KR20160133799A - System for measuring and analyzing biometric information - Google Patents

Abstract

The present invention relates to a system for measuring and analyzing biometric information. More particularly, the present invention relates to a system for measuring and analyzing biometric information wherein a user terminal receives the health information of a user and transmits it to a cloud server, calculates the health index biometric index of a user based on the biometric information of another user by using the biometric information and health information of the user from the cloud server, and provides it to the user. The system includes a biometric information measuring device; the user terminal; and the cloud server.

Description

[0001] System for Measuring and Analyzing Biometric Information [

The present invention relates to a bio-information measuring and analyzing system, and more particularly, to a bio-information measuring and analyzing system in which a bio-information measuring apparatus measures a user's bio-information, a user terminal receives user's health information, transmits the user's health information to a cloud server, The present invention relates to a bio-information measuring and analyzing system that calculates a bio-index of a user and a health index of a user against the bio-information of another user using the bio-information and the health information of the user.

Recently, as the interest in health has increased, research and development have been actively conducted on technologies for continuously monitoring health status by measuring biometric information such as heart rate, skin condition, body temperature, and body impedance.

In particular, patients with diseases such as heart disease, hypertension, diabetes, etc. need to visit their clinic to receive medical care, as well as to constantly monitor their condition in daily life. Also, It is necessary to continuously observe.

To this end, a variety of devices have been developed for real-time measurement of a user's biometric information by being worn or attached to the user's body.

For example, a Holter monitor that measures the heart rate by attaching a gel-shaped electrode to a part of the body, a wireless oxygen saturation meter that measures oxygen saturation through a measurement clip inserted into a thin skinned body such as a finger tip or an earlobe Band type piezoelectric / pressure sensor device for measuring the heart rate by amplifying fine input signals generated from blood vessels of the wrist have been commercialized.

However, these devices measure only the biometric information of the user and provide the information to the user, and compare the biometric information of the other user or the health information of the user to calculate the health index such as probability of disease infection, current health level, There is a problem that the user can not.

Korean Patent Publication No. 10-2014-0054542

An object of the present invention is to provide a method and an apparatus for measuring a user's biometric information by measuring biometric information of a user and comparing the measured biometric information with other user's biometric information, And life expectancy, and to provide a bio-information measurement and analysis system that informs the user.

A biometric information measurement and analysis system according to the present invention includes: a biometric information measurement device for measuring biometric information of a user; A user terminal for receiving health information of the user; A cloud server for calculating a biometric index by comparing the biometric information of the user with biometric information of another user measured and calculating a health index by substituting the biometric information and the health information of the user into the examination data; .

Preferably, the biometric information measurement device includes: a measurement unit that measures biometric information of the user; And a device input unit for receiving a function control command using at least one of voice, touch, and motion from the user.

Preferably, the measuring unit may further measure the body movement of the user, the gas concentration of the atmosphere, the temperature, and the humidity.

Preferably, the bio-information measuring apparatus further includes a device controller for controlling a measurement period of the measurement unit in response to the function control command.

Preferably, the apparatus for measuring bio-information includes a device communication unit for transmitting measurement results of the measurement unit to the cloud server, receiving the bio-index and the health index from the cloud server, And a device display unit for displaying the bio index and the health index.

Preferably, the cloud server includes: a server communication unit for receiving the biometric information of the user and the health information from the biometric information measurement device and the user terminal, respectively; A biometric index calculating unit for comparing the biometric information of the user with biometric information of another user measured to calculate a biometric index; And a health index calculating unit for calculating the health index by substituting the user's biometric information and the health information into the examination data.

Preferably, the cloud server includes a biometric data sampling unit for sampling a predetermined number of the biometric information for each region unit into biometric sample data; And a health data sampling unit for sampling the predetermined number of health indices into health sample data for each area unit.

Preferably, the cloud server further comprises: a bio-index re-calculating unit for comparing the numerical values among the plurality of bio-sample data to ship the bio-index; And a health index re-calculation unit comparing the numerical values between the plurality of health sample data and shipping the health index.

Preferably, the biometric information may be at least one of the body temperature of the user, heart rate, oxygen saturation in blood, and organ volume.

Preferably, the health information may be at least one of a medical history of the user, a medical examination record, and genetic information.

Preferably, the health index may be at least one of a disease infection probability, a current health level, and an expected life expectancy.

Preferably, the user terminal comprises: a terminal input unit receiving a function control command from the user using at least one of voice, touch, and operation; A terminal communication unit that transmits the function control command to the biometric information measurement device, and receives the biometric index and the health index from the cloud server; And a terminal display unit displaying the bio index and the health index.

The bio-information measuring and analyzing system according to the present invention is capable of comparing the user's own biometric information with the biometric information of another user by calculating and providing the biometric index after comparing with the biometric information of another user.

In addition, the bio-information measurement and analysis system according to the present invention calculates and provides a health index such as a disease infection probability, a current health level and an expected life expectancy using biometrics information of a user and health information of a user, It is possible to confirm the health condition of the user.

FIG. 1 is a view schematically showing a bio-information measurement and analysis system according to an embodiment of the present invention.
2 is a block diagram showing a configuration of a bio-information measuring apparatus according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of a user terminal according to an embodiment of the present invention.
4 is a block diagram illustrating a configuration of a cloud server according to an embodiment of the present invention.
FIG. 5 is a front view and a rear view of a bio-information measuring apparatus according to an embodiment of the present invention.
6 is a view showing an example in which a bio-information measuring device according to an embodiment of the present invention is attached to a diaper.
7 is a diagram illustrating an exemplary embodiment of a user terminal according to an embodiment of the present invention.

Hereinafter, preferred embodiments of a bio-information measurement and analysis system according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines and the size of the constituent elements shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, the definitions of these terms should be described based on the contents throughout this specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

FIG. 1 is a schematic view of a bio-information measuring and analyzing system according to an embodiment of the present invention, FIG. 2 is a block diagram showing the configuration of an apparatus for measuring bio-information according to an embodiment of the present invention, 3 is a block diagram illustrating a configuration of a user terminal according to an embodiment of the present invention, and FIG. 4 is a block diagram illustrating a configuration of a cloud server according to an embodiment of the present invention.

1 to 4, a biological information measurement and analysis system 1000 may include a biological information measurement apparatus 100, a user terminal 200, a host repeater 300, and a cloud server 400 have. The biometric information measurement and analysis system 1000 shown in Figs. 1 to 4 is according to one embodiment, and the constituent elements are not limited to the embodiments shown in Figs. 1 to 4, Changed or deleted. In the following description, a detailed description of known components other than the main components will be omitted.

The bio-information measuring apparatus 100 may include a function of measuring the bio-information, the movement of the user, and the environment information of the user, which is worn or attached to the body of the user, and the above-described bio-information and environment information to the user terminal 200, 300 and the cloud server 400. In this case,

The bioinformation measuring apparatus 100 may include a measuring unit 110, a device input unit 120, a device control unit 130, a device communication unit 140, a device display unit 150, and a receiving unit 160 have.

The measurement unit 110 includes a bio-information measurement module 111 for measuring bio-information of a user, a motion measurement module 112 for measuring a user's body movement, and an environment information measurement module 113 for measuring user environment information .

At this time, the measuring unit 110 may be in the form of a micro electro mechanical system (MEMS) in which two or more of the bio-information measuring module 111, the motion measuring module 112 and the environment information measuring module 113 are combined. have.

The bio-information measurement module 111 may perform a role of measuring bio-information in contact with the user's body.

Herein, the biometric information may be at least one of the user's body temperature, heart rate, skin condition, oxygen saturation in blood and organ volume.

For this purpose, the bio-information measurement module 111 may include a temperature sensor 111-1 for measuring the body temperature of the user, and in one embodiment, the temperature measurement method of the temperature sensor is not limited.

The bio-information measurement module 111 may further include a blood vessel sensor 111-2 for measuring a user's heart rate and oxygen saturation in the blood.

More specifically, the blood vessel sensor 111-2 is placed in contact with the user's body, illuminates the user's body using the LED lamp 111-2a, and transmits light reflected from the body to the photosensor 111-2b The heart rate and blood oxygen saturation can be measured.

Preferably, a reflection type red LED pulse wave detecting method for measuring the amount of light reflected from a red LED (wavelength 660 nm) is reflected. For example, light energy emitted from a red LED (wavelength 660 nm) is absorbed by hemoglobin in the blood, and the amount of unabsorbed light energy is detected by scattering and reflection to the photosensor 111-2b, That is, the concentration of the pulse wave and the hemoglobin. It is possible to use two types of light energy, usually red LED (wavelength 660nm) and infrared LED (wavelength 910nm), and it is possible to use the transmission type method, but adopting reflection type red LED pulse wave detection method in order to simplify circuit and increase accuracy .

On the other hand, the bio-information measurement module 111 can measure the volume change of an organ such as the bladder or the large intestine, or measure the amount of the bladder or the intestine using the ultrasonic sensor 111-3.

Accordingly, the bio-information measurement module 111 can monitor the defecation state of a patient or an infant who is uncomfortable with the behavior.

In addition, note that the bio-information measurement module 111 may further include a skin condition measurement sensor for measuring the skin condition of the user.

That is, by measuring the heart rate, the skin temperature, the sweat, the skin condition and the organ status according to the flow of blood flow, the bio-information measuring apparatus 100 according to the present invention measures the health condition of the user's blood pressure, It should be understood that the invention may be embodied in other forms.

The motion measurement module 112 may be attached to a user's body or a garment worn by a user so as to measure a user's activity or recognize a user's posture.

To this end, the motion measurement module 112 may measure a user's motion using a gravity sensor, an acceleration sensor, and a position sensor, and may detect a position of a user.

That is, the user can recognize the emergency situation from the user having no activity through the motion measurement module 112.

The environment information measurement module 113 may measure the user environment information. More specifically, the environmental information measurement module 113 can measure temperature, humidity, atmospheric pressure, illuminance, noise, and gas concentration.

Here, the gas concentration may be the concentration of the gas generated from the feces or urine of a person.

That is, the environment information measurement module 113 can monitor the defecation state of a patient or infant who is inconvenient in behavior by measuring the concentration of gas generated from the faeces or urine of a person.

It should be noted that the environmental information measurement module 113 is not limited to the measurement method as long as the information is measured.

The measurement unit 110 may transmit measurement results measured through the bio-information measurement module 111, the motion measurement module 112, and the environment information measurement module 113 to the device control unit 130.

The device input unit 120 may receive a function control command from a user using one or more of voice, touch, and motion.

The device input unit 120 may include a voice input module 121, a voice recognition module 122, a touch recognition module 123, and an operation recognition module 124.

The voice input module 121 is for inputting a voice signal, and can receive a function control command for controlling the function of the bio-information measuring apparatus 100 as a voice signal and process the voice command as electrical voice data.

At this time, the voice input module 121 may use various noise reduction algorithms for eliminating noise generated in receiving an external voice signal. The voice data processed through the voice input module 121 may be transmitted to the voice recognition module 122. [

The voice recognition module 122 may perform a function of identifying the linguistic meaning content from the voice data. That is, the voice recognition module 122 can recognize the linguistic meaning corresponding to the function control command of the voice signal input from the user.

The speech recognition process of the speech recognition module 122 includes a process of identifying a word or a word sequence by inputting a speech waveform and a process of extracting meaning. The speech recognition module 122 includes speech analysis, phoneme recognition, word recognition, There are five categories.

In addition, the voice recognition module 122 may compare whether the stored voice and the input voice are identical.

Here, the command recognized by the voice recognition module 122 may be set according to the user's discretion through the device control unit 130. [

The touch recognition module 123 may receive a function control command for commanding a desired operation by a user as a key input.

To this end, the touch recognition module 123 can generate a touch of a user as key input data. The touch recognition module 123 may include a key pad, a keyboard, a dome switch, a touch pad (static / static), a jog wheel, a jog switch, and a finger mouse.

At this time, the touch pad may be configured as a touch screen by forming a mutual layer structure with a device display unit, which will be described later.

When the user inputs a command by moving the bio-information measuring apparatus 100, the operation recognizing module 124 may detect the movement of the bio-information measuring apparatus 100 and convert it into a function control command.

To this end, the motion recognition module 124 may further include a gravity sensor, an acceleration sensor, and a position sensor, or may use the measurement results of the motion measurement module 112 described above.

The device control unit 130 may control the measurement period of the measurement unit 110 in response to the function control command input to the device input unit 120.

More specifically, the device control unit 130 sets the measurement period of the measurement unit 110 between 1 second and 180 minutes in response to the function control command input to the device input unit 120, It can be controlled to continuously measure environmental information.

For example, when the function control command input to the device input unit 120 corresponds to the heart disease mode, the control unit 130 sets the heart rate measurement period of the measurement unit 110 to 10 seconds in the morning, It is possible to control the measuring unit 110 to measure the heart rate more frequently.

Here, the heart disease mode may be an operation mode for setting a morning time heart rate measurement period, reflecting a characteristic of a heart disease having a high probability of occurrence of morning time when the user is a patient of heart disease.

That is, the user may input a function control command to the device input unit 120 to turn on or off the power or some functions of the bio-information measuring apparatus 100, or change the operation mode.

The device control unit 130 acquires biometric information (body temperature, heart rate, skin condition, and blood) from the biometric information measurement module 111, the motion measurement module 112 and the environment information measurement module 113 of the measurement unit 110 Oxygen saturation and long-term volume), user's activity, attitude information, temperature, humidity, air pressure, illuminance, noise and gas concentration, and deviates from a reference value corresponding to each measurement result, And transmits a notification signal to the device display unit 150. [

That is, the device control unit 130 may warn the user of the risk of health of the user from the measurement result measured by the measurement unit 110.

The device control unit 130 transmits the notification signal directly to the user terminal 200 or transmits a notification signal to the user terminal 200 via the cloud server 400 by using the device communication unit 140, The user's caregiver, that is, the patient's caregiver or caregiver, can be warned of the risk of user's health.

The device communication unit 140 transmits a measurement result of the measurement unit 110 to at least one of the user terminal 200, the host repeater 300 and the cloud server 400 and the role of transmitting the measurement result of the measurement unit 110 to the bio- And the health index from the cloud server 400 and transmits the received health index to the device display unit 150.

The bio index and health index will be described in detail with respect to the cloud server 400 described later.

The device communication unit 140 may receive the function control command from the user terminal 200 or the host repeater 300 and may transmit the received function control command to the device control unit 130.

At this time, the device communication unit 140 can transmit and receive signals and data using the full-duplex (Machine to Machine) communication with the user terminal 200 or the host repeater 300.

The biometric information measuring apparatus 100 can receive the function control command from the user through the device input unit 120 as well as receive the function control command input through the user terminal 200, ) Through the host repeater (300).

The device communication unit 140 assigns a connection priority to the unique identification numbers of the user terminal 200 and the host repeater 300 and determines that there is a plurality of user terminals 200 and the host repeater 300 within the communication- The user terminal 200 or the host repeater 300 having a unique identification number having a high priority corresponding to the connection priority can be paired to perform communication.

The unique identification number may be a serial number of a device, a terminal and a device, or a MAC address of a communication module. MAC Address).

The device communication unit 140 may include a wireless Internet module 141, a short distance communication module 142, a GPS (Global Position System) module 143, and the like.

The wireless Internet module 141 refers to a module for wireless Internet access, and includes a wireless LAN (WLAN) (Wi-Fi), a wireless broadband (Wibro), a World Interoperability for Microwave Access (Wimax), a High Speed Downlink Packet Access ), Long term evolution (LTE), and long term evolution-advanced (LTE-A).

The short-range communication module 142 is a module for short-range communication. The short-range communication module 142 is a module for short-range communication, and includes a beacon, Bluetooth, Radio Frequency Identification (RFID), infrared data association (IrDA), Ultra Wideband (UWB) (ZigBee) or the like.

Beacon is a wireless communication device that transmits very small frequency signals around them using a protocol based on Bluetooth 4.0 (BLE-Bluetooth Low Energy). Bluetooth 4.0 allows devices to communicate with devices within approximately 5m to 70m, and is low power with minimal impact on battery life, so you can always turn on Bluetooth with minimal power wastage.

The GPS module 143 can receive position information from a plurality of GPS satellites and measure the current position information of the bio-information measuring apparatus 100.

Accordingly, the device communication unit 140 can recognize the current position of the user, and can transmit the current position information of the bio-information measuring apparatus 100 to the cloud server 400.

The device display unit 150 displays a measurement result measured by the measurement unit 110, displays a notification signal from the device control unit 130 and displays the bio index and health index received from the cloud server 400 Can play a role.

Here, the notification signal may be a signal to warn the user of the risk of health when the measurement result of the measurement unit 110 deviates from a reference value by a certain range.

In addition, the device display unit 150 can display additional information related to the biometric information measurement device 100. [ For example, the power consumption and driving time of the bio-information measuring apparatus 100 can be displayed.

The device display unit 150 may be a liquid crystal display, a thin film transistor-liquid crystal display, an organic light-emitting diode, a flexible display, a three-dimensional display (3D display), or a projector that displays the contents by shooting a beam.

In addition, the device display unit 150 may further include a controller for controlling display of the display.

FIG. 5 (a) is a front view of an apparatus for measuring bio-information according to an embodiment of the present invention, and FIG. 5 (b) And FIG. 6 is a view showing an example in which a bio-information measuring device according to an embodiment of the present invention is attached to a diaper.

5 and 6, the receiving unit 160 receives the measurement unit 110, the device input unit 120, the device control unit 130, the device communication unit 140, and the device display unit 150, And may serve to attach or fix the device 100 to the user's body.

To this end, the receiving part 160 may be provided at one side thereof with a device fixing part 161 for fixing the bio-information measuring device 100 to the user's clothes.

6, the apparatus fixing unit 161 is configured to fix the living body information measuring apparatus 100 to the infant < RTI ID = 0.0 > child < Can be fixed to the waist band of the diaper worn by the wearer.

At this time, the apparatus fixing unit 161 may be provided with the biometric information measuring apparatus 100 such that the back side of the biometric information measuring apparatus 100 is in contact with the user's body by using a velcro, a magnet, a clip, To the user's clothes or the like.

The apparatus fixing unit 161 may be formed in a band shape to fix the bio-information measuring apparatus 100 directly to the user's body.

On the other hand, a solar cell 162 for generating electricity from sunlight and supplying power to the bio-information measuring apparatus 100 may be formed on the other side of the receiving unit 160.

More specifically, the solar cell 162 is formed to be exposed to the outside, and can absorb power of sunlight to supply power to the living body information measuring apparatus 100.

The solar cell 172 can be charged by directly supplying power to each configuration of the bio-information measuring apparatus 100 or by supplying power to an internal battery.

The user terminal 200 may receive a function control command from a user and transmit the data to the living body information measuring apparatus 100 or the host repeater 200 to the living body information measuring apparatus 100.

For this, the user terminal 200 may include a terminal input unit 210, a terminal communication unit 220, and a terminal display unit 230.

In one embodiment, the user terminal 200 may be a mobile terminal, a smart phone, a tablet computer, a notebook computer, a digital broadcasting terminal, a PDA (personal digital assistant), a portable multimedia player (PMP) Or may be a fixed terminal such as a desktop computer.

The terminal input unit 210 may perform a role of receiving a function control command using one or more of voice, touch, and operation from a user, and receiving a user's health information.

Here, the health information may be at least one of a user's medical history, a medical examination record, and genetic information.

The terminal input unit 210 may include a voice input module 211, a voice recognition module 212, a touch recognition module 213, and an operation recognition module 214.

The voice input module 211, the voice recognition module 212, the touch recognition module 213 and the motion recognition module 214 of the terminal input unit 210 are connected to the voice input module 131 of the device input unit 120, The voice recognition module 132, the touch recognition module 133, and the motion recognition module 134, the description thereof will be omitted.

The terminal communication unit 220 receives the measurement result measured by the measurement unit 110 of the bio-information measurement apparatus 100 from the bio-information measurement apparatus 100 or the host repeater 300, And transmit the bio-index and the health index to the terminal display unit 230 by receiving the bio-index and the health index from the cloud server 400.

The bio index and health index will be described in detail with respect to the cloud server 400 described later.

The terminal communication unit 220 transmits a function control command input to the terminal input unit 210 to the user terminal 200 or the host repeater 300 and the role of the user's health information input to the terminal input unit 210, To the server (400).

At this time, the terminal communication unit 220 can transmit and receive signals and data using the full duplex communication with the user terminal 200 or the host repeater 300.

The function control command inputted to the user terminal 200 can be directly transmitted to the biometric information measuring apparatus 100 or transmitted to the biometric information measuring apparatus 100 via the host repeater 300, The measurement result from the measurement unit 110 of the bio-information measuring apparatus 100 may be received directly from the host apparatus 100 or may be received through the host repeater 300.

The terminal communication unit 220 may include a wireless Internet module 221, a short distance communication module 222, a GPS module 223, and the like.

The wireless Internet module 221, the short distance communication module 222 and the GPS module 223 of the terminal communication unit 220 are connected to the wireless Internet module 151, the short distance communication module 152, And the GPS module 153 are the same in structure and role, so that the repeated description will be omitted.

Meanwhile, the host repeater 300 described above must communicate with one or more user terminals 200 capable of pairing with one biometric information measuring device 100 and one biometric information measuring device 100 A host repeater 300 is connected between one bio-information measuring apparatus 100 and a plurality of user terminals 200 to perform communication between one bio-information measuring apparatus 100 and a plurality of user terminals 200 And can perform a role to perform.

The host repeater 300 can share a private IP (Internet Protocol) defined as a standard with a plurality of user terminals 200 or computers by using a network address translation (NAT) IP router.

7 is a diagram illustrating an exemplary embodiment of a user terminal according to an embodiment of the present invention.

Referring to FIG. 7, the terminal display unit 230 may display a measurement result received by the terminal communication unit 220 and display the biometric index and health index received from the cloud server 400.

In addition, the terminal display unit 230 may display a list of the biometric information measuring apparatus 100 capable of communicating in the periphery in a grid or list format, and provide the list to the user.

The terminal display unit 230 may be at least one of a liquid crystal display, a thin film transistor liquid crystal display, an organic light emitting diode, a flexible display, and a three-dimensional display, or may be a projector that emits beams to display contents.

In addition, the terminal display unit 230 may further include a controller for controlling the display of the display.

The cloud server 400 may receive the user's biometric information from the biometric information measuring apparatus 100 and receive the user's health information from the user terminal 200 to calculate the biometric index and the health index.

The cloud server 400 includes a server communication unit 410, a living body index calculating unit 420, a living body data sampling unit 430, a living body index re-calculating unit 440, a health index calculating unit 450, A sampling unit 460 and a health index re-calculator 470.

The server communication unit 410 receives a measurement result measured from the measurement unit 110 of the bio-information measurement apparatus 100 and receives health information of the user input from the terminal input unit 210 of the user terminal 200 Can play a role.

Here, the measurement result received by the server communication unit 410 may be one or more of biometric information of the user, movement of the user, and user environment information.

In addition, the server communication unit 410 may receive weather information from an external server or a weather station.

At this time, the server communication unit 410 can communicate with the plurality of biometric information measurement apparatuses 100 and the plurality of user terminals 200 to receive a plurality of data.

Note that, in one embodiment, the type of the communication method and the communication module for performing communication with the bio-information measuring apparatus 100, the user terminal 200, and the external server or the meteorology service server is not limited to the server communication unit 410 .

The biometric index calculator 420 compares biometric information received from the server communication unit 410 with biometric information of another user and measures the biometric index.

More specifically, the calculating unit 420 calculates an average of the biometric information measured by the other users at the local area where the user is located, calculates the biometric index by leveling the difference between the user's biometric information and the calculated average .

At this time, the calculating unit 420 may calculate the biometric index for each type of biometric information or may calculate a plurality of types of noxious gas by one biometric index.

In one embodiment, the biometric index calculator 420 can calculate biometric indexes by numerical and alphanumerical calculations. For example, the biometric index calculator 420 can calculate the biometric indexes from 1 to 100, or calculate the biometric indexes A to E as described above, Can be calculated.

Referring to FIG. 7, in the case where the average of the body temperature among the biometric information of 100 users of other users at the local area where the user is located is 36.5 degrees, the body temperature in the range of 35.0 to 38.0 degrees based on the average is " ", The body temperature above normal can be" high "and the body temperature below normal can be" low ".

At this time, when the body temperature of the received user is 38.5 degrees, the biological index calculating unit 420 can calculate the biological index with respect to the body temperature as "high"

The biometric data sampling unit 430 may perform a function of sampling a predetermined number of biometric information into biometric sample data for each region unit.

The biometric data sampling unit 430 may divide the region into a minimum unit and, if the received biometric information is the same number as a predetermined number, sample an average of a predetermined number of biometric information as biometric sample data.

Here, the regional unit may be one of the city, province, city, province and county of the administrative district, and the predetermined number may be the minimum number of data necessary for sampling of the biometric information.

For example, when the local unit and the predetermined number are respectively 100 and 100, respectively, and when 100 pieces of the biometric information are received from Gangnam-gu and Seocho-gu, the biometric data sampling unit 430 measures The average of 100 information can be sampled as biometric sample data of Gangnam-gu and Seocho-gu, respectively.

The biometric index re-calculator 440 may compare the numerical values among a plurality of biometric sample data sampled by the biometric data sampler 430 to estimate the biometric index.

In other words, the bio-index re-calculator 440 can compare the numerical values of a plurality of biometric sample data and compare the biometric index for comparing the biometric information of the user between the local units.

At this time, the bioindex re-calculator 440 may reuse the bioindex by using 10 or more bio-sample data to improve the reliability of the bioindex.

In addition, the biometric index re-calculator 440 may compare the biometric information received from the biometric information measuring apparatus 100 with the biometric sample data to derive the biometric index.

Accordingly, the user can compare the current biometric information with the biometric information of the user located in another area.

The health index calculating unit 450 may perform a role of calculating the health index by substituting the biometric information and the health information received from the server communication unit 410 into the examination data.

The health information may be at least one of a user's medical history, a medical examination record, and a genetic information. The health information may include health information, health information, The index can be at least one of the probability of disease infection, current health and life expectancy.

For example, the screening data may be information examining immunity against cold viruses of a population of 10,000 per generation according to temperature, humidity and body temperature.

For this, the health index calculating unit 450 may calculate the health index by further adding the weather information received by the server communication unit 410 to the examination data, in addition to the biometric information and the health information.

Referring to FIG. 7, the health index calculator 450 calculates the health index and the weather information of the received biometric information, health information, and weather information as "body temperature 38.5 degrees "," "Humidity 30%", "Health Temperature 38.5 degrees", "Number of cold infections 4 times in the last 2 years", "Temperature 3 degrees", and "Humidity 30%" are added to the above- The probability of being infected with a cold can be calculated as "80% ".

In one embodiment, the health index calculating unit 450 may calculate the health index by numbers, letters, and probabilities.

The health data sampling unit 460 may serve to sample a predetermined number of health indices into health sample data for each region unit.

The health data sampling unit 460 may classify the area into a minimum unit and, if the health index received from the same area unit is a preset number, sample a predetermined number of health indexes as health sample data.

Here, the regional unit may be one of the provinces, provinces, cities, provinces and counties of the administrative district, and the predetermined number may be the minimum number of data necessary for sampling the health index.

That is, the health index calculating unit 460 calculates the health index using the weather information or the health check data in addition to the biometric information and the health information of the user. However, the health sample data sampled from the health data sampling unit 460, It is possible to replace the role of the health information and the weather information.

The health index re-calculator 470 may compare the numerical values among a plurality of sampled health sample data in the health data sampling unit 460 to calculate the health index.

That is, the health index re-calculator 470 can compare the values of the plurality of health sample data with each other, and compare the health index to compare the probability of disease infection, the current health level, and the expected lifetime among the regional units.

At this time, the health index re-calculator 470 may reuse the health index using at least 10 pieces of health sample data to improve the reliability of the health index.

In addition, the health index re-calculator 470 can directly compare the biometric information and the user's health information with the biometric sample data, and can output the biometric index.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

1000: Biometric information measurement and analysis system
100: Biometric information measuring device
110:
120:
130:
140:
150: Device display
160:
200: user terminal
210:
220:
230 terminal display section
300: Host repeater
400: Cloud server
410: server communication section
420: bio index calculation unit
430: Biometric data sampling unit
440: Biometric index re-
450: Health Index Calculator
460: Health Data Sampling Unit
470: health index re-calculation section

Claims (11)

A biometric information measuring device for measuring biometric information of a user;
A user terminal for receiving health information of the user; And
A cloud server for calculating a biometric index by comparing the biometric information of the user with other biometric information of another user and calculating a health index by substituting the biometric information of the user and the health information into the examination data; ≪ / RTI >
Biometric information measurement and analysis system.
The method according to claim 1,
Wherein the biometric information measuring device comprises:
A measurement unit for measuring biometric information of the user;
And a device input unit for receiving a function control command using at least one of voice, touch, and motion from the user,
Wherein the measuring unit comprises:
And further measures the body movement of the user, the gas concentration of the atmosphere, the temperature and the humidity.
Biometric information measurement and analysis system.
3. The method of claim 2,
Wherein the biometric information measuring device comprises:
And a device controller for controlling the measurement period of the measurement unit in response to the function control command.
Biometric information measurement and analysis system.
3. The method of claim 2,
Wherein the biometric information measuring device comprises:
A device communication unit that transmits the measurement result of the measurement unit to the cloud server, and receives the bio index and the health index from the cloud server; And
And a device display unit for displaying the biometric index and the health index.
Biometric information measurement and analysis system.
The method according to claim 1,
The cloud server includes:
A server communication unit for receiving the biometric information of the user and the health information from the biometric information measurement device and the user terminal, respectively;
A biometric index calculating unit for comparing the biometric information of the user with biometric information of another user measured to calculate a biometric index; And
And a health index calculating unit for calculating a health index by substituting the biometric information and the health information of the user into the examination data.
Biometric information measurement and analysis system.
The method according to claim 1,
The cloud server includes:
A biometric data sampling unit for sampling a predetermined number of the biometric information into biometric sample data for each region unit; And
And a health data sampling unit for sampling the predetermined number of health indices into health sample data for each area unit.
Biometric information measurement and analysis system.
The method according to claim 6,
The cloud server includes:
A bio-index re-calculator for comparing the numerical values among a plurality of the bio-sample data and outputting the bio-index; And
And a health index re-calculating unit comparing the numerical values among the plurality of health sample data and shipping the health index.
Biometric information measurement and analysis system.
The method according to claim 1,
The bio-
Wherein the user's body temperature, heart rate, skin condition, oxygen saturation in blood, and organ volume.
Biometric information measurement and analysis system.
The method according to claim 1,
The health information includes:
And a genetic information of the user, the medical examination history, the medical examination record, and the genetic information of the user.
Biometric information measurement and analysis system.
The method according to claim 1,
The health index,
The probability of disease infection, the current health level, and the expected life expectancy.
Biometric information measurement and analysis system.
The method according to claim 1,
The user terminal comprises:
A terminal input unit receiving a function control command from the user using at least one of voice, touch, and operation; And
A terminal communication unit that transmits the function control command to the biometric information measurement device, and receives the biometric index and the health index from the cloud server; And
And a terminal display unit displaying the biometric index and the health index.
Biometric information measurement and analysis system.

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