CN115438502A - Intelligent customization design system based on three-dimensional graphical editing - Google Patents

Abstract

The invention provides an intelligent customized design system based on three-dimensional graphical editing; the design system comprises a design engine providing a three-dimensional graphical design function, and a user can call a functional core of the design engine to create and edit a garment model by editing an operation interface provided by a client; the first user creating the clothing model can set the authority of other users, so that the other users can obtain the right to call and edit the first model created by the first user, and the first user can know the design parameter preferences of most users by viewing the modified values of the other users on the plurality of design parameters of the first model; the design system provides a simple and convenient garment design function for a plurality of users based on the cloud service through configuring a simple and convenient network and a simple and convenient operation environment, so that an original designer of the garment can obtain actual preference and requirements of more users on the garment in an original model keeping the design concept of the original designer.

Description

Intelligent customization design system based on three-dimensional graphical editing

Technical Field

The present invention relates to the field of image processing or generation. And particularly relates to an intelligent customized design system based on three-dimensional graphical editing.

Background

With the high-speed improvement of the living standard of social matters, people pursue individuation and fashion style of clothes, so the design cycle of the style is shorter and shorter, and the design and development speed of the clothes industry is forced to be increased. Traditional manual design and cutting methods obviously do not accommodate this requirement. In this situation, it is up to now to apply modern design tools such as three-dimensional design, big data and distributed computing techniques to garment design. With the rapid development of the computer industry, at present, the garment design CAD software is combined with a computer, and a human body three-dimensional scanner and a plotter are added, so that the work of measurement, style design, code release, material discharge, cut piece template manufacturing and the like of a human body can be completed. However, in the above design method, after the garment is made, the user tries to confirm whether the garment fits or not, and it is difficult for the user to perform fine adjustment on the garment during the development and modification of the garment design, so that a personalized mass production scheme is implemented for a user consumer group with a preference for a certain type of stature or design element.

Looking up the related published technical solution, the technical solution of patent No. CN1779687a proposes to facilitate pattern-based garment design activities that a processor can use to enable a user to select a garment type and view an image of a garment pattern. Under the direction of the system, the processor enables the user to input data relating to characteristics of the intended wearer of the garment. The processor generates knitting instructions, indications of different degrees of pressure exerted by the garment on the graphical model, and a pattern representation print of the pattern provider. The solution of US20150154691A1, patent number, discloses a system and method for virtually trying on clothes on a virtual 3D avatar obtained by scanning a user wearing minimal clothes. The graphical user interface allows the user to access a database of garments and accessories that are selectable for virtual fitting simulation; finite element analysis is applied to determine the shape of the combined user's body and garment, and based on the analysis, an accurate visual representation of the selected garment or attachment on the user's body scale model is generated. The solution of patent No. US20110218664 describes a method, system and apparatus that can be used for garment and fashion design, proposing a multi-step interactive process that can be based on personalized biometric data, involving a user controlling the entire process and performing multiple design actions to achieve the desired design results.

The foregoing discussion of the background art is intended only to facilitate an understanding of the present invention. This discussion is not an acknowledgement or admission that any of the material referred to is part of the common general knowledge.

Disclosure of Invention

The invention aims to provide an intelligent customized design system based on three-dimensional graphical editing; the design system comprises a design engine providing a three-dimensional graphical design function, and a user can call a functional core of the design engine to create and edit a garment model by editing an operation interface provided by a client; the first user creating the clothing model can set the authority of other users, so that the other users can obtain the right to call and edit the first model created by the first user, and the first user can know the design parameter preferences of most users by viewing the modified values of the other users on the plurality of design parameters of the first model; the design system provides simple and direct garment design functions for a plurality of users based on cloud services through configuring simple and convenient networks and operation environments, so that an original designer of the garment can obtain actual preferences and requirements of more users on the garment in an original model keeping the design concept of the original model.

The invention adopts the following technical scheme:

an intelligent customized design system based on three-dimensional graphical editing comprises a design engine, an editing client and a management module; wherein

The design engine is configured to provide three-dimensional graphical garment model design functions for the design system, and the design engine is provided with an application program core component of three-dimensional graphical garment design; the design engine provides an application program core driven by three-dimensional graphics to realize the establishment, editing and labeling of the clothing model;

the editing client is configured to be connected to the design engine, provide an operation interface of the costume model design for a user, and provide an operation environment of the costume model design for the user by using a three-dimensional graphical costume design application core component of the design engine;

the management module comprises a user management submodule and a model management submodule; the user management submodule is used for managing users accessing the design system, and comprises information of the management users and the use authority of the design system; the model management submodule is used for managing the clothing model, and comprises the steps of managing the creation, editing, storage and deletion of the clothing model; the user management submodule and the model management submodule are mutually connected, so that when the appointed clothing model is subjected to appointed operation, a user is required to have corresponding operation authority;

wherein each user needs to use the editing client by establishing and logging in a personal account;

the creating user of each clothing model is a first user; the garment model created and edited by the first user is a first model; the first user creating a plurality of design parameters describing the garment model in the first model;

creating a second user by a user other than the first user based on one of the clothing models; the second user obtains the following rights based on own rights:

(1) Calling the first model from the management module;

(2) Calling part or all of the design functions of the design engine;

(3) Calling an operation interface of the editing client to realize the design operation of the first model so as to obtain a second model;

(4) Publicly presenting the second model to other users;

preferably, the first user sets a plurality of design parameters included in the first model to have a first value, and further sets modification authority and a value range of the plurality of design parameters;

preferably, the design system further comprises setting constraints between a plurality of design parameters of the first model by the first user;

preferably, the design engine comprises a display module for displaying a plurality of design parameters in the clothing model to a user through an operation interface of the editing client;

preferably, the designing process of the clothing model comprises selecting one or more second users from a set of second users as third users by the first user and/or the second user; the third user has more permissions than the second user, including at least one of:

the third user is able to modify more design parameters in the first model than the second user;

the third user has a greater range of numerical modification of one or more design parameters of the first model than the second user;

the third user is based on the editing of the first model, thereby obtaining a third model;

preferably, the first user counts a plurality of numerical ranges of the design parameters of the second models and the third models through the management module, so as to know preferences of the second user and the third user on the design parameters of the first model respectively.

The beneficial effects obtained by the invention are as follows:

1. the design system of the invention presents the clothing design model based on the three-dimensional graphic design and presents a plurality of design parameters related in the clothing design model, thereby being beneficial to the designer to rapidly design and edit the clothing model and being capable of visually presenting the design effect;

2. the design system can operate based on a distributed computing system, is suitable for a plurality of users to design simultaneously, and can be used for creating and designing the first model by the first user with professional design experience, so that the second user can follow the design thought and idea of the first user when subsequently modifying based on the first model, the creative idea of the first user is effectively protected, and the personalized expansion of the second user can be carried out within the professional scope of the first user;

3. the design system has the shared application attribute, and each user can rapidly share the design to a specific user after finishing the garment design, including inviting professional users to evaluate the garment design and sharing the design concept with common users, so that communication of design groups is facilitated and the development degree of the garment design is promoted together;

4. according to the design structure, all components are designed in a modularized mode and matched, and software and hardware can be flexibly optimized and changed in the later period, so that a large amount of maintenance and upgrading cost after mass production is saved.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is a schematic diagram of the operation of the design system of the present invention;

FIG. 2 is a schematic diagram of a network architecture of the design system of the present invention;

FIG. 3 is a schematic diagram of a computing device in the design system of the present invention;

FIG. 4 is a schematic view of a model portion of a garment model in accordance with an embodiment of the invention;

FIG. 5 is a schematic illustration of a second, different user-based design of a garment model in an embodiment of the invention;

fig. 6 is a schematic process diagram of a first model being developed and designed in an iterative manner according to an embodiment of the present invention.

The drawings illustrate schematically: 100-a design engine; 101-an editing client; 102-a management model; 200-a server; 210-a user equipment; 220-a network; 300-a computing device; 301-a processor; 302-a memory; 303-a memory; 304-an input device; 305-an output device; 306-a communication component; 400-model part; 401 — active position; 410-a first contour line; 420-a second contour; 501-model; 502-original protocol; 503-pattern scheme; 504-skirt swing scheme; 601-a first model; 602-a first scenario; 603-a second scheme; 604-a third protocol; 605-fourth protocol; 606-a fifth protocol; 607-sixth scheme.

Detailed Description

In order to make the technical solution and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the embodiments thereof; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description below.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc., based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but not to indicate or imply that the device or component referred to must have a specific orientation.

The first embodiment is as follows:

the invention provides a customized solution for solving the problems in the current clothing design and production; wherein the dress design is provided with creative concepts, dress model drafting and three-dimensional model templates by professional designers, and the range of secondary development of the original design is limited by the original designers on the principle of protecting and respecting the originality of the original designers;

in addition, another object of the present invention is to provide a simple and easy-to-use infrastructure for three-dimensional graphical design, which is used for manufacturing custom-made and custom-designed garments and mass-produced garments, so that non-design professional users can quickly make custom-made adjustment to the garment model based on the existing designed garment model to obtain a more satisfactory design scheme;

specifically, as shown in fig. 1, an intelligent customized design system based on three-dimensional graphical editing is provided, where the design system includes a design engine, an editing client, and a management module; wherein

The design engine is configured to provide three-dimensional graphical garment model design functions for the design system, and the design engine is provided with an application program core component of three-dimensional graphical garment design; the design engine provides an application program core driven by three-dimensional graphics to realize the establishment, editing and labeling of the clothing model;

the editing client is configured to be connected to the design engine, provide an operation interface of the costume model design for a user and provide an operation environment of the costume model design for the user by using a three-dimensional graphical costume design application program core of the design engine;

the management module comprises a user management submodule and a model management submodule; the user management submodule is used for managing users accessing the design system, and comprises information of the management users and a use right management of the design system; the model management submodule is used for managing the clothing model, and comprises the steps of managing the creation, editing, storage and deletion of the clothing model; the user management submodule and the model management submodule are mutually connected, so that when the appointed clothing model is subjected to appointed operation, a user is required to have corresponding operation authority;

wherein each user needs to use the editing client by establishing and logging in a personal account;

the creating user of each clothing model is a first user; the garment model created and edited by the first user is a first model; the first user creating a plurality of design parameters in the first garment model that describe the garment model;

based on one of the garment models, a user other than the first user is a second user; the second user obtains the following rights based on own rights:

(1) Calling the first model from the management module;

(2) Calling part or all of the design functions of the design engine;

(3) Calling an operation interface of the editing client to realize the design operation of the first model so as to obtain a second model;

(4) Publicly presenting the second model to other users;

preferably, the first model comprises setting, by the first user, a plurality of values of the design parameter to have a first value, and further comprises setting a plurality of modification rights and a range of values of the design parameter;

preferably, the design system further comprises setting constraints between a plurality of design parameters of the first model by the first user;

preferably, the design engine comprises a display unit for displaying a plurality of design parameters in the garment model to a user through an operation interface of the editing client;

preferably, the designing process of the clothing model comprises selecting one or more second users from a set of second users as third users by the first user and/or the second user; the third user has more permissions than the second user, including at least one of:

the third user is able to modify more design parameters in the first model than the second user;

the third user has a greater range of numerical modification of one or more design parameters of the first model than the second user;

the third user is based on the editing of the first model, thereby obtaining a third model;

preferably, the first user counts a plurality of numerical ranges of the design parameters of the second models and the third models through the management module, so as to know the preferences of the second user and the third user on the design parameters of the first model respectively;

in one embodiment, the design system has the following arrangement:

FIG. 2 illustrates a network architecture diagram capable of supporting the design system, according to one embodiment;

including a network 220, which network 220 may include a network that provides data transfer capabilities in Wi-Fi, cellular data access methods, such as 5G or 4G LTE networks, bluetooth, near Field Communication (NFC), the internet, local area networks, wide area networks, or any combination of these or other ways; in one embodiment, the network 220 may include an ethernet connection; in another embodiment, network 220 may include fiber optic connections;

preferably, further, the user runs the editing client through the user device 210; as shown, a plurality of user devices 210 are represented by 210-1, 210-2, 210-3 … …, etc.; the user device 210 may be a smartphone, tablet, laptop, desktop, or other device, and may have network capabilities to communicate with the server 220;

preferably, the server 200 may include one or more computers and may serve multiple roles; the server 200 may be conventionally constructed, or may have a specialized design for processing data obtained from a collaborative iterative design; in some embodiments, the design engine and the management module run on a computer of the server 200; and the server is communicatively connected to the network 220 and allows a plurality of user devices 210 to exchange data with the server; it should be appreciated that those skilled in the art will recognize that server 200 may have many different designs and may have different hardware, software configurations to have different computing environments and computing capabilities;

FIG. 3 is a component diagram of a computing device 300 that may be applied to the design system, according to one embodiment; computing device 300 may be used to implement one or more computing devices, computer processes, or software modules described in this technical aspect, including as an application for server 200 and/or for user device 210; and computing device 300 includes, for example, but is not limited to, a stationary device, computing device 300 may alternatively be a mobile device;

in one example, computing device 300 may be used to process calculations, execute instructions, and receive and transmit digital signals; in another example, computing device 300 may be used to process calculations, execute instructions, receive and transmit digital signals, receive and transmit search queries and hypertext, and compile computer code suitable for mobile devices; computing device 300 may be any general purpose or special purpose computer now known or that will become known capable of performing the steps and/or performing the functions described herein in software, hardware, firmware, or a combination thereof;

in its most basic configuration, computing device 300 typically includes at least one processor 301 and memory 302; depending on the exact configuration and type of computing device 300, memory 302 may be volatile (such as RAM), non-volatile (such as ROM, flash memory, etc.) or some combination of the two; further, computing device 300 may also have additional features/functionality; for example, the computing device 300 may include a plurality of processors 301; the method of operation of the design system described herein may be performed in any manner by any processing unit in computing device 300; for example, the described process may be performed in parallel by two multiple CPUs;

computing device 300 may also include computer-readable storage media (removable and/or non-removable) including, but not limited to, magnetic or optical disks or tape; such additional storage is represented in FIG. 3 as memory 303; computer-readable storage media include volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules or other data; memory 302 and storage 303 are examples of computer-readable storage media; computer-readable storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital Versatile Disks (DVD) or other optical storage, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by computing device 300; any such computer-readable storage media may be part of computing device 300;

preferably, computing device 300 may also contain a communications component 306 that allows the device to communicate with other devices;

computing device 300 may also preferably have input device(s) 304 such as keyboard, mouse, pen, voice input device, touch input device, etc.; further, computing device 300 also includes output device(s) 305 such as a display, speakers, printer, etc.;

all of the above devices are familiar to those skilled in the relevant art and are not discussed in detail;

further, the design system may provide a service to a user in a SaaS (software as a service) service form; in one embodiment, an operator of a design system as described herein may deploy application software and associated software cores (e.g., the design engine) on the server; a user orders a required garment design service to an operator through the Internet according to the actual design requirement; in the service type, the user pays the cost to the operator according to the service amount and time, and obtains the clothing design application program support service provided by the Saas platform operator through the Internet;

optionally, the SaaS application software may provide a definable design application function to a user in three modes of free, paid and value-added; under the payment mode, the user includes the license fee, the software maintenance fee and the technical support fee of the design application software in the form of integral packaging fee, and the license fee, the software maintenance fee and the technical support fee are unified into monthly rental fee of each user; in the value-added mode, the user can obtain more service support in the basic payment mode, and the service support can be temporary or limited;

optionally, the SaaS service provides services for users in a form of internet browser or WebServices/web2.0 program connection, so that the SaaS application has the characteristic of a typical internet technology, namely, light weight and ready-to-use; on the other hand, because the SaaS greatly shortens the space-time distance between the user and the SaaS operator, the marketing and delivery of the SaaS service are greatly different from those of the traditional software; moreover, the SaaS operates on the basis of a network, and has the advantages that a user can acquire an interface of application software and related application functions through the network without investing any hardware cost or requiring professional system maintenance personnel; furthermore, because the centralized server provides services for the users, the data sharing and data management can be carried out by operators with specialties, and the communication efficiency among the users and the development progress of the garment design are greatly enhanced;

furthermore, the design application design based on three-dimensional graphical editing greatly depends on the computing capability of the computer, including the graphical computing capability, the data processing capability, the network communication capability and the like, the cost is high for ordinary users, and the cost of high-performance computing equipment can be borne by an operator by deploying the design engine in the operation form of the server, so that the users can participate in the clothing design application at low cost;

further, the design engine is used for operating the creation and editing of the clothing model; wherein the garment model is a datamation instance that can be preloaded into the design engine, has a preset shape, and the datamation instance of the type can be designed and/or selected by a user according to the user's mind;

preferably, the garment model may be divided into separate parts, which are modifiable independently of each other; in some embodiments, the user may modify the appearance and size of a portion of the garment model by performing a push/pull operation on the active position of the portion via the input device 304 of the computer; the active position is preferably a point, but may also be an area consisting of a plurality of points; upon a push or pull command from the user, such as sending a control command by operating a combination of a press, hold, and drag of a computer mouse, the design engine may utilize a programmed algorithm to modify the portions by maintaining the aspect ratios of the portions; illustratively, a model portion 400 of a garment model as shown in FIG. 4, the model portion 400 having a first contour 410 at an upper edge thereof, and the first contour 410 including an active site 401 thereon; the user pulls the active position 401 to move the first contour 410 inwards, so as to obtain a new contour, i.e. a second contour 420; likewise, the user may obtain new contours, shown in dashed lines, by pushing the active position 401;

one skilled in the relevant art will recognize that a section may have multiple active positions; for example, points at multiple positions of the line segment of the first contour line 410 may be active positions for pushing and pulling; thus, the user can control the active position of the graphical interface, thereby causing the design engine to generate data on the new appearance and dimensions of the garment model and update into the garment model;

moreover, this method of transforming the shape is preferably fully visible, which makes it easier for any user (including non-professionals) to use; once the shape appears to match the user's expectations, the data embedded in the new shape may be converted by the computer into several output forms that the user may utilize; for example, the data may be converted into a two-dimensional plane graph, and the related clothing manufacturer may use the plane drawing generated by the two-dimensional plane graph to cut out the fabric of the clothing that the user wishes to make; alternatively, the data may be converted into a table having dimensions, which the user or computer may again use to cut the fabric of an article of clothing the user wishes to create; further, the data may be converted and/or transmitted to a machine capable of building three-dimensional physical shapes using the data, such as an additive manufacturing device, e.g., a 3D printer;

further, as an exemplary image of fig. 5: designing an original scheme 502 of the first model by a first user based on the body shape of the model 501, and having an interest in a second user who performs secondary design and/or partial personalized customization according to the original scheme; therefore, the second user needs to apply for obtaining the invoking right and the modifying right of the original scheme 502 to the user management sub-module in the management module; after the second user obtains the processing of the user management submodule, the second user obtains corresponding authority; the corresponding original schema 502 will be stored by the model management submodule and available for modification only by the first user; if the second user needs to modify the original scheme 502, a copy of the original scheme 502 is created by the model management submodule, and the copy of the original scheme 502 is allowed to be modified by the editing client applied by the second user side;

thereafter, a copy of the original schema 502 is preloaded into the editing client of the second user; the second user will be able to make limited editorial copies of the original schema 502 based on the second user's current permissions;

in some embodiments, the second user's current rights allow for modification of the surface pattern design in the original schema 502; the original plan 502 is presented after wearing in a default human body model; the second user may modify the copy of the original scheme 502 in the editing client to obtain a pattern scheme 503 of the second model as shown in fig. 5; however, the second user has no authority to modify, for example, the garment dimensions, materials, etc. of the original plan 502;

in some embodiments, the current rights of another said second user allow for modification of the surface design and garment dimensions in the original solution 502, so that the second user can obtain a skirt solution 504 of the second model after modification;

the categories of garments that the garment model described above can represent should be understood to have a very broad scope, including everything worn to cover the body, including: dress, skirt, shirt, bra, pants, coat, underwear, T-shirt, sweater, pullover, suit, sock, hat, glove, and the like; and may also include socks, shoes; and it should be understood that the garment model may include components that are useful for the wearing of the garment, but not embodied in the surface of the garment model, and may also be preloaded into the editing client for use, such as the shoulders or bra pads, fabric, and/or any other materials and/or tools that may be needed by the user to design a garment item.

Example two:

this embodiment should be understood to include at least all of the features of any of the foregoing embodiments and further modifications thereon;

in one embodiment, the design system includes a design flow that employs a multi-user iteration, enabling more efficient development iterations of the first model;

referring to FIG. 6, a process diagram of a customized design flow for a first model 601 is shown, which shows a graphical state of a customized design of the first model 601 over a period of time, including a plurality of scenarios of a second model, each scenario independently representing an idea or design; a rating score is included in each scenario, which may be based on the results of the user's vote or the professional opinion score of a professional, such as the first user; in this example, a first model 601 represents an initial solution existing in the diagram, and then a plurality of second users obtain a plurality of solutions of a second model after performing secondary custom design on the first model 601;

wherein the first scenario 602 and the second scenario 603 are new scenarios designed for two second users, respectively, wherein each scenario (i.e., the first scenario 602 and the second scenario 603) represents the second user's self-idea/design of the first model 601; further, the third scheme 604 and the fourth scheme 605 are evolutions of the first scheme 602, and the fifth scheme 606 is an evolution of the third scheme 604; and each second model's solution includes a score;

the different schemes in fig. 6 may be designed by different second users, and each second user may perform re-creation based on a scheme of a certain second model based on the authority, so as to implement re-customized design of the design scheme of the second model; in this process, the management module grants different permissions to different second users according to the score of each scheme;

for example, in one embodiment, the fourth scenario 605 that will have the lowest score will be collapsed with its viewing rights open only to the first user or a portion of the second user;

in one embodiment, the fourth lowest scoring schema 605 may be viewed by all but no further design modifications can be made on its basis;

in one embodiment, the second user, and responsible for the second project 603, is the same as the third project 604, and the second project 603 has a lower score than the third project 604, so the second project will be collapsed or its invocation application will be referred to the back of the third project 604;

in one embodiment, the third scenario 604 is subsequently modified by two second users to obtain a fifth scenario 606 and a sixth scenario 607, and the third scenario 604, the fifth scenario 606 and the sixth scenario 607 are the top three of the scores of all scenarios during the entire custom design process for the first model; therefore, for the design iterative development of the first model 601, the viewing and calling authorization of the first model 601, the third scheme 604, the fifth scheme 606 and the sixth scheme 607 will be opened, and the first scheme 602, the fourth scheme 605 and the second scheme 603 will be hidden.

Example three:

this embodiment is to be understood as embracing at least all the features of any one of the preceding embodiments and further modifications thereto;

in some embodiments, the population of second users wishes to reference more excellent designs of the second users in addition to the reference of the designs of the first users; a large number of second models are generated after the popular first models, so that the second user needs to check the large number of second models and spend a large amount of time comparing the advantages and disadvantages of the second models, and therefore, the efficiency of the whole design process is not high;

meanwhile, for a second user with a higher design level, the design capability of the second user needs to be fully exerted, such as developing a larger range of design parameters;

thus, in some embodiments, including preferentially screening the second, higher scoring model; the score S of one of the second models may be composed of the following calculation formula;

in the above formula, S ₁ Scoring the second model for the first user;

an average score of scores for the second model for a plurality of second users; k is a radical of ₁ 、k ₂ 、k ₃ Respectively, the scoring weight coefficients, and preferably,

k ₁ >0.5；

k ₂ ＝1-k ₁ ；

k ₁ >k ₃ >k ₂ ；

based on the above operations, the score of the second model is given more importance based on the score weight of the first user;

further, the method comprises the steps of selecting 20% of second users of the second model with the highest grade ranking or 15% of second users of the second model from a plurality of design schemes of the second model, and converting the second users into third users;

the third user may evaluate to have a deeper understanding of the first model in a customized design based on the first model; or it has a higher design capability for a more general second user; or for the first user, it has a concept more conforming to the original design intent; thus, for the third user, the management module may set it to have more design parameters;

for example, for the model portion shown in FIG. 4, the third user may have more active locations for the operation than the second user;

or in some embodiments, a third user may control the range of modifications to be implemented to the first contour line 410 as shown in the figure, including expanding the first contour line 410 and contracting the remaining portions, thereby implementing more custom design possibilities than the second user.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to the related descriptions of other embodiments for parts that are not described or illustrated in a certain embodiment.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications may be made without departing from the scope of the invention. That is, the methods, systems, and devices discussed above are examples. Various configurations may omit, substitute, or add various procedures or components as appropriate. For example, in alternative configurations, the methods may be performed in an order different than that described, and/or various components may be added, omitted, and/or combined. Moreover, features described with respect to certain configurations may be combined in various other configurations, as different aspects and elements of the configurations may be combined in a similar manner. Further, elements therein may be updated as technology evolves, i.e., many elements are examples and do not limit the scope of the disclosure or claims.

Specific details are given in the description to provide a thorough understanding of the exemplary configurations including implementations. However, configurations may be practiced without these specific details, for example, well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring the configurations. This description provides example configurations only, and does not limit the scope, applicability, or configuration of the claims. Rather, the foregoing description of the configurations will provide those skilled in the art with an enabling description for implementing the described techniques. Various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

In conclusion, it is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that these examples are illustrative only and are not intended to limit the scope of the invention. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims (6)

1. An intelligent customized design system based on three-dimensional graphical editing is characterized by comprising a design engine, an editing client and a management module; wherein

The design engine is configured to provide three-dimensional graphical garment model design functions for the design system, and the design engine is provided with an application program core component of three-dimensional graphical garment design; the design engine provides an application program core driven by three-dimensional graphics to realize the establishment, editing and labeling of the clothing model;

the editing client is configured to be connected to the design engine, provide an operation interface of the costume model design for a user, and provide an operation environment of the costume model design for the user by using a three-dimensional graphical costume design application core component of the design engine;

the management module comprises a user management submodule and a model management submodule; the user management submodule is used for managing users accessing the design system, and comprises information of the management users and the use authority of the design system; the model management submodule is used for managing the clothing model, and comprises the steps of managing the creation, editing, storage and deletion of the clothing model; the user management submodule and the model management submodule are mutually connected, so that when the appointed clothing model is subjected to appointed operation, a user is required to have corresponding operation authority;

wherein each user needs to use the editing client by establishing and logging in a personal account;

the creating user of each clothing model is a first user; the garment model created and edited by the first user is a first model; the first user creating a plurality of design parameters describing the garment model in the first model;

creating a second user by a user other than the first user based on one of the clothing models; the second user obtains the following rights based on own rights:

calling the first model from the management module;

calling part or all of the design functions of the design engine;

calling an operation interface of the editing client to realize the design operation of the first model so as to obtain a second model;

and displaying the second model to other users in a public way.

2. The system of claim 1, wherein the first user setting the first model comprises setting a plurality of design parameters with a first value, and further comprises setting modification rights and a range of values for the plurality of design parameters.

3. The system of claim 2, further comprising a constraint between design parameters of the first model set by the first user.

4. The system of claim 3, wherein the design engine comprises a display of the plurality of design parameters in the garment model to the user via the operating interface of the editing client.

5. The system of claim 4, wherein the design process of the garment model comprises selecting one or more second users from a set of second users as third users by the first user and/or the second user; the third user has more permissions than the second user, including at least one of:

the third user is able to modify further design parameters in the first model;

the third user has a greater range of numerical modification of one or more design parameters of the first model than the second user;

the third user obtains a third model based on the editing of the first model.

6. The system of claim 5, wherein the first user counts the ranges of the plurality of design parameters of the plurality of second models and the plurality of third models through the management module, so as to know the preferences of the second user and the third user for the design parameters of the first model respectively.

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