CN113368364B - Skin conductance-based environment adjusting method, adjusting system and storage medium - Google Patents

Abstract

The invention discloses an environment adjusting method, an adjusting system and a storage medium based on skin conductance, wherein the environment adjusting method based on skin conductance mainly comprises the following steps: the method comprises the steps that a main control unit obtains a first adjusting curve, wherein the value on the abscissa axis of the first adjusting curve is a skin resistance value, and the value on the ordinate axis of the first adjusting curve is illumination chromaticity; the main control unit is provided with a first working origin of an abscissa axis and an ordinate axis on the first adjusting curve; the main control unit acquires a real-time skin resistance value of a user; the main control unit acquires corresponding illumination chromaticity on the first adjusting curve according to the real-time skin resistance value, and takes the acquired illumination chromaticity value as a first adjusting value; the main control unit adjusts the illumination chromaticity in the environment according to the first adjusting value; and adjusting the ambient light chromaticity according to the change of the real-time skin resistance value of the user, and guiding the skin resistance value to recover to a normal state through the ambient light chromaticity so that the emotion and the life rhythm of the user recover to the normal state.

Description

Skin conductance-based environment adjusting method, adjusting system and storage medium

Technical Field

The invention relates to the technical field of smart home, in particular to an environment adjusting method, an adjusting system and a storage medium based on skin conductance.

Background

The galvanic skin response is also called as "galvanic skin response", which is an emotional index representing the change of skin conductance when the body is stimulated, and can be used as a direct index of the sympathetic nervous system function and an indirect index of brain arousal and alertness level. The principle of the electrodermal response is that when the body is stimulated by the outside or the emotional state changes, the activity of the autonomic nervous system can cause the relaxation and contraction of blood vessels in the skin and the secretion of sweat glands, so that the skin resistance value changes, and therefore, the skin resistance value can be used as a physiological index for reflecting the emotional change.

The environmental factors can directly affect the emotional physiological indexes and the life rhythm of the human body, when the skin resistance value is abnormal, if the emotion problem is adjusted through a medicine means, a large side effect exists, but if the emotion is adjusted through the environmental factors, the influence of the side effect can be avoided.

It is seen that improvements and enhancements in the prior art are needed.

Disclosure of Invention

In view of the foregoing disadvantages of the prior art, it is an object of the present invention to provide an environmental adjustment method, an adjustment system and a storage medium based on skin conductance, which can adjust the ambient light chromaticity according to the change of skin conductance and guide the emotion of a user to tend to a smooth state through the ambient light chromaticity.

In order to achieve the purpose, the invention adopts the following technical scheme:

an environment regulation method based on skin conductance specifically comprises the following steps:

the method comprises the steps that a main control unit obtains a first adjusting curve, the value on the abscissa axis of the first adjusting curve is a skin resistance value, and the value on the ordinate axis of the first adjusting curve is illumination chromaticity;

the main control unit is used for setting a first working origin of an abscissa axis and an ordinate axis on a first adjusting curve;

the main control unit acquires a real-time skin resistance value of a user;

the main control unit acquires corresponding illumination chromaticity on the first adjusting curve according to the real-time skin resistance value, and takes the acquired illumination chromaticity value as a first adjusting value;

and the main control unit adjusts the illumination chromaticity in the environment according to the first adjusting value.

The environmental regulation method based on skin conductance specifically comprises the following steps:

the method comprises the steps that a main control unit obtains a second adjusting curve, wherein the value on the abscissa axis of the second adjusting curve is a skin resistance value, and the value on the ordinate axis of the second adjusting curve is fragrance concentration;

the main control unit is used for setting a second working origin of an abscissa axis and an ordinate axis on a second adjusting curve;

the main control unit acquires a real-time skin resistance value of a user;

the main control unit acquires corresponding aroma concentration on a second adjusting curve according to the real-time skin resistance value, and takes the acquired aroma concentration as a second adjusting value;

and the main control unit adjusts the fragrance concentration in the environment according to the second adjusting value.

The environmental regulation method based on skin conductance specifically comprises the following steps:

the main control unit acquires a third regulating curve, wherein the value on the abscissa axis of the third regulating curve is the skin resistance value, and the value on the ordinate axis of the third regulating curve is the oxygen content of air;

the main control unit sets a third working origin of an abscissa axis and an ordinate axis on a third adjusting curve;

the main control unit acquires a real-time skin resistance value of a user;

the main control unit acquires the corresponding air oxygen content on a third regulation curve according to the real-time skin resistance value, and takes the acquired air oxygen content value as a third regulation value;

and the main control unit adjusts the oxygen content of the air in the environment according to the third adjusting value.

In the method for adjusting an environment based on skin conductance, the acquiring, by the main control unit, a real-time skin resistance value of a user specifically includes:

the main control unit acquires a group of skin resistance value data every 10 minutes;

and the main control unit performs weighted average processing on the skin resistance value data to obtain a real-time skin resistance value.

In the skin conductance-based environment adjustment method, the main control unit sets a first working origin of an abscissa axis and an ordinate axis on a first adjustment curve, and specifically includes:

the main control unit acquires a first working origin of an abscissa axis according to the normal skin resistance value of the user;

the main control unit obtains a first working origin of a longitudinal axis according to the illumination chromaticity of the user at the normal skin resistance value.

In the skin conductance-based environment adjusting method, the main control unit sets a second working origin of an abscissa axis and an ordinate axis on a second adjustment curve, and specifically includes:

the main control unit acquires a second working origin of the abscissa axis according to the normal skin resistance value of the user;

the main control unit obtains a second working origin of the ordinate axis according to the fragrance concentration of the user when the user is in the normal skin resistance value.

In the skin conductance-based environment adjusting method, the main control unit sets a third working origin of an abscissa axis and an ordinate axis on a third adjustment curve, and specifically includes:

the main control unit acquires a third working origin of the abscissa axis according to the normal skin resistance value of the user;

and the main control unit acquires a third working origin of the ordinate axis according to the oxygen content of the air when the user is at the normal skin resistance value.

The application also provides an environment adjusting system based on skin conductance, which adopts the environment adjusting method based on skin conductance to realize work control and comprises a main control unit, a detection unit and an output adjusting unit, wherein the detection unit and the output adjusting unit are respectively connected with the main control unit; the detection unit is used for acquiring the real-time skin resistance value of a user, and the output adjusting unit is used for adjusting the illumination chromaticity, the aroma concentration and the air oxygen content.

In the environment adjusting system based on skin conductance, the detection unit is a MAX32600 skin conductance measurement controller, and the MAX32600 skin conductance measurement controller is used for collecting the skin resistance value of a user.

The present application also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, causes the processor to carry out the method of skin conductance-based environmental conditioning as described above.

Has the beneficial effects that:

the invention provides an environment adjusting method based on skin conductance, which adjusts the environment illumination chromaticity according to the change of the real-time skin resistance value of a user, guides the skin resistance value to recover the normal state through the environment illumination chromaticity and enables the emotion and the life rhythm of the user to recover the normal state.

Drawings

Fig. 1 is a first control flow chart of the skin conductance-based environmental regulation method provided by the invention;

FIG. 2 is a control flow chart II of the skin conductance-based environmental regulation method provided by the present invention;

FIG. 3 is a third control flow chart of the skin conductance-based environmental conditioning method provided by the present invention;

fig. 4 is a schematic flowchart of step S310 in the method for regulating the environment based on skin conductance according to the present invention;

fig. 5 is a schematic flowchart of step S210 in the method for regulating environment based on skin conductance according to the present invention;

fig. 6 is a schematic flowchart of step S220 in the skin conductance-based environmental regulation method provided by the present invention;

fig. 7 is a schematic flowchart of step S230 in the method for regulating environment based on skin conductance according to the present invention;

fig. 8 is a system block diagram of the skin conductance-based environmental regulation system provided by the present invention.

Description of the main element symbols: 1-main control unit, 2-detection unit, 3-output regulation unit.

Detailed Description

The invention provides an environment adjusting method, an environment adjusting system and a storage medium thereof based on skin conductance, and in order to make the purpose, the technical scheme and the effect of the invention clearer and clearer, the invention is further described in detail by referring to the attached drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the scope of the invention.

In the description of the present invention, it is to be understood that the terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to imply that the number of technical features indicated is significant, and those skilled in the art can understand the specific meaning of the terms in the present invention according to their specific situation.

Referring to fig. 1 to 7, the present invention provides an environmental regulation method based on skin conductance, which includes the following steps:

s110, a main control unit acquires a first adjusting curve, wherein the value on the abscissa axis of the first adjusting curve is a skin resistance value, and the value on the ordinate axis of the first adjusting curve is illumination chromaticity; the skin resistance value is used as an independent variable of a coordinate system, the illumination chromaticity is used as a dependent variable of the coordinate system, the skin resistance values are distributed on the abscissa axis in an equidifferent mode, and each skin resistance value corresponds to one illumination chromaticity value.

The illumination chromaticity values comprise a brightness, a red-green chromaticity and a yellow-blue chromaticity, and the illumination chromaticity is changed by comprehensively adjusting the values of the brightness, the red-green chromaticity and the yellow-blue chromaticity, so that the illumination brightness and the illumination color in the environment are adjusted; the red color acts on the human body to generate oppression and tension; while yellow color acts on the human body to be visually pleasing, but stimulates anxiety-related regions of the brain, causing a restless and nervous mood; the green effect on the human body can reduce the visual fatigue and relax the human body; and the blue color acts on the human body to generate cool and mental emotion.

The variation of the skin resistance value is related to sweat secretion, and the sweat gland activity is regulated and controlled by the central nervous system and the sympathetic nervous system, and the skin resistance value is increased when the emotion of the user is calm and relaxed; when the user is nervous, excited, and distracted, the skin resistance value is reduced.

In one embodiment, when the skin resistance value is used as an independent variable and the illumination chromaticity is used as a dependent variable, in actual application, if the skin resistance value of a user is reduced and the mood of the user fluctuates greatly and is in a stress reaction process, the color of the ambient light environment is adjusted towards the green direction and the blue direction by adjusting the illumination chromaticity value, so that the light environment tends to be cool, the mood of the user is appealed, the mood of the user is relaxed, and if the skin resistance value of the user is increased and the mood fluctuation of the user is small, and the moods of the user are depressed, lacked and the like, the color of the ambient light environment is adjusted towards the red direction and the yellow direction by adjusting the illumination chromaticity value, so that the mood of the user is stimulated, and the normal mood of the user is recovered.

S120, the main control unit acquires a second adjusting curve, wherein the value on the abscissa axis of the second adjusting curve is the skin resistance value, and the value on the ordinate axis of the second adjusting curve is the fragrance concentration; the skin resistance value is used as independent variable of a coordinate system, the fragrance concentration is used as dependent variable of the coordinate system, the skin resistance value is distributed on the abscissa axis in an equidifferent mode, and each skin resistance value corresponds to a fragrance concentration value.

In one embodiment, when the skin resistance value is used as an independent variable and the fragrance concentration is used as a dependent variable, the fragrance concentration value is reduced along with the reduction of the skin resistance value, if the skin resistance value of a user is reduced and the fluctuation of the mood of the user is large and the user is in the stress reaction process, the fragrance concentration value is adjusted to be reduced, the fragrance environment of the environment is enabled to be fresh, the purpose of soothing the mood of the user and enabling the user to relax the mood of the user is achieved, the user is enabled to be calmed down from the stress reaction state, and if the skin resistance value of the user is increased and the fluctuation of the mood of the user is small, and the mood such as depression and lacuna exists, the fragrance concentration value is adjusted to be increased, the environment fragrance environment is enabled to be strong, the mood of the user is stimulated, and the normal mood of the user is restored.

S130, the main control unit acquires a third adjusting curve, wherein the value on the abscissa axis of the third adjusting curve is the skin resistance value, and the value on the ordinate axis of the third adjusting curve is the oxygen content of air; the skin resistance value is used as an independent variable of a coordinate system, the air oxygen content is used as a dependent variable of the coordinate system, the skin resistance value is distributed on the abscissa axis in an equidifferent mode, and each skin resistance value corresponds to an air oxygen content value.

In one embodiment, when the skin resistance value is used as an independent variable and the air oxygen content value is used as a dependent variable, the air oxygen content value is reduced along with the increase of the skin resistance value, if the skin resistance value of a user is reduced and the mood fluctuation of the user is large and the user is in a stress reaction process, the air oxygen content value is adjusted to be increased, the oxygen content value of the air in the environment is increased, the gland secretion in the body of the user is reduced, the skin resistance value of the user is improved, the user is relaxed and recovers a normal mood state, if the skin resistance value of the user is increased and the mood fluctuation of the user is small, and the mood such as depression and lacuna exists, the air oxygen content value is adjusted to be reduced, the oxygen content of the air in the environment is reduced, the gland secretion in the body of the user is stimulated, and the skin resistance value of the user is increased, so that the normal mood state is recovered.

S210, setting a first working origin of an abscissa axis and an ordinate axis on a first adjusting curve by a main control unit; the first working origin of the first adjusting curve is set to provide a reference point for the skin resistance value and the illumination chromaticity value, the trend towards the origin indicates that the emotion of the user is healthier, and the illumination chromaticity is adjusted according to the first working origin.

Further, the step S210 includes the main control unit setting a first work origin on an abscissa axis and an ordinate axis on the first adjustment curve, and specifically including:

s211, the main control unit obtains a first working origin of an abscissa axis according to the normal skin resistance value of the user; the first working origin of the abscissa axis is set according to the normal skin resistance values of different users in health states, so that the main control unit can adjust the life rhythm of a certain user in a targeted manner, and the skin resistance values of the users are guided to be always kept on the first working origin of the abscissa axis by adjusting the surrounding environment of the users, so that the users can keep emotional health and normal physiological rhythm.

S212, the main control unit obtains a first working origin of the ordinate axis according to the illumination chromaticity of the user at the normal skin resistance value; the first working origin of the illumination chromaticity on the ordinate axis is set to provide a reference system for the main control unit to adjust the environment, so that the illumination chromaticity of the user in the normal skin resistance value can be judged.

S220, the main control unit sets a second working origin of an abscissa axis and an ordinate axis on a second adjusting curve; and setting a second working origin of a second adjusting curve to provide reference points for the skin resistance value and the fragrance concentration value, wherein the trend to the origin indicates that the emotion of the user is healthier, and the fragrance concentration is adjusted according to the second working origin.

Further, the step S220 is that the main control unit sets a second work origin of an abscissa axis and an ordinate axis on the second adjustment curve, and specifically includes:

s221, the main control unit obtains a second working origin of the abscissa axis according to the normal skin resistance value of the user; and setting a second working origin of the abscissa axis according to the normal skin resistance values of different users in health states, so that the main control unit can adjust the life rhythm of a certain user in a targeted manner, and the skin resistance values of the users are guided to be always kept on the working origin of the abscissa axis by adjusting the surrounding environment of the users, so that the users can keep emotional health and normal physiological rhythm.

S222, the main control unit acquires a second working origin of the ordinate axis according to the fragrance concentration of the user in the normal skin resistance value; by setting the second working origin of the fragrance concentration on the ordinate axis, a reference system is provided for the main control unit to adjust the environment, and the fragrance concentration of the user in the normal skin resistance value can be judged.

S230, setting a third working origin of an abscissa axis and an ordinate axis on a third adjusting curve by the main control unit; and setting a third working origin of a third adjusting curve to provide reference points for the skin resistance value and the air oxygen content value, wherein the trend to the origin indicates that the emotion of the user is healthier, and the air oxygen content is adjusted according to the third working origin.

Further, the step S230 is that the main control unit sets a third working origin on the abscissa axis and the ordinate axis of the third adjustment curve, and specifically includes:

s231, the main control unit acquires a third working principle of the abscissa axis according to the normal skin resistance value of the user; and setting a third working principle of the abscissa axis according to the normal skin resistance values of different users in health states, so that the main control unit can pertinently regulate the life rhythm of a certain user, and the skin resistance value of the user is guided to be always kept on the third working principle of the abscissa axis by regulating the surrounding environment of the user, so that the user keeps emotional health and normal physiological rhythm.

S232, the main control unit obtains a third working principle of the ordinate axis according to the oxygen content of the air when the user is at the normal skin resistance value; by setting a third working principle of the air oxygen content on the ordinate axis, a reference system is provided for the main control unit when adjusting the environment, and the air oxygen content of the user in normal skin resistance can be judged

Wherein the normal skin resistance value ranges from 1000 ohms to 2000 ohms; in this embodiment, the normal skin resistance value may be 1500 ohms.

Further, S310, the main control unit obtains the real-time skin resistance value of the user; the emotion state of the user is judged by acquiring the real-time skin resistance value of the user, the surrounding environment of the user is dynamically adjusted according to the real-time skin resistance value of the user, and the environment is changed by adjusting the illumination chromaticity, the aroma concentration and the oxygen content of air, so that the effect of stabilizing the emotion and the life rhythm of the user is achieved.

Wherein the step S310 is identical to the step S320 and the step S330.

Further, the step S310 of acquiring the real-time skin resistance value of the user by the main control unit specifically includes:

s311, the main control unit acquires a group of skin resistance data every 10 minutes; the skin resistance data of the user is acquired every 10 minutes, so that the influence on the effect of adjusting the emotion and the life rhythm of the user due to the overlarge environment adjusting frequency of the main control unit is avoided; if a group of skin resistance data is acquired every 1 minute, namely the environment changes every minute, the human body cannot change in a better applicable environment in a short time, and the human body cannot play a role in stabilizing emotion and life rhythm even generates a reaction in an environment with fast frequency conversion, so that the fluctuation of emotion and life rhythm is increased.

S312, the main control unit carries out weighted average processing on the skin resistance value data to obtain a real-time skin resistance value; the skin resistance value measured in 10 minutes is subjected to average value processing, so that a real-time skin resistance value is obtained, the accuracy of the real-time skin resistance value of a user in any time period is improved, and the adjustment of the illumination chromaticity, the aroma concentration and the oxygen content of air is more accurate.

S410, the main control unit acquires a corresponding illumination chromatic value on a first adjusting curve according to the real-time skin resistance value, and the acquired illumination chromatic value is used as a first adjusting value; the main control unit obtains coordinate data corresponding to the real-time skin resistance value on the first adjusting curve according to the real-time skin resistance value, and uses a longitudinal coordinate value in the coordinate data as a first adjusting value, and the main control unit sends a control signal to external equipment according to the first adjusting value, such as but not limited to: a lighting device to adjust the chromaticity of the illumination in the environment to guide the user to a stable skin resistance value.

S420, the main control unit acquires corresponding fragrance concentration on a second adjusting curve according to the real-time skin resistance value, and the acquired fragrance concentration is used as a second adjusting value; the main control unit obtains coordinate data corresponding to the real-time skin resistance value on the second regulation curve, and uses a longitudinal coordinate value in the coordinate data as a second regulation value, and the main control unit sends a control signal to an external device according to the second regulation value, for example but not limited to: aromatherapy device, thereby adjusting the fragrance concentration in the environment to guide the user to reach a stable skin resistance value.

S430, the main control unit acquires a corresponding air oxygen content value on a third regulation curve according to the real-time skin resistance value, and takes the acquired air oxygen content value as a third regulation value; the main control unit obtains coordinate data corresponding to the real-time skin resistance value on the third adjustment curve according to the real-time skin resistance value, and uses a longitudinal coordinate value in the coordinate data as a third adjustment value, and the main control unit sends a control signal to external equipment according to the third adjustment value, such as but not limited to: an oxygen generator device to regulate the oxygen content of the air in the environment to guide the user to reach a stable skin resistance value.

S510, the main control unit adjusts the illumination chromaticity in the environment according to the first adjusting value; the main control unit uses the ordinate value in the coordinate data as a reference quantity for adjusting the illumination chromaticity, that is, a first adjustment value, and sends a control signal to an external device according to the first adjustment value, for example, but not limited to: an illumination device to adjust the illumination chromaticity to guide the user to a stable skin resistance value.

S520, the main control unit adjusts the fragrance concentration in the environment according to the second adjusting value; the main control unit takes the ordinate value in the coordinate data as a reference quantity for adjusting the fragrance concentration, i.e. a second adjustment value, and the main control unit sends a control signal to an external device according to the second adjustment value, such as but not limited to: aromatherapy device, thereby adjusting the fragrance concentration to guide the user to reach a stable skin resistance value.

S530, the main control unit adjusts the oxygen content of the air in the environment according to the third adjusting value; the main control unit uses the ordinate value in the coordinate data as a reference value for adjusting the oxygen content of the air, that is, a third adjustment value, and sends a control signal to an external device according to the third adjustment value, for example, but not limited to: an oxygen generator device to adjust the oxygen content of the air to guide the user to a stable skin resistance value.

In conclusion, the ambient light chromaticity, the ambient sound and the air oxygen content are adjusted according to the change of the real-time skin resistance value of the user, and the skin resistance value is guided to be recovered to the normal state through the ambient light chromaticity, the ambient sound and the air oxygen content, so that the emotion and the life rhythm of the user are recovered to the normal state.

The application also provides an environment adjusting system based on skin conductance, which adopts the environment adjusting method based on skin conductance to realize work control, as shown in fig. 8, the environment adjusting system based on skin conductance comprises a main control unit 1, a detection unit 2 and an output adjusting unit 3, wherein the detection unit 2 and the output adjusting unit 3 are respectively connected with the main control unit 1; the detection unit 2 is used for acquiring a real-time skin resistance value of a user, and the output adjusting unit 3 is used for adjusting illumination chromaticity, aroma concentration and air oxygen content; the output adjusting unit 3 is connected with lighting equipment, aromatherapy equipment or oxygenerator equipment; the main control unit 1 respectively establishes a first regulation curve, a second regulation curve and a third regulation curve with the normal skin resistance value of the user according to the illumination chromaticity, the aroma concentration and the oxygen content of air when the user is at the normal skin resistance value; the method comprises the steps that a skin resistance value of a user is detected in real time through the detection unit 2, the real-time skin resistance value of the user is obtained, the real-time skin resistance value of the user is sent to the main control unit 1, the main control unit 1 respectively obtains a first adjusting value, a second adjusting value and a third adjusting value according to the real-time skin resistance value, the first adjusting value, the second adjusting value and the third adjusting value are used as reference quantities for adjusting illumination chromaticity, aroma concentration and air oxygen content, finally the main control unit 1 converts the reference quantities into control signals to be output to the output adjusting unit 3, and the output adjusting unit 3 controls lighting equipment, aroma equipment or oxygen generator equipment according to the control signals, so that the illumination chromaticity, the aroma concentration or the air oxygen content is adjusted, the environment is changed, the skin resistance value of the user is led to be stable, and the skin resistance value of the user is recovered to be a normal skin resistance value.

Further, the detection unit 2 is a MAX32600 skin electrical measurement controller, and the MAX32600 skin electrical measurement controller is used for acquiring a skin resistance value of a user; the MAX32600 skin measurement controller collects skin impedance of a user so as to obtain a skin resistance value of the user; in this embodiment, the detection unit 2 and the main control unit 1 may be wirelessly connected, for example, but not limited to, a bluetooth connection or a Wi-Fi connection.

The present application also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, causes the processor to carry out the method of skin conductance-based environmental conditioning as described above.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the protective scope of the present invention.

Claims (8)

1. A method for regulating environment based on skin conductance is characterized by comprising the following steps:

the method comprises the steps that a main control unit obtains a first adjusting curve, the value on the abscissa axis of the first adjusting curve is a skin resistance value, and the value on the ordinate axis of the first adjusting curve is illumination chromaticity;

the main control unit is provided with a first working origin of an abscissa axis and an ordinate axis on the first adjusting curve;

the main control unit acquires a real-time skin resistance value of a user;

the main control unit acquires corresponding illumination chromaticity on the first adjusting curve according to the real-time skin resistance value, and takes the acquired illumination chromaticity value as a first adjusting value;

the main control unit adjusts the illumination chromaticity in the environment according to the first adjusting value;

the main control unit obtains the real-time skin resistance value of the user, and specifically comprises:

the main control unit acquires a group of skin resistance value data every 10 minutes;

the main control unit carries out weighted average processing on the skin resistance value data to obtain a real-time skin resistance value;

the main control unit sets up the first work initial point of abscissa axis and ordinate axis on the first regulation curve, specifically still includes:

the main control unit acquires a first working origin of an abscissa axis according to the normal skin resistance value of the user;

the main control unit obtains a first working origin of the ordinate axis according to the illumination chromaticity of the user when the user is at the normal skin resistance value.

2. The method for regulating environment based on skin conductance according to claim 1, wherein said method for regulating environment based on skin conductance further comprises the steps of:

the method comprises the steps that a main control unit obtains a second adjusting curve, the value on the abscissa axis of the second adjusting curve is a skin resistance value, and the value on the ordinate axis of the second adjusting curve is fragrance concentration;

the main control unit is provided with a second working origin of an abscissa axis and an ordinate axis on a second adjusting curve;

the main control unit acquires a real-time skin resistance value of a user;

the main control unit acquires corresponding aroma concentration on a second adjusting curve according to the real-time skin resistance value, and takes the acquired aroma concentration as a second adjusting value;

and the main control unit adjusts the fragrance concentration in the environment according to the second adjustment value.

3. The method for regulating environment based on skin conductance according to claim 1, wherein said method for regulating environment based on skin conductance further comprises the steps of:

the main control unit acquires a third regulating curve, wherein the value on the abscissa axis of the third regulating curve is the skin resistance value, and the value on the ordinate axis of the third regulating curve is the oxygen content of air;

the main control unit is provided with a third working origin of an abscissa axis and an ordinate axis on a third adjusting curve;

the main control unit acquires a real-time skin resistance value of a user;

the main control unit acquires the corresponding oxygen content of the air on a third adjusting curve according to the real-time skin resistance value, and takes the acquired oxygen content value of the air as a third adjusting value;

and the main control unit adjusts the oxygen content of the air in the environment according to the third adjusting value.

4. The skin conductance-based environment adjusting method according to claim 2, wherein the main control unit sets a second working origin point on an abscissa axis and an ordinate axis of a second adjustment curve, and specifically comprises:

the main control unit acquires a second working origin of the abscissa axis according to the normal skin resistance value of the user;

the main control unit obtains a second working origin of the ordinate axis according to the fragrance concentration of the user when the user is in the normal skin resistance value.

5. The skin conductance-based environment adjusting method according to claim 3, wherein the main control unit sets a third working origin point on an abscissa axis and an ordinate axis on a third adjustment curve, and further comprises:

the main control unit acquires a third working origin of the abscissa axis according to the normal skin resistance value of the user;

and the main control unit acquires a third working origin of the ordinate axis according to the oxygen content of the air when the user is at the normal skin resistance value.

6. An environment regulation system based on skin conductance, which is characterized in that the environment regulation system based on skin conductance adopts the environment regulation method based on skin conductance as in any one of claims 1 to 5 to realize work control, and comprises a main control unit, a detection unit and an output regulation unit, wherein the detection unit and the output regulation unit are respectively connected with the main control unit; the detection unit is used for acquiring the real-time skin resistance value of a user, and the output adjusting unit is used for adjusting the illumination chromaticity, the aroma concentration and the air oxygen content.

7. The skin conductance based environmental conditioning system of claim 6, wherein said detection unit is a MAX32600 picometer controller, said MAX32600 picometer controller being configured to collect a user skin resistance value.

8. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program which, when executed by a processor, causes the processor to carry out the method for skin conductance-based environmental conditioning of any one of claims 1-5.

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