KR102462397B1 - Emergency situation notification system for disabled person - Google Patents

Abstract

The present invention relates to an emergency notification system for people with disabilities. The emergency notification system of the present invention comprises: an emergency notification device that detects the occurrence of an emergency situation, transmits an emergency detection signal to the outside, and records the inside of a building in which the emergency situation has occurred; an emergency situation management server that receives the emergency detection signal and a recorded video of the inside the building from the emergency notification device, generates and transmits a first emergency notification signal visually informing the occurrence of the emergency situation, a second emergency notification signal audibly informing the occurrence of the emergency situation, and a third emergency notification signal informing the occurrence of the emergency situation, identifies a safe evacuation route based on the recorded video, a cause of the emergency situation and information and structure of the inside the building, generates a first evacuation notification signal visually informing the safe evacuation route and a second evacuation notification signal audibly informing the safe evacuation route, and transmits the first and second evacuation notification signals to the emergency notification device; and a government office server that receives the third emergency notification signal from the emergency management server and receives the occurrence of the emergency situation, wherein a plurality of components constituting the emergency notification device and the emergency management server are configured to mutually communicate by a first communication unit, while the emergency notification device, when determining the occurrence of the emergency situation in the building, detects disconnection of signal lines constituting the first communication unit, and when determining disconnection of the signal lines, mutual communication can be performed by a second communication unit. An emergency notification system enables people, including people with disabilities, to immediately grasp the occurrence of an emergency situation.

Description

EMERGENCY SITUATION NOTIFICATION SYSTEM FOR DISABLED PERSON

The present invention relates to an emergency notification system for the disabled, and more specifically, people including the visually impaired and the hearing impaired can easily recognize the occurrence of an emergency situation, and even if a signal disconnection occurs between components constituting the emergency situation notification system It relates to an emergency situation notification system capable of notifying the occurrence of an emergency situation.

In general, in large buildings located in densely populated areas, for example, buildings such as apartments, schools, government offices, and the like, an emergency notification system is essential to immediately notify people when an emergency such as a fire occurs.

In the case of emergency situations such as earthquakes, building collapses, and fires, a general emergency notification system automatically sounds an alarm by operating an emergency sensor, or when an emergency bell is pressed by a person, an alarm such as a siren sounds to send an emergency to the building. Implemented to notify that a situation has occurred. Alternatively, an emergency notification system that notifies people that an emergency has occurred through a speaker in a management office that manages a large building and induces safe evacuation is implemented.

However, the general emergency notification system, as described above, sounds an alarm such as a siren or mainly provides voice-based guidance notifying that an emergency situation has occurred through a speaker, so especially an emergency that does not consider the hearing impaired. A situational notification system is being implemented. Accordingly, when an emergency situation actually occurs, in most cases, the disabled cannot easily respond to the accident.

On the other hand, since the general emergency notification system is a system built to be used when an emergency situation occurs, it is not usually used. Accordingly, since the general emergency notification system is not used for a long time, abnormalities such as short circuiting of signal lines transmitting signals between components may occur. In addition, signal lines may be short-circuited due to an emergency situation occurring when an emergency situation such as a fire actually occurs, so that a proper emergency notification may not be made.

As such, in the general emergency notification system, an abnormality occurs or the emergency notification system may not normally operate due to an emergency situation that has occurred, and thus damage to human life or property may be further increased.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide an emergency situation notification system that enables people, including persons with disabilities, to immediately recognize the occurrence of an emergency situation.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide an emergency situation notification system that enables people, including persons with disabilities, to safely evacuate when an emergency situation occurs.

The present invention has been devised to solve the above problems, and it is an object of the present invention to provide a highly reliable emergency situation notification system that can properly notify an emergency situation even when a signal line between each component is disconnected or shorted.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The emergency situation notification system according to an embodiment of the present invention detects whether an emergency situation occurs, transmits an emergency situation detection signal to the outside, and an emergency situation notification device for photographing the inside of a building where an emergency situation occurs, and an emergency situation from the emergency situation notification device A first emergency notification signal notifying whether an emergency has occurred visually by receiving a detection signal and an image captured inside the building, a second emergency notification signal notifying whether an emergency has occurred audibly, and a third emergency notifying the occurrence of an emergency The first evacuation notification signal and An emergency situation management server that generates a second evacuation notification signal notifying an aurally safe evacuation route and transmits it to an emergency situation notification device, and a government server that receives a third emergency situation notification signal from the emergency situation management server and receives the occurrence of an emergency Including, the emergency notification device is configured such that the plurality of components constituting the emergency notification device and the emergency situation management server communicate with each other by the first communication unit, when it is determined that an emergency situation in the building has occurred, the first communication unit When it is determined that the signal lines are disconnected by detecting the disconnection of the signal lines constituting the , communication may be performed by the second communication unit.

The emergency situation notification method of the emergency situation notification system according to an embodiment of the present invention includes the steps of transmitting an image photographed inside a building in which an emergency situation occurs to an emergency situation management server at preset time intervals, the occurrence of an emergency situation inside the building When detected, generating an emergency detection signal, applying operating power to a plurality of components constituting the inside of the building in which the emergency situation occurs to determine whether a signal line constituting the first communication unit is disconnected, the signal of the first communication unit When it is determined that the lines are disconnected, transmitting an emergency situation detection signal to the emergency situation management server through a second communication unit. When the first emergency situation notification signal and the second emergency situation notification signal are received from the emergency situation management server, the first The emergency situation notification signal is visually displayed to the outside, and the second emergency situation notification signal is audibly output to the outside, detecting the movement of a person inside the building, detecting the location of a person in the building, and transmitting it to the emergency management server Step and when the first evacuation notification signal and the second evacuation notification signal are received from the emergency management server, the first evacuation notification signal is visually displayed to the outside, and the second evacuation notification signal is audibly output to the outside. However, the second evacuation notification signal may have different timing and volume output depending on the detected location of the person and the location of the plurality of components.

The details of other embodiments are included in the detailed description and drawings.

The present invention generates a first emergency situation notification signal notifying the occurrence of an emergency situation visually and a second emergency situation notification signal notifying the occurrence of an emergency situation audibly in a building to notify the occurrence of an emergency situation in the building An emergency situation can be identified immediately.

The present invention generates an evacuation notification signal by analyzing the internal structure of a building, the location of a person in the building, and the cause of the occurrence of an emergency, so that people can safely evacuate even if an emergency situation occurs.

The present invention generates a first evacuation notification signal informing a visually safe evacuation route and a second evacuation notification signal informing an aurally safe evacuation route to inform a safe evacuation route so that even the visually impaired and the hearing impaired can quickly and easily to evacuate safely.

The present invention is configured so that a plurality of components constituting an emergency notification device and an emergency situation management server communicate with each other through a wired communication network. Since it is configured to communicate with each other using

The effect according to the present invention is not limited by the contents exemplified above, and more various effects are included in the present invention.

1 is a diagram schematically showing the configuration of an emergency situation notification system according to an embodiment of the present invention.
2 is a diagram schematically illustrating a detailed configuration of an emergency situation notification device of an emergency situation notification system according to an embodiment of the present invention.
3 is a diagram sequentially illustrating an emergency situation notification process of an emergency situation notification device of an emergency situation notification system according to an embodiment of the present invention.
4 is a diagram schematically illustrating a detailed configuration of an emergency situation management server of an emergency situation notification system according to an embodiment of the present invention.
5 is a diagram sequentially illustrating an emergency situation determination process of an emergency situation management server of an emergency situation notification system according to an embodiment of the present invention.
6 is a flowchart illustrating an emergency situation notification and determination method of an emergency situation notification system according to an embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the detailed description in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments presented below, it can be implemented in various different forms, and it is understood to include all transformations, equivalents and substitutes included in the spirit and scope of the present invention. should be The embodiments presented below are provided to complete the disclosure of the present invention, and to completely inform those of ordinary skill in the art to the scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Various embodiments of the present invention may be implemented as software (eg, a program) including instructions stored in a machine-readable storage medium (eg, a computer). The device is a device capable of calling a stored command from a storage medium and operating according to the called command, and may include an electronic device (eg, a server) according to the disclosed embodiments. Instructions may include code generated or executed by a compiler or interpreter. The device-readable storage medium may be provided in the form of a non-transitory storage medium. Here, 'non-transitory' means that the storage medium does not include a signal and is tangible, and does not distinguish that data is semi-permanently or temporarily stored in the storage medium.

According to an example, the method according to various embodiments disclosed in the present invention may be included in a computer program product and provided. Computer program products may be traded between sellers and buyers as commodities. The computer program product may be distributed in the form of a device-readable storage medium (eg, compact disc read only memory (CD-ROM)) or online through an application store (eg, Play Store™). In the case of online distribution, at least a part of the computer program product may be temporarily stored or temporarily generated in a storage medium such as a memory of a server of a manufacturer, a server of an application store, or a relay server.

Each of the components (eg, a module or a program) according to various embodiments may be composed of a singular or a plurality of entities, and some sub-components of the aforementioned sub-components may be omitted, or other sub-components may be It may be further included in various embodiments. Alternatively or additionally, some components (eg, a module or a program) may be integrated into a single entity to perform the same or similar functions performed by each corresponding component prior to integration. According to various embodiments, operations performed by a module, program, or other component are executed sequentially, parallel, iteratively, or heuristically, or at least some operations are executed in a different order, are omitted, or other operations are added. can be

The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. In this specification, the singular also includes the plural, unless specifically stated otherwise in the phrase. As used herein, “comprises” and/or “comprising” does not exclude the presence or addition of one or more other components in addition to the stated components.

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

1 is a diagram schematically showing the configuration of an emergency situation notification system according to an embodiment of the present invention.

Referring to FIG. 1 , an emergency situation notification system 1000 according to an embodiment of the present invention may include an emergency situation notification device 100 , an emergency situation management server 200 , and a government office server 300 . Here, the public office may be a fire station, a police station, or the like. The emergency situation notification system 1000 according to an embodiment of the present invention may be an emergency situation notification system that enables the visually impaired and the hearing impaired to immediately recognize the occurrence of an emergency situation.

The structure emergency notification device 100 and the emergency situation management server 200 constituting the emergency situation notification system 1000 according to an embodiment of the present invention may be communicatively connected to each other through a communication network. Here, the communication network includes, for example, an internal network, a wired communication network, a wireless communication network, a LoRa network, and the like, and mutual data communication between the emergency situation notification device 100 , the emergency situation management server 200 and the government office server 300 . connected to make this happen. More specifically, the emergency notification device 100 and the emergency management server 200 are basically connected using a wired communication network, but when disconnection of signal lines is detected, mutual data communication can be performed using the LoRa network. .

The emergency situation notification device 100 is installed inside a predetermined building, detects the occurrence of an emergency situation due to an earthquake, fire, etc., and notifies the emergency situation management server 200 of this, and simultaneously outputs an emergency situation notification signal to the outside. Also, when an emergency situation occurs, the emergency notification device 100 may output an evacuation notification signal so that people, including persons with disabilities, can safely evacuate.

Since the emergency notification device 100 is used only when an emergency situation occurs, it is possible to detect disconnection of wired signal lines that transmit signals between components. When disconnection of wired signal lines is detected, the emergency notification device 100 may transmit an emergency occurrence detection signal to the emergency situation management server 200 using the LoRa network, and use the LoRa network to the emergency management server ( 200) may receive an emergency situation notification signal and an evacuation notification signal. Accordingly, when the wired communication network is disconnected, the emergency situation notification device 100 configures mutual data communication with the emergency situation management server 200 using the LoRa network to properly notify the emergency situation, thereby causing damage to human life and damage to property. can be minimized.

The emergency notification device 100 may include a display unit 110 , an audio output unit 120 , and a photographing unit 130 .

A plurality of display units 110 are installed inside a predetermined building to illuminate the interior or display certain information to the outside. The display unit 110 may include, for example, at least one of a general lighting lamp, a display device such as an LCD, an OLED, and an emergency exit display device. The display unit 110 may output the first emergency situation notification signal and the first evacuation notification signal received from the emergency situation management server 200 to the outside when an emergency situation occurs. Here, the first emergency situation notification signal may be, for example, an image signal for displaying an emergency situation as text or an image through a display device, a flashing signal of a lighting lamp, or a display signal displayed in a color different from that of a general lighting lamp. That is, the first emergency situation notification signal is a signal for visually notifying the emergency situation, and may be displayed outside so that even the hearing impaired can immediately recognize the emergency situation. In addition, the first evacuation notification signal may be a signal for informing the evacuation exit so that people in the building, particularly the disabled, can evacuate safely. That is, the first evacuation notification signal is a signal for visually informing a safe evacuation route, and may be displayed outside so that even the hearing impaired can immediately identify a safe evacuation route. The first evacuation notification signal is, for example, to turn on only a lighting lamp and/or an emergency exit display device in a location close to a relatively safe emergency exit at a location in which an emergency situation occurs based on the location in which the emergency situation occurs, or a lighting lamp in a location adjacent to a relatively safe emergency exit, and / Alternatively, it may be a signal to brighten the illuminance of the emergency exit display device or a flashing signal having a different flashing interval from the first emergency situation notification signal.

A plurality of audio output units 120 are installed inside a predetermined building, and may be, for example, speakers. The voice output unit 120 may output the second emergency situation notification signal and the second evacuation notification signal received from the emergency situation management server 200 to the outside when an emergency situation occurs. Here, the second emergency situation notification signal may be an announcement notifying the occurrence of an emergency situation or a warning sound such as a siren. That is, the second emergency situation notification signal is a signal notifying an emergency situation audibly, and may be output to the outside so that even the visually impaired can immediately recognize the emergency situation. In addition, the second evacuation notification signal is a signal for notifying an acoustically safe evacuation route, and may be output to the outside so that even the visually impaired can immediately identify a safe evacuation route. The second evacuation notification signal is, for example, the output of a voice or sound output from a speaker in a position close to a relatively safe emergency exit from the emergency situation occurrence position based on the emergency situation occurrence position is larger than the second emergency situation notification signal It may be a signal output as

The voice output unit 120 may detect a person's location by detecting a person in the building when an emergency situation occurs. The voice output unit 120 calculates the location of a person in the building according to the detection result of the people, and according to the calculated result, the voice output unit 120 outputs voice in different sizes from each of the plurality of speakers constituting the voice output unit 120, or Make the audio output at different timings.

In this way, the emergency situation notification device 100 visually displays the first emergency situation notification signal and the first evacuation notification signal through the display unit 110 to the outside, and audibly through the voice output unit 120 , the second By outputting the emergency situation notification signal and the second evacuation notification signal to the outside, blind and hearing impaired people can immediately recognize the occurrence of an emergency situation, and even when an emergency situation occurs, they can evacuate quickly and safely.

A plurality of photographing units 130 are installed inside a predetermined building, and may be, for example, a camera or a Closed Circuit Television (CCTV, hereinafter referred to as 'CCTV'). The photographing unit 130 may photograph the inside of the building through a camera and transmit the photographed image to the emergency situation management server 200 in real time. The images captured in real time by the photographing unit 130 may be still images and/or moving images.

When an emergency situation detection signal is received from the display unit 110 and the voice output unit 120 of the emergency situation notification device 100 , the emergency situation management server 200 is photographed by the photographing unit 130 of the emergency situation notification device 100 . It is possible to determine whether an emergency situation has occurred by comparing the recorded video. When it is determined that an emergency situation has occurred, the emergency situation management server 200 reports the occurrence of an emergency situation to the government office server 300, and a first emergency situation notification signal and a second emergency situation for notifying people in the building of an emergency situation notification A notification signal may be generated and transmitted, and a first evacuation notification signal and a second evacuation notification signal may be generated and transmitted to the emergency situation notification device 100 so that people including the disabled can safely evacuate later.

The emergency situation management server 200 may be connected to the emergency situation notification device 100 through a wired communication network, but when the signal line is short-circuited or disconnected due to the occurrence of an emergency situation and long-term non-use, the emergency situation notification device 100 through the LoRa network. can be connected with Accordingly, the emergency situation notification system 1000 according to an embodiment of the present invention can properly notify the emergency situation notification signal and the evacuation notification signal to the building where the emergency situation occurs even when an emergency situation occurs, so that the emergency situation notification system 1000 can improve the reliability of

Among the components constituting the emergency situation notification system 1000 according to an embodiment of the present invention, the emergency situation notification device 100 will be described in more detail with reference to the following FIGS. 2 and 3 .

2 is a diagram schematically showing a detailed configuration of an emergency situation notification device of an emergency situation notification system according to an embodiment of the present invention, and FIG. 3 is an emergency situation notification device of an emergency situation notification system according to an embodiment of the present invention. It is a diagram sequentially showing the emergency situation notification process of

First, referring to FIG. 2 , the emergency situation notification device 100 of the emergency situation notification system 1000 according to an embodiment of the present invention includes an operation unit 101 , a communication unit 102 , a power supply unit 103 , and a sensor unit. 104 and a control unit 105 .

The operation unit 101 is installed in each of the display unit 110, the audio output unit 120, and the photographing unit 130, and includes a display device and lighting lamp of the display unit 110 that illuminates the inside of the building, and an audio output unit installed inside the building ( It may be a speaker of 120 and a camera of the photographing unit 130 installed inside the building. The operation unit 101 receives the first emergency situation notification signal and the second emergency situation notification signal from the emergency situation management server 200 through the communication unit 102 through the flashing signal of the lighting lamp or the display signal of the display device. 1 may output an emergency situation notification signal to the outside, and output a second emergency situation notification signal to the outside through the speaker. In addition, when the first evacuation notification signal and the second evacuation notification signal are received from the emergency situation management server 200 through the communication unit 102 , the operation unit 101 receives a brightness control signal of a lighting lamp or a display control signal of a display device. It is possible to output the first evacuation notification signal to the outside, and output the second evacuation notification signal to the outside through the volume control signal of the speaker. In this case, the volume control signal of the speaker analyzes the cause of the occurrence of the emergency, and the volume of each speaker may be differently controlled according to the location of the speaker based on the location of people and the safe emergency exit location.

The communication unit 102 transmits the first emergency situation detection signal and the second emergency situation detection signal to the emergency situation management server 200 when the occurrence of an emergency situation in the building is detected, and displays the images captured by the photographing unit 130 in an emergency situation. It is transmitted to the management server 200, and the result of detecting the location of people in the building may be transmitted to the emergency situation management server. Also, the communication unit 102 may receive the first emergency situation notification signal, the second emergency situation notification signal, the first evacuation notification signal, and the second evacuation notification signal from the emergency situation management server 200 . The communication unit 102 may include an interface circuit for communication with the emergency management server 200 . The communication unit 102 may include a first sub communication unit 1021 and a second sub communication unit 1022 .

The first sub communication unit 1021 may be a wired communication network in which components constituting the emergency situation notification device 100 and the emergency situation management server 200 are connected by wire. When the occurrence of an emergency situation is detected by the sensor unit 104 installed in each of the display unit 110 and the audio output unit 120, the first sub communication unit 1021 transmits a first emergency situation detection signal and a second emergency situation detection signal. It may be transmitted to the situation management server 200 . Also, the first sub communication unit 1021 may receive a first emergency situation notification signal, a second emergency situation notification signal, a first evacuation notification signal, and a second evacuation notification signal from the emergency situation management server 200 . In addition, the first sub communication unit 1021 may transmit the still image and video captured by the photographing unit 130 to the emergency situation management server 200 in real time, and when an emergency situation occurs, the location of people in the building is detected. may be transmitted to the emergency situation management server 200 .

The second sub communication unit 1022 may be a LoRa network communication network. Here, the LoRa network is a dedicated network for the Internet of Things (IoT) and has a wider communication range compared to short-distance wireless networks such as Bluetooth and Zigbee, and is a long-distance communication network that can communicate with lower power than existing smartphone networks such as 3G and Long Term Evolution (LTE). Unlike other wireless communication networks that require broadband network equipment, there is no need for a separate base station or relay equipment, so the infrastructure construction cost is lower than that of 3G or LTE, and high scalability can be achieved. The second sub communication unit 1022 is the first sub communication unit when a disconnection occurs due to the old unused or emergency situation of the first sub communication unit 1021 and cannot properly perform the role of the first sub communication unit 1021 occurs. (1021) can be substituted. That is, the second sub communication unit 1022 transmits the first emergency situation detection signal, the second emergency situation detection signal, the result of detecting the location of people in the building, and still images and videos captured by the photographing unit 130 to the emergency situation management server. 200 , and may receive a first emergency situation notification signal, a second emergency situation notification signal, a first evacuation notification signal, and a second evacuation notification signal from the emergency situation management server 200 .

The power supply unit 103 may supply direct current (DC) power for driving the operation unit 101 , for example, a plurality of lighting lamps, a plurality of display devices, a plurality of speakers, a plurality of cameras, and the like.

The sensor unit 104 may detect the occurrence of an emergency in the building and the movement of people in the building. The sensor unit 104 may include a first emergency situation detection sensor 1041 , a second emergency situation detection sensor 1042 , and a position detection sensor 1043 .

The first emergency situation detection sensor 1041 may be installed on a plurality of lighting lamps and a plurality of display devices constituting the display unit 110 to detect the occurrence of an emergency situation. The first emergency situation detection sensor 1041 may be, for example, a shake detection sensor, a temperature sensor, a brightness sensor, and a voice recognition sensor. The first emergency situation detection sensor 1041 may generate a first emergency situation occurrence detection signal when it is determined that an emergency situation has occurred.

The second emergency situation detection sensor 1042 is installed on a plurality of speakers constituting the audio output unit 120 to detect the occurrence of an emergency situation, for example, a shake detection sensor, a temperature detection sensor, a brightness detection sensor and It may be a voice recognition sensor or the like. The second emergency situation detection sensor 1042 may generate a second emergency situation occurrence detection signal when it is determined that an emergency situation has occurred.

The location sensor 1043 may detect the location of people in a building where an emergency situation has occurred. The position detection sensor 1043 is generally installed in the components constituting the audio output unit 120, for example, a head tracker capable of tracking and detecting the head movement of people in a building in which an emergency situation occurs. tracker). Here, the head tracker is a device that tracks and detects head movements of two or more people, and acquires a rotation value or a position value by detecting a change in the position of the head in space using ultrasound, a magnetic field, an accelerometer, or an image. The emergency situation notification system 1000 according to an embodiment of the present invention has a configuration that forms the voice output unit 120 according to the result of detecting the location of people by the location sensor 1043, for example, the volume of the speaker. It can be controlled differently depending on the location of the person and the location of the person, so that even the disabled, especially the visually impaired, can safely evacuate in a short time.

The controller 105 controls the overall operation of the emergency situation notification device 100 . More specifically, the controller 105 may control the image captured by the photographing unit 130 of the emergency situation notification device 100 to be transmitted to the emergency situation management server 200 in real time.

When the occurrence of an emergency situation is detected by the sensor unit 104 , the control unit 105 generates a first emergency situation detection signal and a second emergency situation detection signal, and detects the generated first emergency situation detection signal and the second emergency situation A signal may be controlled to be transmitted to the emergency management server 200 .

When the first emergency situation notification signal or the first evacuation notification signal is received from the emergency situation management server 200, the control unit 105 displays the first emergency situation notification signal or the first evacuation notification signal to the outside by the display unit 110 control so that the second emergency situation notification signal or the second evacuation notification signal is received, the second emergency situation notification signal or the second evacuation notification signal may be controlled to be externally displayed by the voice output unit 120 .

The control unit 105 may detect a disconnection between components constituting the emergency situation notification device 100 or between the emergency situation notification device 100 and the emergency situation management server 200 . More specifically, the control unit 105 causes the operation power to be supplied to the operation unit 101 from the power supply unit 103 at a preset time interval, and measures the operation power provided to each operation unit 101 to obtain a preset operation power and A disconnection can be detected by comparing the measured operating power. For example, when the operating power measured by the operating unit 101 is lower than the preset operating power, the control unit 105 may determine that a problem, that is, a disconnection, has occurred between the signal lines. Accordingly, when a problem occurs between wired signal lines constituting the emergency notification device 100 , the controller 105 may control signals to be transmitted and received through the second sub communication unit 1022 . On the other hand, when it is determined that the signal line is disconnected only between some components of the emergency notification device 100 , the control unit 105 uses the LoRa network only for some components in which the signal line is disconnected, the second sub communication unit 1022 ) to transmit signals, and for a configuration without a problem, it is possible to control signals to be transmitted through the first sub communication unit 1021 .

The control unit 105 detects the head movement of people in the building where the emergency situation has occurred through the head tracker, and outputs different volume control signals according to the positions of the speakers constituting the voice output unit 120 according to the detected result. It can enable people to evacuate to safe emergency exits. For example, when the head movement of a person in the building is directed in a direction other than the safe emergency exit, the control unit 105 may control the volume control signal of the speaker in the vicinity of the safe exit to the volume of the speaker in the vicinity of the current location. It has a louder volume than the control signal and its output is also faster, so that people can naturally lead to a safe emergency exit. Accordingly, the emergency situation notification system 1000 according to an embodiment of the present invention can guide the visually impaired to a safe emergency exit direction so that they can safely evacuate.

Referring to FIG. 3 in order to examine the emergency notification process of the emergency situation notification device 100 configured as described above in more detail, first, the controller 105 of the emergency situation notification device 100 controls the photographing unit at a preset time interval. The images captured in real time in 130 are transmitted to the emergency management server 200 (S301).

Then, after determining whether the sensor unit 104 detects the occurrence of an emergency situation (S302), when it is detected that an emergency situation has occurred, the sensor unit 104 generates a first emergency situation detection signal and a second emergency situation detection signal can be controlled (S303). Meanwhile, if it is determined that the sensor unit 104 does not detect the occurrence of an emergency situation as a result of the determination, the images captured by the photographing unit 130 may be transmitted to the emergency management server 200 at preset time intervals ( S301 ).

Thereafter, the control unit 105 provides operating power to the operating unit 101 (S304) and compares the operating power measured in the operating unit 101 with a preset operating power to determine whether the signal lines are disconnected (S305) . As a result of the determination, if the preset operating power is greater than or equal to the measured operating power, it is determined that disconnection of the signal lines has not occurred, and the first emergency situation detection signal and the second emergency situation are determined through the first communication unit 1021 connected to the wired communication network. A detection signal is transmitted (S306), and as a result of the determination, if the preset operating power is less than the measured operating power, it is determined that the disconnection of the signal lines has occurred, and the first emergency situation is detected through the second communication unit 1022 connected to the LoRa communication network. A signal and a second emergency situation detection signal are transmitted (S307). On the other hand, in an embodiment of the present invention, steps 304 and 305 of determining whether the signal lines are disconnected have been described as after detecting the occurrence of an emergency situation, but the present invention is not limited thereto. can detect and judge. That is, rather than determining whether the disconnection occurs according to whether an emergency situation occurs, it is possible to detect and determine whether the signal lines are disconnected at regular intervals regardless of whether an emergency situation occurs.

Thereafter, after determining whether the first emergency situation notification signal and the second emergency situation notification signal have been received from the emergency situation management server 200 (S308), it is determined that the first emergency situation notification signal and the second emergency situation notification signal have been received When this occurs, the first emergency situation notification signal is output to the outside through the display unit 110 and the second emergency situation notification signal is outputted to the outside through the voice output unit 120 (S309).

Thereafter, the location of people in the building is detected through the location sensor 1043 (S310), and the detection result is transmitted to the emergency situation management server 200 (S311).

Thereafter, after determining whether the first evacuation notification signal and the second evacuation notification signal are received from the emergency situation management server 200 (S312), when it is determined that the first evacuation notification signal and the second evacuation notification signal are received, the display unit 110 ) to output the first evacuation notification signal to the outside, and to output the second evacuation notification signal to the outside through the audio output unit 120 (S313). At this time, the second evacuation notification signal is a signal for outputting a plurality of components constituting the audio output unit 120 according to the location of a person in the building, that is, the volume of each of the plurality of speakers differently, or the audio output of each of the plurality of speakers The signals may be output at different timings.

Next, the emergency situation management server 200 of the emergency situation notification system 1000 according to an embodiment of the present invention will be described in more detail with reference to the following FIGS. 4 and 5 .

4 is a diagram schematically showing a detailed configuration of an emergency management server of an emergency notification system according to an embodiment of the present invention, and FIG. 5 is an emergency management server of an emergency situation notification system according to an embodiment of the present invention. It is a diagram sequentially showing the emergency situation determination process of

First, referring to FIG. 4 , the emergency situation management server 200 of the emergency situation notification system 1000 according to an embodiment of the present invention includes a communication module 210 , a storage module 220 , an analysis module 230 and A control module 240 may be included.

The communication module 210 receives the first emergency situation detection signal, the second emergency situation detection signal, the images captured by the photographing unit 130, and the location detection result of people in the building from the emergency situation notification device 100, The first emergency situation notification signal, the second emergency situation notification signal, the first evacuation notification signal, and the second evacuation notification signal generated based on the result received from the emergency notification device 100 are transmitted to the emergency situation notification device 100 . can be transmitted Also, the communication module 210 may transmit a third emergency situation notification signal informing the public office server 300 of the occurrence of an emergency situation to the public office server 300 . The communication module 210 may include an interface circuit for communication with the emergency situation notification device 100 . The communication module 210 may include a first sub communication module 211 and a second sub communication module 212 .

The first sub communication module 211 may be connected to the first sub communication unit 1021 of the emergency situation notification device 100 through a wired communication network. Accordingly, the first sub communication module 211 detects the first emergency situation detection signal, the second emergency situation detection signal, the images captured by the photographing unit 130 and the location of people in the building by the first sub communication unit 1021 . Receive the result, and transmit the first emergency situation notification signal, the second emergency situation notification signal, the first evacuation notification signal, and the second evacuation notification signal generated by the control module 240 to the emergency situation notification device 100 . have.

The second sub communication module 212 may be connected to the second sub communication unit 1022 of the emergency situation notification device 100 through a LoRa network. When the second sub communication module 212 fails to perform the role of the first sub communication module 211 properly due to disconnection due to the old unused or emergency situation of the first sub communication module 211 occurs, One sub-communication module 211 can be replaced.

The storage module 220 may store information and structures inside the building in which the emergency situation has occurred, the installation locations of the display unit 110 , the audio output unit 120 , and the photographing unit 130 , and the like. The storage module 220 may store real-time images captured and transmitted by the photographing unit 130 .

The analysis module 230 may analyze real-time images captured and transmitted by the photographing unit 130 of the emergency situation notification apparatus 100 . In this case, the analysis module 230 may analyze the real-time images based on the information and structure inside the building in which the emergency situation occurred stored in the storage module 220 .

The control module 240 may control the overall operation of the emergency management server 200 . In more detail, when the control module 240 receives the first emergency situation detection signal and the second emergency situation detection signal from the emergency situation notification device 100 through the communication module 210 , the capture unit through the analysis module 230 . The image captured by 130 may be controlled to be analyzed. The control module 240 may determine whether an emergency situation has occurred based on the result analyzed by the analysis module 230 .

When it is determined that an emergency situation has occurred in the building, the control module 240 generates a first emergency situation notification signal and a second emergency situation notification signal and controls to transmit it to the emergency situation notification device 100 through the communication module 210. can At this time, the first emergency situation notification signal is a signal output to the outside through the display unit 110 of the emergency situation notification device 100 , and may be a blinking control signal of a lighting lamp constituting the display unit 110 , or the display unit 110 . It may be a display control signal that is externally displayed in a text or the like on a constituent display device. In addition, the second emergency situation notification signal is a signal output to the outside through the voice output unit 120 of the emergency situation notification device 100 , and may be a volume control signal of a speaker constituting the voice output unit 110 . In addition, when it is determined that an emergency situation has occurred in the building, the control module 240 may generate a third emergency situation notification signal and control it to be transmitted to the government office server 300 through the communication module 210 .

The control module 240 includes the first emergency situation detection signal, the second emergency situation detection signal, the result analyzed by the analysis module 230 and the display unit 110 stored in the storage module 220, the voice output unit 120, and the photographing. Based on the installation location of the unit 130, it is possible to determine the cause of the emergency situation. More specifically, the sensor for detecting whether an emergency has occurred is each component constituting the plurality of display units 110 and the plurality of audio output units 120 of the emergency situation notification device 100 , for example, a plurality of lighting lamps. , a plurality of display devices and a plurality of speakers, and based on this, the control module 240 detects the positions of the components that have transmitted the first emergency situation detection signal and the second emergency situation detection signal, and the photographing unit 130 ), it is possible to determine the cause of the emergency situation based on the video recorded in real time. More specifically, the control module 240 determines whether an emergency situation detection signal is received from a component at which position among components constituting the operation unit 101 of the emergency situation notification device 100 and the photographing unit 130 . Based on the video, the cause of the emergency situation can be identified.

The control module 240 is based on the result of analyzing the information and structure inside the emergency situation generated building stored in the storage module 220 and the images captured by the photographing unit 130 in real time and the location detection result of people inside the building. A first evacuation notification signal and a second evacuation notification signal may be generated and controlled to be transmitted to the emergency situation notification device 100 through the communication module 210 . At this time, the first evacuation notification signal is a signal output to the outside through the display unit 110 of the emergency situation notification device 100 , and may be a blinking control signal of a lighting lamp constituting the display unit 110 , and constitute the display unit 110 . It may be a display control signal that is externally displayed as characters or the like on a display device. Here, the blinking control signal of the lighting lamp according to the first evacuation notification signal may be a signal having a blinking interval different from the blinking control signal of the lighting lamp according to the first emergency situation notification signal. In addition, the second evacuation notification signal is a signal output to the outside through the voice output unit 120 of the emergency situation notification device 100, and may be a volume control signal of a speaker constituting the voice output unit 110 . In this case, the second evacuation notification signal may have different timings of the volume output of the speaker based on the location of the safe emergency exit. For example, it may be a signal that makes the volume output first from a speaker at a location close to a location where a person's location is detected so as to safely evacuate, and the volume output from a speaker located closest to the location of a safe emergency exit is the loudest. It can be a signal to make it happen. That is, the second evacuation notification signal may be a control signal for outputting voice at different timings according to the location of a plurality of speakers constituting the sound output unit 120 and the result of detecting the location of a person in the building, It may be a control signal to be output.

Referring to FIG. 5 in order to examine the emergency situation determination process of the emergency situation management server 200 configured as described above in more detail, first, the control module 240 of the emergency situation management server 200 is configured to control the emergency situation notification device 100 ), the image captured by the photographing unit 130 is received at a preset time interval (S510).

Thereafter, the control module 240 of the emergency situation management server 200 determines whether the first emergency situation detection signal and the second emergency situation detection signal are received from the emergency situation notification device 100 ( S520 ). As a result of the determination, when it is determined that the first emergency situation detection signal and the second emergency situation detection signal have been received, the analysis module 230 controls to analyze the image captured by the photographing unit 130 ( S530 ). Meanwhile, when it is determined that the first emergency situation detection signal and the second emergency situation detection signal have not been received, the image captured by the photographing unit is received at a preset time interval ( S510 ).

Thereafter, the control module 240 of the emergency situation management server 200 determines whether an actual emergency situation has occurred (S540). In this case, the determination of the occurrence of the emergency situation may be determined based on the analysis result of the captured image by the analysis module 230 .

As a result of the determination, when it is determined that an emergency situation has occurred, the control module 240 of the emergency situation management server 200 generates a first emergency situation notification signal and a second emergency situation notification signal and transmits them to the emergency situation notification device 100 . (S550). On the other hand, if it is determined that an emergency situation has not occurred, the image captured by the photographing unit 130 is received ( S510 ).

Thereafter, the control module 240 of the emergency situation management server 200 generates a third emergency situation notification signal for notifying the occurrence of an emergency situation in a public office, for example, a police station and a fire station, and then sends the third to the government office server 300 . An emergency situation notification signal is transmitted (S560).

Then, the control module 240 of the emergency situation management server 200 stores the information and structure of the building stored in the storage module 220 , the analysis result analyzed by the analysis module 230 , and the image captured by the photographing unit 130 . Based on the captured image, the cause of the emergency situation is analyzed and determined (S570).

Thereafter, the control module 240 of the emergency situation management server 200 determines whether or not to receive the result of detecting the location of a person in the building from the emergency notification device 100 ( S580 ), and determines that the result of detecting the location of the person in the building is received. If it is determined, a first evacuation notification signal and a second evacuation notification signal are generated and transmitted to the emergency situation notification device 100 (S590). At this time, the second evacuation notification signal is a signal transmitted to the voice output unit 120 of the emergency situation notification device 100, and the timing of transmission may be different depending on the location of a plurality of components of the voice output unit 120, and output Each volume may be different from each other. Meanwhile, if it is determined that the result of detecting the location of a person in the building has not been received, it may wait for a while until the result of detecting the location of the person in the building is received.

6 is a flowchart illustrating an emergency situation occurrence notification flow of the emergency situation notification system according to an embodiment of the present invention.

Referring to FIG. 6 , the emergency situation notification system 1000 according to an embodiment of the present invention captures the inside of a building in real time by the photographing unit 130 of the emergency situation notification device 100 ( S601 ). .

The image inside the building captured by the photographing unit 130 is transmitted to the emergency situation management server 200 (S602), and the emergency situation management server 200 stores the image transmitted to the storage module 220 (S603). ).

Thereafter, the emergency situation notification device 100 includes a plurality of lighting lamps constituting the display unit 110 , a first emergency situation detection sensor 1041 installed in the display device, and a second emergency installed in a plurality of speakers constituting the audio output unit 120 . Whether or not an emergency has occurred is detected by the situation detection sensor 1042 (S604), and operating power is applied to the operation unit 101 to detect whether the signal lines are disconnected (S605). At this time, the emergency notification device 100 compares the operating power measured by the operating unit 101 with the preset operating power, and then determines whether the signal line of the first sub communication unit 1021 formed of the wired communication network is disconnected to determine the first When it is determined that the signal lines constituting the communication unit 1021 are disconnected, the second sub communication unit 1022 formed of the LoRa communication network communicates with the emergency situation management server 200 .

Thereafter, the emergency situation notification device 100 generates an emergency situation detection signal when it is detected that an emergency situation has occurred by the first emergency situation detection sensor 1041 and the second emergency situation detection sensor 1042 ( S606 ). In this case, the emergency situation detection signal may include a first emergency situation detection signal generated by the first emergency situation detection sensor 1041 and a second emergency situation detection signal generated by the second emergency situation detection sensor 1042 .

In this way, the emergency situation detection signal generated by the emergency situation notification device 100 is transmitted to the emergency situation management server 200 (S607), and the emergency situation management server 200 analyzes the image transmitted in real time to the analysis module 230. to determine whether an emergency has actually occurred based on the analysis result (S608).

When it is determined that an emergency situation has occurred, the emergency situation management server 200 generates a first emergency situation notification signal, a second emergency situation notification signal, and a third emergency situation notification signal (S609).

The first emergency situation notification signal and the second emergency situation notification signal generated by the emergency situation management server 200 are transmitted to the emergency situation notification device 100 (S610), and the emergency situation notification device 100 receives the transmitted second The first emergency situation notification signal is displayed externally by the display unit 110, and the second emergency situation notification signal is outputted externally by the voice output unit 120 (S611).

Meanwhile, the third emergency situation notification signal generated by the emergency situation management server 200 is transmitted to the government office server 300 (S612), and the public office server 300 receives the emergency situation (S613).

Thereafter, the emergency situation notification device 100 detects and detects the location of a person in the building by the location detection sensor 1043 (S614), and transmits the detection result to the emergency situation management server 200 (S615).

The emergency situation management server 200 analyzes the cause of the emergency situation based on the image captured by the photographing unit 130 (S616), and based on the detection result of the person's position transmitted from the emergency situation notification device 100 After identifying a safe evacuation route, a first evacuation notification signal and a second evacuation notification signal are generated (S617).

The first evacuation notification signal and the second evacuation notification signal generated by the emergency situation management server 200 are transmitted to the emergency situation notification device 100 (S618), and the emergency situation notification device 100 has a display unit 110 and a voice The first evacuation notification signal and the second evacuation notification signal are displayed and output to the outside through the output unit 120 (S619).

Accordingly, the emergency situation notification system 1000 according to an embodiment of the present invention provides a first emergency situation notification signal notifying that an emergency has occurred visually and a second emergency situation notification signal notifying that an emergency situation has occurred audibly. By creating and notifying the outside, even the disabled can immediately determine whether an emergency has occurred.

In addition, the emergency situation notification system 1000 according to an embodiment of the present invention detects the location of people in the building and identifies the detection result and the location of a safe emergency exit to provide the first evacuation notification signal and the second evacuation notification signal. generated, and the first evacuation notification signal is visually displayed to the outside, and the second evacuation notification signal is output to the outside audibly, so that even the disabled can be induced to safely evacuate.

An emergency notification system according to various embodiments of the present invention may be described as follows.

The emergency situation notification system according to an embodiment of the present invention detects whether an emergency situation occurs, transmits an emergency situation detection signal to the outside, and receives an emergency from an emergency situation notification device and an emergency situation notification device for photographing the inside of a building where an emergency situation occurs A first emergency notification signal notifying whether an emergency has occurred visually by receiving a situation detection signal and an image captured inside the building, a second emergency notification signal notifying whether an emergency has occurred audibly, and a third notifying the occurrence of an emergency The first evacuation notification signal that generates and transmits an emergency notification signal to the outside and visually informs the safe evacuation route by identifying the safe evacuation route based on the cause of the emergency situation and the information and structure inside the building based on the captured image and an emergency situation management server that generates a second evacuation notification signal notifying an aurally safe evacuation route and transmits it to the emergency situation notification device, and a government office that receives a third emergency situation notification signal from the emergency situation management server and receives the occurrence of an emergency Including a server, the emergency notification device is configured such that a plurality of components constituting the emergency notification device and the emergency management server communicate with each other by the first communication unit, and when it is determined that an emergency situation in the building has occurred, the first When the disconnection of the signal lines constituting the communication unit is sensed and it is determined that the signal lines are disconnected, the second communication unit may be configured to communicate with each other.

According to another feature of the present invention, the emergency situation notification device includes a display unit for displaying a first emergency situation notification signal and a first evacuation notification signal to the outside, and a voice outputting a second emergency situation notification signal and a second evacuation notification signal to the outside. It includes an output unit and a photographing unit that captures the inside of a building in which an emergency situation occurs in real time, and the display unit includes a plurality of lighting lamps and a plurality of display devices, and each of the plurality of lighting lamps and the plurality of display devices communicates with an emergency situation notification server a first communication unit and a second communication unit for and the voice output unit is composed of a plurality of speakers, and each of the plurality of speakers is a first communication unit and a second communication unit for communication with the emergency situation notification server, a power supply unit for supplying power to the plurality of speakers, and detecting whether an emergency situation occurs and a second emergency situation detection sensor, a position detection sensor for detecting the location of a person in the building, and a controller for controlling the overall operation of the voice output unit.

According to another feature of the present invention, the first communication unit may be a wired communication network, and the second communication unit may be a LoRa communication network.

According to another feature of the present invention, the emergency situation notification device detects the location of a person in the building through the location sensor and transmits it to the emergency situation management server, and the emergency situation management server receives the human location detection result from the emergency situation management server generates a second evacuation notification signal based on the , and the second evacuation notification signal may have different timing and volume levels output from a plurality of speakers depending on the location of a person in the building and the location of a safe emergency exit.

According to another feature of the present invention, the emergency notification device applies operating power to the plurality of lighting lamps, the plurality of display devices, and the plurality of speakers from the power supply unit, By comparing the operating power and the preset operating power, it is possible to determine whether the signal lines constituting the first communication unit are disconnected.

The emergency situation notification method of the emergency situation notification system according to an embodiment of the present invention includes the steps of transmitting an image captured inside a building in which an emergency situation occurs to an emergency situation management server at preset time intervals, an emergency situation occurs inside the building When this is detected, generating an emergency situation detection signal, applying operating power to a plurality of components constituting the interior of the building in which the emergency situation has occurred to determine whether the signal line constituting the first communication unit is disconnected, the first communication unit When it is determined that the signal lines are disconnected, transmitting an emergency situation detection signal to the emergency situation management server through a second communication unit. When the first emergency situation notification signal and the second emergency situation notification signal are received from the emergency situation management server, the second The first emergency notification signal is visually displayed outside, and the second emergency notification signal is audibly output to the outside. Detecting the movement of a person inside the building, detecting the location of a person in the building, and transmitting it to the emergency management server and when the first evacuation notification signal and the second evacuation notification signal are received from the emergency situation management server, the first evacuation notification signal is visually displayed to the outside, and the second evacuation notification signal is audibly output to the outside. However, the second evacuation notification signal may have different timing and volume levels output according to the detected position of the person and the positions of the plurality of components.

Although the embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and various modifications may be made within the scope without departing from the technical spirit of the present invention. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to illustrate, and the scope of the technical spirit of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1000: emergency notification system
100: emergency notification device
110: display unit
120: audio output unit
130: shooting department
101: operation unit
102: communication unit
103: power supply
104: sensor unit
105: control unit
200: emergency management server
210: communication module
220: storage module
230: analysis module
240: control module
300: government office server

Claims (5)

an emergency notification device for detecting whether an emergency has occurred, transmitting an emergency detection signal to the outside, and photographing the inside of the building where the emergency has occurred;
A first emergency notification signal for visually notifying whether an emergency has occurred by receiving the emergency situation detection signal and the image captured inside the building from the emergency situation notification device, and a second emergency situation notification signal for notifying whether an emergency has occurred audibly and a third emergency notification signal notifying the occurrence of an emergency situation is generated and transmitted to the outside, and a safe evacuation route is identified based on the cause of the emergency situation based on the captured image and the information and structure inside the building, and visually an emergency management server for generating a first evacuation notification signal for informing a safe evacuation route and a second evacuation notification signal for notifying an acoustically safe evacuation route and transmitting the generated second evacuation notification signal to the emergency situation notification device; and
and a government office server for receiving the third emergency situation notification signal from the emergency situation management server and receiving the occurrence of an emergency situation;
The emergency situation notification device is configured so that a plurality of components constituting the emergency situation notification device and the emergency situation management server communicate with each other by a first communication unit, and when it is determined that the emergency situation has occurred, the first communication unit When it is determined that the signal lines are disconnected by detecting the disconnection of the signal lines, the second communication unit is configured to communicate with each other,
The emergency situation notification device,
a display unit for displaying the first emergency situation notification signal and the first evacuation notification signal to the outside;
a voice output unit for outputting the second emergency situation notification signal and the second evacuation notification signal to the outside; and
Including; and a photographing unit that captures the inside of the building in which the emergency situation has occurred in real time;
The display unit includes a plurality of lighting lamps and a plurality of display devices, and each of the plurality of lighting lamps and the plurality of display devices includes the first communication unit and the second communication unit for communication with the emergency situation notification server, the plurality of A power supply unit for supplying power to a lighting lamp and each of the plurality of display devices, a first emergency situation detection sensor for detecting whether the emergency situation occurs, and a control unit for controlling the overall operation of the display unit,
The audio output unit is composed of a plurality of speakers, each of the plurality of speakers is the first communication unit and the second communication unit for communication with the emergency situation notification server, a power supply unit for supplying power to the plurality of speakers, the emergency A second emergency situation detection sensor for detecting whether a situation occurs, a location detection sensor for detecting the location of a person in the building, and a control unit for controlling the overall operation of the voice output unit,
The first emergency situation detection sensor is installed in a plurality of lighting,
The second emergency situation detection sensor is characterized in that it is installed in a plurality of speakers,
The first communication unit may transmit and receive wired communication,
When the disconnection of the first communication unit is detected through the first emergency situation detection signal and the second emergency situation detection signal, the operation of the second communication unit is allowed,
The second communication unit is constructed as a communication system that can use the LoRa network, and the emergency situation notification system, characterized in that transmission and reception in the form of low-power wireless communication is possible even in case of disconnection. delete According to claim 1,
The first communication unit is a wired communication network, the second communication unit is a LoRa communication network,
The emergency situation notification device applies operating power to the plurality of lighting lamps, the plurality of display devices, and the plurality of speakers from the power supply, and the operation measured by the plurality of lighting lamps, the plurality of display devices, and the plurality of speakers The emergency situation notification system, characterized in that it is determined whether the signal lines constituting the first communication unit are disconnected by comparing the power and the preset operation power. According to claim 1,
The emergency situation notification device detects the location of a person in the building through the location sensor and transmits it to the emergency situation management server,
The emergency management server generates the second evacuation notification signal based on the result of detecting the person's location received from the emergency management server,
The second evacuation notification signal is an emergency notification system, characterized in that the timing and volume level output from the plurality of speakers are different according to the location of the person in the building and the location of the safe emergency exit. delete

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