CN108236463A

CN108236463A - Use the health monitoring systems of tack formula wearable device

Info

Publication number: CN108236463A
Application number: CN201710129872.1A
Authority: CN
Inventors: 闵东嫔; 李在容
Original assignee: Brown Technology (beijing) Co Ltd
Current assignee: Brown Technology (beijing) Co Ltd
Priority date: 2016-12-23
Filing date: 2017-03-07
Publication date: 2018-07-03

Abstract

The present invention provides a kind of health monitoring systems using tack formula wearable device.The health monitoring systems include：The wearable device set in the form of tack；And the smart mobile phone to communicate with the wearable device, health monitoring application is installed in the smart mobile phone, wherein described wearable device includes the brain wave measuring instrument of brain wave, the heart rate measuring instrument for measuring heart rate, measures the movable measuring instrument of User Activity and device communicator, which communicates the eeg signal, heart rate signal and the activity signal that are measured by the brain wave measuring instrument, the heart rate measuring instrument and the movable flowmeter respectively being sent to the smart mobile phone with the smart mobile phone；And the health monitoring is applied based on the health status of the eeg signal, the heart rate signal and the activity signal monitoring user sent from the wearable device.

Description

Use the health monitoring systems of tack formula wearable device

Technical field

Exemplary embodiments of the present invention are related to a kind of health monitoring systems using tack formula wearable device, more It says to body, be related to such a health monitoring systems using tack formula wearable device, which can pass through Health status such as pressure or concentrated force are monitored using tack Shi Kepeidi devices brain wave, heart rate, activity etc..

Background technology

Human brain is most flexible and substantially very strong in sensibility, consciousness, thinking, behavior etc. adaptability.Human brain It is made of hundreds billion of nerve cells, each nerve cell is connected to other nerve cells, while has mutually close each other System, thus learning as all cerebrations of the mankind, remembering, recognizing, behavior, the basis determined etc., and be used for controlling Human body processed is to keep fit.This interaction changes the electron stream for reaching scalp, brain wave is consequently formed.That is, Hundreds billion of nerve cells interact to transmit information, and generate electric signal in this process with other peripheral nerve-cells. Therefore, when placing electrode on scalp and measuring Electrical change, which is expressed out as wave, and here it is brain waves (electroencephalogram EEG).

According to the active level of brain, brain wave has variously-shaped.When brain energetically works, the frequency of oscillation of brain wave Increase, and when brain loosens, the frequency of oscillation of brain wave reduces.According to frequency, brain wave can be gamma wave (30-100Hz), Beta wave (12-30Hz), Alpha's wave (8-12Hz), Xi Tabo (4-8Hz) and Delta wave (0.5-4Hz).

Technology described above for brain wave uses in various fields.For example, it is special in South Korea " A system and method for recognizing disclosed in sharp Laid-Open Publication No.10-2007-0061311 Stress through the analysis of brain wave and relaxing it by music are (for passing through brain Wave analysis identifies stress and passes through the system and method that music discharges the pressure) " a kind of technology is proposed, which can lead to It crosses and determines pressure state using the characteristic information that can be obtained during brain wave is analyzed from brain wave to determine pressure Degree, and the music set according to identified pressure state is exported, to release stress in real time.

In addition, " the Free disclosed in the Korean Patent No.10-104457 for being submitted and being registered by applicant of the present invention Gift game apparatus and free gift game method using SMR wave (use the present of SMR waves Game station and present method for gaming) " a kind of method for gaming is proposed, which uses finger of the SMR waves as concentrated force Number, with the intensity based on SMR waves to determine concentrated force, and provides present by using identified concentrated force.

As described above, when use brain wave measure stress exponent or by brain wave be applied to game when, user can he/ The brain wave detection device set in the form of headphone is worn on her head and carrys out brain wave.

However, brain wave measuring device manufactures usually in the form of headphone, thus for a user wear with Daily routines are carried out while the brain wave measuring device of headphone form manufacture to be not easy to.This may limit brain wave Measuring device is in the use in various fields.

For example, when user want using brain wave prevent in driving procedure fall asleep when, for a user wear with Vehicle is driven while the brain wave measuring device of headphone form manufacture may be also inconvenient.

Invention content

The object of the present invention is to provide a kind of health monitoring systems using tack formula wearable device, the health monitoring systems System can by using tack Shi Kepeidi devices brain wave, heart rate, activity etc. come monitor health status such as pressure or Concentrated force.

Other objects and advantages of the present invention can be by described below it is appreciated that and with reference to the embodiment party of the present invention Formula can become apparent.In addition, for those skilled in the art in the invention, objects and advantages of the present invention can pass through Device claimed and combinations thereof is realized.

According to an aspect of the present invention, a kind of health monitoring systems using tack formula wearable device include：With ear The wearable device of hook forms setting；And the smart mobile phone to communicate with the wearable device, in the smart mobile phone Health monitoring application is installed, wherein the wearable device includes the brain wave measuring instrument of brain wave, measures heart rate Heart rate measuring instrument measures the movable flowmeter of User Activity and device communicator, the device communicator and the smart mobile phone The brain to communicate that will be measured respectively by the brain wave measuring instrument, the heart rate measuring instrument and the movable flowmeter is electric Wave signal, heart rate signal and activity signal are sent to the smart mobile phone；And the health monitoring, which is applied, to be based on from described The eeg signal, the heart rate signal and the healthy shape of the activity signal monitoring user that wearable device is sent Condition.

The health monitoring application can based in the EEG signal measurement concentrated force degree and degree of pressure extremely Few one.

When the degree of pressure is preset reference value or bigger, the health monitoring application, which can perform control to, makes institute State the vibrations of at least one of smart mobile phone and the tack formula wearable device.

When the degree of pressure is preset reference value or bigger, the health monitoring application can perform control to output Prestore music.

The health monitoring application can be based on the eeg signal and the heart rate signal measures degree of pressure.

The activity flowmeter can be configured to measure the step of climbing or the quantity of stair.

Description of the drawings

The above and other purposes of the present invention, spy will be more clearly understood from below in conjunction with the detailed description that attached drawing provides It seeks peace advantage, wherein：

Fig. 1 is the figure for showing the health monitoring systems according to the present invention using tack formula wearable device.

Fig. 2 and Fig. 3 is the figure for the construction for showing tack formula wearable device according to the present invention.

Fig. 4 is the figure for the construction for showing smart mobile phone according to the present invention.

Specific embodiment

Hereinafter, exemplary embodiments of the present invention be will be described in detail with reference to the accompanying drawings.

As shown in Figure 1, the health monitoring systems of tack formula wearable device 100 according to the present invention include wearable device 100 and smart mobile phone 300.

Wearable device 100 according to the present invention includes brain wave measuring instrument 140, heart rate measuring instrument 150, movable measurement Instrument 160 and device communicator 190, as shown in Figure 3.In addition, wearable device 100 can include tack master as illustrated in fig. 1 and 2 Body 110 and tack portion 120.

When user is when wearing wearable device 100 on his/her ear, brain wave measuring instrument 140 measures user's head Temporal lobe brain wave.As illustrated in fig. 1 and 2, in the present invention, as example come describe by brain wave electrode 141 and reference/ Grounding electrode 142 carrys out brain wave.

Tack main body 110 is set in the form of housing, wherein accommodating brain wave measuring instrument 140, movable flowmeter 160 and dress Put communicator 190.In addition, ear insertion section 130 is arranged on projecting form on a side surface of tack main body 110, when with Family ear insertion section 130 when wearing wearable device 100 according to the present invention on his/her ear is inserted into the ear of user In piece.

Tack portion 120 extends from tack main body 110 and is set in the form of it is hooked on user's ear.Thus, when with When wearing wearable device 100 on his/her ear, tack portion 120 is inserted in the shape in ear in ear insertion section 130 at family It is hooked on user's ear under state, so as to which wearable device 100 is fixed on the ear of user.

Brain wave electrode 141 is mounted in tack portion 120, and in the present invention, describes one pair of which brain wave electrode 141 are arranged on the example of the center in tack portion 120 separated from one another while.Thus, when user is on his/her ear When wearing tack formula wearable device 100, this contacts ear periphery (i.e. ear to brain wave electrode 141 in brain wave electrode 141 Upper part) in the state of detect brain wave.That is, brain wave electrode 141 measures the brain wave of user's left or right temporal lobe.

Reference/ground electrode 142 is mounted at ear insertion section 130 to contact the surface of the inside of user's ear.Here, Reference/ground electrode 142 is in the standard by determining brain wave and ground connection during brain wave 141 brain wave of electrode.

The eeg signal measured by brain wave measuring instrument 140 is transmitted to analog processor 170, the analog processor 170 It can include the amplifier of amplified signal, the bandpass filter for selectively passing through only pre-set frequency band signal etc..

The eeg signal of the analog form handled by analog processor 150 is converted into digital letter by digital processing unit 160 Number.In addition, the eeg signal of the digital form handled by digital processing unit 160 is passed through channel radio by the device communicator 190 Letter is transmitted to smart mobile phone 300.In the present invention, device communicator 190 is described to hand over by Bluetooth communication and smart mobile phone 300 Change the example of data.

Undescribed reference numeral 111 is power switch in Fig. 1 and Fig. 2, and 112 be charging/power supply window.Charging/power supply Window represents whether power supply is connected with blue light unlatching, is opened in charging process with feux rouges, and disconnects and charged in power supply Into when close.

The guiding charging of battery (not shown), 113 be according to electric power on/off and the power supply window that flickers.

Meanwhile heart rate measuring instrument 150 measures heart rate, and is for example configured to measure the heart rate on ear-lobe side.By the heart The heart rate signal that rate measuring instrument 150 measures can also pass through analog processor 170 and digital processing unit 180 and device communicator 190 are transmitted to smart mobile phone 30.Signal processing is carried out by analog processor 170 or digital processing unit 180 to be not required.

Movable flowmeter 160 measures the activity of user.For example, which can specify what is climbed The quantity of step or stair, measured signal can be communicated by analog processor 170 and digital processing unit 180 and device Device 190 sends smart mobile phone 300 to.It is not required to carry out signal processing by analog processor 170 or digital processing unit 180 's.

Meanwhile smart mobile phone 300 according to the present invention receives brain wave letter from wearable device 100 by radio communication Number, heart rate signal and activity signal.With reference to Fig. 4, smart mobile phone 300 according to the present invention can include wireless communicator 310, 330 and master controller 340 are applied in signal analyzer 320, alarm unit 350, health monitoring.In addition, smart mobile phone 300 can wrap Include the display 360 of display image.Here, according to the present invention, master controller 340 controls the various functions of smart mobile phone 300, and It and can physically components such as including AP, RAM.

As described above, the device communicator of wireless communicator 310 such as bluetooth and wearable device 100 by radio communication 190 communicate, and thus receive eeg signal from wearable device 100.

Signal analyzer 320 analyzes the eeg signal that device 310 receives by radio communication, heart rate signal and activity letter Number.For example, signal analyzer 320 extracted from eeg signal SMR waves, M betas wave, Xi Tabo, H beta wave etc. with Calculate sleep index, concentrated force index, pressure index etc..

330 health status based on eeg signal, heart rate signal and activity signal monitoring user are applied in health monitoring. Health monitoring according to the present invention can be based on EEG signal measurement concentrated force degree and degree of pressure using 330.It in addition, should Health monitoring can also calculate sleep index using 330 by using eeg signal.Equation below shows calculating pressure Index, concentrated force index and sleep index.

[formula]

Concentrated force index=(SMR wave+M betas wave)/Xi Tabo

Stress exponent=H beta waves

Sleep index=Xi Tabo/H beta waves

Here, when degree of pressure is preset reference value or more, health monitoring can pass through smart mobile phone using 330 300 alarm unit 350 provides a user alarm.As the example of alarm unit 350, the vibration for generating vibration can be used Device, so as to which user can confirm the higher state of degree of pressure by the vibration transmitted by alarm unit 350.

In addition, health monitoring can be configured to pass through channel radio when degree of pressure is reference value or bigger using 330 Believe that device 310 sends alarm signal to wearable device 100, and confirms pressure by the vibration of itself of wearable device 100 Degree is higher.

For example, health monitoring can perform control using 330 when degree of pressure is preset reference value or bigger To export prestore music, such as the music that can be released stress.

In aforementioned exemplary, by way of example based on EEG signal measurement degree of pressure.However, degree of pressure can also Eeg signal and heart rate signal are used together to measure.

According to the present invention, come brain wave, heart rate, work when wearing tack formula wearable device on his/her ear During momentum, compared with the device with headphone form, user can more easily carry out normal activity, such as drive vehicle , prevent sleeping function or emotion scheme being provided under pressure state such as listening so that can provide for example in driving procedure Music.

These illustrative embodiments are intended merely to that a part of technical spirit comprising in the present invention is explicitly described, And it is readily apparent that comprising in the range of the technical spirit of the present invention can be by those skilled in the art's easily low derivation The modification gone out and specific illustrative embodiment are included in the technical spirit of the present invention.

The cross reference of related application

This application claims the priority of South Korea patent application No.10-2016-0177665 that on December 23rd, 2016 submits, By reference to the disclosure of which is completely combined herein.

Claims

1. a kind of health monitoring systems using tack formula wearable device, which includes：

The wearable device set in the form of tack；And

The smart mobile phone to communicate with the wearable device is equipped with health monitoring application in the smart mobile phone,

Wherein, the wearable device includes the brain wave measuring instrument of brain wave, the heart rate measuring instrument for measuring heart rate, measures The movable measuring instrument of User Activity amount and device communicator, the device communicator communicate to distinguish with the smart mobile phone Eeg signal, the heart rate signal measured by the brain wave measuring instrument, the heart rate measuring instrument and the movable flowmeter The smart mobile phone is sent to activity signal；And

The health monitoring is applied based on the eeg signal, the heart rate signal and institute sent from the wearable device Activity signal is stated to monitor the health status of user.

2. the health monitoring systems according to claim 1 using tack formula wearable device, wherein, the health monitoring Using based at least one of the EEG signal measurement concentrated force degree and degree of pressure.

3. the health monitoring systems according to claim 2 using tack formula wearable device, wherein, when the pressure journey When spending for preset reference value or bigger, the health monitoring application execution control is so that the smart mobile phone and the tack formula can The vibrations of at least one of carried device.

4. the health monitoring systems according to claim 2 using tack formula wearable device, wherein, when the pressure journey When spending for preset reference value or bigger, the health monitoring application execution controls to export the music that prestores.

5. the health monitoring systems according to claim 1 using tack formula wearable device, wherein, the health monitoring Degree of pressure is measured using based on the eeg signal and the heart rate signal.

6. the health monitoring systems according to claim 1 using tack formula wearable device, wherein, the activity measures Amount instrument is configured to measure the quantity of climbed step or stair.