KR20220165036A - System and method for monitoring biometrics based on positioning - Google Patents

Abstract

The present invention relates to a location-based biometric information monitoring system and method. Specifically, it is possible to respond to an emergency by grasping the biometric information and location relationship of people in a specific building or area. To this end, the location-based biometric information monitoring system according to the present invention includes: a plurality of wearable devices which measure a user's biometric information and transmit biometric information and communication signals through short-range communication; a plurality of gateways which receive biometric information and communication signals from each of the wearable devices through short-range communication and transmit the biometric information and communication signals through the Internet; and a monitoring server which stores the biometric information received through the Internet from each of the gateways, analyzes the communication signal, calculates the user's location, and calculates the biometric information distribution data based on the biometric information and the user's location.

Description

Location-based biometric information monitoring system and method {System and method for monitoring biometrics based on positioning}

The present invention relates to a location-based biometric information monitoring technology, and more particularly, to a location-based biometric information monitoring system and method capable of coping with emergency situations by identifying biometric information and location relationships of people in a specific building or area.

Due to the spread of COVID-19 infection, human life is threatened all over the world. Quarantine measures to prevent the spread of COVID-19 are being carried out in various places, and quarantine authorities are concentrating on identifying the movement of confirmed patients and blocking the spread of infection through epidemiological investigations.

In the current situation of Corona 19, people are blocked from entering the source by measuring their body temperature before entering a building or a specific area.

However, in this quarantine system, there is no way to deal with the case where a person develops a fever after entering a building or a specific area, and it is very difficult to identify close contacts by identifying the movement of a feverish person or an infected person when they are active in a building or a specific area. there is

Korean Patent Registration No. 10-1818857

The present invention was devised to solve the above problems, and an object of the present invention is to provide a system and method capable of coping with an emergency of the spread of an infectious disease by identifying biometric information and location relationships of people in a specific building or area. is to do

To this end, the location-based biometric information monitoring system according to the present invention measures the user's biometric information and transmits the biometric information and communication signals through short-range communication, and a plurality of wearable devices that transmit the biometric information through short-range communication from each wearable device. and a plurality of gateways for receiving communication signals and transmitting them through the Internet, storing biometric information received from each gateway through the Internet, analyzing the communication signals, calculating the user's location, and then calculating the user's location based on the biometric information and the user's location. and a monitoring server that calculates biometric information distribution data.

A location-based biometric information monitoring system according to the present invention includes a wearable device that measures and transmits a user's biometric information through first short-range communication, receives the biometric information from the wearable device through first short-range communication, and includes the biometric information and a communication signal. A portable terminal that transmits via second short-range communication, a gateway that receives biometric information and communication signals from the portable terminal through second short-range communication and transmits the biometric information through the Internet, and the biometric information received from the gateway through the Internet After storing and analyzing the communication signal to calculate the location of the user, a monitoring server for calculating biometric information distribution data based on the biometric information and the user's location is included.

As described above, the present invention generates biometric information distribution data by periodically measuring biometric information such as body temperature and location of people in a building or a specific area, so that in an emergency situation of infection spread, close contact located in the movement of a person with fever or an infected person It has the effect of quickly and accurately identifying the contact.

1 is a diagram showing a schematic configuration of a location-based biometric information monitoring system according to a first embodiment of the present invention.
2 is a diagram showing an internal configuration of a wearable device according to a first embodiment of the present invention.
3 is a diagram showing the configuration of a location-based biometric information monitoring system according to a second embodiment of the present invention.
Figure 4 is a diagram showing the internal configuration of the monitoring server according to an embodiment of the present invention.
5 is a view showing an example of biometric information distribution data for identifying close contacts located in the movement line of an infected person according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. The configuration of the present invention and its operational effects will be clearly understood through the following detailed description.

Prior to the detailed description of the present invention, the same components are denoted by the same reference numerals as much as possible even if they are displayed on different drawings, and detailed descriptions of well-known components may be omitted if it is determined that the gist of the present invention may be obscured. Note that do.

1 shows a schematic configuration of a location-based biometric information monitoring system according to a first embodiment of the present invention.

The location-based biometric information monitoring system according to the present invention may be implemented in a building or a specific area where people gather. Buildings or specific areas where people gather can be schools, offices, hospitals, parks, subway stations, etc.

Referring to FIG. 1 , a location-based biometric information monitoring system according to a first embodiment of the present invention is implemented in a school and is composed of a wearable device 10, a gateway 20, a monitoring server 30, and the like.

Since the location-based biometric information monitoring system according to the first embodiment of the present invention is implemented in schools, the wearable devices 10 are carried by students and teachers. The wearable device 10 may be configured in the form of a band worn on a wrist.

A plurality of gateways 20 are installed at school gates and buildings in the school, and the gateways 20 communicate with the wearable device 10 in a short distance and are connected to the monitoring server 30 through the Internet.

Each gateway 20 receives biometric information and communication signals from the wearable device 20 while performing short-range communication with the wearable device 10 and transmits them to the monitoring server 30 through the Internet. The monitoring server 30 analyzes the communication signal of the wearable device 20 to calculate the location of each wearable device 10 and generates biometric information distribution data based on the biometric information and the location.

2 shows the internal configuration of the wearable device 10 according to the first embodiment of the present invention.

Referring to FIG. 2 , the wearable device 10 includes a temperature sensor 11, a short range communication module 12, a memory 13, a display unit 14, a controller 15, and the like.

A body temperature monitoring program is stored in the memory 13 . The wearable device 10 executes a body temperature monitoring program through the controller 15 to perform a body temperature monitoring operation.

The wearable device 10 periodically measures the user's body temperature through the temperature sensor 11 and transmits the temperature value and communication signal to the gateway 20 through the short range communication module 12 . The short-range communication module 12 is a WiFi module.

Here, the communication signal means a signal including a presence signal output by the wearable device 10 in response to an excitation signal (stimulus) of the gateway 20 and identification information (ID) of the wearable device 10 .

The wearable device 10 may accumulate temperature values through a body temperature monitoring program and set a user's normal state reference temperature based on an average value derived from the accumulated temperature values. The wearable device 10 may output a warning message to the user through the display unit 14 when the measured temperature value is out of a preset normal body temperature range.

The gateway 20 is an access point (AP) for WiFi communication. A plurality of gateways 20 are installed in a building or a specific area. Each gateway 20 performs Wi-Fi communication with the wearable device 10, receives a temperature value and a communication signal (strength of the presence signal and identification information) from the wearable device 10, and transmits it to the monitoring server 30 through the Internet do.

The monitoring server 30 stores the temperature value received from each gateway 20 and analyzes the communication signal to calculate the user's location within a building or a specific area. The monitoring server 30 calculates body temperature information distribution data based on the temperature value and the user's location.

The monitoring server 30 may determine a person located around the user outside the normal body temperature range using the body temperature information distribution data. In addition, when an infected person occurs in a building or a specific area, the monitoring server 30 may classify close contacts located in the movement line of the infected person using body temperature information distribution data.

3 shows the configuration of a location-based biometric information monitoring system according to a second embodiment of the present invention.

The location-based biometric information monitoring system according to the second embodiment of the present invention is different in that a user's portable terminal is added in addition to the wearable device.

Referring to FIG. 3 , the location-based biometric information monitoring system according to the second embodiment of the present invention includes a wearable device 100, a portable terminal 200, a gateway 20, a monitoring server 30, and the like.

The wearable device 100 may be configured in the form of a band worn on a wrist. A temperature sensor 101 and a first short-distance communication module 102 are embedded in the wearable device 10 . The wearable device 100 periodically measures the user's body temperature through the temperature sensor 101 and transmits the temperature value to the portable terminal 200 through the first short-range communication module 102 . The first short-distance communication module 101 is a Bluetooth module.

The portable terminal 200 includes a first short-distance communication module 201, a second short-distance communication module 202, a memory 203, an I/O interface 204, a control unit 205, and the like.

A body temperature monitoring application is stored in the memory 203 . The portable terminal 200 executes a body temperature monitoring application through the controller 25 to receive a temperature value from the wearable device 100 through the first short-range communication module 201, and through the second short-range communication module 202 The temperature value and communication signal are transmitted to the gateway 20. The second short-distance communication module 202 is a WiFi module.

The portable terminal 200 may output a warning message to the user through the I/O interface 204 when the body temperature is out of the normal body temperature range through the monitoring application.

Each gateway 20 performs Wi-Fi communication with the portable terminal 200, receives temperature values and communication signals from the portable terminal 200, and transmits them to the monitoring server 30 through the Internet.

Similar to the first embodiment, the monitoring server 30 stores the temperature value received from each gateway 20 and analyzes the communication signal to calculate the user's location within a building or a specific area. The monitoring server 30 calculates body temperature information distribution data based on the temperature value and the user's location.

The monitoring server 30 may determine a person located around the user outside the normal body temperature range using the body temperature information distribution data. In addition, when an infected person occurs in a building or a specific area, the monitoring server 30 may classify close contacts located in the movement line of the infected person using body temperature information distribution data.

Figure 4 shows the internal configuration of the monitoring server according to an embodiment of the present invention.

Referring to FIG. 4 , the monitoring server 30 includes a database 31, a positioning unit 32, a biometric information distribution data generation unit 33, a classification unit 34, and the like.

The monitoring server 30 receives biometric information and communication signals of each wearable device from each gateway 20 through the Internet and stores them in the database 31 .

The positioning unit 32 of the monitoring server 30 analyzes the communication signals accumulated and stored in the database 31 to calculate the location of the user carrying the wearable device or portable terminal. That is, the positioning unit 32 may calculate location information of a user within a building or a specific area using the strength and identification information of the existence signal included in the communication signal and the location information (coordinate values) of the gateway.

The biometric information distribution data generation unit 33 generates biometric information distribution data using the biometric information of each user accumulated and stored in the database 31 and the location information of each user calculated by the positioning unit 32 .

5 shows an example of biometric information distribution data for identifying close contacts located in the movement line of an infected person according to an embodiment of the present invention.

Referring to FIG. 5 , each point in the biometric information distribution data represents a location of a user in a building or a specific area. Such biometric information distribution data may be generated at regular intervals.

Here, reference numeral 1 denotes a user whose biometric information is measured out of the normal range, and reference numeral 2 denotes a user whose biometric information is measured outside the normal range.

When the biometric information is the body temperature, reference numeral 1 may indicate a person with a fever of, for example, 37.5 degrees or more, and reference numeral 2 may indicate a user with a normal body temperature.

The classification unit 34 may classify a person located within a certain range 3 of the person 1 having abnormal biometric information as a close contact by using the biometric information distribution data. Specifically, by analyzing accumulated biometric information distribution data generated at regular intervals, it is possible to classify a person 2 continuously located within a certain range of the fevered person 1 as a close contact for a predetermined period of time.

The above description is merely illustrative of the present invention, and various modifications may be made by those skilled in the art without departing from the technical spirit of the present invention.

Therefore, the embodiments disclosed in the specification of the present invention are not intended to limit the present invention. The scope of the present invention should be construed by the claims below, and all techniques within the scope equivalent thereto should be construed as being included in the scope of the present invention.

Example 1
10: wearable device 11: temperature sensor
12: short-range communication module 13: memory
14: display unit 15: control unit
Second embodiment
100: wearable device 101: temperature sensor
102: first short-distance communication module 200: mobile terminal
201: first short-range communication module 202: second short-range communication module
203: memory 204: I/O interface
205: control unit
20: gateway 30: monitoring server

Claims (3)

A plurality of wearable devices that measure user's biometric information and transmit biometric information and communication signals through short-range communication;
a plurality of gateways that receive biometric information and communication signals from each of the wearable devices through short-range communication and transmit them through the Internet;
Location-based biometric information including a monitoring server that stores the biometric information received through the Internet from each of the gateways, analyzes communication signals, calculates the user's location, and then calculates biometric information distribution data based on the biometric information and the user's location. information monitoring system. A wearable device that measures and transmits user's biometric information through first short-range communication;
a portable terminal that receives biometric information from the wearable device through first short-range communication and transmits the biometric information and a communication signal through second short-range communication;
a gateway for receiving biometric information and a communication signal from the portable terminal through second short-range communication and transmitting the information through the Internet;
Location-based biometric information including a monitoring server that stores the biometric information received from the gateway through the Internet, analyzes communication signals, calculates the user's location, and calculates biometric information distribution data based on the biometric information and the user's location monitoring system. According to claim 1 or 2,
The monitoring server uses the biometric information distribution data to classify close contacts located in the movement line of the infected person.

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