CN109844817A

CN109844817A - A kind of model method of adjustment and system based on bone combination

Info

Publication number: CN109844817A
Application number: CN201780061846.8A
Authority: CN
Inventors: 王志全; 王皓棉; 曾家东; 沈西优
Original assignee: Shenzhen Three D Artificial Intelligence Technology Co ltd
Current assignee: Shenzhen Three D Artificial Intelligence Technology Co ltd
Priority date: 2017-05-16
Filing date: 2017-05-16
Publication date: 2019-06-04
Also published as: WO2018209565A1

Abstract

A kind of model method of adjustment based on bone combination, comprising: obtain initial model's model (S101)；According to initial model's model, divide at least two bony areas (S102)；The size interval value of preset each bony areas is imported into model, parameterized model (S103) is obtained；The bony areas and corresponding setting value of input are received, model is adjusted；The wherein setting value (S104) in the range of the size interval value.It allows user to adjust model's model according to their own needs, adjusts the size of each bony areas, so that final model be allowed to be consistent with expected stature, facilitate user to carry out simulation and the operation such as try on a dress, it is more flexible.

Description

A kind of model method of adjustment and system based on bone combination

Technical field

The present invention relates to model treatment technical field more particularly to a kind of model methods of adjustment and system based on bone combination.

Background technique

With computer hardware, the discovery of software technology, the reinforcement of handle the pictures ability, 3D model has been applied in all trades and professions.3D fitting also entering among the visual field of people gradually, 3D fitting is exactly virtual model's model puts on clothes determine whether the clothes is fit or suitable, can be convenient people using 3D fitting, whether at home can to try out clothes suitable, not needing user goes to clothes shop to fit, and the time of people is greatly saved.

In the prior art, model's moulded dimension of 3D is fixed mostly, it is difficult to adjust the size of model, and body type, the size of each user are inconsistent, if can not allow model's moulded dimension of 3D that the physical size of user is followed to be adjusted, the effect of fitting is just inaccurate, and does not meet the actual conditions of user.

Therefore, the problem of how a kind of model method of adjustment that can facilitate adjustment size is provided, this field urgent need to resolve is become.

Summary of the invention

The purpose of the present invention is one kind can facilitate the model method of adjustment and system of adjustment size.

The purpose of the present invention is achieved through the following technical solutions:

A kind of model method of adjustment based on bone combination, comprising:

Obtain initial model's model；

According to initial model's model, at least two bony areas are divided；

The size interval value of preset each bony areas is imported into model, parameterized model is obtained；

The bony areas and corresponding setting value of input are received, model is adjusted；Wherein the setting value is in the range of the size interval value.

Preferably, the bony areas includes at least neck area, chest area, lumbar region, seat area and leg area.

Preferably, the size interval value of neck area includes the perimeter interval value of neck, and the upper limit of the perimeter interval value of the neck is 1.4 times of preset reference value, the lower limit of the perimeter interval value of the neck It is 0.8 times of preset reference value.

Preferably, the size interval value of chest area includes the perimeter interval value of chest, and the perimeter interval value of the chest is in 86.33cm between 129.99cm, and wherein the perimeter a reference value of chest is 98.21cm.

Preferably, the size interval value of lumbar region includes the perimeter interval value of waist, and the upper limit of the perimeter interval value of the waist is 1.8 times of preset reference value, and the lower limit of the perimeter interval value of the neck is 0.8 times of preset reference value.

Preferably, the size interval value of seat area includes the perimeter interval value of buttocks, and the perimeter interval value of the buttocks is in 80.696cm between 133.754cm, and wherein the perimeter a reference value of buttocks is 92.352cm.

Preferably, the size interval value of leg area includes the length of interval value of leg, the perimeter interval value of thigh and the perimeter interval value of shank；The length of interval value of the leg is in 91.280cm between 99.274cm, and wherein the length standard value of leg is 95.277cm；The upper limit of the perimeter interval value of the thigh is 1.4 times of preset reference value, and the lower limit of the perimeter interval value of the thigh is 0.8 times of preset reference value；The upper limit of the perimeter interval value of the shank is 1.4 times of preset reference value, and the lower limit of the perimeter interval value of the shank is 0.8 times of preset reference value.

Preferably, the bony areas further includes arm region, and the interval value in arm region includes the perimeter interval value of arm and the length of interval value of arm；The perimeter interval value of the arm is 25.653cm to 43.15cm, and wherein the perimeter a reference value of arm is 32.0cm；The length of interval value of the arm is 40.37cm to 52.19cm, and wherein the length standard value of arm is 46.28cm.

Preferably, after the step of obtaining parameterized model, the method further includes: the height interval value of the model is set in 140cm between 200cm, and wherein height a reference value is 184.2cm.

The present invention discloses a kind of model adjustment system based on bone combination, comprising:

Module is obtained, for obtaining initial model's model；

Division module, for dividing at least two bony areas according to initial model's model；

Import modul obtains parameterized model for the size interval value of preset each bony areas to be imported into model；

Module, bony areas for receiving input and corresponding setting value are adjusted, model is adjusted；Wherein the setting value is in the range of the size interval value.

Model method of adjustment based on bone combination of the invention is due to including: to obtain initial model's model；According to initial model's model, at least two bony areas are divided；The size interval value of preset each bony areas is imported into model；The bony areas and corresponding setting value of input are received, model is adjusted； Wherein the setting value is in the range of the size interval value.In this way, so that it may it allows user to adjust model's model according to their own needs, adjusts the size of each bony areas, so that final model be allowed to be consistent with expected stature, facilitate user to carry out simulation and the operation such as try on a dress, it is more flexible.

Detailed description of the invention

Fig. 1 is the flow chart of the image partition method based on genetic algorithm of the embodiment of the present invention；

Fig. 2 is the schematic diagram of the image segmentation system based on genetic algorithm of the embodiment of the present invention.

Specific embodiment

Although operations are described as the processing of sequence by flow chart, many of these operations can be implemented concurrently, concomitantly or simultaneously.The sequence of operations can be rearranged.Processing can be terminated when its operations are completed, it is also possible to have the additional step being not included in attached drawing.Processing can correspond to method, function, regulation, subroutine, subprogram etc..

Computer equipment includes user equipment and the network equipment.Wherein, user equipment or client include but is not limited to computer, smart phone, PDA etc.；The network equipment includes but is not limited to single network server, the server group of multiple network servers composition or the cloud consisting of a large number of computers or network servers based on cloud computing.Computer equipment can isolated operation realize the present invention, also can access network and the present invention realized by the interactive operation with other computer equipments in network.Network locating for computer equipment includes but is not limited to internet, wide area network, Metropolitan Area Network (MAN), local area network, VPN network etc..

It may have been used term " first ", " second " etc. herein to describe each unit, but these units should not be limited by these terms, the use of these items is only for distinguish a unit with another unit.Term "and/or" used herein above includes any and all combinations of associated item listed by one of them or more.When a unit referred to as " connects " or when " coupled " to another unit, can be connected or coupled to another unit, or may exist temporary location.

Term used herein above is not intended to limit exemplary embodiment just for the sake of description specific embodiment.Unless the context clearly dictates otherwise, otherwise singular used herein above "one", " one " also attempt to include plural number.It is to be further understood that, term " includes " and/or "comprising" used herein above provide the presence of stated feature, integer, step, operation, unit and/or component, and do not preclude the presence or addition of other one or more features, integer, step, operation, unit, component and/or combination thereof.

The invention will be further described with preferred embodiment with reference to the accompanying drawing.

As shown in Figure 1, disclosing a kind of model method of adjustment based on bone combination in the present embodiment, comprising:

S101, initial model's model is obtained；

S102, according to initial model's model, divide at least two bony areas；

S103, the size interval value of preset each bony areas is imported into model, obtains parameterized model；

S104, the bony areas and corresponding setting value for receiving input adjust model；Wherein the setting value is in the range of the size interval value.

The model method of adjustment based on bone combination of the embodiment of the present invention is due to including: to obtain initial model's model；According to initial model's model, at least two bony areas are divided；The size interval value of preset each bony areas is imported into model；The bony areas and corresponding setting value of input are received, model is adjusted；Wherein the setting value is in the range of the size interval value.In this way, so that it may it allows user to adjust model's model according to their own needs, adjusts the size of each bony areas, so that final model be allowed to be consistent with expected stature, facilitate user to carry out simulation and the operation such as try on a dress, it is more flexible.

In the present embodiment, initial model's model in step S101 be can be by developer's production, be also possible to the male model imported, as shown in Fig. 2, being initial model's model, these model stock sizes are fixed, can not flexibly adjustment stature.These initial model's models can then be divided, division, which can be, cuts different regions open, forms individually adjustment module, facilitate adjustment, then to each individual region input interval value, the region of parametrization is formed, is then being combined, form parameterized model, as shown in figure 3, in this way user can each section region to model individually adjusted, to reach desired stature, the operation such as clothes is tried on, it is user-friendly.

Specifically, as shown in connection with fig. 2, bony areas includes at least neck area, chest area, lumbar region, seat area and leg area.It is divided in this way according to public cognition, it can be convenient the Position Approximate that user knows each region, user facilitated to be adjusted, in addition these regions and the degree of correlation worn the clothes are higher, and the whether suitable region of the middle primary part observation that tries on a dress, therefore the size interval value in these regions is more important.Certainly, bony areas further includes remaining region, and when division can also individually mark off, such as arm region etc..

According to one of example, the size interval value of neck area includes the perimeter interval value of neck, and the upper limit of the perimeter interval value of the neck is 1.4 times of preset reference value, the perimeter area of the neck Between the lower limit that is worth be 0.8 times of preset reference value.It is specific as shown in table 1 below,

Table 1:

In the first row shown in table 1, variation bone title is to represent the title of the bone of change in size, is the size of neck, the particularly perimeter of neck in this table 1；Thin neck represents the lower limit of neck perimeter, is 33.49cm, and it is 37.88cm that default, which represents a reference value of neck perimeter, and thick neck represents the high limit of size of neck perimeter, is 45.73cm；It can be adjusted according to the ratio of a reference value when what adjustment mode represented is user's adjustment, it is more accurate in this way.In 1 second row of table, in Character1_Neck_Scale.scaleX, Character1 is characterized 1, Neck represents neck, Scale represents size, and scaleX represents size in X-direction, therefore Character1_Neck_Scale.scaleX representative is exactly the size of neck in the X direction, it is subject to left-handed coordinate system in the present embodiment, full text is.0.8 represent be thin neck perimeter (i.e. lower limit) be to default 0.8 times of perimeter, and 1 natural representative's is 1 times for defaulting Zhou Changwei default perimeter, 1.4 1.4 times for being that thick neck perimeter (i.e. the upper limit) is default perimeter represented.Other tables are meant that essentially identical below.In 1 the third line of table, what Character1_Neck_Scale.scaleZ was represented is the size of neck in z-direction.Because in Y-direction generally with the degree of correlation of wearing the clothes it is smaller, therefore can not adjust, use the moulded dimension of default.To sum up, the perimeter interval value of neck is 33.49cm between 45.73cm, a reference value 37.88cm.

According to another one example, the size interval value of chest area includes the perimeter interval value of chest, and the perimeter interval value of the chest is in 86.33cm between 129.99cm, and wherein the perimeter a reference value of chest is 98.21cm.It is specific as shown in table 2 below,

Table 2:

In table 2, it is 86.33cm that the narrow bust of the first row represented, which is the lower limit of thorax perimeters (i.e. bust),；Default representative is a reference value of bust, is 98.21cm；What wide bust represented is the upper limit of bust, is 129.99cm.Second row is to fourth line An_Character1_Spine2_Scale.scaleX, An_Character1_Spine2_Scale.scaleY, what is represented in An_Character1_Spine2_Scale.scaleZ is the size of vertebra, wherein X, 0.8 times be worth on the basis of the lower limit of size in Z-direction, 1.4 times be worth on the basis of the upper limit.Size in Y-direction remains unchanged.Fifth line is to the 7th row Character1_LeftChest_Scale.rotateX, Character1_LeftChest_Scale.scaleX, what is represented in Character1_LeftChest_Scale.scaleZ is left-half bust size, wherein the lower limit of the size in X-direction is 0.9 times of a reference value, and the upper limit is 1.5 times of a reference value；The lower limit of size in Z-direction is 0.8 times of a reference value, and the upper limit is 1 times of a reference value.8th to the tenth row Character1_RightChest_Scale.rotateX, Character1_RightChest_Scale.scaleX, what is represented in Character1_RightChest_Scale.scaleZ is right half part bust size, wherein the lower limit of the size in X-direction is 0.9 times of a reference value, and the upper limit is 1.5 times of a reference value；The lower limit of size in Z-direction is 0.8 times of a reference value, and the upper limit is 1 times of a reference value.

According to another one example, the size interval value of lumbar region includes the perimeter interval value of waist, and the upper limit of the perimeter interval value of the waist is 1.8 times of preset reference value, the perimeter area of the neck Between the lower limit that is worth be 0.8 times of preset reference value.It is specific as shown in table 3 below,

Table 3:

In table 3, thin waist represents the lower limit of perimeter (waistline) size of waist in the first row, is 66.887cm, and it is 73.06cm that default, which represents a reference value of waistline, and fat waist represents the upper limit of waistline, is 130.473cm.Second row to fourth line An_Character1_Spine1_Scale.scaleX, An_Character1_Spine1_Scale.scaleY, what An_Character1_Spine1_Scale.scaleZ was represented is waist in X, Y, size section in Z-direction, wherein X, 0.8 times be worth in Z-direction on the basis of lower size limit, 1.8 times be worth on the basis of up and down, the size in Y-direction remains unchanged.

According to another one example, the size interval value of seat area includes the perimeter interval value of buttocks, and the perimeter interval value of the buttocks is in 80.696cm between 133.754cm, and wherein the perimeter a reference value of buttocks is 92.352cm.It is specific as shown in table 4 below,

Table 4:

In table 4, it is 133.754cm that the lower limit of the perimeter (hip circumference) for the buttocks that the small stern of the first row represents, which is 80.696cm, and it is 92.352cm that default, which represents hip circumference a reference value, and big stern represents the upper limit of hip circumference.Second row An_Character1_Hips_Scale.scaleX into fourth line, An_Character1_Hips_Scale.scaleY, An_Character1_Hips_Scale.scaleZ respectively represents X, Y, size in Z-direction, wherein X, 0.8 times be worth in Z-direction on the basis of lower size limit, 1.55 times be worth on the basis of up and down, the size in Y-direction remains unchanged.Fifth line An_Character1_Spine_Scale.scaleX into the 7th row, An_Character1_Spine_Scale.scaleY, the vertebra relevant to buttocks that An_Character1_Spine_Scale.scaleZ is represented is in X, Y, size in Z-direction, wherein wherein X, be worth on the basis of lower size limit in Z-direction 0.8 times, 1.68 times be worth on the basis of up and down, the size in Y-direction remains unchanged.

According to another one example, the size interval value of leg area includes the length of interval value of leg, the perimeter interval value of thigh and the perimeter interval value of shank；The length of interval value of the leg is in 91.280cm between 99.274cm, and wherein the length standard value of leg is 95.277cm；The upper limit of the perimeter interval value of the thigh is 1.4 times of preset reference value, and the lower limit of the perimeter interval value of the thigh is 0.8 times of preset reference value；The upper limit of the perimeter interval value of the shank is 1.4 times of preset reference value, and the lower limit of the perimeter interval value of the shank is 0.8 times of preset reference value.As shown in table 5 to table 7,

Table 5:

Table 6:

Table 7:

In table 5, it is 91.280cm that short-leg, which represents the long lower limit of leg, in the first row, and default representative is the long a reference value of leg, is 95.277cm, and it is 99.274cm that long leg, which represents the long upper limit of leg,.Second row An_Character1_Spine1_Scale.translateY represents the backbone size relevant to leg length in Y-direction, -2 representatives are the sizes that 2 units are subtracted in benchmark vertebra size, the size of a unit is 1.9985cm in this table, therefore the size of 2 units is 3.997cm, lower limit in Y-direction is the size that benchmark backbone size subtracts 2 units, and the upper limit of Y-direction is benchmark backbone size plus 2 unit sizes.An_Character1_Hips_Scale.translateY is represented to the long relevant buttocks size of leg in Y-direction, and the upper limit is the size that benchmark buttocks size subtracts 4 units, i.e., 4*1.9985cm, the upper limit are the size that benchmark buttocks size adds 4 units.An_Character1_Spine_Scale.translateY represents another backbone size relevant to leg length in Y-direction, and the upper limit is the size that benchmark backbone size subtracts 4 units, i.e. 4*1.9985cm, the upper limit is the size that benchmark backbone size adds 4 units.An_Character1_LeftUpLeg_Scale.translateY represents the left leg size in Y-direction, is limited to the size that reference dimension subtracts 4 units, i.e. 4*1.9985cm, and the upper limit is the size that benchmark size adds 4 units.An_Character1_LeftUpLegRoll_Scale.translateX represents the left leg size in X-direction, and lower limit is the size that benchmark size adds 3 units, and the upper limit is the size of the benchmark size unit that subtracts 3.An_Character1_LeftLeg_Scale.translateY represents the left leg size in Y-direction, and lower limit is the size that benchmark size subtracts 2 units, and the upper limit is the size that benchmark size adds 2 units.An_Character1_LeftLegRoll_Scale.translateY represents left leg size in Y-direction, and lower limit is the size that benchmark size subtracts 2 units, and the upper limit is the size that benchmark size adds 2 units.An_Character1_RightUpLeg_Scale.translateY represents the upper right leg size of Y-direction, and lower limit is the size that benchmark size adds 4 units, and the upper limit is the size of the benchmark size unit that subtracts 4.An_Character1_RightUpLegRoll_Scale.translateX represents the right leg size of X-direction, and lower limit is the size that benchmark size subtracts 3 units, and the upper limit is the size that benchmark size adds 3 units.An_Character1_RightLeg_Scale.translateY represents the upper right leg size of Y-direction, and lower limit is the size that benchmark size adds 2 units, and the upper limit is the size of the benchmark size unit that subtracts 2.An_Character1_RightLegRoll_Scale.translateY represents the upper right leg size of Y-direction, and lower limit is the size that benchmark size adds 1 unit, and the upper limit is the size of the benchmark size unit that subtracts 1.

It is the perimeter dimension of thigh in table 6, it is 64.833cm that the thin thigh of the first row, which represents the lower limit of thigh perimeter, is 43.364cm, is defaulted as a reference value, is 53.883cm, and coarse leg represents the upper limit of thigh perimeter.The lower limit of size on tri- directions wherein X, Y, Z is 0.8 times of a reference value, 1.4 times be worth on the basis of the upper limit.

Table 7 is the perimeter dimension of shank, and the tiny leg of the first row represents the lower limit of shank perimeter, is 31.720cm, is defaulted as a reference value, is 39.309cm, and thick shank represents the upper limit of shank perimeter, is 47.074cm.The lower limit of size on tri- directions wherein X, Y, Z is 0.8 times of a reference value, 1.4 times be worth on the basis of the upper limit.

According to another one example, the bony areas further includes arm region, and the interval value in arm region includes the perimeter interval value of arm and the length of interval value of arm；The perimeter interval value of the arm is 25.653cm to 43.15cm, and wherein the perimeter a reference value of arm is 32.0cm；The length of the arm Degree interval value is 40.37cm to 52.19cm, and wherein the length standard value of arm is 46.28cm.As shown in table 8 and table 9,

Table 8:

Table 9:

Illustrate in table 8 for the perimeter interval value of arm, illustrate meaning by taking Character1_LeftArm_Scale.scaleY as an example, Character1 is characterized 1, LeftArm represents left arm, Scale represents size, scaleY represents size in Y-direction, therefore Character1_LeftArm_Scale.scaleY representative is exactly the size of left arm in the Y direction.Character1_LeftArmRoll_Scale.scaleY, which is represented, rotates size in Y-direction, 0.8,1,1.3,1.25,1.6 etc. represents 0.8 times of (default) size on the basis of the size, 1 times, 1.3 times, 1.25 times, 1.6 times etc..Above-mentioned implication also illustrates in other tables, repeats no more.

It is the length of arm in table 9 (plus the size of shoulder), illustrate meaning by taking An_Character1_LeftArm.translateX as an example, An_Character1 is characterized 1, LeftArm represents left arm, translateX represents X-direction size conversion, 11.795 units represent lower limit, and a unit is about 1.999cm in this table, and all algorithms can round off calculating.Remaining adjustment mode is ratio, and 0.8 represents 0.8 times be worth on the basis of lower limit value, and 1.2 represent 1.2 times be worth on the basis of upper limit value.Above-mentioned implication also illustrates in other tables, repeats no more.

According to one of example, after the step of obtaining parameterized model, the method further includes: the height interval value of the model is set in 140cm between 200cm, and wherein height a reference value is 184.2cm.As shown in table 10,

Table 10:

In table 10, An_Character_Grobal.scaleX, An_Character_Grobal.scaleY, An_Character_Grobal.scaleZ respectively represent X, Y, the size in Z-direction, lower limit It is 0.76 times of a reference value, the upper limit is 1.086 times of a reference value.Short is height threshold, is 140cm, is defaulted as height a reference value, is 184.2cm, and the high-order height upper limit is 200cm.

As shown in figure 4, the embodiment of the present invention discloses a kind of model adjustment system based on bone combination, comprising:

Module 201 is obtained, for obtaining initial model's model；

Division module 202, for dividing at least two bony areas according to initial model's model；

Import modul 203 obtains parameterized model for the size interval value of preset each bony areas to be imported into model；

Module 204, bony areas for receiving input and corresponding setting value are adjusted, model is adjusted；Wherein the setting value is in the range of the size interval value.

In this way, so that it may user will be allowed to adjust model's model according to their own needs, adjust the size of each bony areas, so that final model be allowed to be consistent with expected stature, facilitate user to carry out simulation and the operation such as try on a dress, it is more flexible.

In the present embodiment, initial model's model be can be by developer's production, be also possible to the male model imported, these model stock sizes are fixed, can not flexibly adjustment stature.These initial model's models can then be divided, division, which can be, cuts different regions open, forms individually adjustment module, facilitates adjustment, then to each individual region input interval value, the region for forming parametrization, is then being combined, and forms parameterized model, in this way user can each section region to model individually adjusted, to reach desired stature, the operation such as clothes is tried on, it is user-friendly.

Specifically, bony areas includes at least neck area, chest area, lumbar region, seat area and leg area.It is divided in this way according to public cognition, it can be convenient the Position Approximate that user knows each region, user facilitated to be adjusted, in addition these regions and the degree of correlation worn the clothes are higher, and the whether suitable region of the middle primary part observation that tries on a dress, therefore the size interval value in these regions is more important.Certainly, bony areas further includes remaining region, and when division can also individually mark off, such as arm region etc..

Remaining content is described in the description of the above method, be can refer to above, is repeated no more.

The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, without departing from the inventive concept of the premise, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to protection scope of the present invention.

Claims

A kind of model method of adjustment based on bone combination characterized by comprising

Obtain initial model's model；

According to initial model's model, at least two bony areas are divided；

The size interval value of preset each bony areas is imported into model, parameterized model is obtained；

The bony areas and corresponding setting value of input are received, model is adjusted；Wherein the setting value is in the range of the size interval value.
Model method of adjustment according to claim 1, which is characterized in that the bony areas includes at least neck area, chest area, lumbar region, seat area and leg area.
Model method of adjustment according to claim 2, it is characterized in that, the size interval value of neck area includes the perimeter interval value of neck, and the upper limit of the perimeter interval value of the neck is 1.4 times of preset reference value, and the lower limit of the perimeter interval value of the neck is 0.8 times of preset reference value.
Model method of adjustment according to claim 2, which is characterized in that the size interval value of chest area includes the perimeter interval value of chest, and the perimeter interval value of the chest is in 86.33cm between 129.99cm, and wherein the perimeter a reference value of chest is 98.21cm.
Model method of adjustment according to claim 2, it is characterized in that, the size interval value of lumbar region includes the perimeter interval value of waist, and the upper limit of the perimeter interval value of the waist is 1.8 times of preset reference value, and the lower limit of the perimeter interval value of the neck is 0.8 times of preset reference value.
Model method of adjustment according to claim 2, it is characterized in that, the size interval value of seat area includes the perimeter interval value of buttocks, and the perimeter interval value of the buttocks is in 80.696cm between 133.754cm, and wherein the perimeter a reference value of buttocks is 92.352cm.
Model method of adjustment according to claim 2, which is characterized in that the size interval value of leg area includes the length of interval value of leg, the perimeter interval value of thigh and the perimeter interval value of shank；The length of interval value of the leg is in 91.280cm between 99.274cm, and wherein the length standard value of leg is 95.277cm；The upper limit of the perimeter interval value of the thigh is 1.4 times of preset reference value, and the lower limit of the perimeter interval value of the thigh is 0.8 times of preset reference value；The upper limit of the perimeter interval value of the shank is 1.4 times of preset reference value, and the lower limit of the perimeter interval value of the shank is 0.8 times of preset reference value.
Model method of adjustment according to claim 2, which is characterized in that the bony areas further includes arm region, and the interval value in arm region includes the perimeter interval value of arm and the length of interval value of arm；The perimeter interval value of the arm is 25.653cm to 43.15cm, and wherein the perimeter a reference value of arm is 32.0cm；The length of interval value of the arm is 40.37cm to 52.19cm, wherein arm The length standard value of wing is 46.28cm.
Model method of adjustment according to claim 1, which is characterized in that after the step of obtaining parameterized model, the method further includes: the height interval value of the model is set in 140cm between 200cm, and wherein height a reference value is 184.2cm.
A kind of model adjustment system based on bone combination characterized by comprising

Module is obtained, for obtaining initial model's model；

Division module, for dividing at least two bony areas according to initial model's model；

Import modul obtains parameterized model for the size interval value of preset each bony areas to be imported into model；

Module, bony areas for receiving input and corresponding setting value are adjusted, model is adjusted；Wherein the setting value is in the range of the size interval value.