KR102614695B1 - Smart Emergency Bell Device and Alert System Using the Same - Google Patents

Abstract

In the alarm system using the emergency bell terminal 100,
An emergency bell terminal (100) that generates an emergency signal so that the user can notify the user of an emergency situation in the field, a control server (200) and an emergency bell terminal (100) that receive the emergency signal from the emergency bell terminal (100), or It includes a response engine unit 300 that receives an emergency situation signal from the control server 200,
When an emergency situation signal occurs, the field user first transmits a voice and emergency bell signal to the control server (200) through the emergency bell terminal (100), and the control server (200) uses the already learned voice and emergency bell signal to more accurately identify the situation. It is characterized by analyzing the user's condition through the video and then transmitting it to the response agency unit 300, primarily enabling a quick response to the on-site situation, while secondarily identifying a more accurate situation and providing accurate information. It is about an alarm system using an emergency bell terminal that allows response.

Description

Smart emergency bell device and alert system using the same {Smart Emergency Bell Device and Alert System Using the Same}

The present invention relates to a smart emergency bell terminal, and to an emergency bell terminal that can minimize human casualties or prevent crimes in advance through a smart emergency bell terminal, and to an alarm system using the emergency bell terminal.

In society, various safety equipment is provided to prepare for or resolve crimes or accidents.

Surveillance systems such as CCTV are used to quickly apprehend suspects after a crime has occurred or to facilitate control in places where many people gather, so they are mainly used for follow-up measures and are effective.

In particular, Korea is one of the countries in the world where CCTV is widely distributed, and the use of CCTV is one of the major contributors to increasing the arrest rate after a crime has occurred. However, monitoring so many CCTVs is not easy, and it is not easy to monitor such a large number of CCTVs, and it is not easy to monitor private areas such as women's restrooms. There are limits to using CCTV in spaces, etc.

Meanwhile, devices such as emergency bells are a preemptive measure to prevent and prepare for crimes or accidents. They can be used to minimize casualties in situations where a crime occurs or when a patient is momentarily in critical condition, or in sparsely populated spaces. It can serve the function of preventing crime.

Recently, technologies for systems that can minimize casualties by using emergency bells to prevent or prepare for crimes or accidents as a proactive measure, as well as the development of CCTV for reactive measures, are being actively launched. As reflected in this, As a prior art of the Korean Intellectual Property Office related to a system using an emergency bell for preemptive measures, the “emergency bell system with improved on-site situation identification (patent document 1)” uses voice input to activate the emergency bell through voice recognition. To provide an emergency bell system with improved on-site situation identification that can prevent indiscriminate dispatch of management personnel to the site by easily identifying the truth and false reports of situations at crime prevention management sites based on the user's voice. As an emergency bell device that attempts to establish a call connection with the selected management agency; A technology is disclosed that includes a control server that processes the received notification signal into provided information and provides it to the management agency. However, the present invention takes user convenience into consideration by allowing the voice recognition mode or touch method to be selected selectively, It can notify emergency situations through warning lights, brighten the surroundings in dark situations, and continuously check normal operation through automated testing and monitoring functions to prevent malfunction of the emergency bell so that it can operate properly in an emergency situation. did.

In addition, “Real-time operation and failure status inspection device of wireless emergency bell, and method of operating the device (Patent Document 2)” provides a real-time failure status inspection device to prepare for emergencies through periodic inspection of the emergency bell. To this end, data related to the operation of the sound output unit and the sound receiver are transmitted to the external device through a main body unit including a sound output unit that generates sound and a sound receiver that receives the sound of the sound output unit, and the sound output is transmitted to the external device. After generating a sound from the unit, if the generated sound is not received through the sound receiver, it is diagnosed as a failure of the sound output unit or the sound receiver, and the sound signal is analyzed to determine whether there is a problem, and the wireless emergency alarm unit, When the emergency bell is selected, the real-time operation and failure status of the wireless emergency bell system is characterized in that an emergency notification signal is transmitted to the external device through a surrounding wireless emergency bell device based on the result of determining whether the main body is broken. An inspection device is disclosed, but while Patent Invention 2 discloses a technology for automatic inspection of an emergency bell, the present invention takes user convenience into consideration by allowing voice recognition mode or touch method to be selected, and provides emergency warning through warning lights. It can notify the situation, brighten the surroundings in dark situations, and continuously check whether it is operating normally through automated testing and monitoring functions to prevent malfunction of the emergency bell so that it can operate properly in the event of an emergency.

In addition, “Self-crime prevention system for crime prevention (Patent Document 3)” is a self-crime prevention system for crime prevention that detects damage to the user through the user’s rescue request or sounds made, and can selectively support rescue requests. In order to provide this, we are launching a self-crime prevention system for crime prevention that includes a rescue request detection unit, control server, emergency bell module, and abnormal sound source detection unit.

In addition, the “Voice Recognition Emergency Call System (Patent Document 4)” is designed to provide a voice recognition emergency call system that recognizes the user's voice, captures the surrounding situation, tracks the direction of voice generation, and captures video. An emergency bell device that recognizes a preset voice using a directional microphone and detects the direction of voice generation; In recognizing a person's voice, the emergency bell device operates in one voice recognition mode selected from among a plurality of voice recognition modes, each divided according to age, gender, selected day of the week, and selected time zone, and the emergency bell device Disclosed is a voice recognition emergency call system that includes a camera that takes pictures of the surroundings of the emergency bell device and the direction in which the voice is generated when a preset voice is recognized.

In addition, “an intelligent video surveillance system that improves emergency situation determination performance by improving the recognition rate for abnormal sound sources and an emergency situation determination method using the same (patent document 5)”, “crime prevention system and method (patent document 6)”, etc. is starting.

In order to protect people from various crimes or accidents at an early stage, the application of alarm systems using various voice recognition emergency bells is increasing. However, there is a need to increase user convenience so that users can use the emergency bells efficiently in such emergency situations. , there is a need to reduce the waste of manpower for regular inspection of the emergency bell, and to prevent the ironic situation where the emergency bell cannot be activated in an actual emergency situation due to a malfunction of the emergency bell itself, the emergency bell is turned off. There is a need to efficiently monitor itself for malfunctions, and in particular, the need to reduce the possibility of false alarms using emergency bells is increasing.

1. Republic of Korea Patent Publication No. 10-2488741 (2023.01.11) 2. Republic of Korea Patent Publication No. 10-2259889 (May 27, 2021) 3. Republic of Korea Patent Publication No. 10-1709224 (2017.02.21) 4. Republic of Korea Patent Publication No. 10-1602753 (2016.03.07) 5. Republic of Korea Patent Publication No. 10-1445367 (2014.09.22) 6. Republic of Korea Patent Publication No. 10-0878692 (2009.01.07)

The present invention is intended to solve the above problems, and the purpose of the present invention is to provide an emergency bell terminal that allows users to easily and efficiently use the emergency bell terminal in emergency situations such as various crimes or sudden accidents.

In addition, the goal is to minimize the manpower required for regular inspection of the emergency bell terminal to be used in an emergency.

In addition, to prevent a situation where the emergency bell terminal cannot be operated in an actual emergency situation due to the emergency bell being turned off due to a malfunction of the emergency bell terminal, the emergency bell terminal itself is continuously checked for normal operation through automated testing and monitoring functions. The purpose is to ensure that malfunctions or failures can be detected and taken action at an early stage.

In addition, in order to reduce the possibility of false alarms occurring using emergency bell terminals, the aim is to provide an alarm system using emergency bell terminals that improves discrimination against false reports of situations such as crimes or accidents.

In addition, the emergency bell terminal can receive the electromagnetic waves emitted by the electronic anklet to prepare for specific crimes and inform that it is in close proximity to the wearer of the electronic anklet, thereby preventing danger in advance.

In addition, the goal is to expand the role of emergency bell terminals that can prevent crimes or accidents by utilizing already installed CCTV.

In a smart emergency bell terminal and an alarm system using the emergency bell terminal,

The warning system includes an emergency bell terminal 100 that generates an emergency signal so that users can be notified of an emergency situation in the field.

Additionally, the warning system includes a control server 200 that receives emergency signals from the emergency bell terminal 100.

In addition, the warning system includes a response engine unit 300 that receives emergency signals from the emergency bell terminal 100 or the control server 200.

The emergency bell terminal 100 includes a microphone 110, an emergency bell button 120, a Braille board 130, a warning light 140, a speaker 150, a communication unit 160, and a control unit 170.

The emergency bell terminal 100 may be characterized in that each terminal is assigned an individual serial number (ID) to specify its location in advance, and when an emergency signal is generated, the installation location of the emergency bell terminal 100 is automatically transmitted. .

The microphone 110 is composed of a directional microphone and a long-distance voice capture microphone, and can recognize the voice of an on-site user, collect rescue request recognition words, and generate an emergency situation signal.

Additionally, the microphone 110 may transmit the user's voice for two-way communication with a person in charge of the control server 200 or a person in charge of the corresponding agency unit 300.

The emergency bell button 120 generates an emergency situation signal by touching the emergency bell button 120, and allows the type and severity of the emergency to be identified by color according to the number of touches. can do.

The warning light 140 is characterized by brightly illuminating the surrounding area through lighting when an emergency situation signal occurs through voice collection by the microphone 110, touching the emergency bell button 120, or receiving electromagnetic waves by the electromagnetic wave receiver 180. .

The speaker 150 can output an alarm sound to notify of an emergency situation when an emergency situation signal occurs.

In addition, the speaker 150 may output the voice of the person in charge of the control server 200 or the person in charge of the corresponding agency unit 300 for a two-way call.

The communication unit 160 transmits an emergency situation signal through the user's voice collected through the microphone 110, by touching the emergency bell button 120, or by receiving electromagnetic waves by the electromagnetic wave receiving unit 180, to the control server 200 or the response agency. It may be characterized by primary transmission to (300).

In addition, the communication unit 160 may be characterized in that it allows direct two-way communication between a field user and a person in charge of the control server 200 or a person in charge of the response agency unit 300.

The control unit 170 monitors the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency alarm terminal 100 for failure or malfunction, and the monitoring results are sent to the control server 200. ) may be stored in the storage unit 240, and may be characterized in that failure or malfunction is managed through the management unit 250.

The electromagnetic wave receiving unit 180 may receive electromagnetic waves generated from the electronic anklet and generate an emergency signal.

The control server 200 includes a receiving unit 210, a transmitting unit 220, a communication unit 230, a storage unit 240, a management unit 250, and a communication unit 270.

The receiver 210 can receive the user's voice through the microphone 110, or receive an emergency signal generated by touching the emergency bell button 120 or through the electromagnetic wave receiver 180.

In addition, the receiving unit 210 is characterized in that it receives monitoring results for the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency alarm terminal 100 through the control unit 170. can do.

The transmitting unit 220 may secondary transmit the voice analyzed by the control server 200 to the corresponding agency unit 300.

The communication unit 230 may be characterized in that it allows two-way communication between the user in the field and the person in charge of the control server 200.

The storage unit 240 stores in advance the voices learned in various emergency situations in order to analyze the voices collected through the operation unit 240, and stores the rescue request recognition words of field users collected through the microphone 110. It can be characterized as:

In addition, the storage unit 240 may store monitoring results for the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency alarm terminal 100 through the control unit 170.

When a failure or malfunction occurs in the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency bell terminal 100, the management unit 250 is in charge of the control server 200 or the response agency unit 300. ) It may be characterized by notifying the person in charge.

The communication unit 270 may receive voice or data primarily transmitted from the communication unit 160 of the emergency bell terminal 100 or transmit it secondarily to the response agency unit 300.

Additionally, the communication unit 230 can make a two-way call with the user through the communication unit 270.

The control server 200 may further include a calculation unit 260.

In order to accurately analyze the voice collected through the microphone 110 of the emergency alarm terminal 100, the calculation unit 260 compares and analyzes the voice collected in various emergency situations already stored in the storage unit 240 to identify the voice as a joke. It can be characterized by determining authenticity through accurate analysis of whether it is recognized or not.

The voice analyzed through the calculation unit 260 may be secondary transmitted to the corresponding agency unit 300 through the transmission unit 220.

The emergency alarm terminal 100 may further include a thermal infrared imaging unit 190.

The control server 200 may further include a motion analysis unit 280.

The thermal infrared imaging unit 190 generates a thermal infrared image imaging the user's activity status or status change in the field and transmits it primarily to the receiving unit 210 of the control server 200 through the communication unit 160. It may be transmitted primarily to the receiving unit 310 of the corresponding engine unit 300.

In addition, the thermal infrared image is transmitted to the receiving unit 210 of the control server 200, the transmitted thermal infrared image is stored in the storage unit 240, and the motion analysis unit 280 is already stored in the storage unit 240. The emergency situation is identified by comparing and analyzing the stored and learned behavioral patterns of emergency situations and the thermal infrared image of the field user initially transmitted from the emergency bell terminal (100), and a more accurate picture of the field user's situation is communicated to the communication unit (270). And it may be characterized by secondary transmission to the corresponding engine unit 300 through the transmission unit 220.

The response engine unit 300 may utilize the nearest CCTV through the specified location of the individual serial number (ID) for the emergency bell terminal 100.

The corresponding organ unit 300 may include a receiving unit 310, a communication unit 320, and a corresponding unit 330.

The receiving unit 310 is configured to receive an emergency situation signal, the communication unit 320 is configured to make a two-way call directly with the user, and the responding unit 330 is configured to instruct dispatch to respond. .

The alarm system using the emergency bell terminal 100 is,

It may include a step (S1) in which the user makes a sound through voice in the field, touches an emergency bell button, or the electromagnetic wave receiver receives electromagnetic waves.

An emergency signal is generated by a voice from the microphone 110 of the emergency bell terminal 100, an emergency signal is generated by an emergency bell signal by the emergency bell button 120, or an emergency signal is generated by the electromagnetic wave receiver 180. It may include a step (S2) in which a situation signal is generated.

When an emergency situation signal is generated, the emergency bell terminal 100 may include a step (S3) of first transmitting a voice, an emergency situation signal, and a thermal infrared image to the control server 200 and/or the response engine unit 300.

It may include a step (S4) of analyzing the voice or video first received through the operation unit 260 or the motion analysis unit 280 for the voice, emergency situation signal, and thermal infrared image received by the control server 200. there is.

It may include a step (S5) of analyzing the firstly received voice or video and then secondarily transmitting it to the corresponding agency unit 300.

The responding agencies of each responding agency unit 300, such as the police station 301, the fire department 302, and the hospital 303, may include a step (S6) of notifying the police, firefighters, and emergency medical staff to order dispatch. there is.

The present invention has the effect of allowing the user to easily use the emergency bell terminal in an emergency by simultaneously or selectively using the microphone or emergency button in emergency situations such as various crimes or sudden accidents.

In particular, the present invention primarily allows a quick response to on-site situations, but secondarily allows a more accurate situation to be identified and an accurate response.

In addition, the present invention has the effect of reducing the input of manpower for regular inspection by continuously checking whether the emergency alarm terminal is operating normally through automated testing and monitoring functions so that malfunctions or failures can be detected and taken action at an early stage.

In addition, the present invention can minimize crime or accident damage or increase the crime prevention effect through prompt response and action by immediately transmitting a phone call or text message to the central control room or emergency response team when a rescue request word is recognized or the emergency bell button is activated. there is.

In addition, the present invention is a warning system through emergency bell terminals, which consists of several devices connected through a network to receive rescue request recognition or emergency bell operation from emergency bell terminals installed at various points from the central control room or emergency response team. It has the effect of allowing you to respond.

In addition, the present invention has the effect of preparing a response even in situations where the emergency bell terminal cannot be operated by judging the user's movement due to a criminal act or when an emergency patient collapses through a motion detection sensor.

In addition, the present invention has the effect of reducing unnecessary waste of manpower by reducing the possibility of false alarms occurring using an emergency bell terminal.

In addition, the present invention has the effect of preventing danger in advance by informing the emergency bell terminal that it is in close proximity to the wearer of the electronic anklet by receiving electromagnetic waves emitted by the electronic anklet to prepare for a specific crime.

In addition, the present invention has the effect of maximizing crime or accident prevention by utilizing existing CCTVs.

Figure 1 shows the overall configuration of an alarm system using the emergency bell terminal of the present invention.
Figure 2 shows the configuration of the emergency bell terminal of the present invention.
Figure 3 is a diagram of an emergency bell terminal according to an embodiment of the present invention.
Figure 4 shows the operational relationship for the emergency bell terminal monitoring process of the present invention.
Figure 5 shows the configuration of the control server of the present invention.
Figure 6 shows the process of operating the alarm system through the emergency bell terminal of the present invention.
Figure 7 shows the sequence of operating the alarm system through the emergency bell terminal of the present invention.

Hereinafter, if it is determined that a detailed description of related known technologies may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Additionally, numbers used in the description process of this specification are merely identifiers to distinguish one component from another component.

In addition, the terms used in this specification and claims should not be construed limited to their dictionary meaning, and based on the principle that the inventor can appropriately define the concept of the term in order to explain his or her invention in the best way, It should be interpreted with meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in this specification and the configurations shown in the drawings are only preferred embodiments of the present invention and do not express the entire technical idea of the present invention, so various equivalents that can replace them at the time of filing the present application It should be understood that variations and variations may exist.

Preferred embodiments of the present invention will be described in more detail, but already well-known technical parts will be omitted or compressed for brevity of explanation.

'User' as used in the present invention refers to a person in need of rescue or assistance in an emergency situation.

As used in the present invention, 'emergency situation' refers to an emergency situation including a situation where a crime occurs, an emergency accident occurs, or an emergency patient occurs, and 'emergency signal' refers to a signal for notifying such situation. means.

In addition, the 'communication unit' of the present invention refers to a network for transmitting (transmitting or receiving) voice, video, or data, and the 'primary transmission' is automatically transmitted from the emergency bell terminal 100 to the control server 200 and /Or means transmission to the corresponding agency unit 300, and 'secondary transmission' means transmission from the control server 200 to the corresponding agency unit 300.

In addition, the response agency unit 300 is an operational configuration (operation unit) of response agencies such as the police station 301, the fire department 302, and the hospital 303 that can respond to the emergency bell terminal 100 and the control server 200. ) means.

Figure 1 shows the overall configuration of an alarm system using an emergency bell of the present invention.

As shown in Figure 1, the present invention allows the user to use the emergency bell terminal 100 to notify an emergency situation through voice when a crime occurs, an accident occurs, or an emergency patient occurs, or at the same time, a crime situation or an emergency accident situation occurs by touching the emergency bell. When an emergency situation signal is first transmitted, the control server 200 or the response engine unit 300 can receive it and then respond immediately through each response engine unit 300.

In addition, when the emergency bell terminal 100 receives electromagnetic waves generated from an electronic anklet in a place where the emergency bell terminal 100 is installed, it generates an alarm in the surrounding area and transmits it primarily to the control server 200 or the response engine unit 300. You can.

Meanwhile, the control server 200 analyzes the situation received through the primary transmission and transmits it secondarily to each response engine unit 300. After the response engine unit 300 receives this, each response engine unit 300 ) can also be responded to.

Additionally, the user may make a two-way call with the person in charge of the control server 200 or the person in charge of the response agency unit 300 through the emergency bell terminal 100.

The emergency bell terminal 100 can be installed not only in public facilities but also in sparsely populated places.

In other words, it can be installed not only inside facilities such as public restrooms, underground parking lots, schools, elevators, and subway stations, but also outside where there are no facilities at all, such as parks, alleys, bus stops, hiking trails, beaches, and trails.

The control server 200 may be a central control room or emergency response team related to a crime, accident, or disaster, or may be a control center that includes a central server that manages and monitors the emergency bell terminal 100.

Response agencies of the response agency unit 300 may include, but are not limited to, police stations 301, fire departments 302, hospitals 303, etc.

Figure 2 shows the configuration of the emergency bell terminal 100 of the present invention.

As shown in Figure 2, the emergency bell terminal 100 of the present invention includes a microphone 110, an emergency bell button 120, a Braille board 130, a warning light 140, a speaker 150, a communication unit 160, and a control unit ( 170), an electromagnetic wave receiving unit 180, and a thermal infrared imaging unit 190.

The emergency bell terminal 100 can be installed inside a facility such as a public restroom, but it can also be installed on the road where facilities such as a park or a walking trail are not available, so the material of the emergency bell terminal 100 is waterproof or dustproof. It is desirable to be made of an efficient material.

The emergency bell terminal 100 is assigned an individual serial number or ID to each terminal, and the installation location is specified in advance, so that when an emergency situation signal occurs, the installation location of the emergency bell terminal 100 is connected to the control server 200 and/or It is automatically transmitted to the engine department (300) so that responding agencies such as the police station (301), fire department (302), hospital (303), etc. can immediately identify the location, and each emergency bell terminal (100) component By monitoring for breakdowns or malfunctions, unnecessary waste of manpower required for inspections such as regular inspections can be reduced.

The microphone 110 is an 'emergency recognition microphone' for recognizing emergency situations. When a crime occurs, an emergency accident occurs, or a user such as a pregnant woman encounters an emergency in a public restroom, the microphone 110 is used to recognize emergency situations through voice. An emergency signal is generated to notify the user.

The microphone 110 can collect and recognize ‘rescue request words’ such as “save the person,” “please save me,” and “please help me.”

The microphone 110, which recognizes rescue request recognition, is used to notify the user of the emergency situation through voice when an emergency situation occurs inside a facility such as a public restroom or in a sparsely populated place such as a walking trail, so the microphone 110 ) is desirable to capture only the user's voice.

Therefore, the microphone 110 is preferably configured as a directional microphone that captures sounds in only one direction rather than an omnidirectional microphone that captures sounds in all directions.

In addition, the microphone 110 is preferably configured as a long-distance voice capture microphone that can capture voices from a relatively long distance in order to function as a microphone to recognize emergency situations by collecting and recognizing voices such as rescue call recognition even from a distance.

In addition, the microphone 110 has an improved dynamic range so that it can be easily captured even when the voice is uttered from a relatively long distance or in a low voice, such as in a crime or accident situation that may occur at some distance from the emergency bell terminal 100. Low-volume voice signal capture ability can be improved by including Dynamic Range Enhancer (DRE).

In addition, 'rescue request words' such as "Save the person", "Please save me", "Please help", etc. captured through the microphone 110 are sent to the control server 200 or the response agency department 300 through the communication unit 160. ) can be sent directly to the primary.

Therefore, the microphone 110 is configured to collect the user's voice, generate an emergency signal, and generate a primary transmission to the control server 200 or the response engine unit 300, and recognize the emergency signal by receiving the primary transmission. It is a configuration that allows a two-way call between a control server (200) person in charge or a response agency department (300) person and a field user.

In other words, the microphone 110 is primarily a component that collects the user's voice to generate an emergency signal, and secondarily, it is configured to make a two-way call with the control server 200 or the response agency department 300 representative. It is an element.

The rescue request recognition signal collected through the microphone 110 is first transmitted through the communication unit 160 and transmitted to the receiving unit 210 of the control server 200.

In addition, the emergency situation signal by the rescue request recognition collected through the microphone 110 may be initially transmitted through the communication unit 160 and then stored in the storage unit 240 of the control server 200. Through the calculation unit 260 of 200, it is possible to identify the authenticity of the emergency situation for the collected voice through comparative analysis with the already learned voice stored in the storage unit 240.

Meanwhile, the microphone 110 can be used simultaneously with the emergency bell button 120, and depending on the situation, in situations where it is difficult to touch the emergency bell button 120, an emergency signal can be generated by notifying the emergency situation with just a voice.

The rescue request recognition signal collected through the microphone 110 may be initially transmitted through the communication unit 160 and directly transmitted to the reception unit 310 of the response agency unit 300.

The emergency bell button 120 is a configuration for the user to press the emergency bell directly to notify an emergency situation. In situations where it is difficult to make a voice through the microphone 110, the user can selectively touch the emergency bell button 120 or press the emergency bell button ( 120) Emergency situations can be notified simultaneously through touch and voice recognition.

The emergency bell button 120 can be configured in various ways, such as mechanical or sensor type.

In addition, the emergency bell button 120 allows the color of the emergency bell button 120 itself to change depending on the number of touches to distinguish between a crime situation, an accident situation, or an emergency patient situation, and the emergency situation according to the number of touches. The color can be changed to signal severity.

Therefore, the type of emergency situation and the severity of the emergency situation can be identified through color changes depending on the number of touches.

When the color of the emergency bell button (120) changes so that users in the field can distinguish and notify the type of emergency situation or the severity of the emergency situation, the reliability of the control server (200) or response agency unit (300) that received the emergency situation signal is increased. can be increased, and unnecessary dispatch can be reduced when dispatching orders to response agencies through the response agency unit 300, which has the effect of reducing manpower waste.

For example, in a crime situation, it is efficient for the police or medical staff to be dispatched, and in an accident situation or emergency patient situation, it is efficient for the medical staff to be dispatched first. In addition, in the early stage of a fire outbreak, it is efficient to dispatch the fire department first. In this way, by distinguishing which responder is dispatched first according to each situation, unnecessary dispatch of police, medical staff, or fire departments can be reduced, thereby increasing concentration on situational response capabilities.

The emergency signal generated by touching the emergency bell button 120 is transmitted to the receiving unit 210 of the control server 200 through the communication unit 160.

In addition, the emergency signal generated by touching the emergency bell button 120 can be directly transmitted to the receiving unit 310 of the response engine unit 300 through the communication unit 160.

The Braille board 130 is included on one side of the front of the emergency bell terminal 100 so that visually impaired people can use the emergency bell terminal 100, including the emergency bell button 120, even in situations they encounter.

The warning light 140 is designed to immediately notify the surrounding area of the scene where an emergency situation signal has occurred, and functions to brightly illuminate the scene to inform the surrounding area of the emergency situation.

In other words, even if the emergency bell terminal 100 is installed inside a facility such as a public restroom, it is dark inside in a crime situation at night, so it is necessary to brighten the interior, especially in a sparsely populated place such as a walking trail during the day or at night. In the event of an accident, the surroundings can be brightened to provide psychological stability to the user, and by notifying the surroundings through lighting, help can be expected from people around them.

Figure 3 is a diagram of the emergency bell terminal of the present invention. As in Figure 3, the warning light 140 can be configured through the entire outer surface of the emergency bell terminal 100, and can be configured through lighting such as LED. However, it is not limited to this. At this time, the warning lights 140 may be activated simultaneously or sequentially when an emergency signal occurs through recognition of the rescue request recognition collected by the microphone 110 or by touching the emergency bell button 120.

In addition, when the emergency alarm terminal 100 receives electromagnetic waves generated from the electronic anklet where the emergency alarm terminal 100 is installed, it can recognize it as an emergency signal and activate the warning light 140.

The speaker 150 is a component that outputs sound, and outputs an alarm sound to notify the surroundings of an emergency situation or functions as a two-way communication.

When an emergency situation signal is generated by an on-site user, a loud alarm sound is generated through the speaker 150, so that surrounding people can be notified of the situation and receive help.

The emergency signal may be generated through the voice of the microphone 110, by touching the emergency bell button 120, or through receiving electromagnetic waves by the electromagnetic wave receiving unit 180 generated from the electronic anklet.

In addition, the user can transmit voice during a two-way call with the person in charge of the control server 200 or the response agency unit 300 through the microphone 110 of the emergency bell terminal 100, and the person in charge of the control server 200 or the corresponding person. When making a two-way call with a person in charge of the engine department 300, the speaker 150 can function to output the voice of each person in charge.

In addition, a guidance sound can be output to inform the visually impaired of the location of the emergency bell terminal 100. In other words, when the microphone 110 collects the rescue request recognition by the visually impaired person, the location of the emergency bell terminal 100 can be informed through the guided sound of the speaker 150. The visually impaired can move in the direction of the emergency bell terminal (100) through the guidance sound output through the speaker (150), and the visually impaired can control the traffic by moving near the bright emergency bell terminal (100) where the warning light (140) is activated. It is possible to easily have a two-way conversation with the person in charge of the server (200) or the person in charge of the corresponding agency (300).

The communication unit 160 is a component that transmits voice, video or data from the emergency alarm terminal 100 to the control server 200 and/or the response agency unit 300 and includes a transmitter 161 and a receiver 162. It can be included. The transmitting unit 161 of the communication unit 160 receives voice collected through the microphone 110 or an emergency signal generated by touching the emergency bell button 120 or receiving electromagnetic waves from the electromagnetic wave receiving unit 180, or the thermal infrared imaging unit 190. The thermal infrared image can be initially transmitted to the control server 200 or the corresponding engine unit 300.

At this time, the user's location can be directly specified through the individual serial number (ID) of the emergency bell terminal 100 and initially transmitted to the control server 200 or the response agency unit 300 at the same time.

Additionally, the transmitting unit 161 and the receiving unit 162 of the communication unit 160 can enable two-way communication through the microphone 110 and speaker 150.

In addition, data such as the occurrence situation and situation occurrence time at the place where the emergency bell terminal 100 is installed, the individual serial number (ID) of the emergency bell terminal 100, and thermal infrared images are stored in the control server 200 or the response agency department. The first transmission can be made to (300). Therefore, the communication unit 160 of the present invention can use an LTE packet-switching network that can simultaneously exchange a circuit-switching network that can exchange voice or a packet-switching network that can exchange data.

The communication unit 160 includes LTE, VoIP, Wi-Fi, Bluetooth, ultra wide band (UWB), zigbee, near field communication (NFC), power line communication (PLC), and infrared communication. Various known communication methods can be used.

Preferably, when the user announces an emergency situation through voice, the microphone 110 collects and recognizes rescue request recognition words such as “save the person,” “help me,” and “help me,” and the control server 200 or responds. It is necessary to maintain the recognized voice sound quality during primary transmission to the engine unit 300, and also, in order to identify the authenticity of the collected voice, the frequency sound quality of the original voice must be maintained as high as possible in voice call quality (MOS). LTE/VoIP, LTE-based (VoLTE), or VoNR (Voice over New Radio) methods are preferable.

In addition, the communication unit 160 transmits rescue request recognition collected through the microphone 110, an emergency situation signal through a touch of the emergency bell button 120, or a thermal infrared image through the thermal infrared imaging unit 190 to the control server 200. ) or in addition to the primary transmission to the response agency unit 300, the user and the person in charge of the control server 200 or the response agency department directly at the site through the microphone 110 and speaker 150 of the emergency bell terminal 100. It functions to enable direct two-way communication with the person in charge at (300).

The control unit 170 is configured to perform periodic inspections in order to detect malfunctions or failures of the emergency alarm terminal 100 and take action, and can function as a replacement for regular inspection personnel.

The emergency bell terminal 100 collects and recognizes voices through the microphone 110, or detects the user's emergency situation when an emergency signal occurs through the touch of the emergency bell button 120 or through electromagnetic wave reception by the electromagnetic wave receiver 180. Informing is the primary function.

However, if the emergency bell terminal 100 does not operate in an emergency situation due to a malfunction, or if voice recognition malfunctions due to a malfunction of the microphone 110, or if the emergency bell button 120 malfunctions, it may not function in an actual emergency situation. It will cause serious problems that are not present.

In particular, if a malfunction causes the wrong perception that it is due to a malfunction even though it is an actual emergency, it may have the adverse effect of preventing a timely response to the actual situation.

Therefore, monitoring each component of the emergency bell terminal 100 to detect and take action for failure or malfunction plays a very important role in the function of the emergency bell terminal 100.

On the other hand, since CCTV monitors a certain area with multiple images, if there is no video or inappropriate video is transmitted from the monitoring center, it is easy to recognize a malfunction or malfunction of the CCTV itself, so measures can be taken for the malfunction or malfunction of the CCTV. You can do it easily.

However, the emergency bell terminal 100 may be installed inside a facility, but in places where there are no facilities or where people are sparse, such as parks, alleys, bus stops, hiking trails, beaches, and trails, as per the purpose of the present invention. There may be more cases where it is installed.

Therefore, in terms of crime prevention or accident prevention, when a crime, an accident, or an emergency patient occurs in a place where the emergency bell terminal 100 is installed even though there are no facilities or there are few people, the value of the emergency bell terminal 100 increases. It gets higher.

However, if it is not possible to independently monitor the failure or malfunction of the emergency bell terminal 100 itself, periodic inspection is required at each location where the emergency bell terminal 100 is installed, which requires the emergency bell terminal 100 Considering the area or number of installations, this could result in serious waste of manpower.

Figure 4 shows the operational relationship for the emergency bell terminal monitoring process of the present invention.

As shown in FIG. 4, the control unit 170 can transmit the sound transmitted to the microphone 110 through the alarm sound generated from the speaker 150 at regular intervals to the control server 200 through the communication unit 160. Through this process, the function of the microphone 110 as an emergency recognition microphone can be monitored, and it can also output guidance sounds to the disabled or use a speaker for a two-way communication function with the control server 200 or the response agency unit 300. (150) It becomes possible to monitor the function.

In addition, when a voice is recognized through the microphone 110 or the emergency bell button 120 is touched, the warning light 140 is operated by receiving feedback when current is passed to monitor whether the warning light 140 operates normally at the same time. You can monitor whether or not.

Additionally, errors on the LTE packet switching network of the communication unit 160 can be periodically monitored.

The control unit 170 continuously checks whether the emergency bell terminal 100 is operating normally through automated testing and monitoring functions to detect and take action early on any failure or malfunction, and provides control over the emergency bell terminal 100. Regular inspection can be easily performed, maintenance manpower can be reduced, and the role of the emergency bell terminal (100) installed in a sparsely populated place can be properly performed.

The results of monitoring the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency alarm terminal 100 through the control unit 170 as described above are transmitted through the communication unit 160 and sent to the control server. It is stored in the storage unit 240 of 200, and failure or malfunction can be managed through the management unit 250.

When the electromagnetic wave receiving unit 180 receives electromagnetic waves generated from the electronic anklet, it generates an emergency signal and initially transmits the emergency signal to the control server 200 or the response engine unit 300 through the communication unit 160.

Electronic anklets are designed to track the location of criminals and place them on probation in order to reduce specific crimes such as sexual violence.

Those who wear electronic anklets are subject to restrictions such as restrictions on going out during certain times, prohibition of entering certain areas or places, restrictions on residence, and prohibition of access to certain people. GPS and mobile communication networks detect electromagnetic waves generated from the electronic anklet, and the wearer's This is a method that automatically checks the location.

However, even if it is unavoidable in the case of intentionally damaging the electronic anklet, if the location of the wearer of the electronic anklet cannot be tracked due to a problem with the communication network, or if the location cannot be tracked due to poor communication, there are bound to be limitations to the electronic anklet. does not exist.

To complement this, the electromagnetic wave receiving unit 180 of the emergency alarm terminal 100 of the present invention can be used.

In other words, the electromagnetic wave receiving unit 180 of the emergency bell terminal 100 of the present invention receives the electromagnetic waves generated by the electronic anklet using the NFC method or RFID method, so that a specific criminal wearing the electronic anklet can detect the electromagnetic waves generated by the electronic anklet at the place where the emergency bell terminal 100 is installed. An emergency situation signal indicating that the device has approached can be initially transmitted to the control server 200 or the response agency unit 300 through the communication unit 160.

In addition, when the electromagnetic wave receiving unit 180 receives electromagnetic waves generated by the electronic anklet, it can recognize it as an emergency signal and cause the warning light 140 to sound.

In addition, the electromagnetic wave receiving unit 180 can sound an alarm sound through the speaker 150 when it receives electromagnetic waves generated by the electronic anklet and recognizes them as an emergency signal.

The thermal infrared imaging unit 190 can image the activity state or state change of the user's movement in the field and transmit the thermal infrared image to the control server 200 or the corresponding agency unit 300 through the communication unit 160. there is.

If CCTV is installed inside the women's restroom to prevent crimes or accidents and monitor the video, privacy infringement issues may arise. Therefore, the user's movement status is transmitted to the control server 200 or the corresponding agency unit 300 through the thermal infrared camera. At this time, the user's movement image can be analyzed through the motion analysis unit 280 of the control server 200 and the user's state can be inferred through pre-learned data.

In other words, it is possible to analyze the dynamic state through infrared images of the surroundings, including the user, such as whether there are people other than the user, whether the user has fallen on the floor for a certain period of time, or whether the user has not moved for a certain period of time. You can check the user's status.

Thermal infrared imaging through the thermal infrared imaging unit 190 may be operated from the time an emergency signal is generated by the microphone 110, emergency bell button 120, or electromagnetic wave receiver 180, and may be operated continuously. You can also choose to have it.

In other words, the thermal infrared imaging unit 190 operates when an emergency situation signal occurs in a place where CCTV cannot be used and first transmits thermal infrared images to determine the authenticity of the user's actions in detail and then transmits them a second time to provide a more accurate situation. It can be a means to judge.

On the other hand, when thermal infrared imaging is continuously operated to monitor the user's movements, the user cannot make a voice and thus cannot notify an emergency situation through the microphone 110, or cannot touch the emergency bell button 120. By analyzing only the user's movements or actions in a situation where there is no presence, it is possible to infer the user's state through comparison with pre-learned data and determine that it is an emergency situation.

For example, if the user slips in the bathroom and faints momentarily, slips and falls momentarily on a hiking trail, etc., it is possible to determine that it is an emergency by comparing the user's behavior with pre-learned data.

In addition, the thermal infrared image collected through the thermal infrared imaging unit 190 is first transmitted through the communication unit 160 and transmitted to the receiving unit 210 of the control server 200 and then stored in the storage unit of the control server 200 ( 240) and can be analyzed through the motion analysis unit 280.

Meanwhile, the thermal infrared image collected through the thermal infrared imaging unit 190 may be first transmitted through the communication unit 160 and transmitted to the receiving unit 310 of the corresponding engine unit 300.

The emergency bell terminal 100 may further include a power supply unit 190 .

The power unit 190 is normally driven by power, but can operate an emergency battery when power supply is difficult due to a power outage or fire. Additionally, the emergency battery can be charged through the power supply.

Figure 5 shows the configuration of the control server 200 of the present invention.

As shown in Figure 5, the control server 200 of the present invention includes a receiving unit 210, a transmitting unit 220, a communication unit 230, a storage unit 240, a management unit 250, a calculation unit 260, and a communication unit 270. ) and a motion analysis unit 280.

When the user first transmits an emergency situation signal, such as a crime situation or an emergency accident situation, through the emergency bell terminal 100, the control server 200 receives the emergency situation signal and then provides accurate information to each person through processing on the server. A secondary transmission is made to the corresponding agency unit 300, and the corresponding agencies of the corresponding response agency unit 300 are dispatched and can immediately respond to the user.

At this time, when the emergency signal is first transmitted, the user can make a two-way call with the person in charge of the control server 200 or the person in charge of the response agency unit 300 through the emergency bell terminal 100.

The control server 200 may be a central control room or emergency response team related to crimes, accidents, or emergency patients, or may be a control center that includes a central server that manages and monitors the emergency bell terminal 100.

The receiving unit 210 is configured to store and analyze voice, video or data transmitted from the emergency alarm terminal 100 and receives emergency signals. The receiver 210 includes a voice receiver 211 and an image receiver 212.

The voice receiver 211 receives the user's voice (recognition request for rescue) collected and recognized through the microphone 110 of the emergency bell terminal 100. Thereafter, the authenticity of the received voice is determined through a comparative analysis of whether the user's voice is in an emergency situation through the calculation unit 260 using the voice learned in the emergency situation already stored in the storage unit 240.

Additionally, the receiver 210 receives an emergency signal generated by touching the emergency bell button 120.

Additionally, the receiving unit 210 receives an emergency signal generated when the electromagnetic wave receiving unit 180 receives electromagnetic waves from the electronic anklet.

In addition, the image receiving unit 212 receives the thermal infrared image of the user's actions or movements transmitted from the thermal infrared imaging unit 190 of the emergency alarm terminal 100 and then receives the thermal infrared image of the user's actions or movements in advance stored in the storage unit 240. Through the learned data, the motion analysis unit 280 analyzes and determines whether an emergency situation exists through comparative analysis of the already learned data and the user's behavioral state.

In addition, when the monitoring results for the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency bell terminal 100 through the control unit 170 are transmitted through the communication unit 160, the control server ( It is transmitted through the receiving unit 210 of 200 and stored in the storage unit 240, and the management unit 250 can manage any failure or malfunction.

The transmitting unit 220 is configured to secondarily transmit the audio and video analyzed by the control server 200 to the corresponding agency unit 300.

At this time, the user's location can be directly specified through the location of the individual serial number (ID) of the emergency bell terminal 100 and secondarily transmitted to the response agency unit 300.

The transmitting unit 220 determines whether an emergency situation exists regarding the user's voice analyzed through the operation unit 260 of the control server 200 and determines whether an emergency situation exists regarding the user's behavior analyzed through the motion analysis unit 280. Secondary transmission can be made to the corresponding engine unit 300.

Emergency signal or heat generated by a user's voice through the microphone 110, touching the emergency bell button 120, or receiving electromagnetic waves from the electromagnetic wave receiver 180 when a crime or accident occurs in a place where the emergency bell terminal 100 is installed. The thermal infrared image generated through the infrared imaging unit 190 can be initially transmitted to the control server 200 or the response engine unit 300 through the communication unit 160 of the emergency bell terminal 100, respectively. , At the same time, primary transmission can be made to the control server 200 and the corresponding agency unit 300.

At this time, the content primarily transmitted to the control server 200 and/or the response agency unit 300 through the communication unit 160 of the emergency bell terminal 100 is the actual voice at the scene, an emergency bell touch signal, or electromagnetic wave reception, etc. Because emergency signals or thermal infrared images are transmitted as is, it is difficult to make an accurate judgment about the actual situation in the field.

In other words, the primary transmission is made without judging whether it is a prank voice, a false voice, or a true emergency due to a prank touch.

The authenticity or accuracy of the situation is analyzed through the operation unit 260 or the motion analysis unit 280 of the control server 200 for the primary transmission content without accurate analysis or determination of the actual field situation, and then the control server 200 Can secondarily transmit the situation analysis contents to the response agency unit 300 through the transmission unit 220.

More specifically, when a user makes a voice in an emergency situation at a site where the emergency bell terminal 100 is installed, the communication unit 160 transmits the rescue request recognition collected through the microphone 110 to the control server 200 and/or the response agency unit. It is first transmitted to (300), and the firstly transmitted voice received through the receiver 210 of the control server 200 is compared and analyzed for authenticity through the operation unit 260, and the accurately analyzed content is sent to the transmitter 220. It is transmitted secondarily to the corresponding agency unit 300.

In addition, the communication unit 160 transmits the thermal infrared image collected through the thermal infrared imaging unit 190 to the control server 200 and/or the response agency regarding actions taken by the user in an emergency situation at the site where the emergency bell terminal 100 is installed. It is first transmitted to unit 300, and the primary transmitted video received through the receiver 210 of the control server 200 analyzes the exact situation through the motion analysis unit 280 and responds with the analyzed content more accurately. Secondary transmission is made to the engine unit 300.

In this way, the user's voice, emergency bell touch, electromagnetic wave reception, or behavior pattern collected at the scene is secondarily transmitted to the response agency department (300) through a more accurate situation analysis, so that each police station (301) and fire station (302) that received it , hospitals 303, etc. can reduce unnecessary dispatch, thereby enabling more efficient response and action.

The call unit 230 is configured to enable two-way communication between users in the field and the person in charge of the control server 200.

That is, an emergency situation signal generated by a user's voice through the microphone 110, touching the emergency bell button 120, or receiving electromagnetic waves from the electromagnetic wave receiver 180 when a crime or accident occurs in a place where the emergency bell terminal 100 is installed. Alternatively, when the thermal infrared image generated through the thermal infrared imaging unit 190 is first transmitted to the control server 200 through the communication unit 160 of the emergency bell terminal 100, the person in charge of the control server 200 is in charge of the call unit 230. ), you can make two-way calls with field users.

Accordingly, the communication unit 230 may include a microphone and a speaker, and may communicate through the communication unit 270.

Meanwhile, the user can make a two-way call through the communication unit 160 using the microphone 110 and speaker 150 of the emergency bell terminal 100.

The person in charge of the control server 200 can not only collect accurate information about the field situation through two-way communication with field users through the call department 230, but also increase the user's psychological stability, and in a crime situation, a crime can occur. It is also possible to prevent it from expanding.

The storage unit 240 can store voice or video patterns that have already been learned in various emergency situations.

In addition, voices or images collected in the field from users in the field through the emergency alarm terminal 100 can be stored.

In addition, monitoring result data on whether the emergency alarm terminal 100 itself is broken or malfunctioning can be stored in the control server 200.

The storage unit 240 can store voices that have already been learned in various emergency situations in order to analyze the authenticity of the voices collected through the microphone 110.

In addition, the storage unit 240 can store already learned behavioral patterns of emergency situations for comparative analysis of whether it is an emergency situation through thermal infrared images collected and transmitted through the thermal infrared imaging unit 190.

Meanwhile, the rescue request recognition code collected through the microphone 110 at the site where the emergency bell terminal 100 is installed is first transmitted through the communication unit 160 and transmitted to the receiving unit 210 of the control server 200 and then to the storage unit ( 240). By additionally storing the voices of field users in addition to the learned voices already stored in the storage unit 240, the accuracy of voice analysis for emergency situations can be increased.

In addition, the thermal infrared image of the scene collected through the thermal infrared imaging unit 190 is first transmitted through the communication unit 160, transmitted to the receiving unit 210 of the control server 200, and then stored in the storage unit 240. You can. By additionally storing thermal infrared images by field users in addition to the learned thermal infrared images already stored in the storage unit 240, the accuracy of behavioral analysis for emergency situations can be increased.

In addition, the results of monitoring conducted by the control unit 170 on the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency alarm terminal 100 in order to monitor the emergency alarm terminal 100 itself. Data is continuously stored in the storage unit 240 of the control server 200, and failure or malfunction can be continuously managed through the management unit 250.

The management unit 250 is configured to manage the emergency alarm terminal 100 through self-monitoring results regarding whether the emergency alarm terminal 100 is broken or malfunctioning.

Monitoring results of the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency alarm terminal 100 through the control unit 170 of the emergency alarm terminal 100 are transmitted through the communication unit 160. When the first transmission is made to the control server 200, it is transmitted to the receiving unit 210 of the control server 200 and then stored in the storage unit 240, and is transmitted to the microphone 110, warning light 140, and speaker of the emergency alarm terminal 100. (150), upon confirming the result of a failure or malfunction in the communication department (160), the management department (250) will notify the person in charge of the control server (200) or the response agency department (300) so that the person in charge can take action. You can.

The calculation unit 260 is configured to accurately analyze the voice collected through the microphone 110 of the emergency alarm terminal 100.

In a place where the emergency bell terminal 100 is installed, a user who encounters a crime situation, an accident situation, or an emergency patient situation, etc. has no choice but to moan or make random words, such as "Save the person," "Please help me," or "Please help me." By using rescue request words such as , you can notify the situation or ask for help through an emergency signal. The user's voice is collected through the microphone 110 of the emergency alarm terminal 100 and is initially transmitted to the control server 200 or the response agency unit 300.

In addition, the emergency signal generated by directly touching the emergency bell button 120 of the emergency bell terminal 100 can be initially transmitted to the control server 200 or the response engine unit 300.

The emergency bell terminal 100 to notify such emergency situation may be installed inside the facility, but may also be installed outside the facility unrelated to the facility.

However, there may be cases where an actual emergency situation occurs where the emergency bell terminal 100 is installed and the microphone 110 or the emergency bell button 120 is used, but the voice is recognized as a joke, completely unrelated to the emergency situation. Or, you may touch the emergency bell.

Therefore, there may be cases where it is necessary to determine the truth of an emergency situation.

Due to such indiscriminate prank voices or touching the emergency bell, incorrect emergency signal notification from the emergency bell terminal (100) to the control server (200) or the response agency unit (300) ultimately results in the error of the person in charge of each response agency unit (300). Dispatch may result in unnecessary waste of time and manpower, which may have an adverse effect rather than achieve the purpose of the emergency bell terminal (100).

Therefore, in the present invention, the user generates an emergency situation signal by recognizing the voice requesting rescue through the microphone 110, compares it with the voice learned in advance and stored in the storage unit 240, analyzes the authenticity of the emergency situation, and then responds to the emergency situation signal. Allows secondary transmission (re-notification) to sub 300.

In other words, when a user in the field first transmits an emergency signal to the control server 200 by touching only the emergency bell button 120, a two-way call between the person in charge of the control server 200 and the user is required to accurately determine the emergency situation. This is the only way to judge.

Meanwhile, in the field, when a user uses a rescue request voice while touching the emergency bell button (120) or uses only a rescue request voice without touching the emergency bell button (120) to signal an emergency situation through the microphone (110), Analyzing whether the voice collected from the microphone 110 is a prank voice by comparing it with a rescue request recognition word learned in advance and stored in the storage unit 240 achieves the purpose of the emergency alarm terminal 100 and maximizes the effect of the invention. This is a very important function to do.

In cases where a crime occurs at the scene, a sudden accident occurs, or an emergency patient such as a pregnant woman falls occurs, 'save the person', 'help me', 'help me', etc. It can also express various vocal sounds, such as moans or random words.

Therefore, the authenticity can be determined through an accurate analysis of whether the voice is a joke by comparing and analyzing it with the voice learned in various emergency situations already stored in the storage unit 240.

The communication unit 270 is configured to receive data including voice or video primarily transmitted from the communication unit 160 of the emergency bell terminal 100 or to communicate for secondary transmission to the response agency unit 300.

In addition, the communication unit 270 is a receiver 210 that receives the voice and data initially transmitted by the emergency bell terminal 100, a calculation unit 260 of the control server 200, and an operation analysis unit 280. It refers to a communication network that enables transmission and reception of the transmitting unit 220, which secondarily transmits voice or behavior patterns to the corresponding organ unit 300.

Additionally, the communication unit 230, which includes a microphone and a speaker, can make a two-way call with the user through the communication unit 270.

Like the communication unit 160 of the emergency bell terminal 100, the communication unit 270 of the control server 200 supports LTE, VoIP, Wi-Fi, Bluetooth, UWB (ultra wide band), and ZigBee ( zigbee), NFC (near field communication), power line communication (PLC), infrared communication, etc., or LTE/VoIP, LTE-based (VoLTE), or VoNR (Voice over New Radio) methods can be used.

The motion analysis unit 280 is configured to analyze and determine whether an emergency situation exists by analyzing the movement of users in the field and analyzing the situation.

When a user encounters an emergency situation such as a crime situation, an accident situation, or an emergency patient situation, voice recognition through the microphone 110 or an emergency signal through touching the emergency bell button 120 can be used. .

However, in situations where it is difficult to make a voice or move the body to the emergency bell terminal 100, it may be difficult to generate an emergency signal through voice or to continuously generate an emergency signal through an emergency bell.

In this case, after the control server 200 receives the thermal infrared image of the user through the thermal infrared imaging unit 190 of the emergency alarm terminal 100, it responds to an emergency situation through behavioral analysis through the motion analysis unit 280. You can also determine whether it was done.

At this time, thermal infrared imaging may be effective when installed in places where it is difficult to install CCTV, such as the women's restroom.

In other words, it is possible to analyze whether an emergency situation exists by comparing the received thermal infrared image with the already learned emergency situation behavior pattern stored in the storage unit 240.

For example, if a user slips inside a bathroom and momentarily faints and lies face down on the floor for a certain period of time, or if a user falls on a hiking trail and falls on the floor for a certain period of time or does not move for a certain period of time, video is obtained. Considering overall information such as time and weather, the user's behavior is learned in advance and compared with stored data to analyze and determine that it is an emergency situation.

Therefore, the motion analysis unit 280 of the control server 200, which has received the thermal infrared image of the user's behavior pattern, analyzes and determines whether the emergency situation is true or not and then transmits (re-notifies) the second transmission to the response agency unit 300. You can.

More specifically, in an emergency situation at a site where the emergency bell terminal (100) is installed, when an emergency signal is generated through voice, touching the emergency bell button (120), or receiving electromagnetic waves, the thermal infrared image by the thermal infrared imaging unit (190) is transmitted to the communication unit. (160) first transmits to the control server 200 and/or the corresponding agency unit 300, and the thermal infrared image first transmitted to the receiving unit 210 of the control server 200 is transmitted through the motion analysis unit 280. The authenticity is compared and analyzed, and the accurately analyzed content is secondarily transmitted to the corresponding agency unit 300 through the transmission unit 220.

Through this, even after the user in the field generates an emergency signal through voice through the microphone 110 or by only touching the emergency bell button 120, or generates an emergency signal through the electromagnetic wave receiver 180, thermal infrared rays Analysis of emergency situations through behavioral analysis through video can play an important role in reducing mistaken dispatch due to pranks, and thermal infrared rays can be sent to users in situations where it is impossible to touch the emergency bell button (120) or recognize the voice. Analysis of behavioral patterns, including the user's activity status or status changes using video, can play a very important function as an auxiliary means.

The response engine unit 300 of the present invention refers to an operating unit capable of responding to the emergency bell terminal 100 and the control server 200, and may be in the form of a program of a web-based system on a PC or an application or mobile phone application. It can be configured as an independent embedded system, etc.

The response agency unit 300 may include a police station 301, a fire department 302, or a hospital 303 emergency team to directly respond to emergency signals, and may be configured to respond independently or as a team. You can.

Each of the corresponding organ units 300 may include a receiving unit 310, a communication unit 320, and a corresponding unit 330.

The receiving unit 310 is configured to receive emergency signals, the communication unit 320 is configured to directly communicate with the user, and the responding unit 330 is configured to instruct dispatch to respond.

The receiving unit 310 is a component that receives from each response engine unit 300, a voice through the microphone 110 of the emergency bell terminal 100, an emergency bell signal through the emergency bell button 120, or an electromagnetic wave receiver 180. ) can be directly received through the receiver 310.

Additionally, the thermal infrared image transmitted primarily through the thermal infrared imaging unit 190 may be directly received.

In addition, each receiving unit 310 of each corresponding agency unit 300 uses the calculation unit 260 or the motion analysis unit 280 of the control server 200 for the voice or thermal infrared image primarily transmitted to the control server 200. You can also receive a secondary transmitted emergency signal after analyzing whether it is an emergency signal.

The call unit 320 is configured to allow a person in charge of each response agency unit 300 and the user to make a direct two-way call through the microphone 110 and speaker 150 of the emergency bell terminal 100. When an emergency situation signal occurs, a two-way call can be made directly with the person in charge of the control server 200, but in an emergency situation, having a two-way call with the person in charge of each response agency can provide more realistic help to users in the field.

At this time, two-way communication between the user and the person in charge of each response agency unit 300 is possible even after the first transmission is made directly from the emergency bell terminal 100 to the response agency unit 300, and the call is sent from the emergency bell terminal 100 to the control server ( Two-way communication is possible even after the first transmission to 200) and the second transmission from the control server 200 to the corresponding agency unit 300.

The response department 330 provides a quick response directly to personnel in each response agency 300, such as police at the police station 301, firefighters at the fire station 302, and emergency teams at the hospital 303, through phone calls or text messages. will be instructed.

At this time. The user's location can be directly identified through the location of the individual serial number (ID) of the emergency bell terminal 100 received through the receiver 310, and the status and specific information about the user's emergency situation are also delivered. It becomes possible.

Figure 6 shows the process of operating the alarm system through the emergency bell terminal 100, the control server 200, and the response engine unit 300 of the present invention.

As shown in FIG. 6, the flow of the warning system is described as follows.

When the user makes an emergency rescue request voice and the voice is collected through the microphone 110 of the emergency bell terminal 100, an emergency signal is generated and is controlled by the communication unit 160 of the emergency bell terminal 100. Emergency signals and voices are initially transmitted to the receiving unit 210 through the communication unit 270 of the server 200. At this time, the emergency situation signal and voice of the field user can also be transmitted directly to the receiving unit 310 of the response engine unit 300.

In addition, when the user touches the emergency bell button 120 of the emergency bell terminal 100 in an emergency situation, an emergency signal is generated, and the communication unit of the control server 200 is transmitted from the communication unit 160 of the emergency bell terminal 100. The emergency situation signal is first transmitted to the receiver 210 through 270. At this time, the emergency situation signal at the scene may be transmitted directly to the receiving unit 310 of the response engine unit 300. At this time, voice recognition through the microphone 110 or primary transmission of an emergency signal generated by the emergency bell button 120 may be performed simultaneously or separately.

In addition, when the electromagnetic wave receiver 280 recognizes and receives electromagnetic waves from the electronic anklet where the emergency bell terminal 100 is installed, an emergency situation signal is generated, and the emergency situation signal is received from the communication unit 160 of the emergency bell terminal 100. It is first transmitted to the receiving unit 210 through the communication unit 270 of the server 200. At this time, the emergency situation signal generated by the on-site electromagnetic wave receiving unit 280 may be directly transmitted primarily to the receiving unit 310 of the response engine unit 300.

In addition, the thermal infrared image of the user through the thermal infrared imaging unit 190 of the emergency alarm terminal 100 is transmitted from the communication unit 160 of the emergency alarm terminal 100 through the communication unit 270 of the control server 200. It is first transmitted to the receiving unit 210. At this time, the primary transmission can also be directly transmitted to the receiving unit 310 of the corresponding engine unit 300.

At this time, the field user uses the communication unit 160, microphone 110, and speaker 150, and the person in charge of the control server 200 uses the communication unit 270 and the call unit 230 to make a two-way call with the user. It may be possible.

In addition, field users can use the communication unit 160, microphone 110, and speaker 150, and the person in charge of the corresponding agency unit 300 can make a two-way call with the user using the communication unit 320.

In this way, the user in the field can make a two-way call with the person in charge of the control server 200 or the person in charge of the response agency unit 300.

Meanwhile, the control server 200, which has received the voice collected from field users, analyzes the voice primarily transmitted from the emergency alarm terminal 100 through the storage unit 240 and the calculation unit 260 to determine whether it is a mischief signal, etc. A more accurate signal for the user's voice can be secondarily transmitted to the reception unit 310 of the corresponding agency unit 300 through the communication unit 270 and transmission unit 220 of the control server 200.

In addition, the control server 200, which has received the thermal infrared images collected for field users, analyzes the user's thermal infrared images primarily transmitted from the emergency alarm terminal 100 through the storage unit 240 and the motion analysis unit 280. After analyzing the behavioral state, an accurate signal about the user's behavior can be secondarily transmitted to the receiving unit 310 of the corresponding agency unit 300 through the communication unit 270 and transmitting unit 220 of the control server 200. do.

The emergency situation signal can be generated by the user's voice through the microphone 110, by touching the emergency bell button 120, or by the electromagnetic wave receiving unit 180, and can be primary or secondary transmission.

That is, the primary transmission is the user's voice and emergency signal through the microphone 110, the emergency signal by touching the emergency bell button 120, the emergency signal by the electromagnetic wave receiver 180, and the thermal infrared imaging unit 190. This means transmitting the thermal infrared image from the emergency bell terminal 100 to the control server 200 or the response engine unit 300, and the secondary transmission is the analyzed voice of the user's voice and the analyzed image of the thermal infrared image. And it means transmitting an emergency situation signal from the control server 200 to the response engine unit 300.

Figure 7 shows a flowchart of operating the alarm system through the emergency bell terminal of the present invention.

As in Figure 7,

First, in the field, the user makes a sound through voice or touches the emergency bell button, or the electromagnetic wave receiver receives electromagnetic waves (S1).

Second, an emergency signal is generated by a voice from the microphone 110 of the emergency bell terminal 100, an emergency signal is generated by an emergency bell signal from the emergency bell button 120, or an emergency signal is generated by the electromagnetic wave receiver 180. An emergency signal is generated (S2).

Third, when an emergency situation signal occurs, the emergency bell terminal 100 first transmits voice, emergency situation signal, and thermal infrared image to the control server 200 and/or the response agency unit 300. (S3)

Fourth, the voice, emergency situation signal, and thermal infrared image received by the control server 200 are analyzed through the operation unit 260 or the motion analysis unit 280. (S4)

Fifth, the firstly received voice or video is analyzed and then secondarily transmitted to the response agency unit 300 (S5).

Sixth, the response agencies of each response agency unit 300, such as the police station 301, the fire department 302, and the hospital 303, notify the police, firefighters, and emergency medical staff and issue dispatch orders (S6).

The present invention directly specifies the location of the individual serial number (ID) for each emergency bell terminal (100) to facilitate the dispatch of each responding agency such as the police station (301), fire department (302), and hospital (303). there is.

In addition, each emergency bell terminal 100 whose location is specified and the nearest existing CCTV installed can be utilized.

In other words, it is not easy to monitor many CCTVs simultaneously in advance when a situation has occurred and the situation has not been notified, but when the situation in a specific area is recognized or notified through the emergency bell terminal (100), the emergency bell terminal (100) , preemptive preventive measures are possible through the control server 200 and the response agency unit 300, and when the situation in a specific area is recognized or notified through the emergency bell terminal 100, the emergency bell terminal 100 and Since it is possible to monitor the nearest CCTV, it is possible to respond much more quickly to follow-up measures, especially in crime situations when a criminal has already escaped.

As described above, the specific description of the present invention has been made through examples, but since the above-described embodiments are only explained by referring to preferred examples of the present invention, it is understood that the present invention is limited to the above-described embodiments. It should not be denied, and the scope of rights of the present invention should be understood in terms of the claims and equivalent concepts described later.

100: Emergency bell terminal
110: Microphone 120: Emergency bell button
130: Braille board 140: warning light
150: Speaker 160: Communication department
161: transmitting unit 162: receiving unit
170: Control unit 180: Electromagnetic wave receiving unit
190: Thermal infrared imaging unit
200: Control server
210: Receiving unit 211: Voice receiving unit
212: Video receiver
220: Transmitter 230: Call unit
240: storage unit 250: management unit
260: calculation unit 270: communication unit
280: Motion analysis unit
300: Response agency department 301: Police station
302: Fire Department 303: Hospital
310: Receiving unit 320: Call unit
330: response unit

Claims (4)

In the alarm system using the emergency bell terminal 100,
An emergency bell terminal (100) that generates an emergency situation signal so that users can be notified of an emergency situation in the field,
It includes a control server 200 that receives an emergency signal from the emergency bell terminal 100 and a response engine unit 300 that receives an emergency signal from the emergency bell terminal 100 or the control server 200,

The emergency bell terminal 100 includes a microphone 110, an emergency bell button 120, a Braille board 130, a warning light 140, a speaker 150, a communication unit 160, a control unit 170, and an electromagnetic wave receiver 180. Including,
The emergency bell terminal 100 is assigned an individual serial number (ID) to each terminal and specifies its location in advance, so that when an emergency situation signal occurs, the installation location of the emergency bell terminal 100 is located at the control server 200 or the response engine unit ( 300), and is automatically transmitted to
The microphone 110 is composed of a directional microphone and a long-distance voice capture microphone, recognizes the voice of the user in the field, collects rescue request recognition, and generates an emergency situation signal, and the person in charge of the control server 200 or the response agency 300 Characterized by transmitting the user's voice for two-way communication,
The emergency bell button 120 generates an emergency situation signal by touching the emergency bell button 120, and allows the type and severity of the emergency to be identified by color according to the number of touches. do,
The warning light 140 is characterized in that it illuminates the surrounding area brightly when an emergency situation signal occurs through voice collection by the microphone 110, touching the emergency bell button 120, or receiving electromagnetic waves by the electromagnetic wave receiver 180,
The speaker 150 outputs an alarm sound to notify of an emergency situation when an emergency signal occurs, and outputs the voice of the person in charge for a two-way conversation with the person in charge of the control server 200 or the person in charge of the response agency unit 300. And,
The communication unit 160 transmits an emergency situation signal through the user's voice collected through the microphone 110, by touching the emergency bell button 120, or by receiving electromagnetic waves by the electromagnetic wave receiving unit 180, to the control server 200 or the response agency. The primary transmission is made to (300), and a two-way call is enabled directly between the field user and the person in charge of the control server (200) or the corresponding agency (300),
The control unit 170 monitors the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency alarm terminal 100 for failure or malfunction, and the monitoring results are sent to the control server 200. ) is stored in the storage unit 240, and is characterized in that it manages failure or malfunction through the management unit 250,
The electromagnetic wave receiving unit 180 is characterized in that it generates an emergency situation signal by receiving electromagnetic waves generated from the electronic anklet,

The control server 200 includes a receiving unit 210, a transmitting unit 220, a communication unit 230, a storage unit 240, a management unit 250, and a communication unit 270,
The receiver 210 receives the user's voice through the microphone 110, or receives an emergency signal generated by touching the emergency bell button 120 or through the electromagnetic wave receiver 180, and operates the control unit 170. Characterized by receiving monitoring results for the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency bell terminal 100 through,
The transmitting unit 220 is characterized in that it secondary transmits the voice analyzed by the control server 200 to the corresponding agency unit 300,
The communication unit 230 is characterized in that it allows two-way communication between the user in the field and the person in charge of the control server 200,
The storage unit 240 stores in advance the voices learned in various emergency situations in order to analyze the voices collected through the calculation unit 240, and stores the rescue request recognition words of field users collected through the microphone 110. , Characterized by storing the monitoring results for the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency bell terminal 100 through the control unit 170,
When a failure or malfunction occurs in the microphone 110, warning light 140, speaker 150, and communication unit 160 of the emergency bell terminal 100, the management unit 250 is in charge of the control server 200 or the response agency unit 300. ) Characterized by notifying the person in charge,
The communication unit 270 is characterized in that it receives voice, video or data primarily transmitted from the communication unit 160 of the emergency bell terminal 100 or transmits it secondarily to the response agency unit 300.
Alarm system using smart emergency bell terminal (100) According to paragraph 1,
The control server 200 further includes a calculation unit 260,
In order to accurately analyze the voice collected through the microphone 110 of the emergency alarm terminal 100, the calculation unit 260 compares and analyzes the voice collected in various emergency situations already stored in the storage unit 240 to identify the voice as a joke. It is characterized by determining authenticity through accurate analysis of recognition,
The voice analyzed through the calculation unit 260 is secondarily transmitted to the corresponding agency unit 300 through the transmission unit 220.
Alarm system using smart emergency bell terminal (100) According to paragraph 2,
The emergency bell terminal 100 further includes a thermal infrared imaging unit 190,
The control server 200 further includes a motion analysis unit 280,
The thermal infrared imaging unit 190 generates a thermal infrared image imaging the user's activity status or status change in the field and transmits it primarily to the receiving unit 210 of the control server 200 through the communication unit 160. It is first transmitted to the receiving unit 310 of the corresponding engine unit 300,
The thermal infrared image is transmitted to the receiving unit 210 of the control server 200,
Store the transmitted thermal infrared image in the storage unit 240,
The motion analysis unit 280 compares and analyzes the learned emergency situation behavior pattern already stored in the storage unit 240 and the thermal infrared image of the field user transmitted from the firstly transmitted emergency bell terminal 100 to determine the emergency situation. identify whether,
Characterized by secondary transmission of the accurate on-site user situation to the response agency unit 300 through the communication unit 270 and the transmission unit 220.
Alarm system using smart emergency bell terminal (100) According to paragraph 3,
The response engine unit 300 is characterized in that it receives the nearest CCTV data through the specified location of the individual serial number (ID) for the emergency bell terminal 100.
Alarm system using smart emergency bell terminal (100)