, as an example, the display unit of the disaster response device may be activated. For example, the disaster response device is a low-power device, and the display unit may not be activated normally. For example, when the disaster response device detects a disaster situation, the disaster response device may activate the display unit. At this time, the display unit may display the above-described disaster information and evacuation information. As a more specific example, the display unit may display information on a direction to be moved based on an evacuation route. Through this, the victim can easily check the information about the area to be evacuated. As an example, the display unit may lead to an evacuation area through an arrow. At this time, the direction of the arrow may be changed based on the user's movement, and thus it may be easy to move to the evacuation area. As another example, the display unit may provide map information for the current location and the evacuation area. That is, the display unit may provide information on an area to be evacuated through a map, thereby helping the evacuee to evacuate quickly.

In addition, as an example, referring to FIG. 5(b), when the disaster response apparatus is a mobile device, the above-described functions may be activated through the mobile device, but the function of operation may be the same as that of FIG. 5(a). .

6 is a flowchart illustrating a method of responding to a disaster situation according to an embodiment of the present invention.

For example, referring to FIG. 6, as described above, a disaster situation may be prepared based on a disaster response device and a disaster response server. For example, the disaster response server may be a server that controls a predetermined area. For example, the preset area may be at least one of a specific building, a specific floor, and a specific company, and is not limited to the above-described embodiment. Also, as an example, the disaster response device may be carried by people located in the above-described predetermined area, respectively. As an example, the disaster response device may be implemented with an employee ID as described above. In this case, referring to FIG. 6, an employee ID or ID for a predetermined area may exist. In this case, as an example, a person who wants to access a predetermined area may receive an employee ID or identification card at the gate entrance. (S610) At this time, as an example, the employee ID or identification card may include the disaster response device described above, which is described above. It is like one. After that, an employee ID or identification card holder may pass through the gate (entrance). At this time, the access can be confirmed through the identification device of the disaster response device. (S620) At this time, the information about the access is transmitted to the disaster response server, the disaster response server can determine the number of people entering and exiting the predetermined area. Thereafter, the holder of an employee ID or identification card may be located in a specific area within a predetermined area. At this time, the disaster response server can check the number of people for each space in the preset area. One day, the number of people can be confirmed based on at least one of floors, restrooms, and offices. (S630) Then, when an employee ID card or ID card holder passes through a gate (exit), the disaster response server is a departed person. (S640) Then, an employee ID card or an identification card may be returned. (S650) That is, the disaster response server is located in a predetermined area through information on the disaster response device passing through the above-described gate. Information can be checked and prepared for disaster situations.

7 is a flowchart illustrating a method of responding to a disaster situation according to an embodiment of the present invention.

For example, a gate for access may be installed in a predetermined area as shown in FIG. 6. At this time, the identification device of the disaster response device may be identified by a gate, and the identified information may be transmitted to the disaster response server. That is, through the above, the disaster response server can check the entry and exit records of the disaster response device holder, and through this, it is possible to grasp in real time the number of persons located in the predetermined area. At this time, as an example, a disaster situation may be detected. (S710) For example, the disaster situation may be determined by the disaster response server through at least one or more sensors. As another example, the disaster situation may be determined by the disaster response device, and information on the disaster situation may be transmitted to the disaster response server to be determined, and is not limited to the above-described embodiment. Thereafter, when the disaster response server determines that the disaster situation, the disaster response server may check the number and location of the disaster response devices located within a predetermined area at the time the disaster situation occurs. That is, the disaster response server can check the number of persons and their positions currently located within the preset area. At this time, the disaster response server may transmit a message about the disaster situation to each of the disaster response devices. For example, the message about the disaster situation may be a notification message informing only the disaster situation. That is, the message about the disaster situation does not include the type or type of disaster and specific evacuation information, and may be an alarm message informing the disaster situation. As another example, the message about the disaster situation may be a message including specific information of the disaster. For example, the message informing of the disaster situation may include at least one of a disaster occurrence point, a disaster occurrence time, a disaster type (e.g. fire, earthquake, collapse), dangerous area information caused by the disaster, and evacuation route information. That is, the message informing the disaster situation may include specific information about the disaster, and is not limited to the above-described embodiment.

At this time, each of the disaster response devices receiving information about the disaster situation from the disaster response server may activate the light emission function. (S720) As another example, each disaster response device may communicate the situation to the disaster response device holder (employee ID holder) through the output device. (S730) Through the above, a holder of a disaster response device can recognize a disaster situation and receive a guide for evacuation. This will be described later.

8 is a flowchart illustrating a method of operating a disaster response device in a disaster situation according to an embodiment of the present invention.

Referring to FIG. 8, the disaster response device may transmit rescue information for disaster response to the disaster response server based on the disaster situation. For example, when a disaster situation occurs (S810), the rescue function button may be activated through the disaster response server in the disaster response device. (S820) At this time, as an example, to prevent malfunction of the rescue function button in the disaster response device. The rescue function button can only be activated through a disaster response server. That is, the rescue function button may not be activated when a disaster situation has not occurred. At this time, when the rescue function button is activated, the disaster response device may receive the input of the rescue requester. (S830) At this time, as an example, the disaster response device holder may have a disaster evacuation based on information received from the disaster response server. If possible, you may not enter an input for the rescue function button. On the other hand, if the disaster response device holder determines that it is not easy to evacuate the disaster, it may provide input information for the rescue request. That is, the holder can click the rescue request button when a rescue request is required. At this time, the disaster response device may transmit location information of the disaster response device to the disaster response server and output a rescue signal. (S840) That is, the disaster response device may provide the current location to the server. Also, as an example, a structure signal may be output to increase the efficiency of the structure. For example, the rescue signal may be voice information output through a speaker. As another example, the structure signal may be a signal output based on a local area network. For example, if it is not easy to identify the short distance in a disaster situation, the rescuer can confirm the rescue signal transmitted by the rescuer through the communication network and confirm the location of the rescue requester, and is not limited to the above-described embodiment. In addition, as an example, the disaster response server may provide the emergency evacuation information after confirming the location of the disaster response device. (S850) As an example, the disaster response server confirms the location of the disaster response device, and the surrounding disaster situation Information can be sensed. At this time, the disaster response server may determine a route capable of disaster evacuation in consideration of surrounding conditions, and transmit information on the disaster response device to the disaster response device. At this time, the rescue requester may perform disaster evacuation through the above-described information, and is not limited to the above-described embodiment.

9 is a diagram illustrating a method of recording a behavior pattern by a disaster response device according to an embodiment of the present invention. 10 is a flowchart illustrating a method of responding to a disaster situation based on a main behavior pattern according to an embodiment of the present invention.

9 and 10, when a disaster situation occurs, a disaster response server may provide guide information for evacuation to each disaster response device. At this time, as an example, a predetermined area (e.g. a specific building) may have a large number of people, and it is necessary to set a different evacuation route according to each location. At this time, as an example, the disaster response server may set each evacuation route based on the location information of the plurality of disaster response devices. At this time, when the disaster response server determines that the disaster situation, the disaster response server may transmit a location request message to all the disaster response devices located within the predetermined area. At this time, each of the disaster response devices can check the current location information within a predetermined area and transmit the current location information together with the identification information to the disaster response server. Thereafter, the disaster response server can check the locations of all the disaster response devices within a predetermined area based on the identification information and the location information. At this time, as an example, the disaster response server may set the closest evacuation route for each disaster response device based on the identified location, and transmit information about it to each disaster response device. At this time, the disaster response server provides the evacuation route information to the disaster response device, and the disaster response device holder can evacuate the disaster situation based on the evacuation route information.

At this time, as a more specific example, the disaster response server may set an evacuation route based on the main action pattern information of the disaster response device. For example, the main action pattern information may be information set based on the movement pattern of the disaster response device. For example, a movement path and a movement pattern of the disaster response device may be periodically recorded within a preset area. At this time, information on a movement path and a movement pattern of the disaster response device periodically recorded may be transmitted to the disaster response server. At this time, the disaster response server may determine whether the movement pattern for each disaster response device periodically transmitted is repeated a predetermined number of times or more. At this time, the corresponding movement pattern of the disaster response device may be set as main action pattern information. For example, when the preset area is a company building, the disaster response device holder may repeat a movement pattern that moves to a designated place in the company after passing through the gate. At this time, the disaster response server may set the main behavior pattern information based on the above-described movement pattern information. Further, as an example, the disaster response server may set information on a main action area for each disaster response device. For example, when a disaster response device visits a specific area within a predetermined number of times or more within a predetermined area, the specific area may be set as information about a main action area. That is, an area in which the disaster response device holder frequently moves within a predetermined area may be an area familiar to the holder, and an area for this may be set as a main action area. For example, the disaster response server may provide a guide for disaster evacuation using at least one of the above-described main behavior pattern information and main behavior area information. For example, when a disaster occurs, when the disaster response device is located in the action radius based on the key behavior pattern information, the disaster response server may set an evacuation route based on the key behavior pattern. In this case, the action radius may mean within a preset range in the movement path based on the key action pattern information. That is, the disaster response server may determine that the owner of the disaster response device is familiar with the corresponding area, and provide a guide for evacuation based on the main movement path of the disaster response device.

On the other hand, when a disaster occurs, when the disaster response device deviates from the action radius based on the main action pattern information, the disaster response server may provide a guide for evacuation based on the shortest route. That is, it can be determined that the holder of the disaster response device is located in an unfamiliar area rather than an area frequently located, and a guide for evacuation can be provided based on the shortest route. In addition, as an example, when the disaster response device deviates from the action radius based on the main behavior pattern information, the disaster response server may provide guide information for evacuation based on a predetermined evacuation route.

As another example, when a disaster occurs, the disaster response server may check location information for each disaster response device. At this time, the disaster response server may check the number of disaster response devices located outside the radius of action and the disaster response devices located in the radius of action for each of the disaster response devices. At this time, the disaster response server may guide the route for evacuation based on the key behavior pattern information for the disaster response device located in the action radius. On the other hand, for emergency response devices located outside the radius of action, each evacuation route can be set so that the movement route can be distributed.

More specifically, preset evacuation route information may be set in the disaster response server. At this time, the disaster response server may provide the nearest preset evacuation route information based on the location of the disaster response device. As an example, as described above, the disaster response server may guide the evacuation route based on the preset evacuation route information for the disaster response device outside the radius of action. However, as an example, in order to prevent a large number of people from being crowded and congested in a predetermined evacuation route, the disaster response device may distribute the evacuation route. For example, the disaster response device may allocate only a predetermined number of disaster response devices for each preset evacuation route. At this time, as an example, the disaster response server may disperse the evacuation route based on the location information of each disaster device, and is not limited to the above-described embodiment. In other words, the disaster response server can guide the evacuation route based on the main behavior pattern information for the disaster response device located within the action radius, and the disaster response device located outside the action radius may guide the evacuation route by distributing the above-described embodiment. It is not limited to.

For example, referring to FIG. 10, the disaster response device acquires each movement pattern information and records action pattern information based on the movement pattern information. (S1010) At this time, the same or similar pattern information is recorded more than a preset number of times. If it is (S1020), the main behavior pattern information may be set based on the above-described information. (S1030) At this time, for example, when a disaster situation occurs, the location of the disaster response device may be confirmed. (S1040) At this time, the disaster response device If it is located within the main behavior pattern range, the evacuation route may be guided based on the main behavior pattern information. (S1050) In other words, the evacuation route is based on the main behavior pattern information for the disaster response device located within the behavior radius. I can guide you. On the other hand, for a disaster response device located outside the main behavior pattern range, an evacuation route can be guided based on the shortest escape route, as described above (S1060).

11 is a view showing a method of grasping the location of a disaster response device in a disaster situation according to an embodiment of the present invention. 12 is a flow chart illustrating a method for grasping the location of a disaster response device in a disaster situation according to an embodiment of the present invention.

11 and 12, devices for determining the location of the disaster response device may be installed in a preset area. For example, the identification devices 1110-1, 1110-2, 1110-3, and 1110-4 may be installed at a fixed position in a predetermined area. For example, the identification device may be at least one of a printer, fax, door tag, door lock, and PC. That is, the identification devices 1110-1, 1110-2, 1110-3, and 1110-4 may be installed at a specific fixed location within a predetermined area to know location information. In this case, as an example, when a disaster situation occurs, the disaster response server may transmit an identification device tag request message to each disaster response device. In this case, the disaster response device may be tagged to the identification device after receiving the identification device tag request message from the disaster response server. That is, after receiving a message from the disaster response server, the disaster response device holder can tag the identification device located at the closest location. At this time, as described above, the identification device may have accurate location information at a fixed location, and the disaster response device may receive location information of the tagged identification device. That is, when the disaster response device tags the identification device, the disaster response device may receive location information from the identification device. Thereafter, the disaster response device may transmit location information to the disaster response server, through which the disaster response server can confirm the location of the disaster response device.

As another example, referring to FIG. 11, devices 1120-1, 1120-2, and 1120-3 capable of short-range communication with a disaster response device may be installed in a predetermined area. For example, the devices capable of short-range communication with the disaster response device (1120-1, 1120-2, 1120-3) communicate with the disaster response device through short-range communication through at least one of Wi-Fi, beacon, Bluetooth, ZigBee, and LoRa networks. It may be devices that perform, it is not limited to the above-described embodiment. That is, devices capable of short-range communication with a disaster response device may be installed in a predetermined area. In this case, as an example, the disaster response devices in the preset area may perform short-range communication with at least one of the devices 1120-1, 1120-2, and 1120-3 capable of short-range communication. Through this, the devices 1120-1, 1120-2, and 1120-3 capable of short-range communication can acquire location information of respective disaster response devices, and transmit the information to the disaster response server. That is, the devices 1120-1, 1120-2, and 1120-3 capable of short-range communication in a disaster situation perform short-range communication with the disaster-response devices in a preset area to check the location information of each disaster-response device and , It can be sent to a disaster response server. Through the above, the disaster response server can accurately obtain the location information of the disaster response device located in the predetermined area.

As another example, a shaded area may exist in a preset area. In this case, as an example, the shaded area may mean an area in which direct communication with a disaster response server is not possible, an identification device cannot be identified, and a local area network cannot be used. For example, the shaded area may be at least one of a warehouse and an underground parking lot, and is not limited to the above-described embodiment.

For example, the disaster response server may be difficult to grasp the location information of the disaster response device located in the shaded area. At this time, the disaster response server may identify the disaster response device located in the shaded area through the schedule information based on the identification information corresponding to the disaster response devices located in the preset area.

More specifically, when a disaster situation occurs, the disaster response server may acquire identification information of all disaster response devices located in a predetermined area based on the gate access information. At this time, the disaster response server may communicate with each of the disaster response devices using at least one of a direct communication, an identification device, and a local area network. Through this, the disaster response server may acquire location information for each disaster response device. At this time, the disaster response server may check a list of disaster response devices that cannot confirm location information. That is, the disaster response server can check the list of disaster response devices located in the shaded area. At this time, the disaster response server may identify identification information corresponding to the disaster response device for which location information cannot be checked, and check schedule information corresponding to the identification information. Specifically, the identification information of the emergency response device may be identification information of the emergency response device holder, so it is possible to check the schedule information of the emergency response device holder. At this time, the disaster response server may estimate the location of the disaster response device based on the above-described schedule information, and provide an alarm for the disaster situation through the pre-installed structure based on the estimated location. For example, the pre-installed structure may be at least one of a fire alarm and a disaster situation alarm. As another example, the disaster response server may periodically transmit a request message for confirming location information to the disaster response devices for which location information is not confirmed through at least one of direct communication, identification device, and local area communication. At this time, the disaster response devices for which the location information has been confirmed may be deleted from the above list. On the other hand, as an example, in the case of a disaster, when the disaster response device exists in the above-described list for a predetermined time or longer, the disaster response server may transmit a message for the rescue request to the rescue request agency or the rescue request device (eg drone, robot). have. That is, the disaster response server may determine a situation in which a rescue is necessary for a disaster response device that cannot locate a location for a predetermined time or more, and may perform measures for the rescue. Meanwhile, as a specific example, when the disaster response server transmits a rescue request message to the rescue request device, the rescue request device may move to the estimated location of the disaster response device and share information for rescue with the disaster response server, It is not limited to the above-described embodiment.

As an example, referring to FIG. 12, the disaster response server may recognize that a disaster situation has occurred. (S1210) At this time, the disaster response server may grasp the personnel inside the preset area based on the gate access record. (S1220) Thereafter, the disaster response server can grasp the location of each disaster response device based on at least one of a direct communication, an identification device, and a local area network. (S1230) Thereafter, the disaster response server may set an evacuation route for each disaster response device using the location information of the disaster response device. (S1240) Meanwhile, as an example, the disaster evacuation route may be performed based on whether the disaster response device is located in the radius of action based on the main action pattern, as described above, as described above.

As another example, when an evacuation route of a disaster response device is established, additional information may be used based on identification information of each disaster response device. That is, additional information about the disaster response device holder can be used. In this case, as an example, the additional information may be the number of years of service, the number of working days of the building, gender, pregnancy, disability, and other information. That is, the additional information may be information about the disaster response device holder, and may be at least one or more of information input by the holder or information collected through the server. At this time, as an example, the disaster response server may further set the evacuation route by further utilizing the above-described additional information. For example, a person with a low number of years of service or who has difficulty in moving may provide an evacuation guide through an evacuation route having a high priority. For example, an evacuation route having a high priority may be a shortest route or a route having a wide movement. On the other hand, on the basis of the additional information, a disaster response device holder having a long service life or evacuating through a bypass route may set the evacuation route differently, and may distribute the evacuation route through the above-mentioned. Thereafter, the disaster response server can confirm whether to evacuate for each disaster response device. (S1250) At this time, as an example, if the disaster response device does not perform evacuation within a predetermined time, the disaster response server may transmit a request message for rescue to the rescue agency or the rescue device. That is, the disaster response server may determine that rescue is necessary after a certain period of time and transmit a rescue request message to the rescue agency or rescue device, thereby preparing for a disaster situation.

The above-described embodiments of the present invention can be implemented through various means. For example, embodiments of the present invention may be implemented by hardware, firmware, software, or a combination thereof.

For implementation by hardware, the method according to embodiments of the present invention includes one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs) , Field Programmable Gate Arrays (FPGAs), processors, controllers, microcontrollers, microprocessors, and the like.

In the case of implementation by firmware or software, the method according to embodiments of the present invention may be implemented in the form of a module, procedure, or function that performs the functions or operations described above. The software code can be stored in a memory unit and driven by a processor. The memory unit is located inside or outside the processor, and can exchange data with the processor by various known means.

The detailed description of preferred embodiments of the present invention disclosed as described above has been provided to enable those skilled in the art to implement and practice the present invention. Although described above with reference to preferred embodiments of the present invention, those skilled in the art variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You can understand that you can. Accordingly, the present invention is not intended to be limited to the embodiments presented herein, but to give the broadest scope consistent with the principles and novel features disclosed herein. In addition, although the preferred embodiments of the present specification have been illustrated and described above, the present specification is not limited to the specific embodiments described above, and the technical field to which the present invention pertains without departing from the gist of the present specification claimed in the claims In addition, various modifications can be implemented by those skilled in the art, and these modifications should not be individually understood from the technical idea or prospect of the present specification.

In addition, in the specification, both object invention and method invention are described, and the description of both inventions may be applied supplementally as necessary.

100: disaster response device
110: control unit of the disaster response device
120: transmitting and receiving unit of the disaster response device
130: light emitting unit of the disaster response device
140: output unit of the disaster response device
200: disaster response server
210: control unit of the disaster response server
220: the transceiver of the disaster response server

Claims (32)

In the method of responding to a disaster using a disaster response device,
Confirming that the disaster response device is located in a predetermined area by using schedule information of the owner of the disaster response device;
When a disaster situation occurs, the disaster response device located in the preset area receiving a disaster situation message from a disaster response server;
Transmitting location information of the disaster response device to the disaster response server based on the disaster situation message; And
Including the step of receiving evacuation guide information from the disaster response server;
When the disaster response device is located in an area of action radius, the evacuation guide information is determined based on key action pattern information,
When the disaster response device is located outside the radius of action area, the evacuation guide information is determined based on predetermined evacuation information,
The disaster response device includes identification information,
The disaster response server sets additional information for each of the disaster response devices based on identification information of each of the disaster response devices,
The evacuation guide information is determined by further reflecting the additional information,
The additional information includes a longevity information, preset area work days information, disability status information, pregnancy status information, and information input by the disaster response device, a method of responding to a disaster situation.
According to claim 1,
Access information of the disaster response device is checked based on a device installed in the preset area,
Method of evacuating a disaster situation, it is confirmed that the disaster response device is located in the predetermined area based on the access information.
delete According to claim 1,
The disaster response server is a method for evacuating a disaster situation, checking the number of disaster response devices in the preset area based on the identification information of each of the disaster response devices.
delete delete According to claim 1,
A method of evacuating a disaster situation, wherein the location information of the disaster response device is identified based on at least one of an identification device and a local area network installed in the preset area.
According to claim 1,
The disaster response device periodically acquires the movement path and movement pattern information of the disaster response device,
When the disaster response device obtains the same movement path and the movement pattern information more than a predetermined number of times, the main behavior pattern information is determined based on the acquired movement path and the movement pattern information,
The radius of action is determined based on the key behavior pattern information, how to evacuate a disaster situation.
delete delete delete delete delete delete delete delete In the method of responding to a disaster situation using a disaster response server,
Identifying at least one disaster response device located in a predetermined area using schedule information of the owner of the disaster response device;
When a disaster situation occurs, transmitting a disaster situation message to the at least one or more disaster response devices located within the preset area;
Receiving location information of each of the disaster response devices from the at least one or more disaster response devices; And
Including the step of transmitting the respective evacuation guide information to each of the at least one or more of the disaster response device;
When the disaster response device is located in an area of action radius, the evacuation guide information is determined based on key action pattern information,
When the disaster response device is located outside the radius of action area, the evacuation guide information is determined based on predetermined evacuation information,
Set additional information for each of the disaster response devices based on the identification information of the disaster response device,
The evacuation guide information is determined by further reflecting the additional information,
The additional information includes a longevity information, preset area work days information, disability status information, pregnancy status information, and information input by the disaster response device, a method of responding to a disaster situation.
The method of claim 17,
Access information of the disaster response device is checked based on a device installed in the preset area,
Method of evacuating a disaster situation, it is confirmed that the disaster response device is located in the predetermined area based on the access information.
delete The method of claim 17,
The disaster response server is a method for evacuating a disaster situation, checking the number of disaster response devices in the preset area based on the identification information of each of the disaster response devices.
delete delete The method of claim 17,
A method of evacuating a disaster situation, wherein the location information of the disaster response device is identified based on at least one of an identification device and a local area network installed in the preset area.
The method of claim 17,
The disaster response device periodically acquires the movement path and movement pattern information of the disaster response device,
When the disaster response device obtains the same movement path and the movement pattern information more than a predetermined number of times, the main behavior pattern information is determined based on the acquired movement path and the movement pattern information,
The radius of action is determined based on the key behavior pattern information, how to evacuate a disaster situation.
In the disaster response server,
Transmitting and receiving unit for transmitting and receiving signals; And
It includes a control unit for controlling the transceiver,
The control unit,
Using the schedule information of the owner of the disaster response device, identify at least one disaster response device located within a predetermined area,
When a disaster situation occurs, and transmits a disaster situation message to the at least one or more disaster response devices located within the predetermined area,
Receiving location information of each of the disaster response devices from the at least one disaster response device, and
Each evacuation guide information is transmitted to each of the at least one or more of the disaster response devices,
When the disaster response device is located in an area of action radius, the evacuation guide information is determined based on key action pattern information,
When the disaster response device is located outside the radius of action area, the evacuation guide information is determined based on predetermined evacuation information,
Set additional information for each of the disaster response devices based on the identification information of the disaster response device,
The evacuation guide information is determined by further reflecting the additional information,
The additional information includes service history information, preset area work days information, disability status information, pregnancy status information, and information input by the disaster response device.
The method of claim 25,
Access information of the disaster response device is checked based on a device installed in the preset area,
Disaster response server, it is confirmed that the disaster response device is located in the predetermined area based on the access information.
delete The method of claim 25,
The disaster response server checks the number of disaster response devices in the preset area based on the identification information of each of the disaster response devices.
delete delete The method of claim 25,
The location information of the disaster response device is identified based on at least one of an identification device and a local area network installed in the predetermined area, the disaster response server.
The method of claim 25,
The disaster response device periodically acquires the movement path and movement pattern information of the disaster response device,
When the disaster response device obtains the same movement path and the movement pattern information more than a predetermined number of times, the main behavior pattern information is determined based on the acquired movement path and the movement pattern information,
The radius of action is determined based on the main action pattern information, disaster response server.

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