KR20160038915A - Healthcare System using Bio Signal - Google Patents

Abstract

The present invention relates to a healthcare system for acquiring non-restraint bio-information. The present invention aims to mount bio-information sensors on a vehicle, a chair, a bed, and a watch mainly used by a user in every day, receive the bio-information from each of the bio-information sensors, calculate physical conditions or stress of the user, and give feedback to the user. The healthcare system for acquiring the non-restraint bio-information comprises: a vehicle bio-information processor which calculates a physical condition, a stress condition, and an emotional condition by using a user′s bio-signals acquired from a vehicle steering wheel and a driver seat; a chair bio-information processor which calculates a physical condition, a stress condition, an emotional condition, and a sitting posture condition by using bio-signals acquired from a chair; a bed bio-information processor which calculates a physical condition and a stress condition by using a bio-signal from a bed; a wrist-typed bio-information processor which acquires bio-signals from a wrist and calculates a physical condition, a stress condition, and an emotional condition; a bio-information processing terminal which wirelessly receives the physical conditions, the stress conditions, and posture data transmitted by each of the bio-information processors, analyzes the stress condition and the emotional condition with respect to each state and time, and displays the analysis result on a screen; and a healthcare server which receives the data from the bio-information processing terminal and stores and provides the data.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a healthcare system using bio-

The present invention relates to a bio-information acquisition and health management system in a non-restrained state, in which bio-information obtained from a bio-information acquiring device mounted on an apparatus or apparatuses used in a user's daily life is analyzed, Stress, emotion, and the like of the user.

Due to the recent rapid development of electronic technology and information and communication technology, it is providing convenience to people in various fields. Especially, it is utilized in medical instruments and systems, and the field of Ubiquitous Healthcare, which is very useful for human health management, is rapidly developing.

That is, a healthcare service such as a remote sensing of a user's health state, stress and health state and informing an emergency using a biometric information sensor, advanced wireless communication, or a medical device is performed in a home network environment.

For the conventional in-home healthcare service, a u-healthcare service system using a home network is disclosed in Korean Patent Laid-Open No. 10-2008-0035364 (Ubiquitous Healthcare Service System using Home Network).

 1 is a block diagram of a ubiquitous healthcare service system using a domestic wired and wireless communication network according to the related art. The ubiquitous healthcare service includes a home ubiquitous healthcare service terminal system 11 interconnected with the Internet 10, a ubiquitous healthcare service server The system 12, the medical institution system 13, and the health club system 14.

That is, the ubiquitous healthcare service system includes a home ubiquitous healthcare terminal (terminal) system 11 and a ubiquitous healthcare server (server) system 12 located in the user's home. And is also connected to the medical institution system 13 and the health club system 14 via the Internet.

The Ubiquitous healthcare service system according to the related art collects and transmits biometric information by using a wired / wireless communication network at home, thereby allowing the U-healthcare center to measure the user's biometric information and measure the user's health So that the user can check his / her health condition and recognize the health condition.

That is, in transmitting the biometric information measured by the user through the measuring device periodically to the ubiquitous healthcare server system through the wired / wireless communication network, the user can automatically transmit the biometric information data The Ubiquitous healthcare server system systematically and integrally manages the transmitted biometric information and periodically analyzes measurement information to provide customized information necessary for the user .

However, the ubiquitous health care service system according to the related art can be realized only when a service terminal system is built in the home. That is, biometric information measured from a plurality of biometric information sensors is transmitted to an U-health care center transmitted through an access point to the U-health care center, and analyzed, and it is necessary to construct a system which is confirmed by a home computer or a medical institution system. There is a problem in that a complicated system must be constructed to receive the service.

Accordingly, the present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a biometric information sensor in a vehicle, a chair, a bed, Or a personal computer, so as to calculate a health state or stress of the user according to a situation and provide feedback to a user.

In order to achieve the object of the present invention, a healthcare system through acquisition of unrestrained biometric information acquires biometric information in a non-restricting state during operation, work, sleep, and movement of a user and displays a health state, a stress state, A stress state and an emotion state from a bio-signal obtained from a bio-signal sensor mounted on a steering wheel and a driver's seat during operation of the user, wherein the bio- An information processing device; A chair biometric information processing device for calculating a health state, a stress state, an emotion state, and a sitting posture state from a bio-signal acquired from a bio-signal sensor mounted on a chair of the user's work; A bed biometric information processing device for calculating a health condition and a stress condition from a bio-signal obtained from a bio-signal sensor mounted on a bed during sleep of the user; A wrist type biometric information processing device for acquiring a biometric signal from the wrist during movement of the user to calculate a health state, a stress state, and an emotional state; A bio-information processing terminal for wirelessly receiving the health state, the stress state, the emotion state, and the attitude data acquired by each of the bio-information processing devices and analyzing the stress state and the emotion state according to each situation and time, and displaying on the screen; And a health care server for receiving, storing, and providing health information, stress analysis parameters, and attitude data from the bio-information processing terminal.

Here, the biometric information processing terminal is a smart phone, a smart pad, or a personal computer.

The healthcare system according to the present invention includes a driver's seat, a chair sitting at work, a seat for sleeping, an electrocardiogram sensor or a blood oxygen saturation sensor, and a skin electrical resistance sensor. Using the obtained bio-signals, the heart rate, stress state, and emotional state per minute during moving or during exercise are measured using the wrist-watch-type bio-signal acquisition device with built-in bio-signal acquisition sensor as well as the heart rate per minute, The user can grasp his / her health state, stress state, and emotion state at a glance by time and situation by displaying it on a smart phone or a personal computer of the user.

In addition, from the pressure distribution values input through the plurality of pressure sensors mounted at regular intervals on the seat plate and the back plate of the chair, the posture state when sitting is calculated and displayed on the smartphone or the personal computer, There is an effect to be able to do.

1 is a block diagram of a ubiquitous healthcare service system using a domestic wired and wireless communication network according to the related art,
2 is a configuration diagram of a health care system through acquisition of uncontrolled biometric information according to an embodiment of the present invention.

The configuration and operation of the healthcare system through the acquisition of the non-restrained biometric information according to the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram of a health care system through acquisition of non-restrained biometric information according to an embodiment of the present invention. The biometric signal sensor 111, A stress state and an emotion state from the bio-signals obtained from the bio-signal sensors 121 to 123 mounted on the chair of the user during the work of the user, And a living body information processing device (120) for calculating a sitting state and an attitude state, and a living body state information obtaining device for obtaining health state and stress from the living body signals obtained from the living body signal sensors (131) and (132) (PPG) and skin electrical resistance (GSR) obtained from the living body signal sensor 141 on the wrist during the movement of the user to obtain health information A wrist biometric information processing device 140 for calculating a physical state, a stress state, and an emotional state of the subject, and a health state, a stress state, an emotional state, and attitude data acquired by the respective biometric information processing devices 110 to 140 A bio-information processing terminal 150 for analyzing stress states and emotional states according to each situation and time and displaying them on a screen; and a health information receiving unit 150 receiving health state information, stress analysis parameters and attitude data from the bio- A healthcare server 160 that stores and provides information on health, stress, emotional state, and the like of a user who is logged in and logged on through the Internet.

Here, the biometric information processing terminal 150 may be a smart phone (smart pad), a personal computer, or the like. When the user is sitting on a chair, data may be transmitted through a personal computer and displayed on a monitor.

The electrocardiograph sensor installed on the driver's seat of the vehicle, the backrest / seat of the chair, and the bed is a capacitance ECG sensor (cECG) which is measured by a cloth electrode and can be measured even when the user wears clothes.

The health state information is used to check the health state of the user by an R-peak calculated through an electrocardiogram (ECG) or a blood oxygen saturation (PPG), and a heart rate (HR) calculated through RRI.

The operation of the healthcare system through the acquisition of the non-restraint biometric information according to the present invention will now be described in detail with reference to FIG.

First, the present invention includes a living body signal sensor mounted on a vehicle, a chair, a bed, and a clock type biometric information terminal, and calculates the heart rate (HR), stress, and emotional state per minute Transmitted to the user's biometric information processing terminal for display, and transmitted to the healthcare server 160.

The biometric information processing device 110 mounted on the vehicle carries out the processing of the living organism signal from the handle biometric signal sensor part 111 constituted by an ECG sensor (ECG), a blood oxygen saturation sensor (PPG) and a skin electric resistance sensor (GSR) Signals ECG, PPG, and GSR, and receives electrocardiogram signals obtained through a fabric electrode type electrocardiograph sensor unit (cECG) mounted on the seat plate of the driver's seat and the back plate.

The vehicle biometric information processing device 110 calculates health status information HR and parameters for stress analysis (R-peak, RRI, LF, HF, SDNN, etc.) from the input ECG signal (ECG) Calculates the stress index (LF / HF) by calculating the calculated parameters, and determines the stress state of the user through the stress index. The emotion state is calculated using the stress index and obtained skin electrical resistance (GSR) data.

The emotion state determination method is disclosed in Korean Patent Application No. 10-2010-0101844 filed by the applicant of the present invention (an emotion state analysis apparatus and method according to a user's bio signal analysis).

The health state (HR), the stress state, and the emotion state data of the user calculated by the vehicle bio-information processing device 110 are transmitted to the smartphone 150 of the user by using wireless communication such as Bluetooth or Zigbee do.

The smartphone 150 displays a health state, a stress state, and an emotion state on the screen in real time through the biometric information of the driver of the vehicle.

The chair biometric information processing apparatus 120 installed in the chair receives the electrocardiogram signal cECG input from the electrocardiogram sensor unit 121 composed of the cloth electrode installed on the back plate and the seat of the chair when the user is sitting on the chair (ECG), blood oxygen saturation (PPG), and skin electrical resistance (GSR) from the handgrip biosignal sensor unit 123 provided on the chair handle to calculate the health state (HR), the stress state and the emotion state data In real time on the screen of the user's smartphone or personal computer (PC).

The chair biometric information processing apparatus 120 measures the pressure inputted from the pressure sensor unit (FST) 122 provided on the back plate and the seat plate of the chair in four stages, and analyzes the sitting position of the user And displays it on the screen of the smartphone or the personal computer of the user, and alerts the user through the screen to guide the user to a desired posture.

When the bed biometric information processing device 130 installed on the bed senses the pressure through the pressure sensor (FSR) 131 installed in the bed, it is determined that the user is lying on the bed, and the fabric electrocardiograph sensor 132 The electrocardiogram signal cECG is received.

The R-peak, the RRI, the HR, and the stress index (LF / HF) are analyzed from the inputted electrocardiogram signal cECG and the user's symptom state and stress state are calculated from the HR value and the stress index, send.

The wrist biometric information processing device 140 is configured to be worn by a user in the form of a wrist watch so that blood oxygen saturation (PPG) and skin electrical resistance (GSR) of a user through the wrist bio- ), And analyzes R-peak, RRI, HR, stress and emotional state in real time, and transmits it to the user smartphone 150 to display it in real time.

  The smartphone 150 may display the health state, the stress state, and the emotion state of each state of the user wirelessly transmitted from each of the biometric information processing apparatuses 110 to 140 according to the time zone to determine the health state of the user, State and emotional state changes can be confirmed.

The user smartphone 150 stores the received unique ID and the changed health state, stress state, and emotional state change of each situation, time, and health state in the database through the healthcare server 160, And provides it to the user.

As described above, the healthcare server 160 stores the daily health state, the stress state, and the emotional state change by each situation, the daily stress state, and the emotional state change every day, month, Analyzing and providing it to the user.

The healthcare system through the acquisition of the non-restrained biometric information according to the present invention is not limited to the above-described embodiment, but may be modified in various ways according to the configuration of the biometric information processing apparatus. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

110: vehicle biometric information processing device 111: handle biological signal sensor
112: a sheet ECG sensor 120: a chair upper body information processing device
121: back plate / seat ECG sensor 122: back plate / seat plate pressure sensor
123: Handle biometric information sensor 130: Bed biometric information processing device
131: pressure sensor 132: electrocardiograph sensor
140: wrist biometric information processing device 141: wrist biometric signal sensor
150: Biometric information processing terminal 160: Healthcare server

Claims (6)

1. A health care system for acquiring biometric information in a non-restrained state during operation, work, sleep, and movement of a user, and analyzing and managing a health state, a stress state, and an emotional state,
A vehicle biometric information processing device for calculating a health state, a stress state, and an emotion state from a bio-signal obtained from a bio-signal sensor mounted on a steering wheel and a driver's seat during operation of the user;
A chair biometric information processing device for calculating a health state, a stress state, an emotion state, and a sitting posture state from a bio-signal acquired from a bio-signal sensor mounted on a chair of the user's work;
A bed biometric information processing device for calculating a health condition and a stress condition from a bio-signal obtained from a bio-signal sensor mounted on a bed during sleep of the user;
A wrist type biometric information processing device for acquiring a biometric signal from the wrist during movement of the user to calculate a health state, a stress state, and an emotional state;
A bio-information processing terminal for wirelessly receiving the health state, the stress state, the emotion state, and the attitude data acquired by each of the bio-information processing devices and analyzing the stress state and the emotion state according to each situation and time, And
And a healthcare server for receiving, storing, and providing health information, stress analysis parameters, and attitude data from the biometric information processing terminal.
The method according to claim 1,
Wherein the biometric information processing terminal is a smart phone, a smart pad, or a personal computer.
The method according to claim 1,
The vehicle biometric information processing apparatus includes an electrocardiogram signal obtained from a blood oxygen saturation sensor (PPG), an electrocardiogram sensor (ECG) and a skin electrical resistance (GSR) sensor mounted on the handle, and an electrocardiogram sensor (cECG) (ECG, cECG) and blood oxygen saturation (PPG) to calculate a heart rate (HR) per minute, a stress state, and an emotional state,
Wherein the health state of the user is calculated through the heart rate HR per minute.
The method according to claim 1,
The chair biometric information processing device includes an ECG signal obtained from a blood oxygen saturation (PPG) and an ECG sensor (ECG) provided on the handle of the chair, a plurality of ECG sensors (cECG) and pressure sensors (FSR) And calculating a pressure degree and a heart rate (HR) per minute, a stress state, an emotion state and an attitude state of a user from the calculated electrocardiogram signal, and transmitting the heart rate, the stress state, the emotion state and the posture state to the biometric information processing terminal. Through the healthcare system.
5. The method of claim 4,
A plurality of pressure sensors are installed at predetermined intervals on the seat plate and the back plate,
Each pressure sensor measures the pressure intensity in four steps,
Wherein the attitude data for determining the attitude of the user is calculated from the distribution values of the pressure intensities of the respective pressure sensors measured.
The method according to claim 1,
The bed biometric information processing apparatus judges whether the user is lying or not according to an input signal of a pressure sensor (FSR) provided on the floor of the bed, and when the bed is lying, the electrocardiogram signal (cECG), and calculates a heart rate (HR), a stress state, and an emotional state per minute from the measured electrocardiogram signal, and transmits the stress state and the emotional state to the bio-information processing terminal.

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