CN113222659A - Method and system for evaluating whole-layer anti-aging - Google Patents

Abstract

A method and a system for evaluating whole-layer anti-aging belong to the technical field of data analysis, and comprise the following steps: acquiring related information, wherein the related information comprises parameter comparison before and after full-layer anti-aging, user self evaluation, questionnaire survey and the like; step two: extracting characteristics; preprocessing related information to obtain multiple processing data, wherein the multiple processing data comprise a parameter contrast score difference value, a user evaluation score and a questionnaire survey score; step three: performing target function calculation on the multiple items of processing data to obtain an evaluation value; step four: and evaluating the effect of the whole-layer anti-aging according to the evaluation value, and sending the effect to a corresponding work account in a report form. The method and the system for evaluating the whole-layer anti-aging effect objectively and comprehensively evaluate the whole-layer anti-aging effect value, are beneficial to reducing the communication cost of buyers and sellers in the technical transaction process, effectively improve the experience of users and facilitate the users to effectively discriminate disordered medical and aesthetic technologies on the market.

Description

Method and system for evaluating whole-layer anti-aging

Technical Field

The invention belongs to the technical field of data analysis, and particularly relates to a method and a system for evaluating whole-layer anti-aging.

Background

For everyone, healthy and young skin is very important, even if the five sense organs are refined, if the skin is loose, wrinkles are transverse, the skin is dark and elastic, the face value is greatly reduced, and the anti-aging is a hot topic since ancient times, and especially along with the improvement of life, the anti-aging population is gradually popularized from a rich family to the whole people.

However, medical beauty in the market is numerous and complicated at present, and the technologies adopted among various stores are different from each other, but the specific effects are not directly and effectively known by the user.

Disclosure of Invention

The present invention is directed to a method and system for evaluating the whole layer anti-aging, so as to solve the problems mentioned in the background art.

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

a method for evaluating the whole-layer anti-aging performance comprises the following specific steps:

the method comprises the following steps: acquiring related information, wherein the related information comprises parameter comparison before and after full-layer anti-aging, user self evaluation, questionnaire survey and the like;

step two: extracting characteristics; preprocessing the related information to obtain multiple processed data including parameter contrast difference Q_{Are all made of}Acquiring a self-evaluation score E of the user and a questionnaire survey score W;

step three: performing target function calculation on the multiple items of processing data to obtain an evaluation value A;

step four: and evaluating the effect of the whole-layer anti-aging according to the evaluation value, and sending the effect to a corresponding work account in a report form.

Preferably, the specific steps of extracting the features in the step two are as follows:

s1: obtaining a parameter contrast differential value Q_{Are all made of}According to the following formula:

Q_{are all made of}＝(Q_T-Q_T-1)+…+(Q₂-Q₁)/T；

Wherein Q is₁The skin quality value before the whole layer of anti-aging is shown, and T represents the total time period after the whole layer of anti-aging;

s2: acquiring a user self-evaluation score E, selecting a certain score for each question in scores of 1-10 by the user by setting n question-answer questions, and finally acquiring the user self-evaluation score E according to the following formula:

M＝(x₁+x₂+…x_n)/n；

wherein n is 1,2,3 …; m represents an average;

s3: obtaining the questionnaire survey score W, wherein the calculation formula is as follows:

wherein λ represents a time reaction coefficient; μ represents a heat coefficient; b is_iIndicating the score given by the ith individual.

The specific content of the evaluation value obtained in the second step is as follows:

an objective function: a ═ α Q_{Are all made of}+βW+γE；

Wherein A represents evaluation value, alpha, beta and gamma are parameter factors, and Q_{Are all made of}The difference value of the front and rear parameters is compared, W is the questionnaire score, and E is the user self-evaluation score.

A system for evaluating whole-layer resistance to decay, comprising:

the detection module is used for detecting parameter data of the skin on the face of the user before and after the full-layer anti-aging;

the user response terminal is used for acquiring the evaluation data of the user;

the cloud master station is used for receiving the data uploaded by the detection module and the response terminal at the user position and obtaining processed data;

the evaluation module is used for receiving the processing data of the cloud master station and obtaining an evaluation value A;

and the display module is used for sending the evaluation value A to the work account in a report form in a visual form.

The system also comprises an offline module which is used for setting the form of offline questionnaire survey and acquiring evaluation data.

The user-place response terminal comprises a mobile terminal and a fixed terminal and is used for the user to browse and/or operate and/or change and/or receive the information generated by the evaluation system.

Compared with the prior art, the technical scheme has the following effects:

the method and the system for evaluating the whole-layer anti-aging effect objectively and comprehensively evaluate the whole-layer anti-aging effect value, are beneficial to reducing the communication cost of buyers and sellers in the technical transaction process, effectively improve the experience of users and facilitate the users to effectively discriminate disordered medical and aesthetic technologies on the market.

Drawings

FIG. 1 is a schematic diagram of the architecture of an evaluation system according to the present invention;

FIG. 2 is a block flow diagram of the evaluation method of the present invention.

In the figure: 100-a cloud master station; 101-a detection module; 102-a response terminal at a user; 103-an evaluation module; 104-display module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described below in detail and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments.

Example (b):

a system for evaluating whole-layer resistance to decay, as shown in fig. 1, comprising: the detection module 101 is used for detecting parameter data of the skin on the face of the user before and after the full-layer anti-aging; the user response terminal 102 is used for acquiring evaluation data of the user; the cloud master station 100 is used for receiving data uploaded by the detection module 101 and the response terminal 102 at the user position and obtaining processing data; the evaluation module 103 is configured to receive processing data of the cloud master station 100 to obtain an evaluation value a; the display module 104 is used for sending the evaluation value A to the work account in a form of report and visualization; wherein, the user-side response terminal 102 comprises a mobile terminal and a fixed terminal, and is used for the user to browse and/or operate and/or change and/or receive the information generated by the evaluation system; by carrying out multi-dimensional data acquisition, the diversity of data sources is improved, a wide data support foundation is laid for the subsequent output of evaluation values, and the accuracy of system output reports is improved; therefore, the effect value of whole-layer anti-aging is objectively and comprehensively evaluated, the communication cost of both buyers and sellers in the technical transaction process is favorably reduced, the experience of the user is effectively improved, and the user can conveniently and effectively screen disordered medical and aesthetic technologies on the market.

In order to obtain more comprehensive survey data and improve data accuracy, in this embodiment, the system further includes an offline module (not shown in the figure) for setting an offline questionnaire form to obtain evaluation data.

Second, the users for which data is collected include, but are not limited to, full-thickness anti-aging participants.

The method for evaluating the whole-layer anti-aging performance as shown in FIG. 2 comprises the following specific steps:

the method comprises the following steps: acquiring related information, wherein the related information comprises parameter comparison before and after full-layer anti-aging, user self evaluation, questionnaire survey and the like;

step two: extracting characteristics; preprocessing the related information to obtain a plurality of processing data;

step three: performing target function calculation on the multiple items of processing data to obtain an evaluation value A;

step four: and evaluating the effect of the whole-layer anti-aging according to the evaluation value, and sending the effect to a corresponding work account in a report form.

It should be noted that, in the step one, the user may choose to participate in the response or not, the response terminal 102 at the user in the system feeds back the selection of the user to the cloud master station 100, and meanwhile, the cloud master station 100 counts the time response and the number of participating people of the current response, and obtains the time response coefficient λ and the heat coefficient μ through normalization processing; the accuracy of calculation is improved in subsequent links.

In this embodiment, the specific steps of extracting the features in the second step are as follows:

s1: obtaining a parameter contrast differential value Q_{Are all made of}According to the following formula:

Q_{are all made of}＝(Q_T-Q_T-1)+…+(Q₂-Q₁)/T；

Wherein Q is₁The skin quality value before the whole layer of anti-aging is shown, and T represents the total time period after the whole layer of anti-aging;

s2: acquiring a user self-evaluation score E, selecting a certain score for each question in scores of 1-10 by the user by setting n question-answer questions, and finally acquiring the user self-evaluation score E according to the following formula:

M＝(x₁+x₂+…x_n)/n；

wherein n is 1,2,3 …; m represents an average;

s3: obtaining the questionnaire survey score W, wherein the calculation formula is as follows:

wherein λ represents a time reaction coefficient; μ represents a heat coefficient; b is_iIndicating the score given by the ith individual.

The specific content of the evaluation value obtained in the third step is as follows:

an objective function: a ═ α Q_{Are all made of}+βW+γE；

Wherein A represents evaluation value, alpha, beta and gamma are parameter factors, and Q_{Are all made of}The difference value of the front and rear parameters is compared, W is the questionnaire score, and E is the user self-evaluation score.

In the description of the present invention, it is to be understood that the terms "center", "lateral", "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified. Furthermore, the term "comprises" and any variations thereof is intended to cover non-exclusive inclusions.

The present invention has been described in terms of embodiments, and several variations and modifications can be made to the device without departing from the principles of the present invention. It should be noted that all the technical solutions obtained by means of equivalent substitution or equivalent transformation, etc., fall within the protection scope of the present invention.

Claims (6)

1. A method for evaluating whole layer resistance to decay, characterized by: the method comprises the following specific steps:

the method comprises the following steps: acquiring related information, wherein the related information comprises parameter comparison before and after full-layer anti-aging, user self evaluation, questionnaire survey and the like;

step two: extracting characteristics; preprocessing the related information to obtain multiple processed data including parameter contrast difference Q_{Are all made of}Acquiring a self-evaluation score E of the user and a questionnaire survey score W;

step three: performing target function calculation on the multiple items of processing data to obtain an evaluation value A;

step four: and evaluating the effect of the whole-layer anti-aging according to the evaluation value, and sending the effect to a corresponding work account in a report form.

2. A method for evaluating whole-layer resistance to decay as defined in claim 1 wherein: the specific steps of extracting the features in the second step are as follows:

s1: obtaining a parameter contrast differential value Q_{Are all made of}According to the following formula:

Q_{are all made of}＝(Q_T-Q_T-1)+…+(Q₂-Q₁)/T；

Wherein Q is₁The skin quality value before the whole layer of anti-aging is shown, and T represents the total time period after the whole layer of anti-aging;

s2: acquiring a user self-evaluation score E, selecting a certain score for each question in scores of 1-10 by the user by setting n question-answer questions, and finally acquiring the user self-evaluation score E according to the following formula:

M＝(x₁+x₂+…x_n)/n；

wherein n is 1,2,3 …; m represents an average;

s3: obtaining the questionnaire survey score W, wherein the calculation formula is as follows:

wherein λ represents a time reaction coefficient; μ represents a heat coefficient; b is_iIndicating the score given by the ith individual.

3. A method for evaluating whole-layer resistance to decay as defined in claim 2, wherein: the specific content of the evaluation value obtained in the second step is as follows:

an objective function: a ═ α Q_{Are all made of}+βW+γE；

Wherein A represents evaluation value, alpha, beta and gamma are parameter factors, and Q_{Are all made of}Is the difference value of the comparison of the front and rear parameters, W is the score of questionnaire survey, E is the evaluation score of the user。

4. An evaluation system for evaluating whole layer resistance to aging according to any one of claims 1 to 3, characterized in that: the method comprises the following steps:

the detection module (101) is used for detecting parameter data of the skin on the face of the user before and after the full-layer anti-aging;

a user response terminal (102) for acquiring evaluation data of a user;

the cloud master station (100) is used for receiving data uploaded by the detection module (101) and the response terminal (102) at the user position and obtaining processing data;

the evaluation module (103) is used for receiving the processing data of the cloud master station (100) to obtain an evaluation value A;

and the display module (104) is used for sending the evaluation value A to the work account in a report form in a visual form.

5. A system for assessing full-thickness failure resistance according to claim 4, wherein: the system also comprises an offline module which is used for setting the form of offline questionnaire survey and acquiring evaluation data.

6. A system for assessing full-thickness failure resistance according to claim 4, wherein: the user-side response terminal (102) comprises a mobile terminal and a fixed terminal, and is used for browsing and/or operating and/or changing and/or receiving information generated by the evaluation system by a user.

Images