CN115227200A

CN115227200A - Body constitution detection method and system based on perception test

Info

Publication number: CN115227200A
Application number: CN202210630672.5A
Authority: CN
Inventors: 李守璋
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-06-06
Filing date: 2022-06-06
Publication date: 2022-10-25

Abstract

The invention discloses a physique detection method and a physique detection system based on a perception test, which are applied to a self-detection device comprising a plurality of induction heads; the method comprises the following steps: acquiring the contact area uploaded by each induction head in response to the self-checking request, and integrating the contact areas of all the induction heads by combining the arrangement rule of each induction head to acquire the characteristic information of the target object; comparing the characteristic information of the target object with a preset meridian model to obtain each acupuncture point coordinate of the target object, and controlling a plurality of induction heads to execute a plurality of groups of sensing operations by combining the acupuncture point coordinates; receiving the perception feedback information corresponding to each group of perception operations to calculate the perception value of the corresponding acupuncture point, calculating the state of the acupuncture point/meridian according to the perception value, and outputting the corresponding constitution result. The invention can automatically detect the channel state, intelligently output the physique result and meet the self-detection aim.

Description

Body constitution detection method and system based on perception test

Technical Field

The invention relates to the technical field of traditional Chinese medicine physique detection, in particular to a physique detection method and system based on perception test.

Background

In terms of traditional Chinese medicine, meridians and collaterals determine the health of a human body, and when the human body is painful or insensitive, the meridians and collaterals are blocked, so that a plurality of diseases can appear on the human body. The traditional Chinese medicine diagnosis method is a known heat sensitivity measuring method, which stimulates a single acupuncture point on the body and distinguishes partial diseases from deficiency and excess by collecting the perception response of a patient.

However, the method needs to burn the body part by the incense stick, the skin is easily damaged when the method is not operated properly, and the method is only suitable for diagnosis by professional traditional Chinese medical doctors, so that common patients without professional knowledge cannot finish detection at home. In addition, the detection of a single acupoint may not accurately identify the meridian state, and a traditional Chinese medicine doctor is required to obtain a diagnosis and treatment scheme by combining self experience.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the purposes of the invention is to provide a physique detection method based on a perception test, which can automatically detect the meridian state, intelligently output physique results and meet the purpose of self-detection.

The second objective of the present invention is to provide a physical fitness detection system based on a sensory test, which performs the above method.

One of the purposes of the invention is realized by adopting the following technical scheme:

a physique detection method based on perception test is applied to a self-detection device comprising a plurality of induction heads; the method comprises the following steps:

acquiring the contact area uploaded by each induction head in response to the self-checking request, and integrating the contact areas of all the induction heads by combining the arrangement rule of each induction head to acquire the characteristic information of the target object;

comparing the characteristic information of the target object with a preset meridian model to obtain each acupuncture point coordinate of the target object, and controlling a plurality of induction heads to execute a plurality of groups of sensing operations by combining the acupuncture point coordinates;

receiving the perception feedback information corresponding to each group of perception operations to calculate the perception value of the corresponding acupuncture point, calculating the state of the acupuncture point/meridian according to the perception value, and outputting the corresponding constitution result.

Furthermore, a plurality of induction heads on the self-checking device are arranged in a staggered mode, and the contact area of each induction head is calculated by detecting the current value when each induction head is in contact with the target object.

Further, the method for integrating the contact areas of all the inductive heads comprises the following steps:

establishing a corresponding grid point for each induction head according to the arrangement rule of the induction heads, and endowing the unique number marked by each induction head to the corresponding grid point;

sequentially judging whether the contact area of the induction head is larger than a first preset value or not, if so, searching a corresponding grid point according to the unique number of the induction head, and completely filling the grid point; if the contact area is smaller than a first preset value, searching a corresponding grid point according to the unique number of the induction head, and partially filling the grid point;

and drawing the contour line of the target object according to the filling distribution of all the grid points, and marking the positions of the key points according to the contour line characteristics so as to obtain the characteristic information of the target object.

Further, when the grid points are partially filled, the filling areas of the grid points are determined by the contact areas, and the filling positions are determined by the grid points whose peripheries are completely filled.

Further, one group of the sensing operations is to perform electrical stimulation, thermal stimulation or pressing stimulation to the same degree on at least two induction heads simultaneously; and displaying and feeding back the stimulated acupuncture point positions each time one group of the sensing operations are executed.

Further, the perception feedback information comprises perception sequence and perception intensity of a plurality of acupuncture points which are stimulated simultaneously.

Further, the method for calculating the perception values of the acupuncture points comprises the following steps:

adjusting the basic number values of the corresponding acupuncture points according to the sensing sequence and the sensing strength of the plurality of acupuncture points which are simultaneously stimulated, namely adding one to the basic number value of the acupuncture point which is the most front in the sensing sequence and subtracting one from the basic number value of the acupuncture point which is the most rear in the sensing sequence; reducing the base number value of the acupuncture point with the strongest perception intensity by one;

and outputting the base number value corresponding to each acupuncture point after the multiple groups of sensing operations as a sensing value.

Further, the method for calculating the state of the meridians and collaterals corresponding to the acupoints according to the perception values comprises the following steps:

judging whether the perception value of each acupuncture point in a meridian of the target object is lower than a preset threshold value, if the number of the acupuncture points with the perception values lower than the preset threshold value in the meridian exceeds the preset number, determining a weak area according to the meridian to which the acupuncture point with the abnormal perception value belongs to output a corresponding constitution result.

Further, still include:

calling a conditioning scheme corresponding to the weak area recorded in the database, and synchronously pushing the corresponding conditioning scheme when a physique result is output; or the like, or a combination thereof,

and calling a conditioning scheme corresponding to the weak area recorded in the database, marking and identifying the acupuncture points mentioned in the conditioning scheme, and controlling the induction heads corresponding to the acupuncture points to automatically execute electric stimulation, thermal stimulation or pressing stimulation operation.

The second purpose of the invention is realized by adopting the following technical scheme:

a physique detection system based on perception test comprises a detection module, a central control module and a display module, wherein the central control module executes the physique detection method based on the perception test.

Compared with the prior art, the invention has the beneficial effects that:

the type and the characteristics of a target object to be detected are determined through a plurality of induction heads on the self-checking device, so that the acupuncture point distribution condition of the target object is identified; and then the perception sequence and the perception intensity of the acupuncture points are fed back by the user in a stimulation mode, and whether the channels and collaterals of the target object are in a blocking state or not can be judged according to the feedback information, so that the parts, deficiency and excess of diseases are distinguished to be used as references for diagnosis and acupuncture point selection, and the self-checking requirement of the user is met.

Drawings

FIG. 1 is a schematic flow chart of the method for detecting physical fitness based on a sensory test according to the present invention;

FIG. 2 is a schematic view of a sensor head on a single module of a substrate according to the present invention;

FIG. 3 is a schematic illustration of partial filling of grid points in accordance with the present invention;

FIG. 4 is a schematic diagram of an interface for prompting a user to perform a sensory feedback by the display module according to the present invention;

fig. 5 is a schematic block diagram of a fitness detection system based on a sensory test according to the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Example one

The embodiment provides a physique detection method based on a perception test, which is applied to a self-detection device, wherein the self-detection device comprises a detection module, a central control module and a display module.

The detection module comprises a substrate and an induction head; the substrate can be a flexible substrate, and the basic shape can be changed according to actual use requirements, so that the induction head on the substrate can be more fit with the body of a user. A plurality of spliced modules are arranged on one side of the substrate, as shown in fig. 2, a plurality of induction heads are protruded on each module, and the induction heads are arranged in order; a plurality of modules are spliced and connected into a sheet shape to detect human body parts.

A metal piece is arranged in each induction head, and the metal piece is of a T-shaped structure; the top surface of the metal piece is exposed outside the induction head to form a contact end of the induction head, and the contact end of the metal piece is used for contacting the skin of a human body; an insulating flexible layer wraps the outside of the rod body of the metal piece to protect the metal piece.

The metal piece is connected with a central control module arranged in the self-checking device through a transmission line, and the micro-current generated by the central control module can be directly transmitted to the skin of a human body through the metal piece to achieve the purpose of electrical stimulation due to the fact that the metal piece is made of conductive metal. In addition, the human body current can be collected through the metal piece, and collected current signals are subjected to signal amplification processing through the amplification circuit and then transmitted to the central control module for data analysis.

In some embodiments, the contact end of the metallic element may also generate heat under the influence of an electric current for the purpose of thermal stimulation.

In some embodiments, a telescopic mechanism can be further arranged in the induction head, and the telescopic mechanism is connected with the metal piece and drives the metal piece to extend and retract up and down so as to meet the purpose of pressing stimulation; because the insulating flexible layer wrapped outside the metal piece has certain scalability, the effect of wrapping the metal piece can be still maintained when the metal piece moves.

A plurality of induction heads in the self-checking device can be arranged in a matrix structure; the induction heads can also be arranged in rows in sequence and the induction heads in each row are distributed in a staggered way so as to shorten the gaps among the induction heads; when human body parts are contacted with the induction heads, the induction heads which are arranged more densely can accurately detect different acupuncture points of the human body, and the phenomenon that the acupuncture points cannot be accurately positioned due to gaps among the induction heads is avoided.

The display module of the self-checking device can be a touch liquid crystal display screen or a flexible display screen which can move along with the substrate; the size of display module assembly with the distribution range of inductive head is relevant, works as when the inductive head detected human position, then can just show the animation model of the human position that detects to the position of human position on the display screen to improve user and use experience and feel. In addition, the user can also input the orientation of the human body part through the display module, for example, the current induction head is in contact with the back of the hand to detect the human body part, and then the user can input the orientation of the human body part as the back; if the current induction head is contacting the palm and detecting the palm, the user can input the human body part orientation as the 'front' so as to accurately position the acupuncture points on the human body part and improve the accuracy of identification.

The central control module of the embodiment executes the physique detection method based on the perception test according to the data provided by the detection module, thereby outputting the physique self-detection result.

As shown in fig. 1, the method for detecting constitutions based on a perception test specifically includes the following steps:

step S1: and starting the self-checking device, automatically executing initialization operation when the self-checking device is started, restoring all induction heads of the self-checking device to the same height, and simultaneously adjusting the detection data output by all the induction heads to zero to avoid the influence of residual data on the self-checking result.

Step S2: a user presses a 'start detection' button on the self-detection device, and then a self-detection request is initiated; meanwhile, the user places a part (hereinafter, referred to as a target) to be detected on the detection module, so that the target is in contact with the sensing head on the detection module. The target object may be a palm, a hand (a general term for a palm and an arm), or a sole.

And step S3: and the self-checking device receives the self-checking request, acquires the contact area of the contact end of each induction head in contact with the target object, and judges the type and size of the target object according to the contact area.

The following description will be made with the palm as the object: the user places the palm on detecting the module, detects the inductive head on the module and contacts (it depends on the palm and places the direction on detecting the module) with the last face or the lower face of palm, and the little current value of palm is all gathered through the mode of contact to every inductive head that detects the module, judges current value and default. Because the metal piece and the human body are all electric conductors, the contact area between the two electric conductors is large, the contact resistance is small, the total resistance of the circuit is small, and the current in the circuit is large under the condition of certain voltage; therefore, the contact end of one induction head is in full contact with the palm, and the contact end of the other induction head is in partial contact with the palm, and the current values acquired by the two induction heads are different.

In the embodiment, the micro-current value collected by each inductive head is amplified by the amplifying circuit, wherein the specific circuit structure of the amplifying circuit is disclosed in the prior art and is not described in detail herein. Each induction head collects micro-current and reports the current value to the central control module after amplification treatment, and the central control module converts the current value corresponding to each induction head into a corresponding contact area so as to identify the form of the target object according to the contact area.

In addition, the self-checking device can be further connected with an additional electrical stimulation device, such as an electrical stimulation probe, the electrical stimulation device is used for applying current stimulation within a safety range to a human target object, the applied current is transmitted to the induction head through a human body, and then the current of the human body is collected through the induction head on the detection module, so that the current data of the human body is more obvious, and the accuracy of contact area detection is improved.

The numerical relationship between the current value and the contact area may be determined in advance through a test manner, for example, a plurality of tests are performed, the magnitude of the amplified current value collected when the contact area is a in each test process is recorded, and the average value is taken to obtain the relationship between the current value and the contact area. After the relation is determined, the contact area corresponding to the current value acquired by the induction head is calculated by directly applying the relation in the actual use process.

And step S4: and integrating the contact areas of all the induction heads by combining the arrangement rule of each induction head to obtain the characteristic information of the target object.

The method for integrating the contact areas of all the induction heads specifically comprises the following steps: matching each induction head with a corresponding unique code in advance according to the arrangement sequence of each induction head; the central control module group establishes a plurality of grid points, the arrangement sequence of the grid points corresponds to the arrangement sequence of the induction heads one by one, and simultaneously, the unique code of each induction head is given to the corresponding grid point so as to facilitate positioning.

Sequentially judging whether the contact area of each induction head is larger than a first preset value or not;

if the contact area is larger than or equal to a first preset value, the contact between the induction head and the target object is tight, and at the moment, a corresponding grid point is found according to the unique number of the induction head, and the grid point is completely filled with a specified color;

if the contact area is smaller than the first preset value, it represents that the contact end on the induction head may only partially contact with the target object, therefore, the corresponding grid point is found according to the unique number of the induction head, the grid point is partially filled with a designated color, and the unfilled portion still maintains a white background color;

after the contact area judgment and the corresponding grid point filling are carried out on each induction head according to the method, the shape and the size of the target object can be determined according to the filling color distribution on all the grid points, and the edge positions of the filling colors are sketched according to the filling distribution of all the grid points so as to obtain the contour line of the target object; meanwhile, the positions of the key points can be marked according to the contour line characteristics so as to obtain the characteristic information of the target object.

For example: the outline of the target object is in a palm shape, the characteristics such as the positions of the finger tips and the palm area are determined according to the palm shape, and in addition, the positions of the finger joints can be calculated according to the distance between the finger tips and the palm.

When the grid points are partially filled, the positions of the color filled on the grid are determined by the grid points which are completely filled around the grid; for example: as shown in fig. 3, it is preset that grid points 1 to 5 exist, the grid point 5 is filled completely, and the partial filling manner of the grid point 3 is as follows: judging that the grid point which is completely filled around the grid point is the grid point 5, so that the grid point 3 extends from the edge close to the grid point 5 to the center of the grid; and the partial filling of the grid point 2 is: the grid points whose periphery is completely filled are still the grid points 5, so the grid points 2 extend from the edge close to the grid points 5 to the center of the grid; similarly, grid point 4 extends from the edge near grid point 5 to its grid center.

The filling area of the grid points is determined by the contact area, i.e. the mapping relationship between the filling area and the contact area can be determined according to the scaling ratio between the grid points and the actual palm.

After the color filling is carried out by the method, the boundary line between the filling color and the white background color is extracted, and the boundary line is subjected to smoothing treatment to obtain the contour line of the target object.

And step S4: and comparing the characteristic information of the target object with a preset meridian model to obtain each acupuncture point coordinate of the target object, and controlling the multiple induction heads to execute multiple groups of sensing operations by combining the acupuncture point coordinates.

Wherein, the meridian model is a human body model containing human body meridian, acupuncture point information and human body characteristics; the human body model is also marked with the name of each human body part, such as the palm position and the foot position of the human body; the model can be downloaded from the Internet and can be constructed according to the professional knowledge of the traditional Chinese medicine.

Comparing the characteristic information of the target object with a preset meridian model, if the similarity between the target object and any human body part in the meridian model is greater than a preset value, identifying the type of the target object, namely identifying which part of the human body the target object belongs to, and simultaneously calling meridian and acupoint information distributed on the human body part in the meridian model; and mapping the positions of the acupuncture points in the meridian model on the human body model to corresponding grid points to determine the coordinate information of each acupuncture point on the target object.

In order to improve the identification accuracy, the type of the target object can be input in a manual input mode by a user, the shape of the target object is identified by the system in the contact area mode, then the shape of the target object presented on the grid points is optimized according to the manually input type information, and then the acupuncture points and the distribution condition of the meridians on the target object are quickly positioned according to the meridian model.

After the coordinates of the acupuncture points of the target object are determined, the induction head of the detection module can be used for executing a plurality of groups of sensing operations on the acupuncture points; the group of sensing operations are that at least two acupuncture points of a meridian are stimulated simultaneously, and the stimulation is stopped until each meridian in the target object is subjected to the group of sensing operations.

Wherein, the stimulation mode in the sensing operation can be micro-current stimulation, thermal stimulation or pressing stimulation; the stimulation current values of a plurality of acupuncture points which need to be simultaneously stimulated are the same, the thermal stimulation temperatures are the same, and the pressing force degrees are the same in the stimulation process, and a user is reminded to make corresponding feedback aiming at each stimulation in the stimulation process.

The reminding feedback function can be realized by a display module on the self-checking device, the display module can display the appearance shape of the target object presented by the grid points through a display screen, and a virtual model with the same type as the target object can be called for display; the display size of the target object can be in one-to-one display proportion with the real object.

After recognizing the acupuncture point coordinates of the target object, the central control module marks and displays the acupuncture point coordinates; when the sensing operation is performed once each time, the acupuncture points which are being stimulated are marked and displayed in a display screen in a key mode, so that a user can know the positions of the acupuncture points of the human body and the positions of the sensing operation conveniently; meanwhile, the central control module can also generate corresponding feedback reminders for the acupuncture points being stimulated and display the feedback reminders on a display screen, for example, as shown in fig. 4, a feedback window pops up beside the acupuncture points being stimulated in the display process, prompt contents of 'please select the perception sequence of the acupuncture points according to personal perception' are displayed in the feedback window, and a user can select which acupuncture point senses stimulation first and which acupuncture point senses stimulation at latest in the stimulation process of the acupuncture points in the window; the user can also click a plurality of acupuncture points which are stimulating in the display screen in sequence according to the sensing sequence, and the central control module determines the sensing sequence according to the user clicking sequence. Meanwhile, the feedback window also has prompting content of perception intensity, so that the user can select which acupuncture point has the strongest stimulation pain feeling and which acupuncture point has the weakest stimulation pain feeling.

Meanwhile, the stimulation in the sensing operation can be performed in a gradually increasing manner, that is, the current value, the heat or the pressing degree is relatively small when the stimulation is started, and the stimulation degree can be gradually increased along with the increase of time, so that a user can find the acupuncture points with delayed sensing in the stimulation process. It should be noted that the increase in stimulation level needs to be maintained within a safe range to avoid injury to the body tissue during stimulation.

In addition, the content displayed by the display screen can also be sent to a specified user terminal through a communication module of the self-checking device, the user terminal can display the same content as that on the display screen of the self-checking device, and a user can also perform perception feedback through the user terminal.

Step S5: receiving the perception feedback information corresponding to each group of perception operations to calculate the perception value of the corresponding acupuncture point, calculating the state of the acupuncture point/meridian according to the perception value, and outputting the corresponding constitution result.

When each group of sensing operation is executed, the central control membrane group records and stores sensing feedback information made by the user, and the body constitution results are analyzed according to the sensing feedback information.

Matching each acupoint with a corresponding base number value in advance, and when the self-checking device is initialized, the base number value of each acupoint is restored to be 0; and the central control module calls the perception feedback information corresponding to each group of perception operation and adjusts the perception feedback information according to the perception sequence and the perception intensity of a plurality of acupuncture points which are simultaneously stimulated as the base number value of the corresponding acupuncture points. Specifically, the method comprises the following steps: when a plurality of acupuncture points are being stimulated, if the base number value of the acupuncture point which is the most front in the sensing sequence is added by one, the base number value of the acupuncture point which is the most back in the sensing sequence is subtracted by one; and reducing the base number of the acupuncture point with the strongest sensing intensity by one.

If the user can not distinguish the perception sequence or the perception intensity, the user can also choose to skip in the display screen, and the acupuncture point base number value can not be adjusted at the moment, and the user directly enters the next group of perception operation.

After the sensing operation of the preset rule is finished, the central control module counts the base number value of each acupoint, outputs the base number value corresponding to each acupoint as a sensing value, and if the sensing value of one acupoint is lower, the sensing of the acupoint is relatively slow, and the pain of the acupoint is considered to be more obvious, which means that the acupoint is possibly in a blocked state. In the human body channels and collaterals, different acupuncture points respectively correspond to different body part functions, and if any acupuncture point is detected to be blocked and can directly reflect an affected part of the body, a self-checking result that the body part suffers from pain can be directly generated.

Because the parts of the human body, such as the palm, the sole and the like, also comprise the reflecting areas of the meridians and collaterals, if the acupuncture points in the reflecting areas are detected in the detection process and the perception values of the acupuncture points in the reflecting areas are lower than the preset threshold value, the reflecting areas are blocked, the parts of the human body corresponding to the reflecting areas possibly have pain, and the self-checking result of the diseases of the parts of the human body can also be generated.

The meridians of the human body may be distributed throughout the body, i.e. a plurality of points are connected to form complete meridians; at the moment, whether the perception value of each acupuncture point in a meridian of the target object is lower than a preset threshold value or not can be judged, if the number of the acupuncture points with the perception value lower than the preset threshold value in the meridian exceeds a preset number, a weak body area is determined according to the meridian to which the acupuncture point with the abnormal perception value belongs, and a corresponding self-checking result can be output.

The self-checking result can be displayed by using a display module on the self-checking device and also can be pushed to a user terminal through a wireless network for a user to check. The self-checking result records a grid point filling image of the target object obtained by the identification of the detection module, and the type, the size and the key point position of the target object are obtained according to the image analysis; and displaying each detected result to improve the feasibility of the detection result. In addition, the self-checking result also records the perception value detected by each acupuncture point, and the acupuncture point with low perception value and the affected part of the body corresponding to the acupuncture point with low perception degree are marked by the repeated points. The self-checking result can be presented in an interactive mode, namely, a user clicks an acupuncture point with a low perception value through a display touch screen, the central control module calls a preset human body model animation according to a body area corresponding to the acupuncture point, the position of the acupuncture point and a human body part corresponding to the acupuncture point are displayed through the human body model animation, and the display mode of the animation replaces ancient board characters in the traditional Chinese medicine explanation, so that the user can better know the body condition.

Meanwhile, when the result is displayed, a database can be called, a conditioning scheme corresponding to the body region which does not pass through is prestored in the database, and the conditioning scheme can be stored in the database in a video, text or voice mode; the conditioning scheme corresponding to the weak area of the user is found out from the database, and the corresponding conditioning scheme is synchronously pushed to the user in a video, text or voice mode when the physique result is output, so that the user can know the subsequent health preserving method needing attention.

In some embodiments, the self-test device may achieve therapeutic or palliative effects in addition to body quality monitoring purposes; specifically, the conditioning scheme corresponding to the weak body area recorded in the database can be adjusted, and the therapeutic acupuncture point extraction can be performed on the conditioning scheme displayed in the form of video, characters or voice, namely, the acupuncture point name to be massaged mentioned in the conditioning video/voice is extracted through a voice analysis method, or the acupuncture point name to be massaged in the conditioning scheme in the form of characters is extracted through a character extraction method; and then judging whether the acupuncture point coordinates corresponding to the acupuncture point names are in the target object, if the target object is the palm of the user and the massage acupuncture points are also positioned in the palm, finding out the corresponding grid points according to the coordinates of the massage acupuncture points on the target object, and controlling the induction heads corresponding to the grid points to perform electric stimulation, thermal stimulation or pressing stimulation operation on the acupuncture points needing to be massaged, so that the user can continuously realize the purpose of acupuncture point treatment under the state that the palm posture is unchanged.

If the acupuncture points needing to be massaged are not in the target object, the central control module can still extract the acupuncture point names, informs the user of the positions of the acupuncture points on the body in an animation mode, and prompts the user to place a self-checking device or an external electric stimulation device at the corresponding positions of the body so as to perform stimulation treatment on the acupuncture points.

In the above embodiment, the single-side palm or the single-side sole of the user is placed in the detection module of the self-checking device, so as to achieve the purpose of self-checking the body quality of the user.

In some embodiments, the user can be prompted to place the palms of the hands and the hands together in the detection module, or the detection module is divided into two self-detection units, the structure of each self-detection unit is the same as that of the detection module, the user places the hands or the feet in the two self-detection units respectively, the positions of the acupuncture points on the hands or the feet are identified in a manner of acquiring a current value and calculating a contact area, the acupuncture points on the hands or the feet are stimulated simultaneously to realize simultaneous detection of the hands or the feet, and a more complete body quality detection result can be obtained.

In some embodiments, the self-test mode may also be applied to the conventional knowhousness measuring method, in which two self-test units of the self-test device respectively perform thermal stimulation on twelve wellholes on both hands, and the body imbalance state of the user is analyzed according to the sensing time fed back by the user, so as to know the body pain. Since the conventional known thermal photometry is an existing measuring method, it is not described in detail.

Because both hands of the user are in the detection state, the user perception feedback mode can be carried out through voice, only the radio module is arranged on the self-checking device, when the user needs to make perception feedback, the radio module is triggered to be started, the user describes the perception sequence and the perception intensity through the voice mode, the central control module identifies the voice and adjusts the perception value of the acupuncture point according to the voice content after extracting the content, and therefore a corresponding self-checking result is generated.

Example two

The embodiment provides a physique detection system based on a perception test, as shown in fig. 5, which includes a detection module, a central control module and a display module, wherein the central control module includes a processor, a memory and a computer program stored in the memory and capable of running on the processor, and the processor implements the physique detection method based on the perception test in the first embodiment when executing the computer program.

In some embodiments, there is also provided a computer readable storage medium having stored thereon a computer program which, when executed, implements the above-described fitness detection method based on a sensory test.

The system and the storage medium in this embodiment are based on two aspects of the same inventive concept, and the method implementation process has been described in detail in the foregoing, so that those skilled in the art can clearly understand the structure and implementation process of the system and the storage medium in this embodiment according to the foregoing description, and for the sake of brevity of the description, details are not repeated here.

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention should not be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are intended to be covered by the claims.

Claims

1. A physique detection method based on perception test is characterized in that the physique detection method is applied to a self-detection device comprising a plurality of induction heads; the method comprises the following steps:

2. The physical fitness detection method based on the sensory test of claim 1, wherein a plurality of induction heads on the self-inspection device are arranged in a staggered manner, and each induction head calculates the contact area by detecting the current value when the induction head is in contact with a target object.

3. The method for detecting body constitution based on perception test according to claim 1, wherein the method for integrating the contact areas of all induction heads comprises:

4. The method of claim 3, wherein when the grid points are partially filled, the filling area of the grid points is determined by the contact area, and the filling position is determined by the grid points whose periphery is completely filled.

5. The method for detecting body constitution based on perception test according to claim 1, wherein one group of said perception operations is to perform electrical stimulation, thermal stimulation or pressing stimulation to at least two induction heads at the same time to the same extent; and displaying and feeding back the stimulated acupuncture point positions each time one group of the sensing operations are executed.

6. The method for detecting body constitution based on perception test as claimed in claim 1, wherein the perception feedback information includes perception precedence order and perception intensity of a plurality of acupuncture points stimulated simultaneously.

7. The physical fitness detection method based on the perception test according to claim 6, wherein the method for calculating the perception values of the acupuncture points comprises:

adjusting the basic number values of the corresponding acupuncture points according to the sensing sequence and the sensing strength of the plurality of acupuncture points which are simultaneously stimulated, namely adding one to the basic number value of the acupuncture point which is the most front in the sensing sequence and subtracting one from the basic number value of the acupuncture point which is the most rear in the sensing sequence; reducing the base number value of the acupuncture point with the strongest sensing intensity by one;

8. The method for detecting body constitution based on perception test according to claim 7, wherein the method for calculating the state of acupoints/meridians according to the perception values comprises:

judging whether the perception value of each acupuncture point in a meridian of the target object is lower than a preset threshold value, and if the number of the acupuncture points with the perception values lower than the preset threshold value in the meridian exceeds the preset number, determining a weak area according to the meridian to which the acupuncture point with the abnormal perception value belongs to output a corresponding physique result.

9. The method for detecting constitutions based on perceptual testing of claim 1, further comprising:

calling a conditioning scheme corresponding to the weak area recorded in the database, and synchronously pushing the corresponding conditioning scheme when outputting a physical result; or the like, or, alternatively,

10. A physique detection system based on perception test, which is characterized by comprising a detection module, a central control module and a display module, wherein the central control module executes the physique detection method based on perception test according to any one of claims 1-9.