A kind of physiological parameter navigation adjusting method, control assembly and regulating deviceTechnical field
The present invention relates to intelligent health product scope more particularly to a kind of physiological parameter navigation adjusting methods, control assemblyAnd regulating device.
Background technique
Ancient Times in China medicine is recognized very early to be worked at sunrise, rest at sunset, and provides itself by the variation of nature lightWork and life state.Modern medicine also starts influence of the variation to human body of valuing researches ambient.
Modern medicine discovery, light stimulus can all have an impact nerve system of human body and biological rhythm, regular lightStimulation, the nervous system of adjustable human body.For example, can be significantly improved by specific optical stimulation for depressed crowdDepressive state;For the crowd of high latitude area, in winter under very long sleet and days are short and nights long environment, the heart of crowd can be improvedReason state;The sensibility to pain can be improved by optical stimulation and induction for the crowd of chronic ache, to many chronicPain especially neuropathic pain has remission effect;For the bad crowd of sleeping, light stimulus can change sleep cycle, can be withIt by light stimulus induced hypnotic and realizes deep sleep, improves sleep quality.
But how to implement and quickly, accurately, targetedly adjust by physiological parameter of the light to people,It is still the project for needing to study.
Summary of the invention
The embodiment of the present invention provides a kind of physiological parameter navigation adjusting method, control assembly and regulating device, can be preferableGround, which is realized, quickly, accurately, targetedly adjust by physiological parameter of the light to people.
First aspect of the embodiment of the present invention provides a kind of physiological parameter navigation adjusting method, draws for controlling navigation arrangementIt leads user and makes corresponding movement;
Physiological parameter navigation adjusting method includes:
The physiological parameter of user is obtained in real time;
Navigation instruction is exported according to the physiological parameter and preset navigational logic information real-time control navigation arrangement, to mentionShow that user follows the navigation instruction to make corresponding actions;
Wherein, the real-time control navigation arrangement exports navigation instruction, to prompt user that the navigation instruction is followed to doCorresponding actions out specifically include:
Navigation arrangement described in real-time control issues the light of dynamic change, to cause user to follow the light of the dynamic changeMake corresponding movement.
In some embodiments, navigation arrangement described in the real-time control issues the light of dynamic change, specifically includes in real timeControl the navigation arrangement issue the wavelength of light, flicker frequency, in light intensity at least one of.
In some embodiments, the real-time control navigation arrangement exports navigation instruction, described to prompt user to followNavigation instruction makes corresponding actions, specifically further include:
Navigation arrangement described in real-time control exports audio, to prompt user that the audio is followed to make corresponding actions.
In some embodiments, the real-time physiological parameter for obtaining user, specifically includes: obtaining user's in real timeEGC parameter, body temperature, humidity of skin, Skin Resistance, respiratory rate, blood oxygen saturation, heart rate, pulse wave, blood pressure, in electroencephalogram parameterAt least one.
In some embodiments, the physiological parameter navigation adjusting method further include:
If obtaining the navigation pattern information of user's setting, the preset navigation is obtained according to the navigation pattern informationLogical message.
In some embodiments, the navigation pattern information specifically includes sleep mode information, if the acquisition userThe navigation pattern information of setting obtains the preset navigational logic information according to the navigation pattern information, specifically includes:
If the navigation pattern information obtained includes sleep mode information, navigation corresponding with the sleep mode information is obtainedLogical message;
Alternatively, the navigation pattern information specifically includes awakening pattern information, if the navigation for obtaining user's settingPattern information obtains the preset navigational logic information according to the navigation pattern information, specifically includes:
If the navigation pattern information obtained includes awakening pattern information, navigation corresponding with the awakening pattern information is obtainedLogical message.
In some embodiments, the navigation instruction includes breathing key instruction, blink key instruction, limb action guidanceAt least one of in instruction.
In some embodiments, described according to the physiological parameter and preset navigational logic information real-time control navigation groupPart exports navigation instruction, specifically includes:
Navigation data is adjusted in real time according to the amplitude of variation of the physiological parameter and the navigational logic information, so that describedNavigation arrangement exports navigation instruction according to navigation data adjusted.
Second aspect of the embodiment of the present invention provides a kind of physiological parameter Navigation Control component, including memory and processingDevice, the memory is for storing program instruction;If the processor executes described program instruction, realize that above-mentioned physiological parameter is ledNavigate adjusting method.
The third aspect of the embodiment of the present invention provides a kind of physiological parameter navigation regulating device, including parameter acquisition component,Physiological parameter Navigation Control component and navigation arrangement, the parameter acquisition component, navigation arrangement navigate with the physiological parameterControl assembly communication connection;
Physiological parameter of the parameter acquisition component for acquisition user in real time, and in real time join collected physiologyNumber is transmitted to the physiological parameter Navigation Control component;
The physiological parameter Navigation Control component includes memory and processor, and the memory refers to for storing programIt enables;If the processor executes described program instruction, above-mentioned physiological parameter navigation adjusting method is realized.
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 userThe impedance unit of Skin Resistance, the breathing unit for obtaining user's respiratory rate, for obtaining user's blood oxygen saturationBlood oxygen unit, the heart rate unit for obtaining user's heart rate, the pulse wave unit for obtaining user's pulse wave, for obtainingAt least one of the pressure unit that takes user's blood pressure, brain electric unit for obtaining user's electroencephalogram parameter.
In some embodiments, physiological parameter navigation regulating device further includes mirror holder shape main body, the mirror holder shape main body packetInclude frame and the temple for being connected to the frame;
The navigation arrangement includes the luminescence unit for issuing the light of dynamic change and the sound list for exporting audioMember;The luminescence unit is located on the frame, the voice unit (VU) and the parameter acquisition component, physiological parameter navigationControl assembly is respectively positioned in the temple, the parameter acquisition component, luminescence unit, voice unit (VU) in a wired fashion with it is describedThe connection of physiological parameter Navigation Control component.
In some embodiments, physiological parameter navigation regulating device further includes connecting with the physiological parameter Navigation Control componentThe interactive component connect, the interactive component are used to the navigation pattern information that user is arranged being transmitted to the processor.
Compared with prior art, the beneficial effect of the embodiment of the present invention is: by by the physiology of the user obtained in real timeThe foundation that parameter is adjusted as navigation, and referred to according to the output navigation of preset navigational logic information real-time control navigation arrangementIt enables, such as controls the light that the navigation arrangement issues dynamic change, to prompt user that the navigation instruction is followed to make accordinglyMovement, and then cause the variation of user's nervous system.The variation of nervous system can be joined in real time by user's physiology againSeveral reacting conditions come out, and are collected in real time again, as the new foundation that navigation is adjusted, so that persistently output navigation refers toIt enables, realizes the saturation type adjustment of physiological parameter.
It guides user to follow by personalized navigation arrangement, makes external optical stimulation adjustment human-body biological section rapidlyRule, rapid-onset have good effect to anxiety, anxiety, depression and insomnia, and user is not necessarily to special observation and concentrationSpirit can follow the guide of navigation by the perception to light, easily perceive navigation directions in the realization of complete relaxation state.
Detailed description of the invention
One or more embodiments are illustrated by the picture in corresponding attached drawing, these exemplary theorysThe bright restriction not constituted to embodiment, the element in attached drawing with same reference numbers label are expressed as similar element, removeNon- to have special statement, composition does not limit the figure in attached drawing.
Fig. 1 is the flow diagram of the physiological parameter navigation adjusting method of the embodiment of the present invention one;
Fig. 2 is the sub-process schematic diagram of step S120 in Fig. 1;
Fig. 3 is another flow diagram of the physiological parameter navigation adjusting method of the embodiment of the present invention one;
Fig. 4 is the sub-process schematic diagram of step S130 in Fig. 3;
Fig. 5 is the structural schematic diagram of the physiological parameter Navigation Control component of the embodiment of the present invention two;
Fig. 6 is the structural schematic diagram of the physiological parameter navigation regulating device of the embodiment of the present invention three;
Fig. 7 is another structural schematic diagram of physiological parameter navigation regulating device.
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, rightThe present invention is further elaborated.It should be appreciated that described herein, specific examples are only used to explain the present invention, notFor 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 conflictedWithin bright protection scope.In addition, though having carried out the division of functional module in schematic device, show in flow chartsLogical order, but in some cases, it can be with the sequence in the module division being different from schematic device or flow chartExecute shown or described step.
Embodiment one
Such as the flow diagram that Fig. 1 is a kind of physiological parameter navigation adjusting method, physiological parameter navigation adjusting method is used forControl navigation arrangement guidance user makes corresponding movement.
Physiological parameter navigate adjusting method the following steps are included:
Step S110, the physiological parameter of user is obtained in real time.
Specifically, the physiological parameter of user is acquired using parameter acquisition component.In some possible embodiments,Parameter acquisition component is carried using the electronic device of physiological parameter navigation adjusting method;In other feasible embodiments,Parameter acquisition component can not be carried using the electronic device of physiological parameter navigation adjusting method itself, but by with outsideThe connection of parameter acquisition assembly communication, the physiology of acquisition is sent after the physiological parameter of external parameter acquisition component acquisition userParameter gives the electronic device.
In some possible embodiments, step S110 obtains the physiological parameter of user in real time, specifically includes: obtaining in real timeTake the EGC parameter of user, body temperature, humidity of skin, Skin Resistance, respiratory rate, blood oxygen saturation, heart rate, pulse wave, blood pressure,At least one of electroencephalogram parameter.
In some possible embodiments, the corresponding physiological parameter tool of each unit acquisition user in parameter acquisition componentBody 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 adoptCollect 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 deviceOn, such as temple.
Skin Resistance: Skin Resistance numerical value, metal electrode sensing are obtained by metal electrode sensor measurement skin surfaceDevice 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 electricityPole or respiration transducer can be located at the parameter acquisition component of external electronic device connection;Electrocardiogram (ECG) data and blood oxygen can also be passed throughThe estimation numerical value of respiratory rate is calculated through Filtering Analysis for data, can illustratively pass through the side of oximetry data analytical estimatingFormula, 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 physiologyThe electronic device of parameter navigation adjusting method can use separation design, and the collected data of measurement sensor probe can lead toIt crosses wired or wireless way and sends the electronic device to, or measurement sensor can also be popped one's head in and be integrated into spectacle deviceOn, 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 electrocardioelectrodeThe collected electrocardiographic wave of sensor is obtained by calculating.Corresponding sensor and application physiological parameter navigation adjusting methodElectronic device can use separation design, and the collected data of sensor can send the electricity to by wired or wireless waySub-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 parameterIt 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 communicationDevice is handled or pulse wave sensor selection is integrated on electronic 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-typeThen electroencephalogram parameter is sent to the electronics dress using physiological parameter navigation adjusting method by member by wired or wireless wayIt sets;Acquisition electrode sensor integration can also be arrived
On spectacle device, specifically, acquisition electrode sensor is desirably integrated into spectacle device two sides and skin contactTemple on and forehead position such as frame among close at the skin part of place between the eyebrows or nose support.
Step S120, according to the physiological parameter and the output navigation of preset navigational logic information real-time control navigation arrangementInstruction, to prompt user that the navigation instruction is followed to make corresponding actions.
In some possible embodiments, the navigation instruction of control navigation arrangement output includes breathing key instruction, blinkAt least one of in key instruction, limb action key instruction.
Navigation arrangement output breathing key instruction, can guide user to adjust respiratory rate, depth of respiration, breathing speedDegree, breathing pattern;Navigation arrangement output blink key instruction, can guide user to adjust frequency of wink, blink speed, navigationComponent exports limb action key instruction, and user can be guided to make corresponding limb action;So as to realize that adjustment makesThe effect of user's physiological parameter.
By guidance user's breathing, the thinking and nervous system of adjustable user, such as user can be made to putPine is nervous;Pass through the nervous system of the blink movement of guidance user or limb action also adjustable user;FromAnd user can be instructed by breathing by breathing key instruction, blink key instruction and/or limb action key instruction, blinkedEye and/or limb action adjust nervous system, physiological parameter.
In some possible embodiments, navigation arrangement includes luminescence unit.As shown in Fig. 2, being controlled in real time in step S120Navigation arrangement output navigation instruction processed is specifically included following with prompting user that the navigation instruction is followed to make corresponding actionsStep:
Step S121, luminescence unit in navigation arrangement described in real-time control issues the light of dynamic change, with cause usingPerson follows the light of the dynamic change to make corresponding movement.
Illustratively, the luminous parameters of luminescence unit in the navigation arrangement are adjusted in real time, so that the luminescence unit rootThe light of dynamic change is issued according to the luminous parameters, and corresponding move is made with the light for causing user to follow the dynamic changeMake.
In some possible embodiments, in step S121 navigation arrangement described in real-time control issue dynamic change light,Specifically include: luminescence unit issues the wavelength of light, flicker frequency, at least one in light intensity in navigation arrangement described in real-time control?.
In some possible embodiments, luminescence unit include a light-emitting component or multiple wavelength it is different shineElement;The wavelength that the light-emitting component shines is in 300nm-3000nm.
In some possible embodiments, light-emitting component is laser diode (LD), light emitting diode (LED) or organic hairOptical diode (OLED) etc..
In some possible embodiments, luminescence unit can be made of one or more light-emitting components, light-emitting component bySingle wavelength or multi-wavelength between wave-length coverage 300nm-3000nm are composed.The light source type of light-emitting component,Including laser diode (LD), light emitting diode (LED) or Organic Light Emitting Diode (OLED) or multiple types light-emitting componentCombination.
By controlling the alternating variation of optical wavelength, user can be guided to adjust respiratory cycle, blink movement or limbs dynamicThe switching of work;By the flicker frequency of luminescence unit in control navigation arrangement, user can be guided to adjust respiratory rate, blinkFrequency or the frequency of limb action, speed;By the light intensity of luminescence unit in control navigation arrangement, it can be enhanced or weaken to makingThe process of physiological parameter adjusting is accelerated or slowed down to the optical stimulation of user.
In some possible embodiments, navigation arrangement further includes voice unit (VU).Real-time control navigation group in step S120Part exports navigation instruction, to prompt user that the navigation instruction is followed to make corresponding actions, specifically further include:
Step S122, navigation arrangement described in real-time control exports audio, to prompt user that the audio is followed to make phaseIt should act.
Illustratively, the voice unit (VU) in navigation arrangement described in real-time control plays preset musical and/or plays specificSound instruction, such as exhale, air-breathing or shake hands or stretch out one's hand.To adjust the physiological parameter of user by preset musical, such as makeUser's mood is releived or is rouse oneself, and/or guidance user follows the sound instruction to make corresponding actions.
In some possible embodiments, physiological parameter navigates adjusting method based on optical unit, is changed with lightUser is guided, extraordinary effect can be played, act on user using the stimulation and variation pattern of the light of different wave length, is tiedThe stimulation and prompt for closing different preset musicals and/or sound instruction are loosened preferable with training effect.
In some possible embodiments, step S120 is real-time according to the physiological parameter and preset navigational logic informationIt controls navigation arrangement and exports navigation instruction, specifically include:
Step S123, navigation number is adjusted in real time according to the amplitude of variation of the physiological parameter and the navigational logic informationAccording to so that the navigation arrangement exports navigation instruction according to navigation data adjusted.
Illustratively, if the physiological parameter that the physiological parameter of the user currently got is got compared to the last timeAmplitude of variation it is larger, such as the fast speed that heart rate rises, then adjust the navigation data of last output, and export new navigationData so that the navigation arrangement according to navigation data adjusted export navigation instruction, such as export new navigation data withThe flicker frequency reduction that navigation arrangement issues light is controlled, so as to realize the steady adjusting of user's physiological parameter.
Physiological parameter navigation adjusting method provided in an embodiment of the present invention, by joining the physiology of the user obtained in real timeThe foundation that number is adjusted as navigation, and navigation instruction is exported according to preset navigational logic information real-time control navigation arrangement,Such as the light that the navigation arrangement issues dynamic change is controlled, it is corresponding dynamic to prompt user that the navigation instruction is followed to makeMake, and then causes the variation of user's nervous system.The variation of nervous system can be again in real time by user's physiological parameterReacting condition come out, and collected in real time again, as the new foundation that navigation is adjusted, so that persistently output navigation refers toIt enables, realizes the saturation type adjustment of physiological parameter.
It guides user to follow by personalized navigation arrangement, external optical stimulation and/or sound is made to adjust people rapidlyBody biological rhythm, rapid-onset have good effect to anxiety, anxiety, depression and insomnia, and user is not necessarily to special sightIt examines and concentrates on, by the perception to light and/or to the perception of sound, so that it may which the guide for following navigation is being loosened completelyState realization easily perceives navigation directions.
As the further improvement of the embodiment of the present invention, navigational logic information have it is a variety of, for example including for guide makeUser fall asleep navigational logic information, the navigational logic information for guiding user to regain consciousness, for guiding the gentle heart of userRate or the navigational logic information of breathing etc..
The adjusting method as shown in figure 3, physiological parameter is navigated further include:
If step S130, obtaining the navigation pattern information of user's setting, according to navigation pattern information acquisitionPreset navigational logic information.That is the navigation pattern information of preset navigational logic information and user's setting in step S120Match.
In some possible embodiments, step S130 is executed before step S110, that is, first by user setting after being switched onNavigation mode, then according to the physiological parameter of acquisition and the navigational logic information reality transferred according to the navigation mode that user is arrangedWhen control navigation arrangement export navigation instruction, to prompt user that the navigation instruction is followed to make corresponding actions.
In other feasible embodiments, the navigation mode tune that user is arranged when last time use is directly used after bootingThe navigational logic information taken exports navigation instruction according to the physiological parameter real-time control navigation arrangement of acquisition, to prompt userThe navigation instruction is followed to make corresponding actions;When the navigation pattern information for getting user in the secondary use process and being arranged,The corresponding navigational logic information of navigation mode letter navigational logic information is then transferred as preset navigational logic in step S120Information.
In some possible embodiments, the navigation pattern information specifically includes sleep mode information.
As shown in figure 4, if step S130 obtains the navigation pattern information of user's setting, according to the navigation pattern informationThe preset navigational logic information is obtained, specifically includes the following steps:
If step S131, the navigation pattern information obtained includes sleep mode information, obtain and the sleep mode informationCorresponding navigational logic information.
If the navigation mode of user's setting is sleep, in order to guide user to enter sleep state, step as early as possibleS120 is controlled in real time according to the physiological parameter and navigational logic information corresponding with sleep mode information of the user got in real timeNavigation arrangement processed exports navigation instruction, makes the action of navigation arrangement and state is to promote and user is guided to enter sleep's.Illustratively, the luminescence unit in navigation arrangement issues orange-yellow light, and its brightness should gradually decrease;Meanwhile it shiningUnit can show that the i.e. display mode work of breathing lamp-based, user is in the change for perceiving light according to the light and shade of certain frequencyWhen change, the and then respiratory rate or frequency of wink of the light and shade periodic adjustment of light oneself, breathing pattern is preferably abdominal respiration, canAccording to the light and shade period distances of light, the uniformity that gradually adjustment is breathed, blinked.Illustratively, the sound list in navigation arrangementMember can play the music of releiving of white noise or hypnosis, helper-inducer sleep;Period can also be made with soft auditory tone cuesUser how to cooperate carries out breathing and eye state, such as prompt user blinked with slowly frequency, it is micro- close orIt is fully closed etc..The action of the above navigation arrangement and state are provided to accelerate dormant induction, are during this processHave certain duration, this this during, repeat step S110 and step S120, i.e., constantly acquire new physiological parameter,New feedback is generated, thus new according to the physiological parameter and the output of preset navigational logic information real-time control navigation arrangementNavigation instruction updates induction to user and guides and prompt.In the case where outside stimulus induction and internal two kinds for following adjusting act on,User can obtain sleep quickly and be expected.
Illustratively, if the physiological parameter of the user got maintains the steady of a period of time or reaches preset thresholdValue, with end step S110 and step S120, can terminate the stage physiological parameter navigation adjust, electronic device can close orPerson removes.
Such as get the pulse frequency of user and gradually decrease and steadily, it fluctuates without departing from a certain range, so that it may regardIt is steady for pulse frequency;The Skin Resistance numerical value for getting user is according to the trend development gradually decreased and gradually stable, acquisitionBlood pressure values to user are also that diastolic pressure and systolic pressure all gradually decrease and stablize.In this state, so that it may recognizeIt has begun for human body and is ready for sleep, at this moment can be navigated and be adjusted with the physiological parameter of ending phase.
In some possible embodiments, the navigation pattern information specifically includes awakening pattern information.
If step S130 obtains the navigation pattern information of user's setting, obtained according to the navigation pattern information described pre-If navigational logic information, specifically include:
If step S132, the navigation pattern information obtained includes awakening pattern information, obtain and the awakening pattern informationCorresponding navigational logic information.
If the navigation mode of user's setting is awakening mode, in order to guide user to regain consciousness as early as possible, step S120 rootThe physiological parameter of the user got when factually and navigational logic information real-time control corresponding with sleep mode information navigationComponent exports navigation instruction, promotes the action of navigation arrangement and state and user is guided to regain consciousness.
Illustratively, luminescence unit in navigation arrangement, which issues, promotes awake blue light or green light, and brightness byGradually increase;Meanwhile luminescence unit can be flashed according to the light and shade of quickening or fast frequency, user quickly blinks with this frequencyEye, and gradually increase respiratory rate and depth;Illustratively, the voice unit (VU) in navigation arrangement, which can export, promotes awakeningMusic or the sharp sound of high frequency;Simultaneously can also by phonetic order prompt user do limb action with assist as early as possible intoEnter waking state.Meanwhile have certain duration during this process, this this during, repeat step S110 and stepRapid S120 constantly acquires new physiological parameter, can be found that the pulse frequency of user is gradually increasing according to the data acquired in real time,Skin Resistance gradually increases, and systolic pressure and diastolic pressure all rise, and after these physiological parameters are acquired in real time, generates new feedback,To export new navigation instruction according to the physiological parameter and preset navigational logic information real-time control navigation arrangement, outsideUnder portion's stimulation induction and internal two kinds for following adjusting act on, user is made the most fast time to enter waking state.
As seen through the above description of the embodiments, those skilled in the art can be understood that the present invention canIt realizes by means of software and necessary general hardware platform.Based on this understanding, technical solution of the present invention essenceOn in other words the part that contributes to existing technology can be embodied in the form of software products, the computer software productIt 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 inventionMethod 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 processorThe step of going, realizing aforementioned physiological parameter navigation adjusting method.
The present invention can be used in numerous general or special purpose computing system environments or configuration.Such as: personal computer, serviceDevice computer, handheld device or portable device, laptop device, multicomputer system, microprocessor-based system, can compileThe consumer-elcetronics devices of journey, network PC, minicomputer, mainframe computer, the distribution including any of the above system or equipmentEnvironment etc. is calculated, such as embodiment two.
Embodiment two
A kind of physiological parameter Navigation Control component as shown in Figure 5, including memory 200 and processor 300, memory 200For storing program instruction;If processor 300 executes the program instruction, above-mentioned physiological parameter navigation adjusting method is realized.
The method in physiological parameter Navigation Control component and previous embodiment in the present embodiment is based on same invention structureTwo aspects under thinking, are in front described in detail method implementation process, so those skilled in the art can rootThe structure and implementation process of the physiological parameter Navigation Control component in this implementation is well understood, according to foregoing description in order to illustrate bookIt is succinct, details are not described herein again.
Physiological parameter Navigation Control component provided in an embodiment of the present invention, by joining the physiology of the user obtained in real timeThe foundation that number is adjusted as navigation, and navigation instruction is exported according to preset navigational logic information real-time control navigation arrangement,Such as the light that the navigation arrangement issues dynamic change is controlled, it is corresponding dynamic to prompt user that the navigation instruction is followed to makeMake, and then causes the variation of user's nervous system.The variation of nervous system can be again in real time by user's physiological parameterReacting condition come out, and collected in real time again, as the new foundation that navigation is adjusted, so that persistently output navigation refers toIt enables, realizes the saturation type adjustment of physiological parameter.
It guides user to follow by personalized navigation arrangement, external optical stimulation and/or sound is made to adjust people rapidlyBody biological rhythm, rapid-onset have good effect to anxiety, anxiety, depression and insomnia, and user is not necessarily to special sightIt examines and concentrates on, by the perception to light and/or to the perception of sound, so that it may which the guide for following navigation is being loosened completelyState realization easily perceives navigation directions.
Embodiment three
It is illustrated in figure 6 a kind of structural schematic diagram of physiological parameter navigation regulating device.
Physiological parameter navigation regulating device includes parameter acquisition component 110, physiological parameter Navigation Control component 120 and navigationComponent 130, parameter acquisition component 110, navigation arrangement 130 pass through with physiological parameter Navigation Control component 120 wired or wirelessMode communicates to connect.
Physiological parameter of the parameter acquisition component 110 for acquisition user in real time, and in real time join collected physiologyNumber is transmitted to physiological parameter Navigation Control component 120.
In some possible embodiments, parameter acquisition component 110 acquires the physiological parameter of user in real time, specific to wrapIt 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 timeIt fights at least one of wave, blood pressure, electroencephalogram parameter.
Physiological parameter Navigation Control component 120 includes memory 121 and processor 122, and memory 121 is for storing programInstruction;If processor 122 executes program instructions, above-mentioned physiological parameter navigation adjusting method is realized.
In some possible embodiments, parameter acquisition component 110 includes the electrocardio for obtaining user's EGC parameterUnit, the body temperature unit for obtaining user's body temperature, the humidity unit for obtaining user's humidity of skin, for obtain makeThe impedance unit of user's Skin Resistance, the breathing unit for obtaining user's respiratory rate are saturated for obtaining user's blood oxygenThe 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 rateIn obtaining at least one of the pressure unit of user's blood pressure, brain electric unit for obtaining user's electroencephalogram parameter.ParameterEach unit in acquisition component 110 acquires the physiological parameter of user in a manner of noninvasive.
In some possible embodiments, physiological parameter navigation regulating device carries at least portion of parameter acquisition component 110Sub-unit, therefore physiological parameter Navigation Control component 120 can be obtained in real time by the included parameter acquisition component 110 and be usedThe physiological parameter of person;In other feasible embodiments, physiological parameter Navigation Control component 120 can be adopted in real time with externalCollect the unit communication connection of the physiological parameter of user, therefore the physiology of user can be obtained in real time by the unit of the outsideParameter.
In some possible embodiments, the corresponding physiology ginseng of each unit acquisition user in parameter acquisition component 110Number 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 adoptCollect component 110, may be alternatively located at included parameter acquisition component 110.In the present embodiment, electrocardio unit may include the sensorElectrode.
Body temperature: being acquired by temperature sensor in skin surface, and temperature sensor also can integrate on spectacle device,Such as in temple.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 deviceOn, such as temple.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 surfaceDevice is also desirably integrated on spectacle device, such as temple.In the present embodiment, impedance unit includes metal electrode sensingDevice.
Respiratory rate: it is measured by electrode paste in the chest and abdomen impedance method measurement of thorax abdomen or by respiration transducer, the electricityPole or respiration transducer can be located at the parameter acquisition component 110 of external electronic device connection;Can also by electrocardiogram (ECG) data andThe estimation numerical value of respiratory rate is calculated through Filtering Analysis for oximetry data, can illustratively pass through oximetry data analytical estimatingMode, the sensor for obtaining oximetry data is desirably integrated on spectacle device, such as temple.In the present embodiment, breathing is singleMember includes the sensor of the acquisition oximetry data.
Blood oxygen saturation: being transmitted by photoelectricity and reflects two ways measurement, and measurement sensor pops one's head in and applies the physiologyThe electronic device of parameter navigation adjusting method can use separation design, and the collected data of measurement sensor probe can lead toIt crosses wired or wireless way and sends the electronic device to, or measurement sensor can also be popped one's head in and be integrated into spectacle deviceOn, such as temple.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 electrocardioelectrodeThe collected electrocardiographic wave of sensor is obtained by calculating.Corresponding sensor and application physiological parameter navigation adjusting methodElectronic device can use separation design, and the collected data of sensor can send the electricity to by wired or wireless waySub-device, or can also be by sensor integration to spectacle device, such as temple.In the present embodiment, heart rate unit packetInclude the photoelectric sensor for obtaining 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 parameterIt 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 communicationDevice is handled or pulse wave sensor selection is integrated on electronic device, such as temple.In the present embodiment, blood pressureUnit 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-typeThen electroencephalogram parameter is sent to the electronics dress using physiological parameter navigation adjusting method by member by wired or wireless wayIt sets;It can also be by acquisition electrode sensor integration to spectacle device, specifically, acquisition electrode sensor is desirably integrated into eyeClose 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 positionAt support.In the present embodiment, brain electric unit includes the acquisition electrode sensor.
In some possible embodiments, as shown in Figure 6 and Figure 7, navigation arrangement 130 includes for issuing dynamic changeThe luminescence unit 131 of light and voice unit (VU) 132 for exporting audio.Physiological parameter navigation regulating device further includes mirror holder shape masterBody 140, mirror holder shape main body 140 include frame 141 and the temple 142 for being connected to frame 141.
Luminescence unit 131 is located on frame 141, such as nose support position, the top of frame, lower part and/or side;Sound listMember 132 and parameter acquisition component 110, physiological parameter Navigation Control component 120 are respectively positioned in temple 142, parameter acquisition component110, luminescence unit 131, voice unit (VU) 132 are connect with physiological parameter Navigation Control component 120 in a wired fashion.Parameter acquisitionComponent 110 includes temperature sensor, the sensor for obtaining oximetry data, acquisition blood pressure pulse wave obtains or blood oxygen volume waveformSensor etc..
Physiological parameter navigation regulating device provided in an embodiment of the present invention, by joining the physiology of the user obtained in real timeThe foundation that number is adjusted as navigation, and referred to according to the output navigation of preset navigational logic information real-time control navigation arrangement 130It enables, such as controls the light that the navigation arrangement 130 issues dynamic change, to prompt user that the navigation instruction is followed to make phaseIt should act, and then cause the variation of user's nervous system.The variation of nervous system can be again in real time by user's physiologyThe reacting condition of parameter comes out, and is collected in real time again, as the new foundation that navigation is adjusted, thus persistently output navigationThe saturation type adjustment of physiological parameter is realized in instruction.
It guides user to follow by personalized navigation arrangement 130, adjusts external optical stimulation and/or sound rapidlyHuman boby biorhythm, rapid-onset have good effect to anxiety, anxiety, depression and insomnia, and user is without specialIt observes and concentrates on, by the perception to light and/or to the perception of sound, so that it may which the guide for following navigation is being put completelyLoose state realization easily perceives navigation directions.
As the further improvement of the embodiment of the present invention, physiological parameter navigation regulating device further includes navigating with physiological parameterThe interactive component 150 that control assembly 120 connects, interactive component 150 is for the navigation pattern information that user is arranged to be transmitted toProcessor 122.
In some possible embodiments, memory 121 is stored with several navigational logic information, for example including for guidingUser fall asleep navigational logic information, the navigational logic information for guiding user to regain consciousness, for guiding user gentleHeart rate or the navigational logic information of breathing etc..
Processor 122 obtains the navigation pattern information of user's setting by interactive component 150, and according to the navigation mouldIt is secondary as this that formula information reads the navigational logic information to match with the navigation pattern information that user is arranged from memory 121Manage the preset navigational logic information in parameter navigation adjustment process.
In some possible embodiments, interactive component 150 is including in key, toggle switch, touch screen, communication chipAt least one of.
In some possible embodiments, interactive component 150 includes communication chip, and processor 122 is also used to logical by thisBelieve that chip and an intelligent terminal communicate to connect, navigation pattern information can be arranged in user by intelligent terminal, thus processor122 can obtain the navigation pattern information from intelligent terminal by the communication chip.
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 inventionClaimed range.