CN117101017A - Personalized phototherapy room adjusting method and system based on biofeedback - Google Patents

Abstract

The invention provides a personalized phototherapy room adjusting method and system based on biofeedback, comprising the following steps: monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through an eye biological micropore shooting group to acquire eye micro-state biological monitoring information; converting the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics; analyzing the feedback response relation between the eye micro-state biological signals and the phototherapy parameters to obtain a micro-state biological signal phototherapy feedback response model; and regulating and outputting phototherapy parameters through a micro-state biological signal phototherapy feedback response model, simulating the solar wavelength and slowly-changing blue light in the morning, feeding back and regulating phototherapy room parameter information, and carrying out micro-state biological signal feedback personalized phototherapy room parameter regulation.

Description

Personalized phototherapy room adjusting method and system based on biofeedback

Technical Field

The invention relates to the technical field of precision detection micro-motion recognition control phototherapy, in particular to a personalized phototherapy room adjusting method and system based on biofeedback.

Background

At present, the improvement degree of the teenager study living environment and coaching is more and more important, and a good environment is needed, so that one-to-one psychological coaching is difficult and expensive; how to set a phototherapy room environment more suitable for teenager scientific eyes and body biological characteristics in schools is very important; in the detection process, the problems of how to match with the ring and bracelet biological detection feedback related functions and combine with software, how to accurately and rapidly find abnormal body and biological state of teenagers, prompt and guide, how to track remote monitoring and conditioning, and how to match with eye health and physical and mental health remotely, how to enable the phototherapy room environment to release pressure, bad emotion, guide correct thinking environment and the like remain to be solved; accordingly, there is a need for a personalized phototherapy room adjustment method and system based on biofeedback that at least partially addresses the problems of the prior art.

Disclosure of Invention

A series of concepts in simplified form are introduced in the summary section, which will be described in further detail in the detailed description section; the summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a personalized phototherapy room adjustment method based on biofeedback, comprising:

s100, monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through an eye biological micropore shooting group, and acquiring eye micro-state biological monitoring information;

s200, converting the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

s300, analyzing a feedback response relation between the eye micro-state biological signals and phototherapy parameters, and obtaining a micro-state biological signal phototherapy feedback response model;

s400, adjusting output phototherapy parameters through a micro-state biological signal phototherapy feedback response model, simulating morning sunlight wavelength and slowly changing blue light, feeding back adjustment phototherapy room parameter information, and performing micro-state biological signal feedback personalized phototherapy room parameter adjustment.

Preferably, S100 includes:

s101, monitoring the pupil state of a patient through eyeball tracking, and setting an eye biological micropore camera group by utilizing pupil constriction and dilation and eye microexpressive microscopic scanning to rapidly capture; arranging a plurality of groups of eye biological micropore shooting groups at the periphery of an annular screen at multiple angles;

S102, monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through an eye biological micropore shooting group;

s103, processing the pupil constriction and dilation state and the eye micro expression state through state image data to obtain eye micro state biological monitoring information of the patient.

Preferably, S200 includes:

s201, setting a micro-state biological signal conversion module by utilizing the relation between the micro-state characteristics of eyes and biological signal characteristics;

s202, reading the eye micro-state biological monitoring information through a micro-state biological signal conversion module, and converting the eye micro-state biological monitoring information into an eye micro-state biological signal.

Preferably, S300 includes:

s301, carrying out feedback response corresponding relation statistics of eye micro-state biological signal excitation and phototherapy parameters, and obtaining a biological signal excitation phototherapy feedback response statistical data set; analyzing the ocular microfabric state biosignals of the patient;

s302, a biological signal excitation phototherapy feedback response statistical data set is drawn, a biological signal excitation phototherapy feedback response statistical curve is drawn, and a biological signal phototherapy feedback response development relationship is predicted according to the biological signal excitation phototherapy feedback response statistical curve;

s303, modeling the feedback response development relationship according to the biological signal phototherapy feedback response development relationship, and obtaining a micro-state biological signal phototherapy feedback response model.

Preferably, S400 includes:

s401, outputting phototherapy parameters of a phototherapy room in real time according to eye micro-state biological monitoring in the phototherapy process through a micro-state biological signal phototherapy feedback response model;

s402, adjusting phototherapy information of the phototherapy room according to phototherapy parameters of the phototherapy room, and feeding back micro-state biological signals to adjust the personalized phototherapy room.

The invention provides a personalized phototherapy room adjusting system based on biofeedback, comprising:

the eye micro-state biological monitoring subsystem monitors the pupil contraction and expansion state and the eye micro-expression state of a patient through an eye biological micro-pore shooting group to acquire eye micro-state biological monitoring information;

the micro-state biological signal conversion subsystem converts the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

the biological signal phototherapy feedback response subsystem is used for analyzing the feedback response relation between the ocular micro-state biological signals and the phototherapy parameters and obtaining a micro-state biological signal phototherapy feedback response model;

and responding to the output information to adjust the phototherapy subsystem, adjusting output phototherapy parameters through a micro-state biological signal phototherapy feedback response model, simulating the sunlight wavelength and slowly changing blue light in the morning, feeding back and adjusting the parameter information of the phototherapy room, and carrying out micro-state biological signal feedback personalized phototherapy room parameter adjustment.

Preferably, the eye micro-state biological monitoring subsystem comprises:

the eye biological micropore camera shooting subsystem monitors the pupil state of a patient through eyeball tracking, and rapidly captures by utilizing pupil constriction and dilation and eye microexpressive microscopic scanning, and an eye biological micropore camera shooting group is arranged; arranging a plurality of groups of eye biological micropore shooting groups at the periphery of an annular screen at multiple angles;

the pupil eye microexpressive monitoring subsystem monitors the pupil contraction and expansion state and the eye microexpressive state of a patient through the eye biological micropore shooting group;

and the state image data processing subsystem is used for processing the pupil constriction and dilation state and the eye micro expression state through state image data to acquire the eye micro state biological monitoring information of the patient.

Preferably, the micro-state biosignal conversion subsystem includes:

the biological signal characteristic setting subsystem is used for setting a micro-state biological signal conversion module by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

and the monitoring information signal conversion subsystem reads the eye micro-state biological monitoring information through the micro-state biological signal conversion module and converts the eye micro-state biological monitoring information into an eye micro-state biological signal.

Preferably, the biosignal phototherapy feedback response subsystem includes:

The signal excitation phototherapy response statistics subsystem is used for carrying out feedback response correspondence statistics on eye micro-state biological signal excitation and phototherapy parameters, and acquiring a biological signal excitation phototherapy feedback response statistics data set;

the feedback response statistical prediction subsystem is used for drawing a biological signal excitation phototherapy feedback response statistical curve according to the biological signal excitation phototherapy feedback response statistical data set and predicting a biological signal phototherapy feedback response development relationship according to the biological signal excitation phototherapy feedback response statistical curve;

and the feedback response development relation modeling subsystem is used for carrying out feedback response development relation modeling according to the biological signal phototherapy feedback response development relation to obtain a micro-state biological signal phototherapy feedback response model.

Preferably, adjusting the phototherapy subsystem in response to the output information includes:

the biological monitoring real-time output subsystem outputs phototherapy parameters of the phototherapy room in real time according to eye micro-state biological monitoring of the phototherapy process through a micro-state biological signal phototherapy feedback response model;

and the phototherapy adjustment personalized adjustment subsystem adjusts phototherapy information of the phototherapy room according to phototherapy parameters of the phototherapy room, and performs micro-state biological signal feedback personalized phototherapy room adjustment.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention provides a personalized phototherapy room adjusting method and system based on biofeedback, comprising the following steps: the data analysis scheme program subsystem acquires physical examination information of a phototherapy target, formulates a target phototherapy scheme to be improved, automatically programs the target phototherapy scheme to be improved, and creates a phototherapy scheme control program module combination; the phototherapy target adjusting environment monitoring subsystem is used for carrying out overall monitoring of the phototherapy process target, parameter monitoring of the phototherapy system and environmental parameter monitoring of the phototherapy room according to the combination of the phototherapy scheme control program modules, so as to obtain overall system monitoring data of the phototherapy process; the phototherapy process parameter control subsystem is used for controlling the light parameters of the phototherapy process, controlling the sound wave parameters in the phototherapy room and controlling the environment parameters in the phototherapy room according to the monitoring data of the whole system of the phototherapy process, and acquiring the control information of the photoacoustic environment parameters of the phototherapy process; the photo-acoustic environment multi-dimensional adjustment subsystem establishes a photo-acoustic environment combination multi-dimensional action model according to the photo-acoustic environment multi-dimensional adjustment subsystem, the photo-acoustic scheme control program module combination, the photo-therapeutic process whole system monitoring data and photo-acoustic environment parameter control information, and performs photo-acoustic environment combination multi-dimensional adjustment photo-therapeutic control; the morning sunlight wavelengths include: red 690 spectral wavelength and morning solar 420-690 spectral wavelength; regulating the eye micro-expression state; acquiring physical examination information of a phototherapy target by utilizing a data analysis scheme program, formulating a phototherapy scheme of the target to be improved, automatically programming the phototherapy scheme of the target to be improved, creating a phototherapy scheme control program module combination, automatically generating the phototherapy scheme of the target to be improved according to the physical examination information of the phototherapy target, and automatically programming the phototherapy scheme; adjusting environment monitoring by using the phototherapy targets, and performing overall monitoring of the phototherapy targets, parameter monitoring of the phototherapy system and environmental parameter monitoring of the phototherapy rooms according to the combination of the phototherapy scheme control program modules; controlling the light parameters of the phototherapy process, the sound wave parameters in the phototherapy room and the environment parameters in the phototherapy room by using the phototherapy process parameter control; utilizing the multi-dimensional regulation of the photoacoustic environment, establishing a multi-dimensional action model of the photoacoustic environment according to the combination of the control program modules of the phototherapy scheme, the whole system monitoring data of the phototherapy process and the control information of the parameters of the photoacoustic environment, carrying out the multi-dimensional regulation phototherapy control of the photoacoustic environment, combining single factors and local control of the phototherapy room, becoming the multi-dimensional regulation phototherapy control of the photoacoustic environment, and carrying out the multi-dimensional omnibearing regulation of the personalized phototherapy room by integrating the light control factors, the sound control factors and the environmental factors; the intelligent combination efficiency of the phototherapy program control program and the phototherapy program is higher and more accurate; the whole system monitoring data of the phototherapy process is more comprehensive, and the accuracy of the data is higher; the photo-acoustic environment parameters in the phototherapy process are controlled more accurately; the control of the phototherapy room is obviously improved from single factor and local control to the combined multidimensional regulation phototherapy control of the photoacoustic environment, the light control factor, the sound control factor and the environmental factor are integrated, and the multidimensional omnibearing regulation effect of the regulation of the personalized phototherapy room is obviously improved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

fig. 1 is a diagram of an embodiment of a personalized phototherapy room adjustment system based on biofeedback according to the present invention.

Fig. 2 is a diagram of an embodiment of a personalized phototherapy room adjustment system based on biofeedback according to the present invention.

Fig. 3 is a diagram illustrating steps of a personalized phototherapy room adjusting method based on biofeedback according to an embodiment of the present invention.

Detailed Description

A series of concepts in simplified form are introduced in the summary section, which will be described in further detail in the detailed description section; the summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a personalized phototherapy room adjustment method based on biofeedback, comprising:

s100, monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through an eye biological micropore shooting group, and acquiring eye micro-state biological monitoring information;

s200, converting the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

s300, analyzing a feedback response relation between the eye micro-state biological signals and phototherapy parameters, and obtaining a micro-state biological signal phototherapy feedback response model;

s400, adjusting output phototherapy parameters through a micro-state biological signal phototherapy feedback response model, simulating morning sunlight wavelength and slowly changing blue light, feeding back adjustment phototherapy room parameter information, and performing micro-state biological signal feedback personalized phototherapy room parameter adjustment.

The principle and effect of the technical scheme are as follows: the invention provides a personalized phototherapy room adjusting method based on biofeedback, which comprises the following steps: monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through an eye biological micropore shooting group to acquire eye micro-state biological monitoring information; converting the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics; analyzing the feedback response relation between the eye micro-state biological signals and the phototherapy parameters to obtain a micro-state biological signal phototherapy feedback response model; adjusting output phototherapy parameters through a micro-state biological signal phototherapy feedback response model, simulating the solar wavelength and slowly changing blue light in the morning, feeding back adjustment phototherapy room parameter information, and performing micro-state biological signal feedback personalized phototherapy room parameter adjustment; the morning sunlight wavelengths include: red 690 spectral wavelength and morning solar 420-690 spectral wavelength; simulating the sunlight wavelength and slowly-changing blue light in the morning, feeding back and adjusting the parameter information of the phototherapy room, and feeding back the micro-state biological signals to adjust the parameters of the personalized phototherapy room, wherein the method comprises the following steps: adjusting the color rendering index of the healthy light source, taking sunlight as a standard light source, and measuring the color rendering coincidence degree of phototherapy; the difference of the reflected light color under the irradiation of the sample light source and the reflected light color under the irradiation of the standard light source with the same color temperature and the same brightness is delta Ei, wherein i represents 1 to 15 phototherapy color development; the phototherapy color rendering index Ri is calculated, and the calculation formula is as follows:

Ri=100-4.6Δei; if Ri appears to be less negative, the delta Ei indicates a greater difference; the VICO index is divided into 5 grades, and the higher the grade number is, the higher the visual fatigue degree of the human eyes is, namely, the higher the influence degree of the tested product on the visual health and comfort degree of the human eyes is; photoperiod safety requirements, blue hazard protection-cell viability index CV: the cell viability index is divided into 4 grades, and the higher the grade number is, the higher the retinal damage degree of the human eyes is by the light rays; reducing the VICO index and the cell vitality index, and regulating the micro-expression state of the eyes based on the eye biofeedback; acquiring physical examination information of a phototherapy target by utilizing a data analysis scheme program, formulating a phototherapy scheme of the target to be improved, automatically programming the phototherapy scheme of the target to be improved, creating a phototherapy scheme control program module combination, automatically generating the phototherapy scheme of the target to be improved according to the physical examination information of the phototherapy target, and automatically programming the phototherapy scheme; adjusting environment monitoring by using the phototherapy targets, and performing overall monitoring of the phototherapy targets, parameter monitoring of the phototherapy system and environmental parameter monitoring of the phototherapy rooms according to the combination of the phototherapy scheme control program modules; controlling the light parameters of the phototherapy process, the sound wave parameters in the phototherapy room and the environment parameters in the phototherapy room by using the phototherapy process parameter control; utilizing the multi-dimensional regulation of the photoacoustic environment, establishing a multi-dimensional action model of the photoacoustic environment according to the combination of the control program modules of the phototherapy scheme, the whole system monitoring data of the phototherapy process and the control information of the parameters of the photoacoustic environment, carrying out the multi-dimensional regulation phototherapy control of the photoacoustic environment, combining single factors and local control of the phototherapy room, becoming the multi-dimensional regulation phototherapy control of the photoacoustic environment, and carrying out the multi-dimensional omnibearing regulation of the personalized phototherapy room by integrating the light control factors, the sound control factors and the environmental factors; the intelligent combination efficiency of the phototherapy program control program and the phototherapy program is higher and more accurate; the whole system monitoring data of the phototherapy process is more comprehensive, and the accuracy of the data is higher; the photo-acoustic environment parameters in the phototherapy process are controlled more accurately; the control of the phototherapy room is obviously improved from single factor and local control to the combined multidimensional regulation phototherapy control of the photoacoustic environment, the light control factor, the sound control factor and the environmental factor are integrated, and the multidimensional omnibearing regulation effect of the regulation of the personalized phototherapy room is obviously improved.

In one embodiment, S100 comprises:

s101, monitoring the pupil state of a patient through eyeball tracking, and setting an eye biological micropore camera group by utilizing pupil constriction and dilation and eye microexpressive microscopic scanning to rapidly capture; arranging a plurality of groups of eye biological micropore shooting groups at the periphery of an annular screen at multiple angles;

s102, monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through an eye biological micropore shooting group;

s103, processing pupil constriction and dilation states and eye micro expression states through state image data to obtain eye micro state biological monitoring information of a patient;

the biological micropore group of making a video recording of eye includes: the device comprises a visual attention guiding module, a pupil constriction and dilation microscopic module, an eye movement snap shooting and shooting module and an eye micro expression rapid capturing module; monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through the eye biological micro-pore camera group comprises: the eye biological micropore camera shooting group is used for guiding visual attention to be focused on the pupil constriction and dilation microscopic module through the visual attention guiding module, and the pupil size is microscopically scanned through the pupil constriction and dilation microscopic module, so that when pupil constriction and dilation are caused by phototherapy parameter changes of the phototherapy room, the pupil constriction and dilation state of a patient is monitored; the eye micro-expression of eye eyeball rotation or eye blinking is captured by the eye movement capturing and shooting module; the eye micro-expression rapid capturing module is used for rapidly capturing eye micro-expression states of eye muscle tension eyebrow wrinkling or eye muscle relaxation and stretching; the pupil constriction and dilation state and the eye microexpressive state of the patient are monitored.

The principle and effect of the technical scheme are as follows: the pupil state of a patient is monitored through eyeball tracking, pupil constriction and dilation and eye microexpressive microscopic scanning are utilized for rapid capture, and an eye biological micropore camera shooting group is arranged; arranging a plurality of groups of eye biological micropore shooting groups at the periphery of an annular screen at multiple angles; monitoring the pupil contraction and expansion state and the eye micro-expression state of a patient through an eye biological micropore shooting group; processing the pupil constriction and dilation state and the eye micro expression state through state image data to obtain eye micro state biological monitoring information of a patient; the biological micropore group of making a video recording of eye includes: the device comprises a visual attention guiding module, a pupil constriction and dilation microscopic module, an eye movement snap shooting and shooting module and an eye micro expression rapid capturing module; monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through the eye biological micro-pore camera group comprises: the eye biological micropore camera shooting group is used for guiding visual attention to be focused on the pupil constriction and dilation microscopic module through the visual attention guiding module, and the pupil size is microscopically scanned through the pupil constriction and dilation microscopic module, so that when pupil constriction and dilation are caused by phototherapy parameter changes of the phototherapy room, the pupil constriction and dilation state of a patient is monitored; the eye micro-expression of eye eyeball rotation or eye blinking is captured by the eye movement capturing and shooting module; the eye micro-expression rapid capturing module is used for rapidly capturing eye micro-expression states of eye muscle tension eyebrow wrinkling or eye muscle relaxation and stretching; monitoring the pupil constriction and dilation state and the eye microexpressive state of a patient; the intelligent combination efficiency of the phototherapy program control program and the phototherapy program is higher and more accurate.

In one embodiment, S200 includes:

s201, setting a micro-state biological signal conversion module by utilizing the relation between the micro-state characteristics of eyes and biological signal characteristics;

s202, reading the eye micro-state biological monitoring information through a micro-state biological signal conversion module, and converting the eye micro-state biological monitoring information into an eye micro-state biological signal.

The principle and effect of the technical scheme are as follows: setting a micro-state biological signal conversion module by utilizing the relation between the micro-state characteristics of the eyes and the biological signal characteristics; reading the eye micro-state biological monitoring information through a micro-state biological signal conversion module, and converting the eye micro-state biological monitoring information into an eye micro-state biological signal; the whole system monitoring data of the phototherapy process is more comprehensive, and the accuracy of the data is higher.

In one embodiment, S300 includes:

s301, carrying out feedback response corresponding relation statistics of eye micro-state biological signal excitation and phototherapy parameters, and obtaining a biological signal excitation phototherapy feedback response statistical data set; analyzing the ocular microfabric state biosignals of the patient;

s302, a biological signal excitation phototherapy feedback response statistical data set is drawn, a biological signal excitation phototherapy feedback response statistical curve is drawn, and a biological signal phototherapy feedback response development relationship is predicted according to the biological signal excitation phototherapy feedback response statistical curve;

S303, modeling the feedback response development relationship according to the biological signal phototherapy feedback response development relationship, and obtaining a micro-state biological signal phototherapy feedback response model.

The principle and effect of the technical scheme are as follows: performing feedback response corresponding relation statistics of ocular micro-state biological signal excitation and phototherapy parameters, and obtaining a biological signal excitation phototherapy feedback response statistical data set; analyzing the ocular microfabric state biosignals of the patient; a biological signal excitation phototherapy feedback response statistical data set is drawn, a biological signal excitation phototherapy feedback response statistical curve is drawn, and a biological signal phototherapy feedback response development relation is predicted according to the biological signal excitation phototherapy feedback response statistical curve; according to the biological signal phototherapy feedback response development relationship, carrying out feedback response development relationship modeling to obtain a micro-state biological signal phototherapy feedback response model; the photo-acoustic environment parameters in the phototherapy process are controlled more accurately.

In one embodiment, S400 includes:

s401, outputting phototherapy parameters of a phototherapy room in real time according to eye micro-state biological monitoring in the phototherapy process through a micro-state biological signal phototherapy feedback response model;

s402, adjusting phototherapy information of the phototherapy room according to phototherapy parameters of the phototherapy room, and feeding back micro-state biological signals to adjust the personalized phototherapy room;

The real-time output of phototherapy room phototherapy parameters according to eye micro-state biological monitoring of the phototherapy process through the micro-state biological signal phototherapy feedback response model comprises: inputting the eye micro-state biological monitoring information into a micro-state biological signal phototherapy feedback response model; when pupil constriction and dilation state changes and eye microexpressive state changes appear in the eye microecological monitoring information, the eye microecological monitoring information changes; the micro-state biological signal phototherapy feedback response model outputs phototherapy parameters of the phototherapy room corresponding to the change of the eye micro-state biological monitoring information according to the change of the eye micro-state biological monitoring information; eye micro-state biological monitoring information corresponds to the psychological state of the patient; the intelligent voice automatically guides the patient to achieve the psychological state natural relaxation, adjusts the phototherapy parameters of the phototherapy room, and simultaneously adjusts the volume of the phototherapy room matched with the music rhythm and the negative ion concentration parameters.

The principle and effect of the technical scheme are that; outputting phototherapy parameters of a phototherapy room in real time according to eye micro-state biological monitoring in the phototherapy process through a micro-state biological signal phototherapy feedback response model; according to phototherapy parameters of the phototherapy room, phototherapy information of the phototherapy room is adjusted, and micro-state biological signal feedback personalized phototherapy room adjustment is carried out; the real-time output of phototherapy room phototherapy parameters according to eye micro-state biological monitoring of the phototherapy process through the micro-state biological signal phototherapy feedback response model comprises: inputting the eye micro-state biological monitoring information into a micro-state biological signal phototherapy feedback response model; when pupil constriction and dilation state changes and eye microexpressive state changes appear in the eye microecological monitoring information, the eye microecological monitoring information changes; the micro-state biological signal phototherapy feedback response model outputs phototherapy parameters of the phototherapy room corresponding to the change of the eye micro-state biological monitoring information according to the change of the eye micro-state biological monitoring information; eye micro-state biological monitoring information corresponds to the psychological state of the patient; automatically guiding a patient to achieve psychological state natural relaxation through intelligent voice, adjusting phototherapy parameters of a phototherapy room, and simultaneously adjusting volume and anion concentration parameters of the phototherapy room matched with music rhythm; the control of the phototherapy room is obviously improved from single factor and local control to the combined multidimensional regulation phototherapy control of the photoacoustic environment, the light control factor, the sound control factor and the environmental factor are integrated, and the multidimensional omnibearing regulation effect of the regulation of the personalized phototherapy room is obviously improved.

The invention provides a personalized phototherapy room adjusting system based on biofeedback, comprising:

the eye micro-state biological monitoring subsystem monitors the pupil contraction and expansion state and the eye micro-expression state of a patient through an eye biological micro-pore shooting group to acquire eye micro-state biological monitoring information;

the micro-state biological signal conversion subsystem converts the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

the biological signal phototherapy feedback response subsystem is used for analyzing the feedback response relation between the ocular micro-state biological signals and the phototherapy parameters and obtaining a micro-state biological signal phototherapy feedback response model;

and responding to the output information to adjust the phototherapy subsystem, adjusting output phototherapy parameters through a micro-state biological signal phototherapy feedback response model, simulating the sunlight wavelength and slowly changing blue light in the morning, feeding back and adjusting the parameter information of the phototherapy room, and carrying out micro-state biological signal feedback personalized phototherapy room parameter adjustment.

The principle and effect of the technical scheme are as follows: the invention provides a personalized phototherapy room adjusting system based on biofeedback, comprising: the eye micro-state biological monitoring subsystem monitors the pupil contraction and expansion state and the eye micro-expression state of a patient through an eye biological micro-pore shooting group to acquire eye micro-state biological monitoring information; the micro-state biological signal conversion subsystem converts the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics; the biological signal phototherapy feedback response subsystem is used for analyzing the feedback response relation between the ocular micro-state biological signals and the phototherapy parameters and obtaining a micro-state biological signal phototherapy feedback response model; the phototherapy subsystem is adjusted in response to the output information, output phototherapy parameters are adjusted through a micro-state biological signal phototherapy feedback response model, sunlight wavelength and slowly-changed blue light in the morning are simulated, phototherapy room parameter information is fed back and adjusted, and micro-state biological signal feedback personalized phototherapy room parameter adjustment is carried out; simulating the sunlight wavelength and slowly-changing blue light in the morning, feeding back and adjusting the parameter information of the phototherapy room, and feeding back the micro-state biological signals to adjust the parameters of the personalized phototherapy room, wherein the method comprises the following steps: adjusting the color rendering index of the healthy light source, taking sunlight as a standard light source, and measuring the color rendering coincidence degree of phototherapy; the difference of the reflected light color under the irradiation of the sample light source and the reflected light color under the irradiation of the standard light source with the same color temperature and the same brightness is delta Ei, wherein i represents 1 to 15 phototherapy color development; the phototherapy color rendering index Ri is calculated by subtracting 4.6 Δei from 100; if Ri appears to be less negative, the delta Ei indicates a greater difference; the VICO index is divided into 5 grades, and the higher the grade number is, the higher the visual fatigue degree of the human eyes is, namely, the higher the influence degree of the tested product on the visual health and comfort degree of the human eyes is; photoperiod safety requirements, blue hazard protection-cell viability index CV: the cell viability index is divided into 4 grades, and the higher the grade number is, the higher the retinal damage degree of the human eyes is by the light rays; reducing the VICO index and the cell vitality index, and regulating the micro-expression state of the eyes based on the eye biofeedback; acquiring physical examination information of a phototherapy target by utilizing a data analysis scheme program, formulating a phototherapy scheme of the target to be improved, automatically programming the phototherapy scheme of the target to be improved, creating a phototherapy scheme control program module combination, automatically generating the phototherapy scheme of the target to be improved according to the physical examination information of the phototherapy target, and automatically programming the phototherapy scheme; adjusting environment monitoring by using the phototherapy targets, and performing overall monitoring of the phototherapy targets, parameter monitoring of the phototherapy system and environmental parameter monitoring of the phototherapy rooms according to the combination of the phototherapy scheme control program modules; controlling the light parameters of the phototherapy process, the sound wave parameters in the phototherapy room and the environment parameters in the phototherapy room by using the phototherapy process parameter control; utilizing the multi-dimensional regulation of the photoacoustic environment, establishing a multi-dimensional action model of the photoacoustic environment according to the combination of the control program modules of the phototherapy scheme, the whole system monitoring data of the phototherapy process and the control information of the parameters of the photoacoustic environment, carrying out the multi-dimensional regulation phototherapy control of the photoacoustic environment, combining single factors and local control of the phototherapy room, becoming the multi-dimensional regulation phototherapy control of the photoacoustic environment, and carrying out the multi-dimensional omnibearing regulation of the personalized phototherapy room by integrating the light control factors, the sound control factors and the environmental factors; the intelligent combination efficiency of the phototherapy program control program and the phototherapy program is higher and more accurate; the whole system monitoring data of the phototherapy process is more comprehensive, and the accuracy of the data is higher; the photo-acoustic environment parameters in the phototherapy process are controlled more accurately; the control of the phototherapy room is obviously improved from single factor and local control to the combined multidimensional regulation phototherapy control of the photoacoustic environment, the light control factor, the sound control factor and the environmental factor are integrated, and the multidimensional omnibearing regulation effect of the regulation of the personalized phototherapy room is obviously improved.

In one embodiment, an ocular micro-state biological monitoring subsystem comprises:

the eye biological micropore camera shooting subsystem monitors the pupil state of a patient through eyeball tracking, and rapidly captures by utilizing pupil constriction and dilation and eye microexpressive microscopic scanning, and an eye biological micropore camera shooting group is arranged; arranging a plurality of groups of eye biological micropore shooting groups at the periphery of an annular screen at multiple angles;

the pupil eye microexpressive monitoring subsystem monitors the pupil contraction and expansion state and the eye microexpressive state of a patient through the eye biological micropore shooting group;

the state image data processing subsystem is used for processing the pupil constriction and dilation state and the eye micro expression state through state image data to acquire eye micro state biological monitoring information of a patient;

the biological micropore group of making a video recording of eye includes: the device comprises a visual attention guiding module, a pupil constriction and dilation microscopic module, an eye movement snap shooting and shooting module and an eye micro expression rapid capturing module; monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through the eye biological micro-pore camera group comprises: the eye biological micropore camera shooting group is used for guiding visual attention to be focused on the pupil constriction and dilation microscopic module through the visual attention guiding module, and the pupil size is microscopically scanned through the pupil constriction and dilation microscopic module, so that when pupil constriction and dilation are caused by phototherapy parameter changes of the phototherapy room, the pupil constriction and dilation state of a patient is monitored; the eye micro-expression of eye eyeball rotation or eye blinking is captured by the eye movement capturing and shooting module; the eye micro-expression rapid capturing module is used for rapidly capturing eye micro-expression states of eye muscle tension eyebrow wrinkling or eye muscle relaxation and stretching; the pupil constriction and dilation state and the eye microexpressive state of the patient are monitored.

The principle and effect of the technical scheme are as follows: the eye biological micropore camera shooting subsystem is used for monitoring the pupil state of a patient through eyeball tracking, and the eye biological micropore camera shooting group is arranged by rapidly capturing by utilizing pupil constriction and dilation and eye microexpressive microscopic scanning; arranging a plurality of groups of eye biological micropore shooting groups at the periphery of an annular screen at multiple angles; the pupil eye microexpressive monitoring subsystem monitors the pupil contraction and expansion state and the eye microexpressive state of a patient through the eye biological micropore shooting group; the state image data processing subsystem is used for processing the pupil constriction and dilation state and the eye micro expression state through state image data to acquire eye micro state biological monitoring information of a patient; the biological micropore group of making a video recording of eye includes: the device comprises a visual attention guiding module, a pupil constriction and dilation microscopic module, an eye movement snap shooting and shooting module and an eye micro expression rapid capturing module; monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through the eye biological micro-pore camera group comprises: the eye biological micropore camera shooting group is used for guiding visual attention to be focused on the pupil constriction and dilation microscopic module through the visual attention guiding module, and the pupil size is microscopically scanned through the pupil constriction and dilation microscopic module, so that when pupil constriction and dilation are caused by phototherapy parameter changes of the phototherapy room, the pupil constriction and dilation state of a patient is monitored; the eye micro-expression of eye eyeball rotation or eye blinking is captured by the eye movement capturing and shooting module; the eye micro-expression rapid capturing module is used for rapidly capturing eye micro-expression states of eye muscle tension eyebrow wrinkling or eye muscle relaxation and stretching; monitoring the pupil constriction and dilation state and the eye microexpressive state of a patient; the intelligent combination efficiency of the phototherapy program control program and the phototherapy program is higher and more accurate.

In one embodiment, the micro-state biosignal conversion subsystem includes:

the biological signal characteristic setting subsystem is used for setting a micro-state biological signal conversion module by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

and the monitoring information signal conversion subsystem reads the eye micro-state biological monitoring information through the micro-state biological signal conversion module and converts the eye micro-state biological monitoring information into an eye micro-state biological signal.

The principle and effect of the technical scheme are as follows: the biological signal characteristic setting subsystem is used for setting a micro-state biological signal conversion module by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics; the monitoring information signal conversion subsystem reads the eye micro-state biological monitoring information through the micro-state biological signal conversion module and converts the eye micro-state biological monitoring information into an eye micro-state biological signal; the whole system monitoring data of the phototherapy process is more comprehensive, and the accuracy of the data is higher.

In one embodiment, the biosignal phototherapy feedback response subsystem includes:

the signal excitation phototherapy response statistics subsystem is used for carrying out feedback response correspondence statistics on eye micro-state biological signal excitation and phototherapy parameters, and acquiring a biological signal excitation phototherapy feedback response statistics data set;

The feedback response statistical prediction subsystem is used for drawing a biological signal excitation phototherapy feedback response statistical curve according to the biological signal excitation phototherapy feedback response statistical data set and predicting a biological signal phototherapy feedback response development relationship according to the biological signal excitation phototherapy feedback response statistical curve;

and the feedback response development relation modeling subsystem is used for carrying out feedback response development relation modeling according to the biological signal phototherapy feedback response development relation to obtain a micro-state biological signal phototherapy feedback response model.

The principle and effect of the technical scheme are as follows: the biological signal phototherapy feedback response is utilized, and the signal excitation phototherapy response statistics subsystem is used for carrying out feedback response corresponding relation statistics on ocular micro-state biological signal excitation and phototherapy parameters, so as to obtain a biological signal excitation phototherapy feedback response statistics data set; the feedback response statistical prediction subsystem is used for drawing a biological signal excitation phototherapy feedback response statistical curve according to the biological signal excitation phototherapy feedback response statistical data set and predicting a biological signal phototherapy feedback response development relationship according to the biological signal excitation phototherapy feedback response statistical curve; the feedback response development relation modeling subsystem is used for modeling the feedback response development relation according to the biological signal phototherapy feedback response development relation, and obtaining a micro-state biological signal phototherapy feedback response model; the photo-acoustic environment parameters in the phototherapy process are controlled more accurately.

In one embodiment, adjusting the phototherapy subsystem in response to the output information includes:

the biological monitoring real-time output subsystem outputs phototherapy parameters of the phototherapy room in real time according to eye micro-state biological monitoring of the phototherapy process through a micro-state biological signal phototherapy feedback response model;

the phototherapy adjustment personalized adjustment subsystem adjusts phototherapy information of the phototherapy room according to phototherapy parameters of the phototherapy room, and performs micro-state biological signal feedback personalized phototherapy room adjustment;

the real-time output of phototherapy room phototherapy parameters according to eye micro-state biological monitoring of the phototherapy process through the micro-state biological signal phototherapy feedback response model comprises: inputting the eye micro-state biological monitoring information into a micro-state biological signal phototherapy feedback response model; when pupil constriction and dilation state changes and eye microexpressive state changes appear in the eye microecological monitoring information, the eye microecological monitoring information changes; the micro-state biological signal phototherapy feedback response model outputs phototherapy parameters of the phototherapy room corresponding to the change of the eye micro-state biological monitoring information according to the change of the eye micro-state biological monitoring information; eye micro-state biological monitoring information corresponds to the psychological state of the patient; the intelligent voice automatically guides the patient to achieve the psychological state natural relaxation, adjusts the phototherapy parameters of the phototherapy room, and simultaneously adjusts the volume of the phototherapy room matched with the music rhythm and the negative ion concentration parameters.

The principle and effect of the technical scheme are as follows: the biological monitoring real-time output subsystem is used for adjusting phototherapy by utilizing response output information, and outputting phototherapy parameters of a phototherapy room in real time according to eye microbial state biological monitoring in the phototherapy process through a microbial state biological signal phototherapy feedback response model; the phototherapy adjustment personalized adjustment subsystem adjusts phototherapy information of the phototherapy room according to phototherapy parameters of the phototherapy room, and performs micro-state biological signal feedback personalized phototherapy room adjustment; the real-time output of phototherapy room phototherapy parameters according to eye micro-state biological monitoring of the phototherapy process through the micro-state biological signal phototherapy feedback response model comprises: inputting the eye micro-state biological monitoring information into a micro-state biological signal phototherapy feedback response model; when pupil constriction and dilation state changes and eye microexpressive state changes appear in the eye microecological monitoring information, the eye microecological monitoring information changes; the micro-state biological signal phototherapy feedback response model outputs phototherapy parameters of the phototherapy room corresponding to the change of the eye micro-state biological monitoring information according to the change of the eye micro-state biological monitoring information; eye micro-state biological monitoring information corresponds to the psychological state of the patient; automatically guiding a patient to achieve psychological state natural relaxation through intelligent voice, adjusting phototherapy parameters of a phototherapy room, and simultaneously adjusting volume and anion concentration parameters of the phototherapy room matched with music rhythm; the control of the phototherapy room is obviously improved from single factor and local control to the combined multidimensional regulation phototherapy control of the photoacoustic environment, the light control factor, the sound control factor and the environmental factor are integrated, and the multidimensional omnibearing regulation effect of the regulation of the personalized phototherapy room is obviously improved.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (10)

1. A personalized phototherapy room adjustment method based on biofeedback, comprising:

s100, monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through an eye biological micropore shooting group, and acquiring eye micro-state biological monitoring information;

s200, converting the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

s300, analyzing a feedback response relation between the eye micro-state biological signals and phototherapy parameters, and obtaining a micro-state biological signal phototherapy feedback response model;

s400, adjusting output phototherapy parameters through a micro-state biological signal phototherapy feedback response model, simulating morning sunlight wavelength and slowly changing blue light, feeding back adjustment phototherapy room parameter information, and performing micro-state biological signal feedback personalized phototherapy room parameter adjustment.

2. The biofeedback-based personalized phototherapy room adjustment method of claim 1, wherein S100 comprises:

s101, monitoring the pupil state of a patient through eyeball tracking, and setting an eye biological micropore camera group by utilizing pupil constriction and dilation and eye microexpressive microscopic scanning to rapidly capture; arranging a plurality of groups of eye biological micropore shooting groups at the periphery of an annular screen at multiple angles;

s102, monitoring the pupil constriction and dilation state and the eye micro-expression state of a patient through an eye biological micropore shooting group;

s103, processing the pupil constriction and dilation state and the eye micro expression state through state image data to obtain eye micro state biological monitoring information of the patient.

3. The biofeedback-based personalized phototherapy room adjustment method of claim 1, wherein S200 comprises:

s201, setting a micro-state biological signal conversion module by utilizing the relation between the micro-state characteristics of eyes and biological signal characteristics;

s202, reading the eye micro-state biological monitoring information through a micro-state biological signal conversion module, and converting the eye micro-state biological monitoring information into an eye micro-state biological signal.

4. The biofeedback-based personalized phototherapy room adjustment method of claim 1, wherein S300 comprises:

S301, carrying out feedback response corresponding relation statistics of eye micro-state biological signal excitation and phototherapy parameters, and obtaining a biological signal excitation phototherapy feedback response statistical data set; analyzing the ocular microfabric state biosignals of the patient;

s302, a biological signal excitation phototherapy feedback response statistical data set is drawn, a biological signal excitation phototherapy feedback response statistical curve is drawn, and a biological signal phototherapy feedback response development relationship is predicted according to the biological signal excitation phototherapy feedback response statistical curve;

s303, modeling the feedback response development relationship according to the biological signal phototherapy feedback response development relationship, and obtaining a micro-state biological signal phototherapy feedback response model.

5. The biofeedback-based personalized phototherapy room adjustment method of claim 1, wherein S400 comprises:

s401, outputting phototherapy parameters of a phototherapy room in real time according to eye micro-state biological monitoring in the phototherapy process through a micro-state biological signal phototherapy feedback response model;

s402, adjusting phototherapy information of the phototherapy room according to phototherapy parameters of the phototherapy room, and feeding back micro-state biological signals to adjust the personalized phototherapy room.

6. Personalized phototherapy room governing system based on biofeedback, characterized by comprising:

The eye micro-state biological monitoring subsystem monitors the pupil contraction and expansion state and the eye micro-expression state of a patient through an eye biological micro-pore shooting group to acquire eye micro-state biological monitoring information;

the micro-state biological signal conversion subsystem converts the eye micro-state biological monitoring information into eye micro-state biological signals by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

the biological signal phototherapy feedback response subsystem is used for analyzing the feedback response relation between the ocular micro-state biological signals and the phototherapy parameters and obtaining a micro-state biological signal phototherapy feedback response model;

the phototherapy subsystem is adjusted in response to the output information, output phototherapy parameters are adjusted through a micro-state biological signal phototherapy feedback response model, sunlight wavelength and slowly-changed blue light in the morning are simulated, phototherapy room parameter information is fed back and adjusted, and micro-state biological signal feedback personalized phototherapy room parameter adjustment is carried out; the morning sunlight wavelengths include: red 690 spectral wavelength and morning solar spectrum 420-690 spectral wavelength.

7. The biofeedback based personalized phototherapy room regulating system according to claim 6, wherein the ocular microbiology monitoring subsystem comprises:

The eye biological micropore camera shooting subsystem monitors the pupil state of a patient through eyeball tracking, and rapidly captures by utilizing pupil constriction and dilation and eye microexpressive microscopic scanning, and an eye biological micropore camera shooting group is arranged; arranging a plurality of groups of eye biological micropore shooting groups at the periphery of an annular screen at multiple angles;

the pupil eye microexpressive monitoring subsystem monitors the pupil contraction and expansion state and the eye microexpressive state of a patient through the eye biological micropore shooting group;

and the state image data processing subsystem is used for processing the pupil constriction and dilation state and the eye micro expression state through state image data to acquire the eye micro state biological monitoring information of the patient.

8. The biofeedback based personalized phototherapy room regulating system of claim 6, wherein the micro-state biosignal conversion subsystem comprises:

the biological signal characteristic setting subsystem is used for setting a micro-state biological signal conversion module by utilizing the relation between the eye micro-state characteristics and the biological signal characteristics;

and the monitoring information signal conversion subsystem reads the eye micro-state biological monitoring information through the micro-state biological signal conversion module and converts the eye micro-state biological monitoring information into an eye micro-state biological signal.

9. The biofeedback-based personalized phototherapy room adjustment system of claim 6, wherein the biosignal phototherapy feedback response subsystem comprises:

the signal excitation phototherapy response statistics subsystem is used for carrying out feedback response correspondence statistics on eye micro-state biological signal excitation and phototherapy parameters, and acquiring a biological signal excitation phototherapy feedback response statistics data set;

the feedback response statistical prediction subsystem is used for drawing a biological signal excitation phototherapy feedback response statistical curve according to the biological signal excitation phototherapy feedback response statistical data set and predicting a biological signal phototherapy feedback response development relationship according to the biological signal excitation phototherapy feedback response statistical curve;

and the feedback response development relation modeling subsystem is used for carrying out feedback response development relation modeling according to the biological signal phototherapy feedback response development relation to obtain a micro-state biological signal phototherapy feedback response model.

10. The biofeedback based personalized phototherapy room adjustment system according to claim 6, wherein adjusting the phototherapy subsystem in response to the output information comprises:

the biological monitoring real-time output subsystem outputs phototherapy parameters of the phototherapy room in real time according to eye micro-state biological monitoring of the phototherapy process through a micro-state biological signal phototherapy feedback response model;

And the phototherapy adjustment personalized adjustment subsystem adjusts phototherapy information of the phototherapy room according to phototherapy parameters of the phototherapy room, and performs micro-state biological signal feedback personalized phototherapy room adjustment.