KR102333576B1 - Elderly population health care system - Google Patents

Abstract

The present invention provides a sensor module 100 for collecting body information of a user; a fixing means 110 for attaching the sensor module 100 to a specific part of the user's body; and information collected from the sensor module 100 A server 200 for generating a result value by determining the posture and health status of the user based on The server 200 relates to a health management system for the elderly population that can grasp the user's status in real time by transmitting a result value to the user terminal 300 according to the user's status information collected from the sensor module.

Description

{Elderly population health care system}

The present invention relates to a health management system for an elderly population, and more particularly, to a system capable of collecting physical information of an elderly user, determining health status information, and providing it to a guardian terminal or a user terminal in real time.

Recently, the number of elderly living alone and single-person households in which only the elderly live is increasing due to nuclear familyization, low fertility and aging population. The need to establish a social safety net for the welfare of the elderly and the vulnerable has emerged from the government and welfare-related institutions, as there are limitations in the method of knowing even if an emergency occurs or an abnormality occurs in single-person households or the elderly living alone.

For this reason, as part of the welfare policy, the person in charge of nursing care services for the elderly living alone or volunteers are regularly visiting or checking the safety of the elderly by phone. However, in this series of welfare support services, it is difficult for the elderly living alone to stay permanently with them, and it is difficult to quickly know about the emergency or personal abnormalities of the elderly living alone, and it is not easy to take measures for neglecting the lonely death of the elderly living alone.

The present invention is intended to solve the above problems, and when an emergency situation occurs to an elderly user, not only can the health status of the user be notified to the guardian or manager, but also the posture and health status information can be transmitted to the terminal of the elderly user in real time. The purpose is to provide a health care system for the elderly that can provide.

However, the object of the present invention is not limited to the above-mentioned object, and another object not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides a sensor module 100 for collecting body information of a user, and a fixing means 110 for attaching the sensor module 100 to a specific part of the user's body; and the sensor module A server 200 that determines a user's posture and health status based on the information collected from 100 and generates a result value; and a user terminal 300 that receives the user's posture and health status information from the server 200 ); but, the server 200 transmits a result value to the user terminal 300 according to the user's state information collected from the sensor module.

In addition, the sensor module 100 obtains the user's movement information and heart rate information, the movement information consists of the user's motion information and the user's location information, and the motion information applies a gyro sensor to the user's motion status in real time. However, it is provided on at least one part of the user's arms and legs, and the location information is obtained by applying the GPS sensor 120 to obtain the user's location status in real time, and the user's heart rate information is applied to the heart rate sensor 130; to measure the heartbeat state of the user in real time, and the motion information, location information, and heartbeat information are provided with respective sensor ID information and a transmitter 140 to transmit a body monitoring signal for each user to the server 200 . .

The motion information includes position data of the user and rotation data generated by a gyro sensor attached to the user at each position, wherein the position data is a spatial coordinate value, and the rotation data is a rotation value generated from each spatial coordinate value characterized by being.

In addition, the server 200 includes a data transmission/reception unit 210 for transmitting and receiving the body monitoring signal; and a user DB 220 in which the sensor ID information and user information are converted into a database; and exercise items recommended according to health conditions; A health care DB 230 that classifies the exercise posture into a database; and an evaluation module 240 that detects the user's state and posture based on the body monitoring signal, and compares it with the health care DB to generate an evaluation result; and an evaluation DB 250 for storing the evaluation result generated from the evaluation module 240 together with user information, wherein the data transmitting/receiving unit 210 transmits the body monitoring signal received from the transmitting unit 140 to the It is stored in the user DB 220 , and the body monitoring signal is transmitted to the evaluation module 240 .

In addition, the user terminal 300 includes a user terminal 310 of the user with a sensor attached; and a guardian terminal 320 for checking and managing the user's health condition, but stored in the user DB 220 The user information includes sensor ID and ID information of the user terminal 310 registered for the sensor ID, and ID information of the guardian terminal 320 registered in advance to match the one or more sensor IDs.

In addition, the server 200 transmits the exercise space setting request signal to the user terminal 310 through the data transceiver 210 and the user terminal 310 that receives the exercise space setting request signal, The exercise space location information is generated based on the GPS value of a place to be set as a space, and the generated exercise space location information is transmitted to the server 200, but the data transmission/reception unit 210 of the server 200 is configured to perform the exercise. The spatial location information is received, and the received exercise spatial location information is stored in the user DB 220 .

In addition, the evaluation module 240 receives the body monitoring signal from the data transceiver 210 and collates the user IDs in the user DB 220. When the matching results match, the user's health status and user information read out

In addition, the evaluation module 240 determines whether the exercise space location information and the user location information match, but if the determination result is consistent, the user's health condition is compared in the healthcare DB 230 to recommend the user's health condition The exercise item and exercise posture information are read, and the read recommended exercise item and exercise posture information is transmitted to the data transceiver 210 together with the guardian terminal ID or ID information of the user terminal.

In addition, the evaluation module 240 compares the movement information included in the body monitoring signal with the healthcare DB 230, detects the exercise item and exercise posture that the user is currently performing, and matches the recommended exercise item and exercise posture with the recommended exercise item and exercise posture. determine whether they match.

In addition, when the detected exercise item and exercise posture do not match the recommended exercise item and exercise posture, the evaluation module 240 includes the recommended exercise item and exercise posture information read from the healthcare DB and the detected exercise item of the user. and comparing the exercise posture information to determine an abnormal motion, and generate an evaluation result according to the frequency of occurrence of the abnormal motion.

In addition, the evaluation module 240 generates correction data based on recommended exercise items and exercise posture information that can correct the abnormal motion information, but uses the generated correction data with the ID information of the guardian terminal ID or user terminal and Together with the data transmission/reception unit 210, the data transmission/reception unit 210 transmits the calibration data to the guardian terminal or user terminal having the ID information of the guardian terminal ID or user terminal.

In addition, the server 200 reads the location information from the body monitoring signal collected in real time, and compares the read location information with the exercise space location information stored in the user DB 220, but the location information is derived from the exercise space location information. If the user falls more than a certain distance, it is determined that the user has finished the exercise, the user information is read from the user DB 220, and the exercise completion signal is generated, but the read user information and the exercise completion signal are transmitted to the data transceiver 210 through the user terminal.

In addition, the user terminal that has received the exercise completion signal displays an evaluation result confirmation request window that generates an acceptance or rejection result value, but when an acceptance result value is generated from the evaluation result confirmation request window, the period for inquiring the evaluation result An inquiry period input window for collecting information is displayed, and when period information is collected from the inquiry period input window, an evaluation result inquiry request signal is generated based on the period information and transmitted to the server 200 .

In addition, the data transmitting and receiving unit 210 of the server 200 receives the evaluation result inquiry request signal, and based on the period information included in the evaluation result inquiry request signal, the evaluation DB 250 for the corresponding period. The evaluation result is read and the read evaluation result is transmitted to the user terminal through the data transceiver 210 .

In addition, the user DB (220); reading the location information and calculating the amount of activity based on the moving distance of the user for a time set by the user; If the activity value calculated by the calculation unit 260 does not exist, it is determined that an abnormality has occurred in the health condition of the user, but the ID information and real-time location information of the guardian terminal 320 are read from the user DB 220 to ensure health. A status check request message is generated and the health status check request message is transmitted to the guardian terminal 320 through the data transceiver 210 .

In addition, the server 200 generates an activity recommendation message based on the current activity amount and target activity amount information when the activity value calculated by the operation unit 260 is less than or equal to the target activity amount, and the user DB 220 uses the user terminal 310 ) reads the ID information and transmits the activity recommendation message to the user terminal 310 through the data transceiver 210 .

In addition, the evaluation module 240 determines that the user's heart rate information is classified as below extreme <normal <normal <normal <normal <extreme or greater>. It is determined that there is an abnormality, reads the location information from the body monitoring signal collected in real time, generates an emergency message based on the read location information, and compares the sensor ID information with the user DB 220 It is characterized in that the guardian terminal ID is read and an emergency message is transmitted to the guardian terminal through the data transmission/reception unit 210 .

In more detail, the evaluation module 240 measures the heart rate at least ten times when the user is in a stable state, calculates an average value of the measured values, and sets the heart rate as 'normal' heart rate information.

The evaluation module is based on the user's heart rate information included in the body monitoring signal,

The amount of activity of the exercise item is calculated, but the activity amount of the exercise item is characterized in that it is classified as exercise 1st stage < exercise 2 stage < exercise 3 stage.

In addition, when the user is in an exercise state, the evaluation module 240 measures the heart rate of the user at least ten times in the exercise state, calculates an average value of the measured values, and calculates the heart rate in the 'exercise' state while the exercise state is in progress. Set as heart rate information.

The evaluation module 240 is

If the user's exercise state occurs more than the reference number of times during the set period, reset the user's 'exercise' state heart rate information.

At this time, when the reset 'exercise' state heart rate information is lower than the initially set 'exercise' state heart rate information, the activity amount of the exercise is transferred to the upper stage.

In addition, the fixing means 110; is characterized in that it may be made of fabric or synthetic resin or other material.

The features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.

Prior to this, the terms or words used in the present specification and claims should not be construed in a conventional and dictionary meaning, and the inventor may properly define the concept of the term to describe his invention in the best way. Based on the principle that there is, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

As described above, according to the present invention, by checking the health status of the elderly user in real time, it is possible to not only respond quickly to emergency situations, but also improve the health of the user by providing exercise information suitable for the health condition of the elderly user. there is an effect

1 schematically shows the configuration of a health care system for the elderly population of the present invention.
2 is a flowchart illustrating a method of storing exercise space location information in a user DB of the present invention.
3 is a flowchart illustrating a method of providing an exercise item and an exercise posture suitable for a user based on a body monitoring signal collected from a sensor module of the present invention.
4 is a flowchart illustrating a process of transmitting evaluation result information to a user terminal when a user of the present invention completes an exercise in an exercise space.
5 is a flowchart illustrating a method of transmitting a message to a guardian terminal or a user terminal according to an activity value calculated by the operation unit of the present invention.
6 is a flowchart illustrating a method of determining a user's status based on a heart rate of health status information collected from a sensor module of the present invention and transmitting a message to a guardian terminal according to the user's status.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

In addition, the following embodiments do not limit the scope of the present invention, but are merely exemplary of the elements presented in the claims of the present invention, and are included in the technical spirit throughout the specification of the present invention and constitute the scope of the claims Embodiments including substitutable elements as equivalents in elements may be included in the scope of the present invention.

1 schematically shows the configuration of a health care system for the elderly population of the present invention.

1, the present invention provides a sensor module 100 for collecting body information of a user; a fixing means 110 for attaching the sensor module 100 to a specific part of the user's body; and the sensor module ( A server 200 that determines the posture and health state of the user based on the information collected from 100) and generates a result value; and a user terminal 300 that receives the posture and health state information of the user from the server 200 ; but, the server 200 transmits a result value to the user terminal 300 according to the user's state information collected from the sensor module.

In addition, the sensor module 100 obtains the user's movement information and heart rate information, the movement information consists of the user's motion information and the user's location information, and the motion information applies a gyro sensor to the user's motion status in real time. However, it is provided on at least one part of the user's arms and legs, and the location information is obtained by applying the GPS sensor 120 to obtain the user's location status in real time, and the user's heart rate information is applied to the heart rate sensor 130; to measure the heartbeat state of the user in real time, and the motion information, location information, and heartbeat information are provided with respective sensor ID information and a transmitter 140 to transmit a body monitoring signal for each user to the server 200 . .

The user DB 220 may further include a calculation unit 260 that reads the location information from the user and calculates the amount of activity based on the moving distance of the user for a time set by the user.

To explain this in more detail, in the above, the motion information includes the user's position data and rotation data generated by the gyro sensor attached to the user at each of the positions, wherein the position data is a spatial coordinate value, and the rotation data is It is characterized in that it is a rotation value generated from each spatial coordinate value.

In addition, the server 200 includes a data transmission/reception unit 210 for transmitting and receiving the body monitoring signal; and a user DB 220 in which the sensor ID information and user information are converted into a database; and exercise items recommended according to health conditions; A health care DB 230 that classifies the exercise posture into a database; and an evaluation module 240 that detects the user's state and posture based on the body monitoring signal, and compares it with the health care DB to generate an evaluation result; and an evaluation DB 250 for storing the evaluation result generated from the evaluation module 240 together with user information.

And in the above, the user terminal 300 includes the user terminal 310 of the user to which the sensor is attached; and the guardian terminal 320 for checking and managing the health condition of the user; including, but stored in the user DB 220 The user information includes sensor ID and ID information of the user terminal 310 registered for the sensor ID, and ID information of the guardian terminal 320 registered in advance to match the one or more sensor IDs.

In the above, the user terminal is a terminal used by an elderly user.

In addition, the guardian terminal is characterized in that it is a terminal used by an actual guardian who protects the elderly user or an administrator who manages the health status of the elderly user.

In addition, the fixing means 110; is characterized in that it may be made of fabric or synthetic resin or other material.

2 is a flowchart illustrating a method of storing exercise space location information in a user DB of the present invention.

Referring to FIG. 2 , the server 200 transmits an exercise space setting request signal to the user terminal 310 through the data transceiver 210 and receives the exercise space setting request signal from the user terminal 310 ), generates exercise space location information based on the GPS value of a place to be set as an exercise space, and transmits the generated exercise space position information to the server 200, but the data transceiver 210 of the server 200 ) receives the exercise space location information, and stores the received exercise space location information in the user DB 220 .

3 is a flowchart illustrating a method of providing an exercise item and an exercise posture suitable for a user based on a body monitoring signal collected from a sensor module of the present invention.

Referring to FIG. 3 , the data transceiver 210 stores the body monitoring signal received from the transmitter 140 in the user DB 220 , and transmits the body monitoring signal to the evaluation module 240 . .

In addition, the evaluation module 240 receives the body monitoring signal from the data transceiver 210 and collates the user IDs in the user DB 220. When the matching results match, the user's health status and user information read out

In addition, the evaluation module 240 determines whether the exercise space location information and the user location information match, but if the determination result is consistent, the user's health condition is compared in the healthcare DB 230 to recommend the user's health condition The exercise item and exercise posture information are read, and the read recommended exercise item and exercise posture information is transmitted to the data transmitting/receiving unit 210 together with the guardian terminal ID or ID information of the user terminal.

In the above, the evaluation module 240 compares the movement information included in the body monitoring signal with the healthcare DB 230 to detect the exercise item and exercise posture that the user is currently performing, and compares the movement information included in the body monitoring signal with the recommended exercise item and exercise posture. determine whether they match.

In addition, when the detected exercise item and exercise posture do not match the recommended exercise item and exercise posture, the evaluation module 240 includes the recommended exercise item and exercise posture information read from the healthcare DB and the detected exercise item of the user. and comparing the exercise posture information to determine an abnormal motion, and generate an evaluation result according to the frequency of occurrence of the abnormal motion.

In addition, the evaluation module 240 generates correction data based on recommended exercise items and exercise posture information that can correct the abnormal motion information, but uses the generated correction data with the ID information of the guardian terminal ID or user terminal and Together with the data transmission/reception unit 210, the data transmission/reception unit 210 transmits the calibration data to the guardian terminal or user terminal having the ID information of the guardian terminal ID or user terminal.

4 is a flowchart illustrating a process of transmitting evaluation result information to a user terminal when a user of the present invention completes an exercise in an exercise space.

Referring to FIG. 4 , the server 200 reads the location information from the body monitoring signal collected in real time, and compares the read location information with the exercise space location information stored in the user DB 220, but the location information is exercised. When the user is more than a certain distance away from the spatial location information, it is determined that the user has finished the exercise, the user information is read from the user DB 220, the exercise completion signal is generated, but the read user information and the exercise completion signal are transmitted to the data transceiver unit It is transmitted to the user terminal through 210 .

In addition, the user terminal that has received the exercise completion signal displays an evaluation result confirmation request window that generates an acceptance or rejection result value, but when an acceptance result value is generated from the evaluation result confirmation request window, the period for inquiring the evaluation result An inquiry period input window for collecting information is displayed, and when period information is collected from the inquiry period input window, an evaluation result inquiry request signal is generated based on the period information and transmitted to the server 200 .

In addition, the data transmitting and receiving unit 210 of the server 200 receives the evaluation result inquiry request signal, and based on the period information included in the evaluation result inquiry request signal, the evaluation DB 250 for the corresponding period. The evaluation result is read and the read evaluation result is transmitted to the user terminal through the data transceiver 210 .

5 is a flowchart illustrating a method of transmitting a message to a guardian terminal or a user terminal according to an activity value calculated by the operation unit of the present invention.

Referring to FIG. 5 , when the activity value calculated by the operation unit 260 does not exist, the server 200 determines that an abnormality has occurred in the health condition of the user, but the user DB 220 determines the guardian terminal 320 ) reads the ID information and real-time location information to generate a health status check request message and transmits the health status check request message to the guardian terminal 320 through the data transceiver 210 .

In addition, the server 200 generates an activity recommendation message based on the current activity amount and target activity amount information when the activity value calculated by the operation unit 260 is less than or equal to the target activity amount, and the user DB 220 uses the user terminal 310 ) reads the ID information and transmits the activity recommendation message to the user terminal 310 through the data transceiver 210 .

6 is a flowchart illustrating a method of determining a user's status based on a heart rate of health status information collected from a sensor module of the present invention and transmitting a message to a guardian terminal according to the user's status.

Referring to FIG. 6 , the evaluation module 240 determines that the user's heart rate information is classified as below extreme <normal <normal <normal <normal> or greater than extreme. It is determined that there is an emergency or an abnormality in the body, the location information is read from the body monitoring signal collected in real time, an emergency message is generated based on the read location information, and the sensor ID information is stored in the user DB (220). ) and reads the guardian terminal ID and transmits an emergency message to the guardian terminal through the data transmitting and receiving unit 210 .

In more detail, the evaluation module 240 measures the heart rate at least ten times when the user is in a stable state, calculates an average value of the measured values, and sets the heart rate as 'normal' heart rate information.

The evaluation module is based on the user's heart rate information included in the body monitoring signal,

The amount of activity of the exercise item is calculated, but the activity amount of the exercise item is characterized in that it is classified as exercise 1st stage < exercise 2 stage < exercise 3 stage.

In addition, when the user is in an exercise state, the evaluation module 240 measures the user's heart rate at least ten times in the exercise state, calculates an average value of the measured values, and calculates the heart rate as 'exercise' while the exercise state is in progress. Set as state heart rate information.

The evaluation module 240 resets the user's 'exercise' state heart rate information when the user's exercise state occurs more than a reference number of times during a set period, but at this time, the reset 'exercise' state heart rate information is initially set in the 'exercise' state When it is lower than the heart rate information, it is characterized in that the activity amount of the exercise is transferred to the upper stage.

For example, if the amount of activity of the exercise that the user proceeds with is the first stage of exercise, the initially measured 'exercise' state heart rate information is 170 to 200.

When the user is in a healthy state by repeatedly exercising for a certain period of time, the re-measured 'exercise' state heart rate information is 150 to 170 when the amount of activity of the same exercise is the first stage of exercise.

Therefore, it can be known that the user's health condition has improved through exercise, and it is preferable to induce the amount of activity in the exercise that the user proceeds to the upper stage, the second stage of exercise.

Although the present invention has been described in detail through specific examples, this is intended to describe the present invention in detail, and the present invention is not limited thereto, and by those of ordinary skill in the art within the technical spirit of the present invention. It is clear that the modification or improvement is possible.

All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific protection scope of the present invention will be clarified by the appended claims.

100 Sensor module 110 Fixing means
120 GPS sensor 130 Heart rate sensor
140 Transmitter 200 Server
210 Data Transceiver 220 User DB
230 Healthcare DB 240 Evaluation Module
250 evaluation DB 260 calculation part
300 user terminal 310 user terminal
320 Guardian Terminal

Claims (7)

The sensor module 100 for collecting the user's body information; And
Fixing means 110 for attaching the sensor module 100 to a specific part of the user's body; and
A server 200 that determines a user's posture and health status based on the information collected from the sensor module 100 and generates a result value; and
Including a; user terminal 300 for receiving the user's posture and health status information from the server 200;
The server 200 transmits a result value to the user terminal 300 according to the user's state information collected from the sensor module,
The sensor module 100 obtains the user's motion information and heart rate information, wherein the motion information consists of the user's motion information and the user's location information.
The motion information is applied to the gyro sensor to obtain the user's motion state in real time, but is provided on at least one of the user's arms and legs, and the location information applies the GPS sensor 120 to the user's location status in real time. to acquire
The heart rate information of the user is applied to the heart rate sensor 130 to measure the heart rate state of the user in real time. Transmitting a body monitoring signal to the server 200,
The motion information includes user position data and rotation data generated by a gyro sensor attached to the user at the user's position, wherein the position data is a spatial coordinate value, and the rotation data is a rotation value generated from each spatial coordinate value is,
The server 200 is
A data transceiver 210 for transmitting and receiving the body monitoring signal; and
A user DB 220 in which the sensor ID information and user information are databased; and
Health care DB (230); and
An evaluation module 240 for detecting the user's state and posture based on the body monitoring signal and generating an evaluation result by comparing it with the healthcare DB; and
The evaluation DB 250 for storing the evaluation result generated from the evaluation module 240 together with user information;
The data transmitting/receiving unit 210 stores the body monitoring signal received from the transmitting unit 140 in the user DB 220, and transmits the body monitoring signal to the evaluation module 240,
The user terminal 300 is a terminal 310 that is used by a user with a sensor attached; and
A guardian terminal 320 for checking and managing the health status of the user; including;
The user information stored in the user DB 220 includes the sensor ID and the ID information of the user terminal 310 registered for the sensor ID, and the ID of the guardian terminal 320 registered in advance to match the one or more sensor IDs. contains information;
The server 200 is
Transmitting the exercise space setting request signal to the user terminal 310 through the data transmitting and receiving unit 210;
The user terminal 310 that has received the exercise space setting request signal generates exercise space location information based on the GPS value of a place to be set as an exercise space, and transmits the generated exercise space location information to the server 200 . send,
The data transceiver 210 of the server 200 receives the exercise space location information, and stores the received exercise space location information in the user DB 220,
The evaluation module 240 receives the body monitoring signal from the data transceiver 210
When the user ID is collated in the user DB 220 and the matching result is the same,
It reads the user's health status and user information,
In addition, the evaluation module 240 determines whether the exercise space location information and the user location information match, but if the determination result is consistent, the user's health condition is compared in the healthcare DB 230 to recommend the user's health condition The exercise item and exercise posture information are read, and the read recommended exercise item and exercise posture information is transmitted to the data transmitting/receiving unit 210 together with the guardian terminal ID or ID information of the user terminal,
In addition, the evaluation module 240 compares the movement information included in the body monitoring signal with the healthcare DB 230, detects the exercise item and exercise posture that the user is currently performing, and matches the recommended exercise item and exercise posture with the recommended exercise item and exercise posture. to determine whether they match,
In addition, when the detected exercise item and exercise posture do not match the recommended exercise item and exercise posture, the evaluation module 240 includes the recommended exercise item and exercise posture information read from the healthcare DB and the detected exercise item of the user. and comparing the exercise posture information to determine an abnormal motion and generate an evaluation result according to the frequency of occurrence of the abnormal motion,
In addition, the evaluation module 240 generates correction data based on recommended exercise items and exercise posture information that can correct the abnormal motion information, but uses the generated correction data with the ID information of the guardian terminal ID or user terminal and Together with the data transmission and reception unit 210, the data transmission and reception unit 210 transmits the calibration data to the guardian terminal ID or the user terminal having the ID information of the guardian terminal ID or user terminal,
In addition, the server 200 reads the location information from the body monitoring signal collected in real time, and compares the read location information with the exercise space location information stored in the user DB 220, but the location information is derived from the exercise space location information. If the user falls more than a certain distance, it is determined that the user has finished the exercise, the user information is read from the user DB 220, and the exercise completion signal is generated, but the read user information and the exercise completion signal are transmitted to the data transceiver 210 to the user terminal through
In addition, the user terminal that has received the exercise completion signal displays an evaluation result confirmation request window that generates an acceptance or rejection result value, but when an acceptance result value is generated from the evaluation result confirmation request window, the period for inquiring the evaluation result Displays an inquiry period input window for collecting information, and when period information is collected from the inquiry period input window, an evaluation result inquiry request signal is generated based on the period information and transmitted to the server 200,
In addition, the data transmitting and receiving unit 210 of the server 200 receives the evaluation result inquiry request signal, and based on the period information included in the evaluation result inquiry request signal, the evaluation DB 250 for the corresponding period. Reading the evaluation result, and transmitting the read evaluation result to the user terminal through the data transceiver 210,
In addition, the user DB (220); reading the location information and calculating the amount of activity based on the moving distance of the user for a time set by the user; If the activity value calculated by the calculation unit 260 does not exist, it is determined that an abnormality has occurred in the health condition of the user, but the ID information and real-time location information of the guardian terminal 320 are read from the user DB 220 to ensure health. Generates a status check request message and transmits the health status check request message to the guardian terminal 320 through the data transceiver 210,
In addition, the server 200 generates an activity recommendation message based on the current activity amount and target activity amount information when the activity value calculated by the operation unit 260 is less than or equal to the target activity amount, and the user DB 220 uses the user terminal 310 ) reads the ID information and transmits the activity recommendation message to the user terminal 310 through the data transceiver 210,
In addition, the evaluation module 240 determines that the user's heart rate information is classified as below extreme <normal <normal <normal <normal <extreme or greater>. It is determined that there is an abnormality, reads the location information from the body monitoring signal collected in real time, generates an emergency message based on the read location information, and compares the sensor ID information with the user DB 220 Reads the guardian terminal ID and transmits an emergency message to the guardian terminal through the data transceiver 210,
The evaluation module 240 measures the heart rate at least ten times in a stable state of the user, calculates an average value of the measured values, and sets the corresponding heart rate as 'normal' state heart rate information,
In addition, the evaluation module is based on the user's heart rate information included in the body monitoring signal,
The amount of activity of the exercise is calculated, but the activity amount of the exercise is classified into exercise 1st stage < exercise 2 stage < exercise 3 stage,
In addition, when the user is in an exercise state, the evaluation module 240 measures the heart rate of the user at least ten times in the exercise state, calculates an average value of the measured values, and calculates the heart rate in the 'exercise' state while the exercise state is in progress. set as heart rate information,
In addition, the evaluation module 240 is
If the user's exercise state occurs more than the reference number of times during the set period, reset the user's 'exercise' state heart rate information.
At this time, if the reset 'exercise' state heart rate information is lower than the initially set 'exercise' state heart rate information, the elderly population health management system, characterized in that the activity amount of the exercise is transferred to a higher stage.

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