KR20220002141U - System for management of the elderly person who lives alone - Google Patents

Abstract

The present invention relates to a management system for the elderly living alone (including daycare centers, monitoring facilities, etc.) using an IoT smart motion detection device using IR-UWB. to detect
The first detection unit (space A) and the second detection unit (space B) that is installed in the room where the supervisor (corresponding to the elderly living alone) and detects the condition of the supervisor are used to analyze the movement without physical contact of the supervisor. status of the management server and smart phone effectively
It is about systems that can be monitored.

Description

Management system for the elderly living alone using IoT smart motion detection device using IR-UWB {SYSTEM FOR MANAGEMENT OF THE ELDERLY PERSON WHO LIVES ALONE}

The present invention relates to a management system for the elderly living alone (including daycare centers, monitoring facilities, etc.) using an IoT smart motion detection device using IR-UWB. to detect

The first detection unit (space A) and the second detection unit (space B) that is installed in the room where the supervisor (corresponding to the elderly living alone) and detects the condition of the supervisor are used to analyze the movement without physical contact of the supervisor. status of the management server and smart phone effectively

It is about a system that can be monitored.

As we enter an aging society, the number of senior citizens living alone is increasing. Since the elderly living alone do not have a guardian who lives with them, in case of an emergency, it is easy to die without taking any special measures, which is a social problem.

In order to solve the above problems, local governments have introduced and operated a system for caring for the elderly living alone, such as periodically dispatching a life manager or social worker to a house where the elderly living alone live. However, as described above, the system using manpower is greatly inefficient due to lack of budget and time.

Recently, a system for checking the heartbeat and body temperature of the elderly living alone by attaching a sensor to a part of the body of the elderly living alone has been developed. This system has the advantage that it is possible to check the physical information of the elderly living alone in real time, and can take immediate action in case of an emergency. .

An object of the present invention is to solve the problems of the prior art, and more particularly, it is installed in the entrance area of the monitor such as the entrance and the living room to detect whether the monitor enters or not.

The first detection unit (space A) and the second detection unit (space B) that is installed in the room where the supervisor (corresponding to the elderly living alone) and detects the condition of the supervisor are used to analyze the movement without physical contact of the supervisor. status of the management server and smart phone effectively

A system for monitoring is provided.

The above problems will be further clarified in the specific content.

Looking at the configuration with reference to the attached FIG. 1 is as follows.

A motion detection sensor (IR-UWB [120a]) that detects the movement of a monitor (referred to as an elderly living alone for convenience of description in the present invention), and an image unit 120b that collects the image of the monitor;

A Wi-Fi communication unit 120d that communicates with the Wi-Fi router 120d, and a router 120d that communicates with the Wi-Fi communication unit 120d,

The information of the monitor received by the router (120d) through Internet communication

In a state in which the communication means 120g for transmitting to the monitoring unit 130, and the control unit 120c to monitor the operation of the supervisor, collect images, and transmit information to the monitoring unit through the sharer are included.

*

The motion detection sensor 120 determines that the monitor is in a normal state if the monitor continues to move within a preset time while monitoring the monitor through the control unit 120c,

If there is no movement repeatedly for more than a preset time during monitoring, it is determined that a problem has occurred to the supervisor, and the control unit 120c operates the camera to collect indoor images and monitors it through the communication unit 120d and the communication means 120g. When transmitted to the unit 130, the monitoring unit 130 checks the image through the smartphone 130b, the server 130a, and the cp of the monitoring unit, and the monitoring unit checks the status of the monitor through the image.

If the monitor is sleeping, it is judged that there is no problem, but if the video status of the monitor is down or the video of the monitor is not confirmed, it is determined that the monitor is collapsed in the bathroom and contact the relevant agency to take action. is a configuration that

According to the present invention,

More specifically, it is installed in the entrance area of the monitor such as the entrance and living room to detect the presence of the supervisor.

The first detection unit (space A) and the second detection unit (space B) that is installed in the room where the supervisor (corresponding to the elderly living alone) and detects the condition of the supervisor are used to analyze the movement without physical contact of the supervisor. effectively manage the condition of

Furthermore, it is a system that is effectively managed as it can monitor the movement of the watcher when he is in the bathroom.

1 shows the overall configuration of a management system for the elderly living alone using an IoT smart motion sensing device utilizing IR-UWB in an embodiment of the present invention;
Figure 2 shows the overall configuration of the elderly living alone management system using the IoT smart motion sensing device utilizing IR-UWB in another embodiment of the present invention,
3 and 4 are conceptual views of the present invention.
5 and 6 are reference diagrams for detecting illegal intruders as a conceptual diagram of the present invention.

Next, the configuration will be described with reference to the accompanying drawings, and embodiments thereof will be described.

A detailed description will be given of the management system for the elderly living alone using the IoT smart motion sensing device using IR-UWB of the present invention.

First, the second detection unit 120 to be described later is described. A motion detection sensor (IR-UWB[120a]) for detecting the movement of the monitor, the image unit 120b for collecting the image of the monitor,

A Wi-Fi communication unit 120d that communicates with the Wi-Fi router 120d, and a router 120d that communicates with the Wi-Fi communication unit 120d,

The information of the monitor received by the router (120d) through Internet communication

In a state in which the communication means 120g for transmitting to the monitoring unit 130, and the control unit 120c to monitor the operation of the supervisor, collect images, and transmit information to the monitoring unit through the sharer are included.

*

The motion detection sensor 120 determines that the monitor is in a normal state if the monitor continues to move within a preset time while monitoring the monitor through the control unit 120c,

If there is no movement repeatedly for more than a preset time during monitoring, it is determined that a problem has occurred to the supervisor, and the control unit 120c operates the camera to collect indoor images and monitors it through the communication unit 120d and the communication means 120g. When transmitted to the unit 130, the monitoring unit 130 checks the image through the smartphone 130b, the server 130a, and the cp of the monitoring unit, and the monitoring unit checks the status of the monitor through the image.

If the monitor is sleeping, it is judged that there is no problem, but if the video status of the monitor is down or the video of the monitor is not confirmed, it is determined that the monitor is collapsed in the bathroom and contact the relevant agency to take action. is a configuration that

The present invention is very advantageous because it can monitor the condition even to the monitor in the bathroom as described above.

The router 120f transmits information such as an image to the server 40, and the server 40 transmits the image information to an organization that can take action including a specific public institution.

Ultrawide band (UWB) in this design has many advantages such as high spatial resolution, simple transceiver, and low cost for object detection, so it detects objects (monitor) and measures distance.

In the IR-UWB signal, the object distance is calculated according to the actual arrival time of the radar signal. The IR-UWB (Motion Detection Sensor) tracking system is a sensor that finds a person who moves within the allowable range of 5cm from the set distance.

The motion detection sensor 120 of the present invention is programmed to arbitrarily adjust the set distance, so for example, it can detect a monitor within a distance of 7 meters, and if it is set to monitor only a supervisor within 5 meters, it is 5 meters The supervisor in the above is not sensed, it is a very advantageous invention because of this advantage.

Preferably, the set distance of 7 meters is preferable.

Since the present invention can detect a person in the neighborhood (in the case of an apartment, the person next door), it is preferable to coat the entire lower part of the wall between the neighbor and the monitor with a metal subtitle (not shown) or attach a metal plate (not shown)

This is because the motion sensor of the present invention is a sensor that can detect through a wall. Metal cannot pass through.

Furthermore, the length direction of the aluminum tape is attached to the wall, but the width direction of the plurality of tapes is attached to be spaced apart from each other by a predetermined distance.

The reason for doing this is that, when detecting a human body, the part where the tape is attached does not pass through the radar, and the part where the tape is not attached passes through.

If the detection is irregularly detected in this way, it is judged as a person next door. There is also a reason why the cost of attaching the tape to the entire wall is not high.

The IR-UWB signal is a wall see-through radar using the permeability of the impeller signal.

If a watcher is in the bathroom, he can monitor his movements.

In the present invention, the second detection unit 120 is not installed in the bathroom because there may be a controversy over invasion of privacy.

For this reason, the present invention monitors a supervisor using a radar sensor.

As shown in FIG. 2 , the management system 100 for the elderly living alone using the IoT smart motion sensing device utilizing the IR-UWB of the present invention includes a first detection unit 110 and a second detection unit 120 and a monitoring unit ( 130 ) and an image unit 140 .

The first detection unit 110 generates access information by detecting whether a supervisor enters and exits, and is installed on a wall, a ceiling, or the like in an area where a supervisor enters and exits. The first sensing unit 110 includes a sensor unit 111 and a first communication unit 112 .

The sensor unit 111 is provided with an infrared sensor, a motion sensor, and an IR-UWB as generating access information by detecting whether a supervisor enters or not.

Here, the access information is information on whether the monitor enters and exits the room, and is information on whether the monitor enters the room through the entrance.

The first communication unit 112 transmits access information (including image information) to the monitoring unit 130 , and is connected to the monitoring unit 130 by communication.

*

The first communication unit 112 may be provided to correspond to IoT smart motion, 3G (3-Generation) communication, or LTE (Long Term Evolution) communication standards, and may be provided in Android, Linux, or Windows. It may be provided to output information suitable for the environment. In addition, Wi-Fi communication capable of long-distance communication may be provided.

The second sensing unit 120 detects the state of the monitor to generate motion and image information, and generates an abnormal signal when it is determined that an abnormality occurs in the state of the monitor by analyzing the movement and image information, so that the monitor It is installed in the living area, living room or room. The second sensing unit 120 may be provided in plurality and installed on a wall or ceiling of a living room or room. In addition, the above-described second sensing unit 120 may include a transmitting unit 121 , a receiving unit 122 , a first generating unit 123 , a second generating unit 124 , and a second communication unit 125 . .

The second detection unit generates an abnormal signal of the movement of the monitor, and is installed in the area, the living room, or the room where the monitor resides.

The second sensing unit 120 includes a transmitter 121 and a receiver 122 and

The first generator 123 and the second generator 124 may include a second communication unit 125 corresponding to Wi-Fi communication.

The transmitter 121 operates the motion sensor through the controller as a monitor. The above-described transmitter 121 is preferably provided in plurality to improve the sensitivity and the sensing area.

The receiving unit 122 receives the radio wave reflected from the monitor, and transmits the received radio wave to the first generating unit 123 .

The first generating unit 123 generates the movement biometric information received by the receiving unit 122 .

Here, biometric information corresponds to motion information.

It is generated by the above-described transmitter 121, receiver 122, and first generator 123.

The receiving unit 122 receives the radio wave of the movement from the monitor, and transmits the received radio wave to the first generating unit 123 .

The first generating unit 123 generates the movement biometric information received by the receiving unit 122 .

Here, biometric information corresponds to motion information.

It is generated by the above-described transmitter 121 , receiver 122 , and first generator 123 .

As described above, the first generating unit 123 generates motions such that the monitor walks or sits up and down.

The second generator 124 analyzes the above-described motion information, and generates an abnormal signal when it is determined that an abnormality occurs in the state of the monitor through the analysis of the biometric information.

The second generation unit 124 analyzes the biometric information of the current monitor.

If the movement is out of the set range, an abnormal signal is generated.

The second communication unit 125 transmits the biometric information and the abnormal signal to the monitoring unit 130 , and is electrically connected to the first generation unit 123 and the second generation unit 124 , and a monitoring unit (to be described later) ( 130) is electrically connected. This second communication unit 125 may be provided to correspond to 3G (3-Generation) communication or LTE (Long Term Evolution) communication standard, and Android

(Android), Linux (Linux), it may be provided to output information suitable for Windows (Windows) environments.

According to the second sensing unit 120 including the above-described transmitting unit 121 , the receiving unit 122 , the first generating unit 123 , the second generating unit 124 , and the second communication unit 125 , the Doppler effect It is possible to generate accurate biometric information by detecting the state of the monitor even when there is no contact with the monitor by using It can be effectively dealt with in the event of an abnormality.

In addition, the second sensing unit 120 including the transmitting unit 121 , the receiving unit 122 , the first generating unit 123 , the second generating unit 124 , and the second communication unit 125 is as described above. , can be installed on the wall or ceiling of the living room or room,

To this end, not only the detection area can be effectively secured, but also an aesthetically excellent management system for the elderly living alone can be provided.

The monitoring unit 130 monitors the status of a supervisor based on the access information received from the first detection unit 110 and the biometric information received from the second detection unit 120 , and the second detection unit 120 . When an abnormal signal is received from the , a dispatch signal is generated. The generated dispatch signal is transmitted to organizations that have personnel who can be dispatched in case of emergency, such as ward offices, hospitals, and fire stations. After that, the agency that receives the dispatch signal dispatches a person in charge such as a social worker, a doctor, or a firefighter to the watcher's home to take action.

The image unit 140 creates image information about the monitor by photographing the observer. By the video unit 140, the movement of the supervisor can be effectively monitored, the monitoring effect of the supervisor can be increased by analyzing the image information, and the video information about the supervisor can be transmitted to the monitoring unit 130 in an emergency. By being transmitted to, the monitoring unit 130 can easily grasp the emergency situation.

Therefore, according to the management system 100 according to an embodiment of the present invention including the first detection unit 110, the second detection unit 120, the monitoring unit 130, and the image unit 140, It is possible to effectively monitor the condition of the supervisor without physical contact.

100: system of the present invention
110: first detection unit 111: sensor unit
112: first communication unit 120: second sensing unit
121: transmitter 122: receiver
123: first generating unit 124: second generating unit
125: second communication unit 130: monitoring unit
140: image unit

Claims (1)

A motion detection sensor (IR-UWB [120a]) for detecting the movement of the monitor, and an image unit 120b for collecting the image of the supervisor;
A Wi-Fi communication unit 120d that communicates with the Wi-Fi router 120d, and a router 120d that communicates with the Wi-Fi communication unit 120d,
The information of the monitor received by the router (120d) through Internet communication
In a state in which the communication means 120g for transmitting to the monitoring unit 130, and the control unit 120c to monitor the operation of the supervisor, collect images, and transmit information to the monitoring unit through the sharer are included.

The motion detection sensor 120 determines that the monitor is in a normal state if the monitor continues to move within a preset time while monitoring the monitor through the control unit 120c,

If there is no movement repeatedly for more than a preset time during monitoring, it is determined that a problem has occurred to the supervisor, and the control unit 120c operates the camera to collect indoor images and monitors it through the communication unit 120d and the communication means 120g. When transmitted to the unit 130, the monitoring unit 130 checks the image through the smartphone 130b, the server 130a, and the cp of the monitoring unit, and the monitoring unit checks the status of the monitor through the image.
If the monitor is sleeping, it is judged that there is no problem, but if the video status of the monitor is down or the video of the monitor is not confirmed, it is determined that the monitor is collapsed in the bathroom and contact the relevant agency to take action. A management system for the elderly living alone using an IoT smart motion detection device using IR-UWB characterized by the configuration of

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