CN114916935A - Posture analysis auxiliary correction system based on correction process of correction personnel - Google Patents

Abstract

The invention provides an auxiliary correction system based on posture analysis of the correction process of correction personnel, and relates to the technical field of correction analysis. The auxiliary correction system includes a posture information acquisition subsystem and an information analysis subsystem, and the posture information acquisition subsystem and information The analysis subsystem is connected by wireless communication; the posture information acquisition subsystem includes a physical sign acquisition module, an attitude acquisition module and an auxiliary module, and the physical sign acquisition module is used to collect the biological sign information of the correction personnel; the attitude acquisition module is used to collect corrections. The posture information of the personnel; the auxiliary module is used to generate the stimulation signal and output it to the correction personnel; the information analysis subsystem includes a physical sign analysis module, a posture analysis module and a comprehensive analysis module; the present invention can assist the community personnel to carry out the posture analysis of the correction personnel The characteristics are monitored and analyzed to solve the problem that the existing correction process has a single analysis method and insufficient evaluation of the correction results.

Description

An auxiliary correction system based on posture analysis of correction personnel's correction process

technical field

The present invention relates to the technical field of correction analysis, in particular to an auxiliary correction system based on posture analysis of correction personnel's correction process.

Background technique

The concept of "correction" has been introduced into the social field and has become a special term in the judicial field, which means that the state judicial organs and staff use various measures and means to make criminals or offenders with criminal tendencies to obtain ideological, psychological and behavioral benefits. The process of reintegrating into the society and becoming a normal member of it. In the existing community correction process, through the collection and input of information, real-time positioning, real-time information interaction, personnel-related education and assessment, personnel leave approval, and archives. Management and other related businesses realize the management of community corrections personnel, realize the intelligent management of community corrections, and improve the humanization of community corrections work and the efficiency of management work.

However, in the existing technology, the correction process of correction personnel is usually judged according to the experience of community personnel, but such correction method is not so simple for novice or personnel who have just engaged in correction work. During the correction process, there will be a lot of misjudgment and misjudgment of the details of the body characteristics of the correction personnel, and there is a certain deviation in the presentation of the final correction result. Therefore, in the existing community correction process, there is a lack of a method that can assist the community. The method for the personnel to monitor and analyze the posture of the correction personnel.

SUMMARY OF THE INVENTION

In view of the deficiencies in the prior art, the purpose of the present invention is to provide an auxiliary correction system based on the posture analysis of the correction personnel's correction process, which can assist the community personnel to monitor and analyze the posture characteristics of the correction personnel, so as to solve the problem of the existing correction process. The method of analysis is single, and there is a problem of insufficient evaluation of the correction results.

In order to achieve the above object, the present invention is achieved by the following technical solutions: an auxiliary correction system based on posture analysis of the correction process of the correction personnel, the auxiliary correction system includes a posture information acquisition subsystem and an information analysis subsystem, the The posture information acquisition subsystem and the information analysis subsystem are connected by wireless communication;

The body posture information collection subsystem includes a body sign collection module, an attitude collection module and an auxiliary module, the body sign collection module is used to collect the biological sign information of the rectifier; the attitude collection module is used to collect the attitude information of the rectifier; the The auxiliary module is used to generate stimulation signals and output them to correction personnel;

The information analysis subsystem includes a physical sign analysis module, an attitude analysis module and a comprehensive analysis module; the physical sign analysis module is used to analyze the collected sign information; the attitude analysis module is used to analyze the collected attitude information. ; The comprehensive analysis module is used to comprehensively analyze the analysis results of the physical sign analysis module and the posture analysis module.

As a further technical solution, the physical sign collection module includes a heart rate collection unit, a body temperature collection unit, a respiratory rate collection unit, a blood pressure collection unit, and a galvanic skin frequency collection unit, and the heart rate collection unit is used to collect the heart rate value of the correction personnel, so The body temperature collection unit is used to collect the body temperature value of the rectifier, the respiratory frequency collection unit is used to collect the respiration frequency of the rectifier, the blood pressure collection unit is used to collect the high blood pressure value and the low blood pressure value of the rectifier, and the skin The electrical frequency acquisition unit is used to collect the electrical skin frequency of the correction personnel;

The posture acquisition module includes a pedometer unit and a pupil change acquisition unit, the pedometer unit is used to collect the number of movement steps of the correction personnel, and the pupil change acquisition unit is used to collect the pupil change data of the user.

As a further technical solution, the pupil change collection unit is configured with a pupil change collection strategy, the pupil change collection strategy includes acquiring image data passing through the pupil, acquiring the area of the pupil from the image data, and covering the pupil with a minimum size As the reference circle of the pupil range, take the first pupil change time as a change period, obtain the radius of the reference circle at the starting point and the end point of the first pupil change time, obtain the difference of the radius change of the reference circle, and change the The difference is set as the pupil variation coefficient.

As a further technical solution, the sign analysis module is configured with a sign information analysis strategy, and the sign information analysis strategy includes: substituting heart rate value, body temperature value, respiratory rate, high blood pressure value and low blood pressure value into the basic sign monitoring formula Obtain the physical sign monitoring coefficient;

When the sign monitoring coefficient is greater than or equal to the first basic sign threshold, the auxiliary module outputs the stimulation signal, and then substitutes the sign monitoring coefficient and electrical skin frequency before and after the auxiliary module outputs the stimulation signal into the sign stimulation monitoring formula to obtain the sign stimulus response coefficient;

When the physical sign stimulus response coefficient is greater than or equal to the first physical sign stimulus response threshold, output a high correction physical sign stimulus signal; when the physical sign stimulus response coefficient is greater than or equal to the second physical sign stimulus response threshold and less than the first physical sign stimulus response threshold, output a medium correction Sign stimulation signal; when the sign stimulation response coefficient is less than the second sign stimulation response threshold, output a low-correction sign stimulation signal.

As a further technical solution, the basic sign monitoring formula is configured as:

；所述体征刺激监测公式配置为：

；其中，Xtz为体征监测系数，Lx为心率值，L1为心率参考值，Tw为体温值，T1为体温参考值，Wh为呼吸频率，W1为呼吸频率参考值，Pg为血压高值，Pd为血压低值，P1为血压综合参考值，a1为心率占比系数，a2为体温占比系数，a3为呼吸占比系数，a4为血压占比系数，Xtc为体征刺激反应系数，Xtz1和Xtz2分别为辅助模块输出刺激信号之前和之后的体征监测系数，Pp1和Pp2分别为辅助模块输出刺激信号之前和之后的皮肤电频率。

; The physical sign stimulation monitoring formula is configured as:

; where Xtz is the sign monitoring coefficient, Lx is the heart rate value, L1 is the heart rate reference value, Tw is the body temperature value, T1 is the body temperature reference value, Wh is the respiratory rate, W1 is the respiratory rate reference value, Pg is the high blood pressure value, Pd is the low blood pressure value, P1 is the comprehensive reference value of blood pressure, a1 is the ratio of heart rate, a2 is the ratio of body temperature, a3 is the ratio of breathing, a4 is the ratio of blood pressure, Xtc is the response coefficient of physical signs, Xtz1 and Xtz2 Pp1 and Pp2 are the electrical skin frequencies before and after the auxiliary module outputs the stimulation signal, respectively.

As a further technical solution, the attitude analysis module is configured with an attitude information analysis strategy, and the attitude information analysis strategy includes: substituting the number of motion steps into a basic attitude formula to obtain a basic attitude coefficient;

When the basic posture coefficient is greater than the first basic posture threshold, the auxiliary module outputs the stimulation signal, and then substitutes the pupil change coefficients before and after the auxiliary module outputs the stimulation signal into the posture stimulation monitoring formula to obtain the posture stimulation response coefficient, where The stimulation signal includes one or more of sound stimulation, flash stimulation and heating stimulation;

When the posture stimulus response coefficient is greater than or equal to the first posture stimulus response threshold, a high-correction posture stimulus signal is output; when the posture stimulus response coefficient is greater than or equal to the second posture stimulus response threshold and less than the first posture stimulus response threshold, the mid-correction posture stimulus is output signal; when the posture stimulus response coefficient is less than the second posture stimulus response threshold, output a low-correction posture stimulus signal.

；所述姿态刺激监测公式配置为：

；其中，Xzt为基础姿态系数，Bs为运动步数，B1为运动步数参考值，b1为运动步数转换系数，Xzc为姿态刺激反应系数，Kt1和Kt2分别为辅助模块输出刺激信号之前和之后的瞳孔变化系数。As a further technical solution, the basic attitude formula is configured as:

; The posture stimulus monitoring formula is configured as:

; Among them, Xzt is the basic attitude coefficient, Bs is the number of motion steps, B1 is the reference value of the number of motion steps, b1 is the conversion coefficient of the number of motion steps, Xzc is the attitude stimulus response coefficient, Kt1 and Kt2 are respectively before the auxiliary module outputs the stimulus signal and The coefficient of pupil variation after that.

As a further technical solution, the comprehensive analysis module is configured with a comprehensive analysis strategy, and the comprehensive analysis strategy includes: acquiring the physical sign stimulation response coefficient, the basic posture coefficient and the posture stimulation response coefficient every first comprehensive monitoring time interval, and obtaining the The obtained physical sign stimulus response coefficient, basic posture coefficient and posture stimulus response coefficient of the first comprehensive monitoring quantity are substituted into the comprehensive monitoring formula to obtain the comprehensive correction coefficient;

When the comprehensive correction coefficient is greater than or equal to the first comprehensive correction threshold, the comprehensive high correction signal is output; when the comprehensive correction coefficient is greater than or equal to the second comprehensive correction threshold and less than the first comprehensive correction threshold, the comprehensive correction signal is output; when the comprehensive correction coefficient is less than When the second comprehensive correction threshold is reached, a comprehensive low correction signal is output.

As a further technical solution, the comprehensive monitoring formula is configured as:

；其中，Xtc1至Xtcn分别为第一综合监测数量的体征刺激反应系数，Xzt1至Xztn分别为第一综合监测数量的基础姿态系数，Xzc1至Xzcn分别为第一综合监测数量的姿态刺激反应系数，Xtca为第一综合监测数量的体征刺激反应系数的平均数，Xzta为第一综合监测数量的基础姿态系数的平均数，Xzca为第一综合监测数量的姿态刺激反应系数的平均数。

; wherein, Xtc1 to Xtcn are the physical sign stimulus response coefficients of the first comprehensive monitoring quantity, respectively, Xzt1 to Xztn are the basic attitude coefficients of the first comprehensive monitoring quantity, respectively, Xzc1 to Xzcn are the attitude stimulus response coefficients of the first comprehensive monitoring quantity, respectively, Xtca is the average of the physical sign stimulus response coefficients of the first comprehensive monitoring quantity, Xzta is the average of the basic attitude coefficients of the first comprehensive monitoring quantity, and Xzca is the average of the posture stimulus response coefficients of the first comprehensive monitoring quantity.

Beneficial effects of the present invention: the present invention can collect the biological sign information and posture information of the correction personnel through the posture information acquisition subsystem; and can generate stimulation signals and output them to the correction personnel through the auxiliary module, and the design can be used for the correction personnel after being stimulated. The physiological condition of the rectifier is monitored, so as to improve the evaluation of the correction status of the correction personnel, and then the collected biological sign information and attitude information are analyzed through the information analysis subsystem, and finally the sign analysis module and attitude can be analyzed through the comprehensive analysis module. The analysis results of the module are comprehensively analyzed, so as to improve the comprehensiveness of the evaluation of the correction results of the correction personnel, thereby improving the validity and accuracy of the evaluation.

Advantages of additional aspects of the present invention will be set forth in part in the following description of the detailed description, and in part will be apparent from the following description, or may be learned by practice of the invention.

Description of drawings

Other features, objects and advantages of the present invention will become more apparent by reading the detailed description of non-limiting embodiments with reference to the following drawings:

Fig. 1 is the principle block diagram of the auxiliary correction system of the present invention;

Fig. 2 is the module principle block diagram of the posture information acquisition subsystem and the information analysis subsystem of the present invention;

Fig. 3 is the principle block diagram of the vital sign collection module of the present invention;

FIG. 4 is an attitude acquisition module of the present invention.

In the figure: 1. Auxiliary correction system; 11. Postural information collection subsystem; 111. Physical sign collection module; 1111, Heart rate collection unit; 1112, Body temperature collection unit; 1113, Respiratory frequency collection unit; Electrodermal frequency acquisition unit; 112, posture acquisition module; 1121, pupil change acquisition unit; 1122, pedometer unit; 113, auxiliary module; 12, information analysis subsystem; 121, physical sign analysis module; 122, posture analysis module; 123 , Comprehensive analysis module.

Detailed ways

It should be noted that the following detailed description is exemplary and intended to provide further explanation of the invention. Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It should be noted that the terminology used herein is for the purpose of describing specific embodiments only, and is not intended to limit the exemplary embodiments according to the present invention.

Embodiments of the invention and features of the embodiments may be combined with each other without conflict.

Example 1

Please refer to FIG. 1 and FIG. 2, the present invention provides an auxiliary correction system based on the posture analysis of the correction personnel's correction process, which can assist the community personnel to monitor and analyze the posture characteristics of the correction personnel, so as to solve the problems in the existing correction process. The analysis method is single, and there is a problem of insufficient evaluation of the correction results.

The auxiliary correction system 1 includes a posture information acquisition subsystem 11 and an information analysis subsystem 12, and the posture information acquisition subsystem 11 is connected with the information analysis subsystem 12 in wireless communication.

Referring to FIG. 3 , the posture information acquisition subsystem 11 includes a physical sign acquisition module 111, a posture acquisition module 112, and an auxiliary module 113, and the auxiliary module 113 is used to generate stimulation signals and output them to the correction personnel; the physical signs acquisition The module 111 is used to collect the biological sign information of the correction personnel; the sign collection module 111 includes a heart rate collection unit 1111, a body temperature collection unit 1112, a breathing frequency collection unit 1113, a blood pressure collection unit 1114 and a skin galvanic frequency collection unit 1115. The collection unit 1111 is used to collect the heart rate value of the rectifier, the body temperature collection unit 1112 is used to collect the body temperature value of the rectifier, the breathing frequency collection unit 1113 is used to collect the respiration frequency of the rectifier, and the blood pressure collection unit 1114 is used for In order to collect the high blood pressure value and the low blood pressure value of the correction personnel, the electrical skin frequency acquisition unit 1115 is used to collect the electrical skin frequency of the correction personnel. Under normal circumstances, a person's body temperature, heart rate, respiratory rate and blood pressure can greatly reflect the state of the body. Combined with the monitoring of changes in electrical skin frequency, the physiological characteristics of the person can be corrected under the correction instructions of community assessors or trainers. Make good judgments, thereby greatly improving the accuracy of the process evaluation of correction training.

The information analysis subsystem 12 includes a sign analysis module 121; the sign analysis module 121 is used to analyze the collected sign information; the sign analysis module 121 is configured with a sign information analysis strategy, and the sign information analysis strategy includes Follow the steps below:

Step S11: Substitute the heart rate value, body temperature value, respiratory rate, high blood pressure value and low blood pressure value into the basic monitoring formula of signs to obtain the monitoring coefficient of signs;

In step S11, the basic sign monitoring formula is configured as:

；其中，Xtz为体征监测系数，Lx为心率值，L1为心率参考值，具体L1设定范围为65-85之间，Tw为体温值，T1为体温参考值，具体T1的设定范围在36.5-37.5之间，Wh为呼吸频率，W1为呼吸频率参考值，具体W1的设定范围在12-20/min，Pg为血压高值，Pd为血压低值，P1为血压综合参考值，具体P1参照高低压的总值设定，范围设定为180-220之间，a1为心率占比系数，a2为体温占比系数，a3为呼吸占比系数，a4为血压占比系数，其中，a1、a2、a3和a4分别根据实际情况下该矫正人员的身体变化在心率、体温、呼吸频率以及血压上的占比来设定。

; Among them, Xtz is the physical sign monitoring coefficient, Lx is the heart rate value, L1 is the heart rate reference value, the specific setting range of L1 is between 65-85, Tw is the body temperature value, T1 is the body temperature reference value, and the specific setting range of T1 is in Between 36.5-37.5, Wh is the respiratory rate, W1 is the reference value of the respiratory rate, the specific setting range of W1 is 12-20/min, Pg is the high blood pressure value, Pd is the low blood pressure value, P1 is the comprehensive reference value of blood pressure, The specific P1 is set with reference to the total value of high and low pressure. , a1, a2, a3 and a4 are respectively set according to the proportion of the body change of the correcting person in the heart rate, body temperature, respiratory rate and blood pressure under the actual situation.

Step S12, when the physical sign monitoring coefficient is greater than or equal to the first basic physical sign threshold, output the stimulation signal through the auxiliary module 113, and then substitute the physical sign monitoring coefficient and electrical skin frequency before and after the auxiliary module 113 outputs the stimulation signal into the physical sign stimulation monitoring. The physical sign stimulus response coefficient is obtained in the formula;

；Xtc为体征刺激反应系数，Xtz1和Xtz2分别为辅助模块113输出刺激信号之前和之后的体征监测系数，Pp1和Pp2分别为辅助模块113输出刺激信号之前和之后的皮肤电频率。In step S12, the stimulation signal includes one or more of sound stimulation, flash stimulation and heating stimulation, the temperature provided by the heating stimulation is between 30-40 degrees Celsius, which will not cause harm to the human body, and sound is preferably used. The combination of stimulation and flash stimulation, or the combination of sound stimulation, flash stimulation and heating stimulation, the physical sign stimulation monitoring formula is configured as:

Xtc is the sign stimulus response coefficient, Xtz1 and Xtz2 are the sign monitoring coefficients before and after the auxiliary module 113 outputs the stimulation signal, respectively, Pp1 and Pp2 are the electrical skin frequencies before and after the auxiliary module 113 outputs the stimulation signal, respectively.

Step S13, when the physical sign stimulation response coefficient is greater than or equal to the first physical sign stimulation response threshold, output a high-correction physical sign stimulation signal; when the physical sign stimulation response coefficient is greater than or equal to the second physical sign stimulation response threshold and less than the first physical sign stimulation response threshold, Output the medium-corrected physical sign stimulation signal; when the physical sign stimulation response coefficient is smaller than the second physical sign stimulation response threshold, output the low-corrected physical sign stimulation signal.

In step S13, the response change of the correction personnel with the high correction sign stimulation signal is stronger than that of the correction person with the medium correction sign stimulation signal, and the response change of the correction person with the medium correction sign stimulation signal is stronger than that of the correction person with the low correction sign stimulation signal The person's response changes, and the stimulus response threshold of the first sign is greater than the stimulus response threshold of the second sign.

Embodiment 2

The second embodiment mainly analyzes the posture information of the correction personnel. Specifically, the posture information acquisition subsystem 11 includes a posture acquisition module 112 and an auxiliary module 113, and the auxiliary module 113 is used to generate stimulation signals and output them to the correction personnel. .

The posture information acquisition subsystem 11 includes a posture acquisition module 112 and an auxiliary module 113, the auxiliary module 113 is used to generate stimulation signals and output them to the correction personnel; the attitude acquisition module 112 is used to collect the attitude information of the correction personnel; please Referring to FIG. 4 , the posture acquisition module 112 includes a pedometer unit 1122 and a pupil change acquisition unit 1121, the pedometer unit 1122 is used to collect the number of movement steps of the correction personnel, and the pupil change acquisition unit 1121 is used to collect User's pupil change data. The pupil change collection unit 1121 is configured with a pupil change collection strategy, and the pupil change collection strategy includes the following steps:

Step A1, obtain the image data passing through the pupil, obtain the area of the pupil from the image data, and use a minimum circle that can cover the pupil as the reference circle of the pupil range;

Step A2, take the first pupil change time as a change cycle again, obtain the radius of the reference circle at the starting point and the end point of the first pupil change time;

Step A3: Obtain the radius variation difference value of the reference circle, and set the variation difference value as the pupil variation coefficient.

In steps A1 , A2 and A3 , monitoring the number of steps of an orthodontist can greatly reflect the daily activity state of the orthodontist, so that the exercise amount of the orthodontist can be well evaluated.

The information analysis subsystem 12 includes an attitude analysis module 122, and the attitude analysis module 122 is used to analyze the collected attitude information; the attitude analysis module 122 is configured with an attitude information analysis strategy, and the attitude information analysis strategy includes: Follow the steps below:

Step S21, substituting the number of motion steps into the basic posture formula to obtain the basic posture coefficient;

；其中，Xzt为基础姿态系数，Bs为运动步数，B1为运动步数参考值，b1为运动步数转换系数。其中，B1根据一天的时间线设定，具体的设定范围在3000-10000之间，b1的设定大于零。In step S21, the basic attitude formula is configured as:

; Among them, Xzt is the basic attitude coefficient, Bs is the number of motion steps, B1 is the reference value of the number of motion steps, and b1 is the conversion coefficient of the number of motion steps. Among them, B1 is set according to the time line of one day, the specific setting range is between 3000-10000, and the setting of b1 is greater than zero.

Step S22, when the basic posture coefficient is greater than the first basic posture threshold, output the stimulation signal through the auxiliary module 113, and then substitute the pupil change coefficient before and after the auxiliary module 113 outputs the stimulation signal into the posture stimulation monitoring formula to obtain the posture. stimulus response coefficient;

；Xzc为姿态刺激反应系数，Kt1和Kt2分别为辅助模块113输出刺激信号之前和之后的瞳孔变化系数，其中刺激信号包括声音刺激、闪光刺激以及升温刺激中的一种或多种，升温刺激所提供的温度在30-40摄氏度之间，不会对人体产生危害，优选采用声音刺激和闪光刺激两种结合的刺激方式，或者采用声音刺激、闪光刺激以及升温刺激三种结合的方式进行；In step S22, the posture stimulus monitoring formula is configured as:

Xzc is the posture stimulus response coefficient, Kt1 and Kt2 are the pupil change coefficients before and after the auxiliary module 113 outputs the stimulus signal, respectively, wherein the stimulus signal includes one or more of sound stimulation, flash stimulation and heating stimulation, and the heating stimulation The temperature provided is between 30-40 degrees Celsius, which will not cause harm to the human body. It is preferable to use a combination of sound stimulation and flash stimulation, or use three combined methods of sound stimulation, flash stimulation and heating stimulation;

Step S23, when the posture stimulation response coefficient is greater than or equal to the first posture stimulation response threshold, output a high-correction posture stimulation signal; when the posture stimulation response coefficient is greater than or equal to the second posture stimulation response threshold and less than the first posture stimulation response threshold, the output is in the middle. Correcting the posture stimulation signal; when the posture stimulation response coefficient is smaller than the second posture stimulation response threshold, output the low-correction posture stimulation signal.

In step S23, the first posture stimulus response threshold is greater than the second posture stimulus response threshold, the posture response change of the corrector with the high correction posture stimulation signal is stronger than the posture response change of the corrector with the medium correction posture stimulation signal, and the medium correction posture stimulation The change of the posture response of the corrector of the signal is stronger than the change of the posture of the corrector of the low correction posture stimulus signal.

Embodiment 3

The third embodiment provides a method for comprehensively analyzing the analysis results of the first and second embodiments. The specific technical solution is as follows: the information analysis subsystem 12 includes a comprehensive analysis module 123, and the comprehensive analysis module 123 is used for Comprehensive analysis is performed on the analysis results of the physical sign analysis module 121 and the posture analysis module 122 . The comprehensive analysis module 123 is configured with a comprehensive analysis strategy, and the comprehensive analysis strategy includes the following steps:

Step S31, obtaining the physical sign stimulation response coefficient, the basic posture coefficient and the posture stimulation response coefficient every interval of the first comprehensive monitoring time, and the obtained first comprehensive monitoring quantity of the physical stimulation response coefficient, the basic posture coefficient and the posture stimulation response coefficient. Substitute it into the comprehensive monitoring formula to obtain the comprehensive correction coefficient;

In step S31, the comprehensive monitoring formula is configured as:

；其中，Xtc1至Xtcn分别为第一综合监测数量的体征刺激反应系数，Xzt1至Xztn分别为第一综合监测数量的基础姿态系数，Xzc1至Xzcn分别为第一综合监测数量的姿态刺激反应系数，Xtca为第一综合监测数量的体征刺激反应系数的平均数，Xzta为第一综合监测数量的基础姿态系数的平均数，Xzca为第一综合监测数量的姿态刺激反应系数的平均数；其中刺激信号包括声音刺激、闪光刺激以及升温刺激中的一种或多种，升温刺激所提供的温度在30-40摄氏度之间，不会对人体产生危害，优选采用声音刺激和闪光刺激两种结合的刺激方式，或者采用声音刺激、闪光刺激以及升温刺激三种结合的方式进行；

; wherein, Xtc1 to Xtcn are the physical sign stimulus response coefficients of the first comprehensive monitoring quantity, respectively, Xzt1 to Xztn are the basic attitude coefficients of the first comprehensive monitoring quantity, respectively, Xzc1 to Xzcn are the attitude stimulus response coefficients of the first comprehensive monitoring quantity, respectively, Xtca is the average of the physical sign stimulus response coefficients of the first comprehensive monitoring quantity, Xzta is the average of the basic posture coefficients of the first comprehensive monitoring quantity, and Xzca is the average of the posture stimulus response coefficients of the first comprehensive monitoring quantity; Including one or more of sound stimulation, flash stimulation and heating stimulation, the temperature provided by heating stimulation is between 30-40 degrees Celsius, which will not cause harm to the human body. It is preferred to use a combination of sound stimulation and flash stimulation. method, or a combination of sound stimulation, flash stimulation and heating stimulation;

Step S32, when the comprehensive correction coefficient is greater than or equal to the first comprehensive correction threshold, output the comprehensive high correction signal; when the comprehensive correction coefficient is greater than or equal to the second comprehensive correction threshold and less than the first comprehensive correction threshold, output the comprehensive correction signal; When the correction coefficient is smaller than the second comprehensive correction threshold, a comprehensive low correction signal is output.

In step S32, the first comprehensive correction threshold value is greater than the second comprehensive correction threshold value, the response change of the correction personnel of the comprehensive high correction signal is stronger than the response change of the correction personnel of the correction signal in the synthesis, and the response change of the correction personnel of the correction signal in the synthesis Variation in the response of the corrector who is stronger than the synthetic low correction signal.

Working principle: First, the biometric information and posture information of the correction personnel can be collected through the posture information acquisition subsystem 11; and stimulation signals can be generated and output to the correction personnel through the auxiliary module 113, so as to be able to correct the physiological conditions of the correction personnel after being stimulated. Perform monitoring, and then analyze the collected biological sign information and attitude information through the information analysis subsystem 12, and finally through the comprehensive analysis module 123 can comprehensively analyze the analysis results of the physical sign analysis module 121 and the attitude analysis module 122. Thus, the comprehensiveness of the evaluation of the correction results of the correction personnel is improved.

Those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computer device, or alternatively, they can be implemented by a program code executable by the computing device, so that they can be stored in a storage device. The device is executed by a computing device, or they are separately fabricated into individual integrated circuit modules, or multiple modules or steps in them are fabricated into a single integrated circuit module for implementation. The present invention is not limited to any specific combination of hardware and software.

The above-mentioned embodiments are only specific implementations of the present invention, and are used to illustrate the technical solutions of the present invention, but not to limit them. Detailed description, those of ordinary skill in the art should understand: any person skilled in the art is within the technical scope disclosed by the present invention, and it can still modify the technical solutions recorded in the foregoing embodiments or can easily think of changes, Or equivalently replace some of the technical features; and these modifications, changes or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present invention, and should be included within the protection scope of the present invention. Therefore, the protection scope of the present invention should be based on the protection scope of the claims.

Claims (9)

1. an auxiliary correction system based on the posture analysis of the correction process of the correction personnel, it is characterized in that, described auxiliary correction system (1) comprises posture information acquisition subsystem (11) and information analysis subsystem (12), described posture The information acquisition subsystem (11) is wirelessly connected to the information analysis subsystem (12); The body posture information collection subsystem (11) includes a body sign collection module (111), a posture collection module (112), and an auxiliary module (113), and the body sign collection module (111) is used to collect the biological sign information of the correction personnel; The attitude acquisition module (112) is used to collect the attitude information of the correction personnel; the auxiliary module (113) is used to generate a stimulation signal and output it to the correction personnel; The information analysis subsystem (12) includes a physical sign analysis module (121), a posture analysis module (122) and a comprehensive analysis module (123); the physical sign analysis module (121) is used to analyze the collected sign information; The attitude analysis module (122) is used for analyzing the collected attitude information; the comprehensive analysis module (123) is used for comprehensively analyzing the analysis results of the physical sign analysis module (121) and the attitude analysis module (122). analyze; The posture collection module (112) includes a pupil change collection unit (1121), the pupil change collection unit (1121) is used to collect pupil change data of the user; the pupil change collection unit (1121) is configured with a pupil change collection strategy , the pupil change acquisition strategy includes acquiring image data passing through the pupil, acquiring the area of the pupil from the image data, and taking a minimum circle that can be covered by the pupil as the reference circle of the pupil range, and taking the first pupil change time as a In the change period, the radius of the reference circle at the start point and the end point of the first pupil change time is obtained, the radius change difference value of the reference circle is obtained, and the change difference value is set as the pupil change coefficient. 2. The auxiliary correction system based on the posture analysis of the correction process of the correction personnel according to claim 1, wherein the physical sign collection module (111) comprises a heart rate collection unit (1111), a body temperature collection unit (1112) , a respiratory rate acquisition unit (1113), a blood pressure acquisition unit (1114), and a galvanic skin frequency acquisition unit (1115), the heart rate acquisition unit (1111) is used to acquire the heart rate value of the correction personnel, and the body temperature acquisition unit (1112) It is used to collect the body temperature value of the correction personnel, the breathing frequency collection unit (1113) is used to collect the breathing frequency of the correction personnel, and the blood pressure collection unit (1114) is used to collect the high blood pressure value and the low blood pressure value of the correction personnel. The electrical skin frequency acquisition unit (1115) is used to collect the electrical skin frequency of the correction personnel. 3. A kind of auxiliary correction system based on the posture analysis of the correction process of correction personnel according to claim 1, is characterized in that, described posture acquisition module (112) comprises pedometer unit (1122), described pedometer unit ( 1122) is used to collect the movement steps of the correction personnel. 4. The auxiliary correction system based on the posture analysis of the correction process of the correction personnel according to any one of claims 2 or 3, wherein the physical sign analysis module (121) is configured with a physical sign information analysis strategy, and the Sign information analysis strategy includes: substituting heart rate value, body temperature value, respiratory rate, high blood pressure value and low blood pressure value into the basic sign monitoring formula to obtain the sign monitoring coefficient; When the sign monitoring coefficient is greater than or equal to the first basic sign threshold, the auxiliary module (113) outputs a stimulation signal, and then the sign monitoring coefficient and the electrical skin frequency before and after the auxiliary module (113) outputs the stimulation signal are substituted into the sign stimulation The sign stimulus response coefficient is obtained from the monitoring formula, wherein the stimulus signal includes one or more of sound stimulus, flash stimulus and heating stimulus; When the physical sign stimulus response coefficient is greater than or equal to the first physical sign stimulus response threshold, output a high correction physical sign stimulus signal; when the physical sign stimulus response coefficient is greater than or equal to the second physical sign stimulus response threshold and less than the first physical sign stimulus response threshold, output a medium correction Sign stimulation signal; when the sign stimulation response coefficient is less than the second sign stimulation response threshold, output a low-correction sign stimulation signal. 5. a kind of auxiliary correction system based on the posture analysis of correction personnel correction process according to claim 4, is characterized in that, described physical sign basic monitoring formula is configured as:

; The physical sign stimulation monitoring formula is configured as:

; where Xtz is the sign monitoring coefficient, Lx is the heart rate value, L1 is the heart rate reference value, Tw is the body temperature value, T1 is the body temperature reference value, Wh is the respiratory rate, W1 is the respiratory rate reference value, Pg is the high blood pressure value, Pd is the low blood pressure value, P1 is the comprehensive reference value of blood pressure, a1 is the ratio of heart rate, a2 is the ratio of body temperature, a3 is the ratio of breathing, a4 is the ratio of blood pressure, Xtc is the response coefficient of physical signs, Xtz1 and Xtz2 Pp1 and Pp2 are the electrical skin frequencies before and after the auxiliary module (113) outputs the stimulation signal, respectively. 6. a kind of auxiliary correction system based on the posture analysis of correcting personnel correction process according to claim 5, is characterized in that, described posture analysis module (122) is configured with posture information analysis strategy, and described posture information analysis strategy comprises : Substitute the number of motion steps into the basic posture formula to obtain the basic posture coefficient; When the basic posture coefficient is greater than the first basic posture threshold, the auxiliary module (113) outputs the stimulation signal, and then the pupil change coefficient before and after the auxiliary module (113) outputs the stimulation signal is substituted into the posture stimulation monitoring formula to obtain Postural stimulus response coefficient; When the posture stimulus response coefficient is greater than or equal to the first posture stimulus response threshold, a high-correction posture stimulus signal is output; when the posture stimulus response coefficient is greater than or equal to the second posture stimulus response threshold and less than the first posture stimulus response threshold, the mid-correction posture stimulus is output signal; when the posture stimulus response coefficient is less than the second posture stimulus response threshold, output a low-correction posture stimulus signal. 7. a kind of auxiliary correction system based on the posture analysis of correcting personnel correction process according to claim 6, is characterized in that, described basic posture formula is configured as:

; The posture stimulus monitoring formula is configured as:

; where Xzt is the basic attitude coefficient, Bs is the number of motion steps, B1 is the reference value of the motion steps, b1 is the conversion coefficient of the motion steps, Xzc is the attitude stimulus response coefficient, Kt1 and Kt2 are the output stimulus of the auxiliary module (113) respectively The coefficient of pupil variation before and after the signal. 8. a kind of auxiliary correction system based on the posture analysis of correcting personnel correction process according to claim 7, is characterized in that, described comprehensive analysis module (123) is configured with comprehensive analysis strategy, and described comprehensive analysis strategy comprises: every Obtain the physical sign stimulus response coefficient, the basic posture coefficient and the posture stimulus response coefficient at intervals of the first comprehensive monitoring time, and substitute the acquired physical sign stimulation response coefficient, basic posture coefficient and posture stimulation response coefficient of the first comprehensive monitoring quantity into the comprehensive monitoring Calculate the comprehensive correction coefficient in the formula; When the comprehensive correction coefficient is greater than or equal to the first comprehensive correction threshold, the comprehensive high correction signal is output; when the comprehensive correction coefficient is greater than or equal to the second comprehensive correction threshold and less than the first comprehensive correction threshold, the comprehensive correction signal is output; when the comprehensive correction coefficient is less than When the second comprehensive correction threshold is reached, a comprehensive low correction signal is output. 9. a kind of auxiliary correction system based on the posture analysis of correction personnel correction process according to claim 8, is characterized in that, described comprehensive monitoring formula is configured as:

; wherein, Xtc1 to Xtcn are the physical sign stimulus response coefficients of the first comprehensive monitoring quantity, respectively, Xzt1 to Xztn are the basic attitude coefficients of the first comprehensive monitoring quantity, respectively, Xzc1 to Xzcn are the attitude stimulus response coefficients of the first comprehensive monitoring quantity, respectively, Xtca is the average of the physical sign stimulus response coefficients of the first comprehensive monitoring quantity, Xzta is the average of the basic attitude coefficients of the first comprehensive monitoring quantity, and Xzca is the average of the posture stimulus response coefficients of the first comprehensive monitoring quantity.

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