CN113032962A - Garment structure virtual simulation system and method for analyzing garment pattern - Google Patents
Garment structure virtual simulation system and method for analyzing garment pattern Download PDFInfo
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- CN113032962A CN113032962A CN202110209194.6A CN202110209194A CN113032962A CN 113032962 A CN113032962 A CN 113032962A CN 202110209194 A CN202110209194 A CN 202110209194A CN 113032962 A CN113032962 A CN 113032962A
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- 238000000034 method Methods 0.000 title claims abstract description 28
- 238000013461 design Methods 0.000 claims abstract description 73
- 238000004088 simulation Methods 0.000 claims abstract description 23
- 238000012790 confirmation Methods 0.000 claims abstract description 17
- 238000003708 edge detection Methods 0.000 claims description 12
- 239000004744 fabric Substances 0.000 claims description 7
- 230000000007 visual effect Effects 0.000 claims description 7
- 238000012986 modification Methods 0.000 claims description 6
- 230000004048 modification Effects 0.000 claims description 6
- 238000001931 thermography Methods 0.000 claims description 6
- 238000012545 processing Methods 0.000 claims description 5
- 239000000463 material Substances 0.000 claims description 4
- 238000004458 analytical method Methods 0.000 claims description 3
- 230000006978 adaptation Effects 0.000 claims 1
- 230000000694 effects Effects 0.000 description 3
- 230000002159 abnormal effect Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F30/00—Computer-aided design [CAD]
- G06F30/20—Design optimisation, verification or simulation
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T17/00—Three dimensional [3D] modelling, e.g. data description of 3D objects
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T7/00—Image analysis
- G06T7/10—Segmentation; Edge detection
- G06T7/13—Edge detection
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- G—PHYSICS
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- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2113/00—Details relating to the application field
- G06F2113/12—Cloth
Abstract
The invention discloses a virtual simulation system and a virtual simulation method for a clothing structure for analyzing clothing patterns, wherein the method comprises the steps of S01 constructing three-dimensional models of all parts of clothing when the parts of clothing are worn under different sizes and independently generating pattern data matched and associated with the three-dimensional models; s02, constructing matching combination data of all parts of the garment in different sizes and different style modes, and setting the matching combination data as initial combination data; s03, one of the initial combination data is called to generate the pattern data of each part of the clothing corresponding to the initial combination data, and the pattern data corresponding to more than one part in each part of the clothing is designed and modified to obtain the re-version design combination data; s04, according to the size corresponding to the combined data of the re-version design, establishing a three-dimensional model of the human body corresponding to the size, then guiding all parts of the clothes of the combined data of the re-version design into the three-dimensional model of the human body for simulation dressing, and outputting the wearing model of the re-version design and/or the format confirmation information.
Description
Technical Field
The invention belongs to the technical field of garment design assistance, and particularly relates to a garment structure virtual simulation system and method for analyzing a garment pattern.
Background
The design of the clothing pattern is used as an important link of the clothing design, and the design not only relates to the effect after final sample production, but also relates to the complexity degree in subsequent processing. With the increasingly simplified and humanized clothes design, the clothes pattern of the template can be quickly called, drawn and modified by means of the preset storage capacity of a computer at present to obtain the clothes design after the template is changed, however, the traditional auxiliary system only stores the clothes pattern template, and a large blank still exists on how to convert the clothes pattern template into a three-dimensional structure and how to quickly match or quickly adjust the original design, so that the research on how to simulate, analyze and display the clothes pattern is a topic with positive practical significance.
Disclosure of Invention
Aiming at the situation of the prior art, the invention aims to provide a garment structure virtual simulation system and a garment structure virtual simulation method for analyzing a garment pattern, which are reliable in implementation, convenient to operate, humanized and intuitive in feedback response.
In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:
the virtual simulation method for the clothing structure for analyzing the clothing pattern comprises the following steps:
s01, constructing three-dimensional models of the clothes when the clothes are worn at different sizes, and independently generating pattern data matched and associated with the three-dimensional models and critical body sizes corresponding to the clothes models;
s02, constructing matching combination data of all parts of the garment in different sizes and different style modes, setting the matching combination data as initial combination data, wherein the initial combination data are correspondingly associated with the pattern data of all the parts of the garment corresponding to the initial combination data, and the edges of the pattern data of all the parts of the garment are correspondingly provided with initial seam allowance marking information;
s03, calling one of the initial combination data, generating pattern data of each part of the garment corresponding to the initial combination data, carrying out design modification on the pattern data corresponding to more than one part of each part of the garment, and marking the seam allowance marking information of the modified pattern data to obtain the re-version design combination data, wherein the re-version design combination data is associated with the pattern data corresponding to the re-version design combination data;
s04, establishing a human body three-dimensional model corresponding to the size according to the size corresponding to the re-version design combination data, then guiding all parts of the clothes of the re-version design combination data into the human body three-dimensional model for simulation dressing, outputting a re-version design dressing model, and simultaneously outputting format confirmation information when the parts of the clothes simulating the dressing have dressing interference with the surface of the human body three-dimensional model or the dressing clearance allowance is larger than a preset value.
As a possible implementation manner, further, the combined data of the revised design further includes the material of the fabric used by each part of the garment and the elastic stretch coefficient α of the fabric within the preset allowable elastic stretch range, when each part of the garment of the combined data of the revised design is introduced into the three-dimensional model of the human body for simulation of wearing, the inner surface of the garment is smoothly bent and adapted along the outer surface of the three-dimensional model of the human body, when the inner surface area S1 of the garment is smaller than the outer surface area S2 of the corresponding region of the three-dimensional model of the human body when wearing, the inner surface area S1 of the garment is multiplied by the elastic stretch coefficient α to obtain an elastic adapted area S1 ', when S1 ' is greater than S2, S2 is divided by S1 to obtain α ', then the region where the corresponding part of the garment interferes with the outer surface of the three-dimensional model of the human body is adaptively stretched, and the stretch amount is smaller than, when the stretching amount is alpha' times and wearing interference still exists, the layout confirmation information is simultaneously output.
As a possible implementation manner, further, the three-dimensional human body model established according to the size corresponding to the modified design combination data includes a preset three-dimensional human body model and a customized three-dimensional human body model, and the customized three-dimensional human body model is established by scanning through a three-dimensional scanning device.
As a preferred implementation choice, preferably, the method for creating the customized three-dimensional model of the human body by scanning with a three-dimensional scanning device includes: the method comprises the steps of carrying out multi-dimensional scanning on a human body through an infrared thermal imaging device, then carrying out edge recognition on a scanning result of the infrared thermal imaging device through an edge detection algorithm to obtain the body size of a scanned person, and establishing a customized human body three-dimensional model according to the body size.
As a preferred implementation choice, preferably, the edge detection algorithm includes a Scharr edge detection algorithm or a canny edge detection algorithm.
As a possible embodiment, further, the garment components include a top component and a trousers component;
the upper garment component at least comprises: more than one of collar, sleeve, front body, back body, pocket and hood;
the pant component includes: more than one of the front body, the back body, the pocket and the waist of trousers.
As a possible implementation manner, the initial combination data further includes shrinkage rate data of each part of the garment, wherein when the parts of the garment with the modified design combination data are imported into the three-dimensional human body model for simulation of dressing, the simulation is divided into non-shrunk dressing simulation and shrunk dressing simulation, and when the parts of the garment without shrinking dressing simulation or shrunk dressing simulation have dressing interference with the surface of the three-dimensional human body model or the remaining dressing gap is larger than a preset value, the layout confirmation information is simultaneously output.
Based on the virtual simulation method, the invention also provides a garment structure virtual simulation system for analyzing the garment pattern, which comprises the following steps:
the storage unit is used for storing three-dimensional models of all parts of the garment when the parts of the garment are worn at different sizes, independently generating paper pattern data matched and associated with the three-dimensional models, critical body dimensions corresponding to the models of all the parts of the garment to be worn, and matching combination data of all the parts of the garment in different sizes and different style modes;
the data acquisition module is used for calling the data of all parts of the garment stored in the storage unit, the corresponding pattern data of the parts of the garment and the matching combination data of all parts of the garment in the same size and different style modes;
the layout adjustment module is used for receiving the data of each part of the garment, the corresponding pattern data of each part of the garment, and matching combination data of each part of the garment in the same size and different style modes, which are acquired by the data module, and carrying out design modification on the pattern data of each part of the garment belonging to the matching combination data to generate re-layout design combination data;
and the three-dimensional data processing module is used for receiving the reprint design combination data and constructing a human body three-dimensional model corresponding to the size of the reprint design combination data, guiding all parts of the clothes of the reprint design combination data into the human body three-dimensional model for simulating dressing, outputting the reprint design dressing model, and simultaneously outputting format confirmation information when the parts of the clothes simulating dressing have dressing interference with the surface of the human body three-dimensional model or the dressing clearance allowance is larger than a preset value.
And the visual output module is used for receiving the re-version design wearing model and/or outputting the format confirmation information and visually displaying. As a possible implementation manner, further, the visual output module is a display screen, an AR wearable device, or a holographic projection device.
Based on the virtual simulation method, the invention further provides a computer-readable storage medium, wherein at least one instruction, at least one program, a code set or an instruction set is stored in the storage medium, and the at least one instruction, the at least one program, the code set or the instruction set is loaded by a processor and executes the virtual simulation method for the garment structure, which is used for analyzing the garment pattern.
By adopting the technical scheme, compared with the prior art, the invention has the beneficial effects that: the scheme has the advantages that the three-dimensional models of all parts of the garment with different sizes are constructed and stored in advance when the garment is worn, the corresponding paper pattern data are associated, the preset initial combination data are further generated by combining all the parts of the garment, a designer can directly call one combination data as the initial design to modify according to needs, the edition-changing design combination data generated by adjustment and modification can display the edition-changing effect by simulating the clothes, and the layout confirmation information is output through the wearing matching condition of the three-dimensional models of the human body and all the parts of the garment with the edition-changing design combination data so that the designer can know whether abnormal problems exist in the modified layout, so that the design problems can be responded and fed back quickly and intuitively, and the design assistance humanization and the high efficiency are improved.
Drawings
The invention will be further explained with reference to the drawings and the detailed description below:
FIG. 1 is a schematic flow chart of a simulation method according to the present invention;
FIG. 2 is a schematic connection diagram of the simulation system of the present invention.
Detailed Description
As shown in fig. 1, the method for virtually simulating a garment structure for analyzing a garment pattern in the present embodiment includes:
s01, constructing three-dimensional models of the clothes when the clothes are worn at different sizes, and independently generating pattern data matched and associated with the three-dimensional models and critical body sizes corresponding to the clothes models;
s02, constructing matching combination data of all parts of the garment in different sizes and different style modes, setting the matching combination data as initial combination data, wherein the initial combination data are correspondingly associated with the pattern data of all the parts of the garment corresponding to the initial combination data, and the edges of the pattern data of all the parts of the garment are correspondingly provided with initial seam allowance marking information;
s03, calling one of the initial combination data, generating pattern data of each part of the garment corresponding to the initial combination data, carrying out design modification on the pattern data corresponding to more than one part of each part of the garment, and marking the seam allowance marking information of the modified pattern data to obtain the re-version design combination data, wherein the re-version design combination data is associated with the pattern data corresponding to the re-version design combination data;
s04, establishing a human body three-dimensional model corresponding to the size according to the size corresponding to the re-version design combination data, then guiding all parts of the clothes of the re-version design combination data into the human body three-dimensional model for simulation dressing, outputting a re-version design dressing model, and simultaneously outputting format confirmation information when the parts of the clothes simulating the dressing have dressing interference with the surface of the human body three-dimensional model or the dressing clearance allowance is larger than a preset value.
Because the corrected and confirmed re-version design combination data may have a further re-version prospect, the re-version design combination data without wearing interference or other bad states can be updated and stored in the storage unit and stored as matching combination data belonging to one style for subsequent calling and further re-version design.
In order to fully consider the material and the fabric of the garment, the combined data of the re-version design also comprises the fabric material adopted by each part of the garment and the elastic stretching coefficient alpha of the fabric within the preset allowable elastic stretching range, when each part of the garment of the combined data of the re-version design is introduced into the three-dimensional model of the human body for simulating the dress, the inner surface of the garment is smoothly bent and adapted along the outer surface of the three-dimensional model of the human body, when the inner surface area S1 of the garment is smaller than the outer surface area S2 of the corresponding region of the three-dimensional model of the human body when the dress is worn, the inner surface area S1 of the garment is multiplied by the elastic stretching coefficient alpha to obtain an elastic adapted area S1 ', when S1 ' is larger than S2, S2 is divided by S1 to obtain alpha ', then the region of the corresponding garment part and the outer surface of the three-dimensional model of the human body, which is in, when the stretching amount is alpha' times and wearing interference still exists, the layout confirmation information is simultaneously output.
In order to facilitate customized design, as a possible implementation manner, the three-dimensional human body model established according to the size corresponding to the reprint design combination data comprises a preset three-dimensional human body model and a customized three-dimensional human body model, and the customized three-dimensional human body model is established by scanning through a three-dimensional scanning device; as a preferred implementation choice, preferably, the method for creating the customized three-dimensional model of the human body by scanning with a three-dimensional scanning device includes: carrying out multi-dimensional scanning on a human body through infrared thermal imaging equipment, then carrying out edge identification on a scanning result of the infrared thermal imaging equipment through an edge detection algorithm to obtain the body size of a scanned person, and establishing a customized human body three-dimensional model according to the body size; as a preferred implementation choice, preferably, the edge detection algorithm includes a Scharr edge detection algorithm or a canny edge detection algorithm.
In addition, as a possible implementation mode, further, the clothes parts comprise a coat part and a trousers part;
the upper garment component at least comprises: more than one of collar, sleeve, front body, back body, pocket and hood;
the pant component includes: more than one of the front body, the back body, the pocket and the waist of trousers.
In order to facilitate analysis of wearing changes of the garment after multiple changing, as a possible implementation manner, the initial combination data further includes shrinkage rate data of each part of the garment, wherein when each part of the garment with the re-versioned design combination data is led into the three-dimensional human body model to simulate wearing, the simulation is divided into non-shrunk wearing simulation and shrunk wearing simulation, and when the wearing interference exists between each part of the garment and the surface of the three-dimensional human body model when the non-shrunk wearing simulation or the shrunk wearing simulation exists or the wearing clearance allowance is larger than a preset value, format confirmation information is simultaneously output.
Referring to fig. 2, based on the virtual simulation method, the present invention further provides a garment structure virtual simulation system for analyzing a garment pattern, which includes:
the storage unit 1 is used for storing three-dimensional models of various parts of the garment when the parts of the garment are worn at different sizes, independently generating pattern data matched and associated with the three-dimensional models, critical body dimensions corresponding to the models of the parts of the garment, and matching and combining data of the parts of the garment in different sizes and different style modes;
the data acquisition module 2 is used for calling the data of all the parts of the garment stored in the storage unit 1, the corresponding pattern data of the parts of the garment and the matching combination data of all the parts of the garment in the same size and different style modes;
the format adjusting module 3 is used for receiving the data of each part of the garment obtained by the data module 2, the corresponding pattern data thereof and matching combination data of each part of the garment in the same size and different style modes, and is used for designing and modifying the pattern data of each part of the garment subordinate to the matching combination data to generate re-version design combination data;
and the three-dimensional data processing module 4 is used for receiving the re-version design combination data and constructing a human body three-dimensional model corresponding to the size of the re-version design combination data, guiding all parts of the clothes of the re-version design combination data into the human body three-dimensional model for simulating dressing, and outputting a re-version design dressing model, wherein when dressing simulation is carried out, dressing interference exists between all parts of the clothes and the surface of the human body three-dimensional model, or the dressing clearance allowance is larger than a preset value, the format confirmation information is simultaneously output.
And the visual output module 5 is used for receiving the re-version design wearing model and/or outputting the format confirmation information and visually displaying.
In order to facilitate the visual display of the design effect, as a possible implementation manner, further, the visual output module 5 may be a display screen, an AR wearable device, or a holographic projection device.
In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be substantially or partially implemented in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.
The foregoing is directed to embodiments of the present invention, and equivalents, modifications, substitutions and variations such as will occur to those skilled in the art, which fall within the scope and spirit of the appended claims.
Claims (10)
1. The virtual simulation method of the clothing structure for analyzing the clothing pattern is characterized in that: it includes:
constructing three-dimensional models of each part of the garment when the parts of the garment are worn at different sizes, and independently generating paper pattern data matched and associated with the three-dimensional models and critical body dimensions corresponding to the models of the parts of the garment;
constructing matching combination data of all parts of the garment in different sizes and different style modes, setting the matching combination data as initial combination data, wherein the initial combination data is correspondingly associated with pattern data of all the parts of the garment corresponding to the initial combination data, and the edges of the pattern data of all the parts of the garment are correspondingly provided with initial seam allowance marking information;
calling one of the initial combination data, generating pattern data of each part of the garment corresponding to the initial combination data, designing and modifying the pattern data corresponding to more than one part of each part of the garment, and marking the seam allowance marking information of the modified pattern data to obtain the re-version design combination data, wherein the re-version design combination data is associated with the pattern data corresponding to the re-version design combination data;
and establishing a human body three-dimensional model corresponding to the size according to the size corresponding to the re-version design combination data, then guiding all parts of the clothes of the re-version design combination data into the human body three-dimensional model for simulating dressing, outputting a re-version design dressing model, and simultaneously outputting format confirmation information when the parts of the clothes simulating dressing have dressing interference with the surface of the human body three-dimensional model or the dressing clearance allowance is larger than a preset value.
2. The method for virtually simulating a garment structure for analyzing a garment pattern according to claim 1, wherein: the reprinted design combination data also comprises fabric materials adopted by each part of the clothes and an elastic stretching coefficient alpha of the fabric within a preset allowable elastic stretching range, when each part of the clothes of the reprinted design combination data is led into a three-dimensional model of a human body to simulate dress, the inner surface of the clothes is smoothly bent and adapted along the outer surface of the three-dimensional model of the human body, when the area S1 of the inner surface of the clothes is smaller than the area S2 of the outer surface of the corresponding area of the three-dimensional model of the human body when the dress is worn, the area S1 of the inner surface of the clothes is multiplied by the elastic stretching coefficient alpha to obtain an elastic adaptation area S1 ', when S1' is larger than S2, S2 is divided by S1 to obtain alpha ', then the area where the corresponding clothes part and the outer surface of the three-dimensional model of the human body have wearing interference is adaptively stretched, the stretching amount is smaller than or equal to alpha', and when, the layout confirmation information is simultaneously output.
3. The method for virtually simulating a garment structure for analyzing a garment pattern according to claim 1, wherein: the human body three-dimensional model established according to the size corresponding to the reprint design combination data comprises a preset human body three-dimensional model and a customized human body three-dimensional model, and the customized human body three-dimensional model is established by scanning through a three-dimensional scanning device.
4. The method for virtually simulating a garment structure for analyzing a garment pattern according to claim 3, wherein: the method for scanning and establishing the customized human body three-dimensional model through the three-dimensional scanning equipment comprises the following steps: the method comprises the steps of carrying out multi-dimensional scanning on a human body through an infrared thermal imaging device, then carrying out edge recognition on a scanning result of the infrared thermal imaging device through an edge detection algorithm to obtain the body size of a scanned person, and establishing a customized human body three-dimensional model according to the body size.
5. The method for virtually simulating a garment structure for analyzing a garment pattern according to claim 4, wherein the method further comprises: the edge detection algorithm comprises a Scharr edge detection algorithm or a canny edge detection algorithm.
6. The method for virtually simulating a garment structure for analyzing a garment pattern according to claim 1, wherein: the parts of the clothes comprise a coat part and a trousers part;
the upper garment component at least comprises: more than one of collar, sleeve, front body, back body, pocket and hood;
the pant component includes: more than one of the front body, the back body, the pocket and the waist of trousers.
7. The method for virtually simulating a garment structure for analyzing a garment pattern according to claim 1, wherein: the initial combination data also comprises shrinkage rate data of all parts of the clothes, wherein when all parts of the clothes with the re-version design combination data are led into the three-dimensional model of the human body to simulate the clothes, the simulation is divided into non-shrunk clothes simulation and shrunk clothes simulation, and when the clothes parts are not shrunk clothes simulation or shrunk clothes simulation and the surface of the three-dimensional model of the human body have wearing interference or the wearing clearance allowance is larger than a preset value, the version confirmation information is output simultaneously.
8. The utility model provides a clothing structure virtual simulation system who carries out analysis to clothing paper sample which characterized in that: it includes:
the storage unit is used for storing three-dimensional models of all parts of the garment when the parts of the garment are worn at different sizes, independently generating paper pattern data matched and associated with the three-dimensional models, critical body dimensions corresponding to the models of all the parts of the garment to be worn, and matching combination data of all the parts of the garment in different sizes and different style modes;
the data acquisition module is used for calling the data of all parts of the garment stored in the storage unit, the corresponding pattern data of the parts of the garment and the matching combination data of all parts of the garment in the same size and different style modes;
the layout adjustment module is used for receiving the data of each part of the garment, the corresponding pattern data of each part of the garment, and matching combination data of each part of the garment in the same size and different style modes, which are acquired by the data module, and carrying out design modification on the pattern data of each part of the garment belonging to the matching combination data to generate re-layout design combination data;
and the three-dimensional data processing module is used for receiving the reprint design combination data and constructing a human body three-dimensional model corresponding to the size of the reprint design combination data, guiding all parts of the clothes of the reprint design combination data into the human body three-dimensional model for simulating dressing, outputting the reprint design dressing model, and simultaneously outputting format confirmation information when the parts of the clothes simulating dressing have dressing interference with the surface of the human body three-dimensional model or the dressing clearance allowance is larger than a preset value.
And the visual output module is used for receiving the re-version design wearing model and/or outputting the format confirmation information and visually displaying.
9. The system of claim 8, wherein the virtual simulation system for a garment structure for analyzing a garment pattern comprises:
the visual output module is a display screen, an AR wearable device or a holographic projection device.
10. A computer-readable storage medium, characterized in that: the storage medium stores at least one instruction, at least one program, a code set, or a set of instructions, which is loaded by a processor and executes a virtual simulation method for a garment structure, which implements analysis of a garment pattern according to any one of claims 1 to 7.
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