CN109675168A - A kind of biological rhythm adaptive regulation method, control assembly and regulating device - Google Patents
A kind of biological rhythm adaptive regulation method, control assembly and regulating device Download PDFInfo
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- A—HUMAN NECESSITIES
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- A61M21/00—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis
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- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/01—Measuring temperature of body parts ; Diagnostic temperature sensing, e.g. for malignant or inflamed tissue
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- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/05—Detecting, measuring or recording for diagnosis by means of electric currents or magnetic fields; Measuring using microwaves or radio waves
- A61B5/053—Measuring electrical impedance or conductance of a portion of the body
- A61B5/0531—Measuring skin impedance
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/24—Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
- A61B5/316—Modalities, i.e. specific diagnostic methods
- A61B5/318—Heart-related electrical modalities, e.g. electrocardiography [ECG]
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- A—HUMAN NECESSITIES
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- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/24—Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
- A61B5/316—Modalities, i.e. specific diagnostic methods
- A61B5/369—Electroencephalography [EEG]
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- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/44—Detecting, measuring or recording for evaluating the integumentary system, e.g. skin, hair or nails
- A61B5/441—Skin evaluation, e.g. for skin disorder diagnosis
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M21/00—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis
- A61M2021/0005—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis by the use of a particular sense, or stimulus
- A61M2021/0027—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis by the use of a particular sense, or stimulus by the hearing sense
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M21/00—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis
- A61M2021/0005—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis by the use of a particular sense, or stimulus
- A61M2021/0044—Other devices or methods to cause a change in the state of consciousness; Devices for producing or ending sleep by mechanical, optical, or acoustical means, e.g. for hypnosis by the use of a particular sense, or stimulus by the sight sense
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Abstract
The invention discloses a kind of biological rhythm adaptive regulation method, control assembly and regulating devices, and wherein this method includes obtaining the user's characteristic information of user;The physiological parameter of the user is obtained in real time;According at least to the user's characteristic information and the physiological parameter real-time control entrainment component, so that the entrainment component acts on the user.By the user's characteristic information for obtaining user, and the physiological parameter real-time control entrainment component of the user obtained in real time, so that entrainment component acts on the user, the foundation that the individual sign state of user is adjusted as biological rhythm, therefore biological rhythm automatic adjusument is more targeted, and regulating effect is more preferable.
Description
Technical field
The present invention relates to intelligent health product scope more particularly to a kind of biological rhythm adaptive regulation methods, control group
Part and regulating device.
Background technique
Modern medicine increasingly payes attention to influence of the environment to people's health, increasingly payes attention to the maintaining good health by scientific methods of correlated crowd,
There are some devices and goes the biological rhythm for adjusting human body by various means such as light stimulus etc..But existing such device is only
Using the single physiological parameter of human body as foundation is adjusted, some other factors that will affect biological rhythm, such as user are ignored
The user characteristics such as age, gender, occupation, therefore such regulating device is lack of pertinence the adjusting of user's biological rhythm,
Effect is poor.
Summary of the invention
The embodiment of the present invention provides a kind of biological rhythm adaptive regulation method, control assembly and regulating device, will use
The foundation that the individual sign state of person is adjusted as biological rhythm, biological rhythm automatic adjusument is more targeted, adjusts effect
Fruit is more preferable.
First aspect of the embodiment of the present invention provides a kind of biological rhythm adaptive regulation method, comprising:
Obtain the user's characteristic information of user;
The physiological parameter of the user is obtained in real time;
According at least to the user's characteristic information and the physiological parameter real-time control entrainment component, so that the section
Rule adjusts component and acts on the user.
In some embodiments, the user's characteristic information includes the age of the user, gender, occupation, life habit
Used, disease, medication, diet, in sleep at least one of.
In some embodiments, the biological rhythm adaptive regulation method further include:
Obtain environmental information;
It is described according at least to the user's characteristic information and the physiological parameter real-time control entrainment component, comprising:
According to the user's characteristic information, environmental information and the physiological parameter real-time control entrainment component.
In some embodiments, the environmental information includes region, temperature, humidity, weather, sunrise time, sunset time
At least one of in.
In some embodiments, the physiological parameter for obtaining the user in real time, specifically includes: described in obtaining in real time
EGC parameter, body temperature, humidity of skin, Skin Resistance, respiratory rate, blood oxygen saturation, heart rate, pulse wave, blood pressure, the brain of user
At least one of electrical parameter.
In some embodiments, described to be controlled in real time according to the user's characteristic information, environmental information and the physiological parameter
Entrainment component processed, specifically:
It is real according to the user's characteristic information, environmental information and the physiological parameter by the neural network model after training
When control entrainment component.
In some embodiments, the real-time control entrainment component, specifically includes:
Entrainment component described in real-time control adjusts the numerical value of output pressure, distribution, inflation/deflation sequence, inflation/deflation
Time and/or pressure alteration frequency;And/or
Intensity, direction, action time and/or the electro photoluminescence frequency of the adjustment output electric current of entrainment component described in real-time control
Rate;And/or
Entrainment component described in real-time control adjust the wavelength of output light, flicker frequency, light intensity, light and shade sequence and/or
Light and shade frequency;And/or
Type, volume, frequency, duration, and/or a variety of sound of the adjustment output sound of entrainment component described in real-time control
The combination of sound.
Second aspect of the embodiment of the present invention provides a kind of control assembly, including memory and processor, the memory
For storing program instruction;If the processor executes described program instruction, above-mentioned biological rhythm adaptive regulation method is realized.
The third aspect of the embodiment of the present invention provides a kind of biological rhythm self-adaptive regulating, including parameter acquisition group
Part, control assembly and entrainment component, the parameter acquisition component, entrainment component with the control assembly communication link
It connects;
Physiological parameter of the parameter acquisition component for acquisition user in real time, and in real time join collected physiology
Number is transmitted to the control assembly;
The control assembly includes memory and processor, and the memory is for storing program instruction;If the processing
Device executes described program instruction, realizes such as biological rhythm adaptive regulation method of any of claims 1-7.
In some embodiments, the biological rhythm self-adaptive regulating further includes interactive component, the interactive component
It is connected to the processor;The processor obtains the user's characteristic information of user especially by the interactive component.
In some embodiments, the biological rhythm self-adaptive regulating further includes communication part, the communication part
It is connected to the processor;The processor obtains the user characteristics of user especially by the communication part from intelligent terminal
Information.
In some embodiments, the parameter acquisition component include for obtain the electrocardio unit of user's EGC parameter,
For obtaining the body temperature unit of user's body temperature, the humidity unit for obtaining user's humidity of skin, for obtaining user
The impedance unit of Skin Resistance, the breathing unit for obtaining user's respiratory rate, for obtaining user's blood oxygen saturation
Blood oxygen unit, the heart rate unit for obtaining user's heart rate, the pulse wave unit for obtaining user's pulse wave, for obtaining
At least one of the pressure unit that takes user's blood pressure, brain electric unit for obtaining user's electroencephalogram parameter.
In some embodiments, the entrainment component include: gas pressure unit, electrical stimulation unit, luminescence unit,
At least one of voice unit (VU).
In some embodiments, the biological rhythm self-adaptive regulating further includes mirror holder shape main body, the mirror holder shape
Main body includes frame and the temple for being connected to the frame;
The electrical stimulation unit and/or voice unit (VU) and the control assembly are located in the temple, the luminous list
Member is located on the frame;
The body temperature unit, impedance unit, and/or blood oxygen unit are located in the temple.
Compared with prior art, the beneficial effect of the embodiment of the present invention is: the user's characteristic information by obtaining user,
And the physiological parameter real-time control entrainment component of the user obtained in real time so that entrainment component act on it is described
User, the foundation that the individual sign state of user is adjusted as biological rhythm, therefore biological rhythm automatic adjusument is more
With specific aim, regulating effect is more preferable.
Further, also by obtaining environmental information locating for user, by environmental factor locating for user also conduct
The foundation that biological rhythm is adjusted, therefore biological rhythm automatic adjusument more has specific aim, further improves regulating effect.
Detailed description of the invention
One or more embodiments are illustrated by the picture in corresponding attached drawing, these exemplary theorys
The bright restriction not constituted to embodiment, the element in attached drawing with same reference numbers label are expressed as similar element, remove
Non- to have special statement, composition does not limit the figure in attached drawing.
Fig. 1 is the flow diagram of the biological rhythm adaptive regulation method of the embodiment of the present invention one;
Fig. 2 is another flow diagram of the biological rhythm adaptive regulation method of the embodiment of the present invention one;
Fig. 3 is the sub-process schematic diagram of real-time control entrainment component in Fig. 1;
Fig. 4 is another flow diagram of the biological rhythm adaptive regulation method of the embodiment of the present invention one;
Fig. 5 is the structural schematic diagram of the control assembly of the embodiment of the present invention two;
Fig. 6 is the structural schematic diagram of the biological rhythm self-adaptive regulating of the embodiment of the present invention three;
Fig. 7 is another structural schematic diagram of the biological rhythm self-adaptive regulating of the embodiment of the present invention three.
Specific embodiment
In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right
The present invention is further elaborated.It should be appreciated that described herein, specific examples are only used to explain the present invention, not
For limiting the present invention.
It should be noted that each feature in the embodiment of the present invention can be combined with each other, in this hair if do not conflicted
Within bright protection scope.In addition, though having carried out the division of functional module in schematic device, show in flow charts
Logical order, but in some cases, it can be with the sequence in the module division being different from schematic device or flow chart
Execute shown or described step.
Embodiment one
Such as the flow diagram that Fig. 1 is a kind of biological rhythm adaptive regulation method.
Biological rhythm adaptive regulation method the following steps are included:
Step S110, the user's characteristic information of user is obtained.
In some possible embodiments, pass through the regulating device itself using the biological rhythm adaptive regulation method
Interactive component, such as touch screen, voice input mould group obtain the user's characteristic information of user.
It, can be with intelligence using the regulating device of the biological rhythm adaptive regulation method in other feasible embodiments
Energy terminal, such as mobile phone are communicated in a wired or wireless manner, therefore can be obtained by the communication part of regulating device
The user's characteristic information of user.
In some possible embodiments, user saves the user characteristics after certain sets up user's characteristic information
Information to regulating device memory;For next user when using regulating device, the user for obtaining user from memory is special
Reference breath.
In some possible embodiments, the user's characteristic information include age of the user, gender, occupation,
At least one of living habit, disease, medication, diet, sleep etc..User's characteristic information can embody the sign shape of user
The user's characteristic information of user is also used as the foundation of subsequent bio entrainment by state, the embodiment of the present invention.For example, certain is used
The user's characteristic information of person's setting include be 60 years old or more at the age, have a chronic disease, dreaminess has used certain that can cause the medicine of drowsiness
Object and/or sleep insufficiency 6 hours etc., then these information are in subsequent control entrainment component, so that entrainment component is made
It will be applied and be paid attention to when for user.
Step S120, the physiological parameter of the user is obtained in real time.
Specifically, the physiological parameter of user is acquired using parameter acquisition component.
In some possible embodiments, parameter is carried using the regulating device of the biological rhythm adaptive regulation method to adopt
Collect component, such as parameter acquisition component is arranged on the ontology of regulating device of spectacle-frame type;In other feasible embodiments
In, parameter acquisition component can not be carried using regulating device of the biological rhythm adaptive regulation method itself, but is passed through
It is connect with external parameter acquisition assembly communication, sends acquisition after the physiological parameter of external parameter acquisition component acquisition user
Physiological parameter give the electronic device.
In some possible embodiments, step S120 obtains the physiological parameter of the user in real time, specifically includes: real
When obtain EGC parameter, body temperature, humidity of skin, Skin Resistance, respiratory rate, blood oxygen saturation, heart rate, the pulse of the user
At least one of wave, blood pressure, electroencephalogram parameter.
In some possible embodiments, the corresponding physiological parameter tool of each unit acquisition user in parameter acquisition component
Body can obtain in the following way:
EGC parameter: being acquired by sensor electrode from body surface, and sensor electrode can be located at external parameter and adopt
Collect component, may be alternatively located at included parameter acquisition component.
Body temperature: being acquired by temperature sensor in skin surface, and temperature sensor also can integrate on spectacle device,
Such as in temple.
Humidity of skin: it is acquired by humidity sensor in skin surface, humidity sensor can integrate in spectacle device
On, such as temple.
Skin Resistance: Skin Resistance numerical value, metal electrode sensing are obtained by metal electrode sensor measurement skin surface
Device is also desirably integrated on spectacle device, such as temple.
Respiratory rate: it is measured by electrode paste in the chest and abdomen impedance method measurement of thorax abdomen or by respiration transducer, the electricity
Pole or respiration transducer can be located at the parameter acquisition component of regulating device external connection;Electrocardiogram (ECG) data and blood oxygen can also be passed through
The estimation numerical value of respiratory rate is calculated through Filtering Analysis for data, can illustratively pass through the side of oximetry data analytical estimating
Formula, the sensor for obtaining oximetry data is desirably integrated on spectacle device, such as temple.
Blood oxygen saturation: being transmitted by photoelectricity and reflects two ways measurement, and measurement sensor pops one's head in and applies the biology
The regulating device of rhythm and pace of moving things adaptive regulation method can use separation design, and measurement sensor pops one's head in collected data can be with
The regulating device is sent to by wired or wireless way, or measurement sensor can also be popped one's head in and be integrated into spectacle device
On, such as temple.
Heart rate: being obtained by blood pressure pulse wave or is obtained by blood oxygen volume waveform, can also be passed by electrocardioelectrode
The collected electrocardiographic wave of sensor is obtained by calculating.Corresponding sensor and the application biological rhythm adaptive regulation method
Regulating device can use separation design, the collected data of sensor can send this to by wired or wireless way
Regulating device, or can also be by sensor integration to spectacle device, such as temple.
Pulse wave: pulse waveform data can be obtained during blood pressure measurement and Oximetry.
Blood pressure: it can be measured and be obtained by cuff type blood pressure instrument, or obtained by the calculating to pulse wave and EGC parameter
It obtains blood pressure and estimates numerical value.Illustratively, the measurement result of cuff type blood pressure instrument is sent to adjusting in a manner of wired or wireless communication
Device is handled or pulse wave sensor selection is integrated into regulating device, such as temple.
Electroencephalogram parameter: it is acquired by electrode from human body forehead position, can choose the acquisition list of head-type or wear-type
Then electroencephalogram parameter is sent to the adjusting dress using the biological rhythm adaptive regulation method by member by wired or wireless way
It sets;It can also be by acquisition electrode sensor integration to spectacle device, specifically, acquisition electrode sensor is desirably integrated into eye
Close to the skin part or nose of place between the eyebrows among the such as frame of in the temple of mirror device two sides and skin contact and forehead position
At support.
Step S130, according at least to the user's characteristic information and the physiological parameter real-time control entrainment component,
So that the entrainment component acts on the user.
In some possible embodiments, as depicted in figs. 1 and 2, step S130 is according at least to the user's characteristic information
With the physiological parameter real-time control entrainment component, specifically include:
Step S131, according to the user's characteristic information and the physiological parameter real-time control entrainment component, so that
The entrainment component acts on the user.
In some possible embodiments, by preset adjusting logic, the life that obtains with user's characteristic information and in real time
Reason parameter is foundation, real-time control entrainment component.
In some possible embodiments, the physiological parameter obtained by user's characteristic information and in real time passes to intelligent algorithm
Program analysis, intelligent algorithm program carries out real-time analysis to these data and handles to obtain the result of decision, so as to according to decision
Control parameter is exported to entrainment component when fructufy, thus real-time control entrainment component.
In some possible embodiments, step S131 is controlled in real time according to the user's characteristic information and the physiological parameter
Entrainment component processed, specifically:
By the neural network model after training according to the user's characteristic information and the physiological parameter real-time control section
Rule adjusts component.
In some possible embodiments, it is based on existing neural network model, using training sample to the neural network
Model is trained;Illustratively, training sample includes user's characteristic information, physiological parameter and desired entrainment group
The control parameter of part.After neural network model training, user's characteristic information based on input and the physiology acquired in real time are joined
Number, the control parameter exported can be very close to desired value, to realize the user's characteristic information of comprehensive user
With physiological parameter real-time control entrainment component so that entrainment component acts on user.
In some possible embodiments, as shown in figure 3, real-time control entrainment component in step S130, specific to wrap
Include at least one in step S101- step S104.
Step S101, numerical value, distribution, the inflation/deflation of the adjustment of entrainment component described in real-time control output pressure are suitable
Sequence, inflation/deflation time and/or pressure alteration frequency;To bring pressure to bear on user, the user characteristics according to user are realized
Information and physiological parameter massage user, to adjust the function of the biological rhythm of user.
Illustratively, the inflatable single-chamber or multi-cavity gas on human limb trunk and/or head are wrapped in by controlling
Bag apparatus provides Pressure stimulation to user, specific adjustable output to the pressure value of airbag apparatus, Pressure distribution range,
The control parameters such as inflation/deflation sequence and time, pressure alteration frequency.
Step S102, the adjustment of entrainment component described in the real-time control output intensity of electric current, direction, action time and/
Or electro photoluminescence frequency;To apply electro photoluminescence in user, user's characteristic information and physiological parameter pair according to user are realized
User carries out electro photoluminescence, to adjust the function of the biological rhythm of user.
Illustratively, electro photoluminescence, specific adjustable output can be generated by various conductive material contacts human body surfaces
The control parameters such as current strength, the position sequence of electrode and time, frequency of stimulation to conductive material.
Step S103, the wavelength of the adjustment of entrainment component described in real-time control output light, flicker frequency, light intensity, light and shade
Sequence and/or light and shade frequency;To apply light stimulus in user, realizes and joined according to the user's characteristic information and physiology of user
Several couples of users carry out light stimulus, to adjust the function of the biological rhythm of user.
Illustratively, eyes are produced by Single wavelength on wearable spectacle device or multi wave length illuminating source and combinations thereof
Third contact of a total solar or lunar eclipse stimulation, it is specifically adjustable to export to the photochromic selection of light source, photochromic sequence, photochromic combination, light intensity, flicker frequency, hold
The control parameters such as continuous time.
Step S104, the adjustment of entrainment component described in the real-time control output type of sound, volume, frequency, duration,
And/or the combination of muli-sounds;To apply sonic stimulation in user, the user's characteristic information according to user is realized
Sonic stimulation is carried out to user with physiological parameter, to adjust the function of the biological rhythm of user.
Illustratively, sonic stimulation is generated to ear canal by the voice output unit on wearable spectacle device, specifically
The sound size of adjustable voice output unit, the combination of sound frequency and multi-frequency, the selection of sound and muli-sounds
The control parameters such as combination.
Sonic stimulation, photochromic stimulation, electro photoluminescence and/or Pressure stimulation, which are exported, by entrainment component acts on use
Person is acquired to circadian rhythm, analyzes and feeds back stimulation using noninvasive mode, and adjusts the control of entrainment component in real time
Parameter processed, so that entrainment component adjusts frequency, intensity, time, the size etc. for exporting various stimulation modes in real time, by right
The environmental stimuli of human body, the circadian rhythm adjustment mechanism of intervention, induction or body reach the adjusting effect of biological rhythm
Fruit finally makes the biological rhythm of user reach optimum state.
Biological rhythm adaptive regulation method provided in an embodiment of the present invention, the user characteristics by obtaining user are believed
It ceases, and the physiological parameter of the user obtained in real time, obtains control program instruction, the real-time control rhythm and pace of moving things through artificial intelligence analysis
Component is adjusted, so that entrainment component acts on the user, using the individual sign state of user as biological rhythm
The foundation of adjusting, therefore biological rhythm automatic adjusument is more targeted, regulating effect is more preferable.
In some possible embodiments, as shown in figure 4, biological rhythm adaptive regulation method is further comprising the steps of:
Step S140, environmental information is obtained.
In some possible embodiments, it before the physiological parameter that step S120 obtains the user in real time, obtains
Environmental information.Illustratively, both environmental information can be obtained before step S110, ring can also be obtained after step silo
Border information.
In some possible embodiments, it can directly be obtained using the regulating device of the biological rhythm adaptive regulation method
Environmental information is taken, in other feasible embodiments, regulating device can be obtained by intelligent terminal or intelligent measurement instrument
Environmental information.
In some possible embodiments, can directly join using the regulating device of the biological rhythm adaptive regulation method
Net with environment information server to communicate, to obtain the environmental information of user their location from environment information server;?
It, can be logical with intelligent terminal using the regulating device of the biological rhythm adaptive regulation method in other feasible embodiments
News, intelligent terminal can obtain the environmental information of user their location from environment information server, therefore regulating device can be with
The environmental information of user their location is obtained from environment information server by intelligent terminal.
In some possible embodiments, the environmental information includes region, temperature, humidity, weather, sunrise time, day
Fall at least one of time etc..
Region can indicate country locating for user, be specifically as follows the positioning of regulating device or intelligent terminal
Information;Temperature, the humidity of user's local environment can both be obtained according to location information from environment information server, can also root
It is obtained according to location information from the intelligent terminal or intelligent measurement instrument that can be communicated with regulating device;Weather, sunrise time, at sunset
Between can be obtained according to location information from environment information server, such as there are wind, rain, snow, haze etc. in certain region.
According at least to the user's characteristic information and the physiological parameter real-time control entrainment in abovementioned steps S130
Component specifically includes:
Step S132, according to the user's characteristic information, environmental information and the physiological parameter real-time control entrainment
Component.
Constant or variable in the environmental informations such as region, temperature, humidity, weather, sunrise time, sunset time is to for controlling
The adjustment of the control parameter of entrainment component processed is also critically important.Such as: various countries, each department crowd have oneself life practise
Used and a certain disease incidence;For another example, the relationship of sunrise time, sunset time and sleep is very big.By by environmental information
This factor is unified to biological rhythm adaptive regulation method, more targeted can control the defeated of entrainment component
Out, so that entrainment component acts on user, biological rhythm regulating effect is more preferable.
Illustratively, if environmental information indicates that temperature reduces and have haze, the user of combined use person is special
Reference breath, such as existing disease;Just need intensity and the duration etc. of the output stimulation of relative reduction entrainment component.
Therefore, biological rhythm adaptive regulation method provided in an embodiment of the present invention, further by obtaining user institute
The environmental information at place, the foundation for being also used as biological rhythm to adjust environmental factor locating for user, therefore biological rhythm is adaptive
Should adjust more has specific aim, further improves regulating effect.
In some possible embodiments, by user's characteristic information, environmental information and in real time the physiological parameter that obtains is transmitted
It is analyzed to intelligent algorithm program, intelligent algorithm program carries out real-time analysis to these data and handles to obtain the result of decision, so as to
To export control parameter to entrainment component in real time according to the result of decision, thus real-time control entrainment component.
In some possible embodiments, step S132 is according to the user's characteristic information, environmental information and the physiology
Parameter real-time control entrainment component, specifically:
It is real according to the user's characteristic information, environmental information and the physiological parameter by the neural network model after training
When control entrainment component.
In some possible embodiments, it is based on existing neural network model, using training sample to the neural network
Model is trained;Illustratively, training sample includes user's characteristic information, environmental information, physiological parameter and desired
The control parameter of entrainment component.After neural network model training, user's characteristic information, environmental information based on input
The physiological parameter acquired in real time, the control parameter exported can be very close to desired values, to realize that synthesis makes
User's characteristic information, environmental information and the physiological parameter real-time control entrainment component of user, so that entrainment component is made
For user.
As seen through the above description of the embodiments, those skilled in the art can be understood that the present invention can
It realizes by means of software and necessary general hardware platform.Based on this understanding, technical solution of the present invention essence
On in other words the part that contributes to existing technology can be embodied in the form of software products, the computer software product
It can store in storage medium, such as ROM/RAM, magnetic disk, CD, including some instructions are used so that a computer equipment
(can be personal computer, server or the network equipment etc.) executes the certain of each embodiment or embodiment of the invention
Method described in part, such as:
A kind of storage medium, the storage medium are stored with computer program, if the computer program is held by processor
Row realizes aforementioned biological rhythm and pace of moving things adaptive regulation method.
The present invention can be used in numerous general or special purpose computing system environments or configuration.Such as: personal computer, service
Device computer, handheld device or portable device, laptop device, multicomputer system, microprocessor-based system, can compile
The consumer-elcetronics devices of journey, network PC, minicomputer, mainframe computer, the distribution including any of the above system or equipment
Environment etc. is calculated, such as embodiment two.
Embodiment two
A kind of control assembly as shown in Figure 5, including memory 110 and processor 120, memory 110 is for storing program
Instruction;If processor 120 executes the program instruction, above-mentioned biological rhythm adaptive regulation method is realized.
The method in control assembly and previous embodiment in the present embodiment be based on the same inventive concept under two sides
Face is in front described in detail method implementation process, so those skilled in the art can be clear according to foregoing description
Understand to Chu the structure and implementation process of the control assembly in this implementation, in order to illustrate the succinct of book, details are not described herein again.
Control assembly provided in an embodiment of the present invention is obtained by obtaining the user's characteristic information of user, and in real time
User physiological parameter, through artificial intelligence analysis obtain control program instruction, real-time control entrainment component, with envoy
Rule adjusts component and acts on user, the foundation that the individual sign state of user is adjusted as biological rhythm, therefore biology
Rhythm and pace of moving things automatic adjusument is more targeted, and regulating effect is more preferable.
Further, control assembly provided in an embodiment of the present invention will be made by obtaining environmental information locating for user
The foundation that environmental factor locating for user is also used as biological rhythm to adjust, therefore biological rhythm automatic adjusument more has and is directed to
Property, further improve regulating effect.
Embodiment three
It is as shown in Figure 6 and Figure 7 a kind of structural schematic diagram of biological rhythm self-adaptive regulating.
Biological rhythm self-adaptive regulating includes control assembly 100, parameter acquisition component 200 and entrainment component
300, parameter acquisition component 200, entrainment component 300 are communicated to connect with control assembly 100.
Physiological parameter of the parameter acquisition component 200 for acquisition user in real time, and in real time join collected physiology
Number is transmitted to control assembly 100.
In some possible embodiments, parameter acquisition component 200 acquires the physiological parameter of user in real time, specific to wrap
It includes: EGC parameter, body temperature, humidity of skin, Skin Resistance, respiratory rate, blood oxygen saturation, heart rate, the arteries and veins of acquisition user in real time
It fights at least one of wave, blood pressure, electroencephalogram parameter.
In some possible embodiments, parameter acquisition component 200 includes the electrocardio for obtaining user's EGC parameter
Unit, the body temperature unit for obtaining user's body temperature, the humidity unit for obtaining user's humidity of skin, for obtain make
The impedance unit of user's Skin Resistance, the breathing unit for obtaining user's respiratory rate are saturated for obtaining user's blood oxygen
The blood oxygen unit of degree, the pulse wave unit for obtaining user's pulse wave, is used the heart rate unit for obtaining user's heart rate
In obtaining at least one of the pressure unit of user's blood pressure, brain electric unit for obtaining user's electroencephalogram parameter.Parameter
Each unit in acquisition component 200 acquires the physiological parameter of user in a manner of noninvasive.
In some possible embodiments, electrocardio unit, body temperature unit, humidity unit, impedance unit, breathing unit, blood
Oxygen unit, heart rate unit, pulse wave unit, pressure unit and/or brain electric unit in a wired mode or wireless mode with control group
Part 100 communicates to connect.
In some possible embodiments, physiological parameter navigation regulating device carries at least portion of parameter acquisition component 200
Sub-unit, such as parameter acquisition component is arranged on the ontology of regulating device of spectacle-frame type, therefore control assembly 100 can lead to
Cross the physiological parameter that the included parameter acquisition component 200 obtains user in real time;In other feasible embodiments, control
Component 100 can be connect with the unit communication of the physiological parameter of external real-time acquisition user, therefore can be by outside this
Unit obtain the physiological parameter of user in real time.
In some possible embodiments, the corresponding physiology ginseng of each unit acquisition user in parameter acquisition component 200
Number can specifically obtain in the following way:
EGC parameter: being acquired by sensor electrode from body surface, and sensor electrode can be located at external parameter and adopt
Collect component 200, may be alternatively located at included parameter acquisition component 200.In the present embodiment, electrocardio unit may include being arranged in mirror
Sensor electrode on leg 620.
Body temperature: being acquired by temperature sensor in skin surface, and temperature sensor also can integrate on spectacle device,
Such as in temple 620.In the present embodiment, body temperature unit includes the temperature sensor.
Humidity of skin: it is acquired by humidity sensor in skin surface, humidity sensor can integrate in spectacle device
On, such as temple 620.In the present embodiment, humidity unit includes the humidity sensor.
Skin Resistance: Skin Resistance numerical value, metal electrode sensing are obtained by metal electrode sensor measurement skin surface
Device is also desirably integrated on spectacle device, such as temple 620.In the present embodiment, impedance unit includes that the metal electrode passes
Sensor.
Respiratory rate: it is measured by electrode paste in the chest and abdomen impedance method measurement of thorax abdomen or by respiration transducer, the electricity
Pole or respiration transducer can be located at the parameter acquisition component 200 of external electronic device connection;Can also by electrocardiogram (ECG) data and
The estimation numerical value of respiratory rate is calculated through Filtering Analysis for oximetry data, can illustratively pass through oximetry data analytical estimating
Mode, the sensor for obtaining oximetry data is desirably integrated on spectacle device, such as temple 620.In the present embodiment, it breathes
Unit includes the sensor of the acquisition oximetry data.
Blood oxygen saturation: by photoelectricity transmission and two ways measurement is reflected, measurement sensor probe and biological rhythm are certainly
Separation design can be used by adapting to regulating device, and the collected data of measurement sensor probe can pass through wired or wireless side
Formula sends the electronic device to, or measurement sensor can also be popped one's head in and be integrated on spectacle device, such as temple 620.
In the present embodiment, blood oxygen unit includes measurement sensor probe.
Heart rate: being obtained by blood pressure pulse wave or is obtained by blood oxygen volume waveform, can also be passed by electrocardioelectrode
The collected electrocardiographic wave of sensor is obtained by calculating.Corresponding sensor can be adopted with biological rhythm self-adaptive regulating
With separation design, the collected data of sensor can send the electronic device, Huo Zheye to by wired or wireless way
Can be by sensor integration to spectacle device, such as temple 620.In the present embodiment, heart rate unit includes for obtaining
The photoelectric sensor of blood oxygen volume waveform.
Pulse wave: pulse waveform data can be obtained during blood pressure measurement and Oximetry.In the present embodiment,
Pulse wave unit includes the sensor for blood pressure measurement and Oximetry.
Blood pressure: it can be measured and be obtained by cuff type blood pressure instrument, or obtained by the calculating to pulse wave and EGC parameter
It obtains blood pressure and estimates numerical value.Illustratively, the measurement result of cuff type blood pressure instrument sends electron in a manner of wired or wireless communication
Device is handled or pulse wave sensor selection is integrated on electronic device, such as temple 620.In the present embodiment, blood
Pressing unit includes pulse wave sensor.
Electroencephalogram parameter: it is acquired by electrode from human body forehead position, can choose the acquisition list of head-type or wear-type
Then electroencephalogram parameter is sent to biological rhythm self-adaptive regulating by wired or wireless way by member;It can also will acquire
Electrode sensor is integrated on spectacle device, specifically, acquisition electrode sensor be desirably integrated into spectacle device two sides with
Close at the skin part of place between the eyebrows or nose support in the temple 620 of skin contact and among the such as frame 610 of forehead position.At this
In embodiment, brain electric unit includes the acquisition electrode sensor.
Control assembly 100 includes memory 110 and processor 120, and memory 110 is for storing program instruction;If processing
Device 120 executes program instructions, and realizes biological rhythm adaptive regulation method above-mentioned.
In some possible embodiments, biological rhythm self-adaptive regulating can be with intelligent terminal 10, such as mobile phone
It is communicated in a wired or wireless manner, therefore the user of user can be obtained by the communication part 400 of regulating device
Characteristic information.
In some possible embodiments, biological rhythm self-adaptive regulating further includes being connected to control assembly 100
Communication part 400, communication part 400 are used to the user's characteristic information of the user obtained from intelligent terminal 10 being transmitted to control
Component 100.Illustratively, communication part 400 includes Bluetooth chip.
In other feasible embodiments, biological rhythm self-adaptive regulating further includes being connected to control assembly 100
Interactive component 500, interactive component 500 is used to obtain the user's characteristic information of user, and the user characteristics letter that will acquire
Breath is transmitted to control assembly 100.It therefore can also be by the interactive component 500 of biological rhythm self-adaptive regulating itself, such as
Touch screen, voice input mould group etc. obtain the user's characteristic information of user.
In some possible embodiments, user saves the user characteristics after certain sets up user's characteristic information
Information is to memory 110;For next user when using biological rhythm self-adaptive regulating, processor 120 is again from memory
110 obtain the user's characteristic information of user.
In some possible embodiments, user's characteristic information include age of user, gender, occupation, living habit,
At least one of disease, medication, diet, sleep etc..User's characteristic information can embody the sign state of user, and the present invention is real
Apply the foundation that the user's characteristic information of user is also used as subsequent bio entrainment by example.For example, the use of certain user setting
Family characteristic information include be 60 years old or more at the age, have a chronic disease, dreaminess has used certain that can cause the drug of drowsiness and/or sleep
Dormancy was less than 6 hours etc., then these information are in subsequent control entrainment component 300, so that entrainment component 300 acts on
It will be applied and be paid attention to when user.
The processor 120 of control assembly 100 is used for according to user's characteristic information and physiological parameter real-time control entrainment
Component 300, so that entrainment component 300 acts on user.
In some possible embodiments, memory 110 is to be stored with the default memory 110 for adjusting logic;Processor
120 obtain preset adjusting logic from memory 110, and the physiological parameter obtained using user's characteristic information and in real time is real as foundation
When control entrainment component 300.
In other feasible embodiments, biological rhythm self-adaptive regulating also obtains environmental information, and according to
Family characteristic information, environmental information and the physiological parameter real-time control entrainment component 300.
In some possible embodiments, control assembly 100 is used for according to environmental information, and from parameter acquisition component
The 200 physiological parameter real-time control entrainment components 300 obtained, so that entrainment component 300 acts on user.Another
In some feasible embodiments, control assembly 100 is used for according to user's characteristic information, and is obtained from parameter acquisition component 200
Physiological parameter real-time control entrainment component 300 so that entrainment component 300 acts on user.Other can
In capable embodiment, control assembly 100 is used for according to environmental information and user's characteristic information, and from parameter acquisition component 200
The physiological parameter real-time control entrainment component 300 of acquisition, so that entrainment component 300 acts on user.
In some possible embodiments, biological rhythm self-adaptive regulating itself includes GPS, temperature sensor etc.,
Environmental information can be directly acquired, in other feasible embodiments, biological rhythm self-adaptive regulating can be by logical
It interrogates component 400 and obtains environmental information from intelligent terminal 10 or intelligent measurement instrument.
In some possible embodiments, biological rhythm self-adaptive regulating can directly pass through communication part 400
Net with environment information server to communicate, to obtain the environmental information of user their location from environment information server;?
In other feasible embodiments, biological rhythm self-adaptive regulating can be communicated with intelligent terminal 10, and intelligent terminal 10 can
To obtain the environmental information of user their location from environment information server, therefore biological rhythm self-adaptive regulating can be with
The environmental information of user their location is obtained from environment information server by intelligent terminal 10.
In some possible embodiments, the environmental information includes region, temperature, humidity, weather, sunrise time, day
Fall at least one of time etc..
Region can indicate country locating for user, be specifically as follows determining for regulating device or intelligent terminal 10
Position information;The temperature of user's local environment, humidity can both be obtained according to location information from environment information server, can also be with
It is obtained according to location information from the intelligent terminal 10 or intelligent measurement instrument that can be communicated with regulating device;Weather, sunrise time, day
Falling the time can obtain according to location information from environment information server, such as there are wind, rain, snow, haze etc. in certain region.
In some possible embodiments, entrainment component 300 includes: gas pressure unit 310, electrical stimulation unit
320, at least one of luminescence unit 330, voice unit (VU) 340.
In some possible embodiments, gas pressure unit 310, electrical stimulation unit 320, luminescence unit 330 and/or sound
Sound unit 340 is communicated to connect with control assembly 100 in a wired mode or wireless mode.
In some possible embodiments, gas pressure unit 310 is wrapped in human body predetermined patterns, such as human body four
The inflatable single-chamber air bag or multi-cavity air bag of limb, trunk and/or head.So as to head, eye, upper limb, waist,
Lower limb and/or foot carry out Pressure stimulation.According to stimulation location difference, air bag can be designed to single-chamber air bag or multi-cavity gas
Capsule, can be with by adjusting the numerical value of output pressure, distribution, inflation/deflation sequence, inflation/deflation time and/or pressure alteration frequency
Realize that air pump adjusts the pressure of different cavity or air bag, playing sequence massage and ordered position stimulates, by human body and
The Pressure stimulation of sensory nervous system causes the adjusting of human boby biorhythm to change.For example the multi-cavity air bag in leg includes four
A region from top to bottom, the pressure control in each region is different, inflation deflation sequences are different, and mould may be implemented in duration difference
Imitative massage processes, make human body reach the state loosened, and then cause loosening for nervous system.
In some possible embodiments, electrical stimulation unit 320 includes electrode, for example including the electricity for being clipped on ear
Pole folder.By using noninvasive mode, skin is contacted using electrode and exports microcurrent stimulating.
In some possible embodiments, by controlling the power of stimulated current, the combination of frequency and frequency, stimulation time
Deng, to sensory nervous system stimulate, cause the adjusting of biological rhythm to change.In some possible embodiments, according to user
Current heart rate and blood pressure state forms parameters of electrical stimulation in conjunction with existing disease condition, and control is connected to upper limb or lower limb
Electrode on muscle group issues the electric current stimulation of some strength and frequency, reaches and relieves pain and improve muscular strength and other effects.
In some possible embodiments, user ear cave can also be stimulated by the electrode holder for being clipped on ear
Position achievees the purpose that adjust biological rhythm.
In some possible embodiments, the hair different including a light-emitting component or multiple wavelength of luminescence unit 330
Optical element;The wavelength that light-emitting component shines is in 300nm-3000nm.By control the luminous intensity of light source, luminescent color,
Conversion frequency, duration and combination generate stimulation to optic nerve, and then influence biological rhythm.For example, needing
It is necessary to export control parameter when loosening nerve and reducing blood pressure, control luminescence unit 330 issues orange light, and controls it
Luminous intensity and light and shade frequency are stimulated by the light to vision, are adjusted nervous system, are achieved the effect that loosen user,
And then blood pressure reduces, heart rate is steady.
In some possible embodiments, voice unit (VU) 340 includes loudspeaker, can be played by controlling the sound of loudspeaker
The combination of selection, the size of sound, sound frequency and frequency carries out the stimulation of sound.By the stimulation of sound, cause user
The variation of auditory nervous system influences biological rhythm in turn.For example white noise induced hypnotic is played according to parameter, play sound of releiving
It is happy to loosen nervous system, it plays high-frequency music and promotes awakening etc..
In some possible embodiments, as shown in fig. 7, biological rhythm self-adaptive regulating further includes mirror holder shape main body
600, mirror holder shape main body 600 includes frame 610 and the temple 620 for being connected to frame 610.
Electrical stimulation unit 320 and/or voice unit (VU) 340 and control assembly 100 are located in temple 620, luminescence unit
330 are located on frame 610.In the present embodiment, electrical stimulation unit 320 includes the electrode holder for being clipped on ear, is shone single
The light-emitting component (not shown) different including a light-emitting component or multiple wavelength of member 330;The wavelength that light-emitting component shines
In 300nm-3000nm.
In some possible embodiments, body temperature unit, impedance unit, and/or blood oxygen unit are located in temple 620.When
When user wears the biological rhythm self-adaptive regulating of the spectacle, body temperature unit, impedance unit, and/or blood oxygen unit
It is abutted with the head of user, it is ensured that the accuracy of body temperature unit, impedance unit, and/or the detection of blood oxygen unit.
In some possible embodiments, body temperature unit includes temperature sensor, and impedance unit includes Skin Resistance sensing
Device, blood oxygen unit include photoelectric blood oxygen pulse sensor (figure is not infused).
Biological rhythm self-adaptive regulating provided in an embodiment of the present invention, the user characteristics by obtaining user are believed
It ceases, and the physiological parameter of the user obtained in real time, obtains control program instruction, the real-time control rhythm and pace of moving things through artificial intelligence analysis
Component 300 is adjusted, so that entrainment component 300 acts on user, is saved the individual sign state of user as biology
The foundation adjusted is restrained, therefore biological rhythm automatic adjusument is more targeted, regulating effect is more preferable.
Further, biological rhythm self-adaptive regulating provided in an embodiment of the present invention, by obtaining locating for user
Environmental information, the foundation for being also used as biological rhythm to adjust environmental factor locating for user, therefore biological rhythm is adaptive
Adjusting more has specific aim, further improves regulating effect.
The above embodiment is only the preferred embodiment of the present invention, and the scope of protection of the present invention is not limited thereto,
The variation and replacement for any unsubstantiality that those skilled in the art is done on the basis of the present invention belong to institute of the present invention
Claimed range.
Claims (14)
1. a kind of biological rhythm adaptive regulation method characterized by comprising
Obtain the user's characteristic information of user;
The physiological parameter of the user is obtained in real time;
According at least to the user's characteristic information and the physiological parameter real-time control entrainment component, so that the rhythm and pace of moving things tune
Section component acts on the user.
2. biological rhythm adaptive regulation method as described in claim 1, it is characterised in that: the user's characteristic information includes
Age of the user, gender, occupation, living habit, disease, medication, diet, in sleep at least one of.
3. biological rhythm adaptive regulation method as described in claim 1, which is characterized in that further include:
Obtain environmental information;
It is described according at least to the user's characteristic information and the physiological parameter real-time control entrainment component, comprising:
According to the user's characteristic information, environmental information and the physiological parameter real-time control entrainment component.
4. biological rhythm adaptive regulation method as claimed in claim 3, it is characterised in that: the environmental information includes ground
Domain, temperature, humidity, weather, sunrise time, in sunset time at least one of.
5. biological rhythm adaptive regulation method as described in claim 1, it is characterised in that: described to obtain the use in real time
The physiological parameter of person, specifically includes: obtaining the EGC parameter of the user in real time, body temperature, humidity of skin, Skin Resistance, exhales
At least one of suction rate, blood oxygen saturation, heart rate, pulse wave, blood pressure, electroencephalogram parameter.
6. biological rhythm adaptive regulation method as claimed in claim 3, it is characterised in that: described according to the user characteristics
Information, environmental information and the physiological parameter real-time control entrainment component, specifically:
It is controlled in real time by the neural network model after training according to the user's characteristic information, environmental information and the physiological parameter
Entrainment component processed.
7. such as biological rhythm adaptive regulation method of any of claims 1-6, it is characterised in that: the real-time control
Entrainment component processed, specifically includes:
Entrainment component described in real-time control adjusts the numerical value of output pressure, distribution, inflation/deflation sequence, inflation/deflation time
And/or pressure alteration frequency;And/or
Intensity, direction, action time and/or the electro photoluminescence frequency of the adjustment output electric current of entrainment component described in real-time control;
And/or
Entrainment component described in real-time control adjusts wavelength, flicker frequency, light intensity, light and shade sequence and/or the light and shade of output light
Frequency;And/or
Entrainment component described in real-time control adjusts the type for exporting sound, volume, frequency, duration, and/or muli-sounds
Combination.
8. a kind of control assembly, it is characterised in that: including memory and processor, the memory is for storing program instruction;
If the processor executes described program instruction, realize as biological rhythm of any of claims 1-7 is adaptively adjusted
Section method.
9. a kind of biological rhythm self-adaptive regulating, it is characterised in that: including parameter acquisition component, control assembly and rhythm and pace of moving things tune
Component is saved, the parameter acquisition component, entrainment component are communicated to connect with the control assembly;
Physiological parameter of the parameter acquisition component for acquisition user in real time, and in real time pass collected physiological parameter
Transport to the control assembly;
The control assembly includes memory and processor, and the memory is for storing program instruction;If the processor is held
The instruction of row described program, realizes such as biological rhythm adaptive regulation method of any of claims 1-7.
10. biological rhythm self-adaptive regulating as claimed in claim 9, it is characterised in that: it further include interactive component, it is described
Interactive component is connected to the processor;The processor is believed especially by the user characteristics that the interactive component obtains user
Breath.
11. the biological rhythm self-adaptive regulating as described in claim 9 or 10, it is characterised in that: it further include communication part,
The communication part is connected to the processor;The processor is obtained from intelligent terminal especially by the communication part and is used
The user's characteristic information of person.
12. the biological rhythm self-adaptive regulating as described in claim 9 or 10, it is characterised in that: the parameter acquisition group
Part include for obtaining the electrocardio unit of user's EGC parameter, the body temperature unit for obtaining user's body temperature, for obtaining
The humidity unit of user's humidity of skin, the impedance unit for obtaining user's Skin Resistance are breathed for obtaining user
The breathing unit of rate, the blood oxygen unit for obtaining user's blood oxygen saturation, the heart rate unit for obtaining user's heart rate,
For obtaining the pulse wave unit of user's pulse wave, the pressure unit for obtaining user's blood pressure, for obtaining user
At least one of brain electric unit of electroencephalogram parameter.
13. biological rhythm self-adaptive regulating as claimed in claim 12, it is characterised in that: the entrainment component packet
It includes: at least one of gas pressure unit, electrical stimulation unit, luminescence unit, voice unit (VU).
14. biological rhythm self-adaptive regulating as claimed in claim 13, it is characterised in that: it further include mirror holder shape main body,
The mirror holder shape main body includes frame and the temple for being connected to the frame;
The electrical stimulation unit and/or voice unit (VU) and the control assembly are located in the temple, the luminescence unit position
In on the frame;
The body temperature unit, impedance unit, and/or blood oxygen unit are located in the temple.
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