CN115844375A - Female chest shape analysis method and device - Google Patents

Abstract

The invention relates to a female breast shape analysis method and device, the method includes obtaining the measured breast size data; the breast size data comprises chest circumference, underbust circumference, waist circumference, upper and lower chest width difference, front and back axillary distance, front breast length, back breast length, lower cup height, high point distance, neck breast distance, chest width, breast root depth and full wave length; calculating chest shape related parameters according to the breast size data; and constructing a chest type analysis model according to the chest type related parameters, wherein the chest type analysis model is used for calculating and outputting a breast state grading result, and when the breast state grading result is smaller than a preset threshold value, outputting a maintenance suggestion according to the chest type related parameters with the lowest scores. The data used by the method are all measurable breast sizes and all quantitative data, and the chest type data can be obtained through calculation, so that very strong operability is provided for subsequent model building, extended application and system building. The user can comprehensively know the breast parameters according to the breast state scoring result.

Description

Female chest shape analysis method and device

Technical Field

The invention belongs to the technical field of breast type classification, and particularly relates to a female breast type analysis method and device.

Background

In the prior art, the most of female chest data measurement is to determine the size and select the underwear size, so that consumers cannot obtain more useful information and cannot guide scientific maintenance methods except the underwear size. Chest morphology is currently described qualitatively, and quantitative methods are few and crude. For example, by visually observing whether the breast sags, but the degree of sag cannot be quantitatively described, so that the characteristics of the breast cannot be accurately depicted, and accurate suggestions cannot be made in various aspects.

In the related art, only the calculation method of the size of the underwear is simple and rough, the consumer only judges by the size to be difficult to select the proper underwear, and the body state and the breast shape are influenced by the improper size of the underwear after long-term wearing, such as: when the underwear with large bottom circumference is worn, the underwear runs upwards to press breasts to cause sagging in the wearing process, and when the underwear with small bottom circumference is worn, the chest is pressed to be large, and the breasts are sagged; when the underwear with large cups is worn, the cups do not have enough support for breasts, so that the daily breasts shake, the skin is loosened, and the breasts sag; when the underwear with small cups is worn, the cups compress breasts, which results in auxiliary breasts and outward expansion. At present, the problem that the breast parameters can not be comprehensively recognized exists, so that the breast can not be precisely scientifically maintained, and even the breast diseases are caused.

Disclosure of Invention

In view of the above, the present invention provides a method and an apparatus for analyzing female breast shape, so as to solve the problem that the prior art cannot fully recognize the breast parameters.

In order to achieve the purpose, the invention adopts the following technical scheme: a method of female breast shape analysis comprising:

acquiring measured breast size data; the breast size data comprises chest circumference, lower chest circumference, waist circumference, upper and lower chest width difference, front and rear axillary distance, front breast length, rear breast length, lower cup height, high point distance, neck breast distance, chest width, breast root depth and full wave length;

calculating chest shape related parameters according to the breast size data;

constructing a breast shape analysis model according to the breast shape related parameters, wherein the breast shape analysis model is used for calculating and outputting a breast state scoring result;

and when the breast state scoring result is smaller than the preset threshold value, outputting a maintenance suggestion according to the chest type related parameter with the lowest score in the weighted scores corresponding to the breast state scoring result.

Further, the chest type related parameters comprise:

bra size, breast type classification, sagging grade, external expansion grade, symmetry, and proportional relation between breast and upper body.

Further, drawing a line graph of the surface of the breast, and determining a chicken heart point, a milk side point and a milk high point of the line graph;

calculating a chest type classification comprising:

according to a first line segment b formed by the chicken heart point and the breast side point, a second line segment a is formed by the breast high point which is vertical to the first line segment b;

calculating the ratio of the first line segment b to the second line segment a;

determining the chest type classification according to the size of the ratio;

calculating an flare rating comprising:

determining the positions of the projected points B of the milk high points on the breast chassis on the first line segment B;

determining a midpoint C of the first line segment b, and dividing a connecting line from the midpoint C to a breast side point into three equal parts so as to divide a breast side into three equal parts in a vertical section;

judging the external expansion grade according to the position of the projection point B falling into the three equal parts;

calculating a sag rating comprising:

dividing a connecting line from the midpoint C to a breast root point into three equal parts so as to divide the breast into three equal parts in a transverse section;

judging the sagging grade according to the positions of the milk high points falling into the three equal parts;

calculating symmetry, including:

and comparing the sum of the front breast length/the back breast length and the lower cup length, and judging whether the breasts are symmetrical or not according to the comparison result.

Further, determining the chest type classification according to the size of the ratio comprises:

when the ratio is smaller than a first preset value, determining that the chest shape is disc-shaped;

when the ratio is greater than or equal to a first preset value and smaller than a second preset value, determining that the chest shape is hemispherical;

when the ratio is larger than a second preset value, determining that the chest shape is in a spindle shape;

wherein the first preset value is smaller than the second preset value.

Further, constructing a chest type analysis model according to the chest type related parameters, wherein the chest type analysis model is used for calculating and outputting a scoring result of the breast state;

determining a score for the chest-type related parameter;

and carrying out weighted scoring calculation on scores of all the chest type first-pass parameters to obtain a scoring result of the breast state.

Further, the first preset value is 0.4, and the second preset value is 0.6.

The embodiment of the application provides a women chest type analytical equipment, includes:

an acquisition module for acquiring measured breast size data; the breast size data comprises chest circumference, lower chest circumference, waist circumference, upper and lower chest width difference, front and rear axillary distance, front breast length, rear breast length, lower cup height, high point distance, neck breast distance, chest width, breast root depth and full wave length;

a calculation module for calculating breast shape related parameters from the breast size data;

the output module is used for constructing a chest type analysis model according to the chest type related parameters, and the chest type analysis model is used for calculating and outputting a scoring result of the breast state;

and the recommendation module is used for comparing the breast state scoring result with a preset threshold value, and outputting a maintenance recommendation according to the chest-type related parameter with the lowest score in the weighted scores corresponding to the breast state scoring result when the breast state scoring result is smaller than the preset threshold value.

The embodiment of the application provides computer equipment, which comprises a processor and a memory connected with the processor;

the memory is used for storing a computer program, and the computer program is used for executing the female chest shape analysis method provided by any one of the above embodiments;

the processor is used to call and execute the computer program in the memory.

By adopting the technical scheme, the invention can achieve the following beneficial effects:

the invention provides a female breast shape analysis method and device, according to the obtained breast size data of bust, underbust, waist, upper and lower breast width difference, anterior-posterior axillary distance, anterior breast length, posterior breast length, underbump length, underbup height, high point distance, neck breast distance, breast width, breast root depth, full wave length and the like, corresponding breast shape related parameters can be calculated according to the breast size data, and a breast shape analysis model is constructed through the breast shape related parameters, so that a breast state scoring result is obtained. All data used in the method are measurable breast sizes, all are quantitative data, and the chest type data can be obtained through calculation, so that very strong operability is provided for subsequent model building, extended application and system construction. The user can comprehensively know the breast parameters according to the breast state scoring result.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic representation of the steps of the method for analyzing female breast shapes according to the present invention;

FIG. 2 is a schematic view of the measurement of the distance between the anterior and posterior axilla provided by the present invention;

FIG. 3 is a schematic diagram of a measuring method of the breast front length provided by the present invention;

FIG. 4 is a schematic diagram of a method for measuring post-mammary length according to the present invention;

FIG. 5 is a schematic view of a measuring method for the height of the lower cup according to the present invention;

FIG. 6 is a schematic diagram of a high point distance measurement method provided by the present invention;

FIG. 7 is a schematic view of the measurement of the neck-breast distance provided by the present invention;

FIG. 8 is a schematic view of the measurement of chest width according to the present invention;

FIG. 9 is a schematic view of the measuring method of the width of the breast root provided by the present invention;

FIG. 10 is a schematic view of the manner in which the present invention provides for measuring the depth of a breast root;

FIG. 11 is a schematic view of a measurement method for the total wave length provided by the present invention;

FIG. 12 is a schematic diagram of a breast surface line chart chest type classification calculation according to the present invention;

FIG. 13 is a schematic view of the calculation of the breast surface line graph dilation rating according to the present invention;

FIG. 14 is a schematic view of calculating sag levels of a line graph of a breast surface according to the present invention;

FIG. 15 is a schematic view of the female breast-type analyzer according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

The following describes a specific female breast shape analysis method and device provided in the embodiments of the present application with reference to the drawings.

As shown in fig. 1, a method for analyzing a female breast shape provided in an embodiment of the present application includes:

s101, acquiring measured breast size data; the breast size data comprises chest circumference, underbust circumference, waist circumference, upper and lower chest width difference, front and back axillary distance, front breast length, back breast length, lower cup height, high point distance, neck breast distance, chest width, breast root depth and full wave length;

wherein, the shoulder width is measured according to a shoulder bone positioning method, the bust is measured according to a nipple point positioning method, the lower bust is measured according to a breast root positioning method, and the upper and lower chest width difference is obtained by measuring the difference between the upper half bust and the lower half bust;

as shown in fig. 2, the distance between the front and rear armpits is the arc length of the body surface of the connecting line of the left and right armpits, wherein the arms naturally droop and cling to the trunk;

as shown in FIG. 3, the anterior breast length is the arc length of the body surface from the point of high breast to the most extensive point of the anterior medial breast root;

as shown in FIG. 4, the posterior breast length is the arc length of the body surface from the point of high breast to the most outward extending point of the breast root in the lateral direction of breast;

as shown in FIG. 5, the lower cup height is the body surface arc length from the milk high point to the lowest point of the milk root;

as shown in fig. 6, the high points are a distance from the two points where the breast is most prominent;

as shown in fig. 7, the distance between the neck and breast is the distance between the intersection of the anterior midline and the cervical root line and the breast high point;

as shown in fig. 8, the chest width is the distance between the most extended points of the breast roots on the left and right sides;

as shown in fig. 9, the breast root width is the distance between the two extension points of the breast root of the unilateral breast;

as shown in fig. 10, the depth of the breast root is the maximum distance between the connecting line of the extension points on both sides of the breast root and the breast root point;

as shown in fig. 11, the length of the full wave is the length of the curve from the anterior midpoint of the lumbar line through the perineum to the posterior midpoint of the lumbar line of the back.

S102, calculating chest type related parameters according to the breast size data;

in some embodiments, the chest type related parameters include:

bra size, breast type classification, sagging grade, external expansion grade, symmetry, and proportional relation between breast and upper body.

S103, constructing a chest type analysis model according to the chest type related parameters, wherein the chest type analysis model is used for calculating and outputting a scoring result of the breast state.

It is understood that the chest analysis model is constructed according to a weighted average manner, and the result of scoring the breast state is obtained through the chest analysis model.

S104, comparing the breast state scoring result with a preset threshold, and outputting a maintenance suggestion according to the chest type related parameter with the lowest score in the weighted scores corresponding to the breast state scoring result when the breast state scoring result is smaller than the preset threshold.

According to the breast state evaluation method and system, comparison can be carried out according to the breast state evaluation result and the preset threshold value, if the breast state evaluation result is larger than the preset threshold value, it is indicated that the breast state maintenance of the user is very good, the system can ask the user to provide some maintenance experience, if the breast state evaluation result is smaller than the preset threshold value, it is indicated that the user needs maintenance, the chest type related parameter with the lowest score in the weighted evaluation needs to be determined firstly, or the chest type related parameters with the lower scores can also be determined, and maintenance suggestion is carried out on the chest type related parameter with the lower score. It can be understood that the maintenance advice corresponding to the chest type related parameters is configured in the system in advance.

The working principle of the female breast shape analysis method is as follows: according to the breast size data such as the obtained breast circumference, the lower breast circumference, the waist circumference, the difference between the upper and lower breast widths, the front and rear axillary distances, the front breast length, the rear breast length, the lower cup height, the high point distance, the neck breast distance, the breast width, the breast root depth, the full wave length and the like, corresponding breast type related parameters can be calculated according to the breast size data, and a breast type analysis model is constructed through the breast type related parameters, so that a breast state scoring result is obtained.

All data used in the method are measurable breast sizes, all are quantitative data, and the chest type data can be obtained through calculation, so that very strong operability is provided for subsequent model building, extended application and system construction. The user can comprehensively know the breast parameters according to the breast state scoring result.

In some embodiments, a line graph of the breast surface is depicted, the chicken heart point, the milk side point and the milk high point of the line graph are determined;

calculating a chest type classification comprising:

according to a first line segment b formed by the chicken heart point and the breast side point, a second line segment a is formed by the breast high point which is vertical to the first line segment b;

calculating the ratio of the first line segment b to the second line segment a;

determining the chest type classification according to the size of the ratio;

calculating an flare rating comprising:

determining the positions of the projected points B of the breast high points on the breast chassis distributed on the first line segment B;

determining a midpoint C of the first line segment b, and dividing a connecting line from the midpoint C to a breast side point into three equal parts so as to divide a breast side into three equal parts in a vertical section;

judging the external expansion grade according to the position of the projection point B falling into the three equal parts;

calculating a sag rating comprising:

dividing a connecting line from the midpoint C to a breast root point into three equal parts so as to divide the breast into three equal parts in a transverse section;

judging the sagging grade according to the positions of the milk high points falling into the three equal parts;

calculating symmetry, including:

and comparing the sum of the front breast length/the back breast length and the lower cup length, and judging whether the breasts are symmetrical or not according to the comparison result.

Specifically, as shown in fig. 12, the chest shape classification is calculated by first forming a first line segment b by a chicken heart point and a milk side point, forming a second line segment a by a milk high point perpendicular to the first line segment b, and calculating the ratio of a/b = x to distinguish three types of chest shapes;

in some embodiments, determining a thoracic classification based on the magnitude of the ratio comprises:

when the ratio is smaller than a first preset value, determining that the chest shape is disc-shaped;

when the ratio is greater than or equal to a first preset value and smaller than a second preset value, determining that the chest shape is hemispherical;

when the ratio is larger than a second preset value, determining that the chest shape is in a spindle shape;

wherein the first preset value is smaller than the second preset value.

The first preset value is 0.4, and the second preset value is 0.6.

It should be noted that x is smaller than 0.4 and is in a disc shape, x ranges from 0.4 to 0.6 and is in a hemispherical shape, x is larger than 0.6 and is in a spindle shape, and each chest type classification corresponds to a corresponding score.

Calculation of the degree of spread is shown in fig. 13, where the line from point C to the breast side point is divided into three equal parts, 1, 2, and 3 from the middle to the side. Wherein, B is not expanded when falling within 1/3, B is slightly expanded when falling within 2/3, and B is severely expanded when falling within 3/3. The projected point of the breast chassis is 5 minutes close to the body side, and the projected point of the breast chassis is 0 minute close to the heart.

Calculation of sag rating three cross sections, from top to bottom 1, 2, 3, are shown in fig. 14. The breast high point is in 1/3 space and does not droop. The milk high point sags slightly in 2/3 space. The milk high point is in 3/3 space and seriously sags. The milk high point is 5 points below the milk root bottom point by more than 2cm, 4 points near the milk root low point, and 0 point on the horizontal line of the anterior medial milk root point.

Symmetry is determined by comparing the sum of the anterior/posterior breast length of the left and right breasts with the lower cup length, and when the results are the same, symmetry is verified. Whether the chest is large or small can be determined according to the symmetry, and the classification result comprises the routine, the left large and the right small or the left small and the right large.

The triangle of the chest triangle proportion composed of the neck pit point and breast height point can be used as the reference value of the proportion of the upper half body and the chest, and is divided into a golden regular triangle, an external expanding type and a compact type. Each corresponding to a different score.

In some embodiments, a chest analysis model is constructed according to the chest related parameters, and the chest analysis model is used for calculating an output breast state scoring result;

determining a score for the chest-type related parameter;

and carrying out weighted scoring calculation on scores of all the chest type first-pass parameters to obtain a scoring result of the breast state.

Specifically, the chest score in this application: 10% of fullness, 30% of droop, 30% of external expansion, 10% of symmetrical size, 10% of height and 10% of uplift degree

Chest age: droop is 30%, outward expansion is 30%, size is symmetrical 20%, and height is symmetrical 20%; and calculating according to the corresponding weight to obtain the final score.

As a specific embodiment, for example, after analyzing the chest shape, the user obtains a chest comprehensive score, chest age and corresponding chest care plan; the specific results are as follows:

comprehensive chest score: 72 minutes of breast age: age 35 years old

My breast raising scheme

The chest is moderate in plumpness, slightly sags, does not expand outwards, and has good breast symmetry.

The current primary tasks are:

or breast protection, adherence to good habits, prevention of sub-health of the breast. 90+

Or resisting aging of breast, caring the elasticity of breast ligament and skin, 80+

Or correcting and repairing chest shape. 80-

Wherein different schemes are output for different scores; for example

>90 level breast protection

Habituation: the breast health care wine is very important for breast health by cultivating regular work and rest and optimistic mood and reducing the intake of smoke, wine and the like. If weight is required to be reduced, loose and drooping breasts can be prevented in a healthy and gradual mode. Hormone drugs, contraceptive drugs, abortion drugs and other drugs used with cautions may cause endocrine disturbance and increase the risk of breast diseases

And (3) movement: the heel-and-toe walking race is relatively gentle aerobic exercise, is very friendly to breasts, and can improve the functions and the resistance of heart and lung, promote blood circulation and further prevent breast diseases. The breast nursing effect can be achieved by keeping for 40 minutes every day to walk.

Yoga is performed for 30 minutes every day, so that the thoracic cavity, muscles and mammary gland tissues can be effectively relaxed, and the breasts can recover the primordial qi full state.

The posture is as follows: the humpback has certain compression to the chest cavity and great damage to the breast. Humpback is often accompanied by "round shoulders" and both shoulders relax forward, resulting in fat accumulation on the shoulders and back, atrophy and relaxation of the muscles in front of the chest, and thus, the breast sags.

Leaning and sitting. If the user stays in front of a computer for a long time every day and fixes the sitting posture of 'two-leg-raising' and the like for a few hours, the spine is changed into an S shape, high and low shoulders are caused, and the left and right breasts are not symmetrical in size.

Diet: more foods rich in vitamin E and vitamin B, such as lean meat, eggs, milk, beans, sesame and the like, are eaten, and the foods are beneficial to keeping the breast healthy and beautiful.

Breast anti-aging rate of not less than 80 minutes

Habituation: the breast massage can effectively avoid skin relaxation, promote the blood circulation of the breast, increase the nutrition supply of the breast, delay the aging of the breast and find breast lesions such as lumps in time by keeping the breast massage for 3 times a week. Optionally, the bath lotion is applied to breast, one finger is closed, and the other finger is placed on the breast at the opposite side, and the outer edge of the breast is drawn to the inner side to form a circle with nipple as the center. The breasts at both sides were done 5 times each.

The posture is as follows: the humpback has certain compression to the chest cavity and great damage to the breast. The humpback is often accompanied by 'round shoulders', the shoulders are loosened forwards, the shoulder and back fat is accumulated, the muscles in the chest are shrunk and loosened, and the breast is sagged.

And (3) movement: the breast-expanding and wall-pushing exercises can be performed for 2-3 times per week, which helps to prevent breast aging and shape the chest.

The palms of the two hands intersect with the fingers, and the arms are stretched right above while inhaling, and 3 breaths are kept. The patient turns to the left side while exhaling, and 3 breaths are kept. Inhaling while returning the body to the neutral position. The left and right are done 1 time each. Each group was made into 10, 3 groups each time.

Diet: the walnut and the pine nut are rich in vitamin E and zinc, particularly rich in linolenic acid, can delay breast aging, and are also rich in protein, mineral substances and B vitamins, thereby being a good skin-moistening product. The corn is rich in vitamin E and is a breast-strengthening food advocated by dieticians.

The chest shape can be corrected when the low score exists, and the details are not repeated in the application.

Wherein, for the chest type related parameters with low scores, the maintenance advice can be output in a targeted manner, for example, for chest type classification, the maintenance advice can be stored in a targeted manner for different types, and the bottom area of the disc-shaped breast is large and the doming degree is low. The chest shape is strong and handsome, and the stability is good. The risk of sagging is less and the risk of external expansion and milk by-products is higher. The breast size is prevented from being underestimated due to low protrusion, and the undersize bra is easy to cause external expansion and auxiliary breast. The side-folded bra is a preferred circular disc shape.

The bottom area and the uplift degree of the hemispherical breast are moderate. The chest is full and round, and the fat is distributed evenly. The risk of sagging flare-out is moderate. A support type bra is a preferred semi-spherical chest shape.

The fusiform breast has small bottom area and high uplift degree. The chest shape is full, stiff and straight, but is easy to shake, and the risk of sagging and flaring is high. The containing type bra can provide more stability and support for the fusiform breasts.

Corresponding suggestions are also made regarding the degree of sagging, such as regular checking of bra size, regular checking of shoulder strap length, wearing corrective, pop-up bras, which may allow the mammary ligaments to relax and gradually regain resilience. And selecting the matched sports underwear according to the sports type during sports. And selecting corresponding nursing underwear according to the size change in the nursing period.

For the outward expansion level, corresponding suggestions are given for users with lower scores, and the breasts are pressed towards two sides by the clothes after long-term wearing of vest type underwear or not. Too big end encloses and leads to cup up to run, oppresses the breast to the outside, lies prone for a long time and sleeps, can seriously oppress the chest tissue, leads to the chest to expand laxly outward.

And (5) giving corresponding suggestions to users with low symmetry scores, regularly checking the health of the breasts, and timely treating if the tumors are found. When selecting underwear, the cup capacity should be reasonable

When the breast is too empty or too full, the user needs to be centered when wearing the breast, and the shoulder belts on the two sides are adjusted to be proper in tightness, so that the whole breast is stressed evenly.

As shown in fig. 15, an embodiment of the present application provides a female chest type analysis apparatus including:

an acquisition module 201 for acquiring measured breast size data; the breast size data comprises chest 0 circumference, underbust circumference, waist circumference, upper and lower chest width difference, front and back axillary distance, front breast length, back breast length, lower cup length, and lower cup length

High, high point distance, neck-breast distance, chest width, breast root depth, and full wave length;

a calculation module 202 for calculating chest type related parameters from the breast size data;

the output module 203 is used for constructing a chest-type analysis model according to the chest-type related parameters, and the chest-type analysis model is used for calculating and outputting a scoring result of the breast state;

a 5 recommendation module 204 for comparing the breast status scoring result with a preset threshold value

And when the breast state scoring result is smaller than a preset threshold value, outputting a maintenance suggestion according to the chest type related parameter with the lowest score in the weighted scores corresponding to the breast state scoring result.

The working principle of the female breast-type analysis device provided by the embodiment of the application is that the acquisition module 201 acquires

Measured breast size data; the breast size data comprises bust, underbust, waistline, upper and lower chest width 0 difference, front and back axillary distance, front breast length, back breast length, lower cup height, high point distance, neck breast distance, chest width, breast root depth and full wave length; the calculation module 202 calculates chest-type related parameters according to the breast size data; the output module 203 constructs a breast shape analysis model according to the breast shape related parameters, the breast shape analysis model is used for calculating and outputting a breast state scoring result, and the suggestion module 204 scores the breast state

And comparing the result with a preset threshold, and outputting a maintenance suggestion according to the chest-type related parameter with the lowest score in the weighted scores corresponding to the 5 breast state scoring results when the breast state scoring result is smaller than the preset threshold.

The embodiment of the application provides computer equipment, which comprises a processor and a memory connected with the processor;

the memory is used for storing a computer program, and the computer program is used for executing the female chest shape analysis method provided by any one of the above embodiments;

the processor is used to call and execute the computer program in the memory.

In summary, the present invention provides a method and apparatus for analyzing female breast shape, the method includes obtaining measured breast size data; the breast size data comprises bust, underbust, waist, upper and lower chest width difference, front and back axillary distance, front breast length, back breast length, underbump height, high point distance, neck breast distance, chest width, breast root depth and full wave length; calculating chest type related parameters according to the breast size data; and constructing a chest type analysis model according to the chest type related parameters, wherein the chest type analysis model is used for calculating and outputting a breast state grading result, and when the breast state grading result is smaller than a preset threshold value, outputting a maintenance suggestion according to the chest type related parameters with the lowest scores. The data used by the method are all measurable breast sizes and all quantitative data, and the chest type data can be obtained through calculation, so that very strong operability is provided for subsequent model building, extended application and system building. The user can comprehensively know the breast parameters according to the breast state scoring result.

It is to be understood that the embodiments of the method provided above correspond to the embodiments of the apparatus described above, and the corresponding specific contents may be referred to each other, which is not described herein again.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and shall cover the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. A method for analyzing female breast shapes, comprising:

acquiring measured breast size data; the breast size data comprises chest circumference, lower chest circumference, waist circumference, upper and lower chest width difference, front and rear axillary distance, front breast length, rear breast length, lower cup height, high point distance, neck breast distance, chest width, breast root depth and full wave length;

calculating chest shape related parameters according to the breast size data;

constructing a chest type analysis model according to the chest type related parameters, wherein the chest type analysis model is used for calculating and outputting a scoring result of the breast state;

and comparing the breast state scoring result with a preset threshold, and outputting a maintenance suggestion according to the chest type related parameter with the lowest score in the weighted score corresponding to the breast state scoring result when the breast state scoring result is smaller than the preset threshold.

2. The method of claim 1, wherein the chest related parameters comprise:

bra size, breast type classification, sagging grade, external expansion grade, symmetry, and proportional relation between breast and upper body.

3. The method of claim 2, wherein a line graph of the surface of the breast is depicted, and the chicken heart point, the milk side point and the milk high point of the line graph are determined;

calculating a chest type classification comprising:

according to a first line segment b formed by the chicken heart point and the breast side point, a second line segment a is formed by the breast high point which is vertical to the first line segment b;

calculating the ratio of the first line segment b to the second line segment a;

determining the chest type classification according to the size of the ratio;

calculating an flare rating comprising:

determining the positions of the projected points B of the milk high points on the breast chassis on the first line segment B;

determining a midpoint C of the first line segment b, and dividing a connecting line from the midpoint C to a breast side point into three equal parts so as to divide a breast side into three equal parts in a vertical section;

judging the external expansion grade according to the position of the projection point B falling into the three equal parts;

calculating a sag rating comprising:

dividing a connecting line from the midpoint C to a breast root point into three equal parts so as to divide the breast into three equal parts in a transverse section;

judging the sagging grade according to the positions of the milk high points falling into the three equal parts;

calculating symmetry, including:

and comparing the sum of the front breast length/the back breast length and the lower cup length, and judging whether the breasts are symmetrical or not according to the comparison result.

4. The method of claim 3, wherein determining a chest type classification based on the magnitude of the ratio comprises:

when the ratio is smaller than a first preset value, determining that the chest shape is disc-shaped;

when the ratio is larger than or equal to a first preset value and smaller than a second preset value, determining that the chest shape is hemispherical;

when the ratio is larger than a second preset value, determining that the chest shape is in a spindle shape;

wherein the first preset value is smaller than the second preset value.

5. The method of claim 2, wherein a chest analysis model is constructed from the chest related parameters, the chest analysis model being used to calculate an output breast state score;

determining a score for the chest-type related parameter;

and carrying out weighted scoring calculation on scores of all the chest type first-pass parameters to obtain a scoring result of the breast state.

6. The method of claim 4,

the first preset value is 0.4, and the second preset value is 0.6.

7. A female breast-type analysis device, comprising:

an acquisition module for acquiring measured breast size data; the breast size data comprises chest circumference, lower chest circumference, waist circumference, upper and lower chest width difference, front and rear axillary distance, front breast length, rear breast length, lower cup height, high point distance, neck breast distance, chest width, breast root depth and full wave length;

a calculation module for calculating breast shape related parameters from the breast size data;

the output module is used for constructing a chest type analysis model according to the chest type related parameters, and the chest type analysis model is used for calculating and outputting a scoring result of the breast state;

and the recommendation module is used for comparing the breast state scoring result with a preset threshold value, and outputting a maintenance recommendation according to the chest-type related parameter with the lowest score in the weighted scores corresponding to the breast state scoring result when the breast state scoring result is smaller than the preset threshold value.

8. A computer device comprising a processor, and a memory coupled to the processor;

a memory for storing a computer program for performing the method of female breast shape analysis of any one of claims 1 to 6;

the processor is used to call and execute the computer program in the memory.

Images