CN115374495A - Automatic generation method and device of three-dimensional shoe body model design material - Google Patents

Abstract

The embodiment of the invention discloses an automatic generation method of a three-dimensional shoe body model design material, which comprises the following steps: obtaining shoe body movement attributes set by a user, wherein the shoe body movement attributes comprise shoe body bending degree, comfort degree and wear resistance degree; determining the material selection range of each block of the shoe body according to the shoe body motion attribute; and filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block. This scheme has solved prior art, and the problem that shoes body design mode intelligent degree is low, can be intelligent carry out the design of shoes body material, satisfy user's global design demand, and design efficiency is showing and is promoting, and the material scope setting based on big data simultaneously can design the product that accords with self demand by ordinary user in addition.

Description

Automatic generation method and device of three-dimensional shoe body model design material

Technical Field

The embodiment of the application relates to the field of intelligent design, in particular to an automatic generation method and device of a three-dimensional shoe body model design material.

Background

With the development of big data and artificial intelligence, the personalized design of the product can be efficiently realized. For example, the user can design the shoe body required by the user by the computer software.

The existing shoe body material design is mostly based on the click selection of a user, the filling design of the material is carried out in sequence, and finally the three-dimensional model is displayed.

Disclosure of Invention

The embodiment of the invention provides an automatic generation method and device of a three-dimensional shoe body model design material, which solve the problem of low intelligent degree of a shoe body design mode in the prior art, can intelligently design shoe body materials, meet the overall design requirements of users, remarkably improve the design efficiency, and simultaneously design products meeting the requirements of the users by common users based on the material range setting of big data.

In a first aspect, an embodiment of the present invention provides an automated generation method of a three-dimensional shoe body model design material, where the method includes:

obtaining shoe body motion attributes set by a user, wherein the shoe body motion attributes comprise shoe body bending degree, comfort degree and wear resistance;

determining the material selection range of each block of the shoe body according to the motion attribute of the shoe body;

and filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block.

Optionally, the obtaining of the shoe body motion attribute set by the user includes:

receiving a shoe body use scene input by a user, determining a corresponding shoe body motion attribute according to the shoe body use scene, and acquiring the shoe body motion attribute.

Optionally, the determining the corresponding shoe motion attribute according to the shoe usage scenario includes:

determining the bending degree, the comfort degree and the wear resistance of the shoe body corresponding to the use scene;

and combining the bending degree, the comfort degree and the wear resistance degree of the shoe body to obtain the motion attribute of the shoe body.

Optionally, determining the shoe body bending degree, comfort degree and wear resistance corresponding to the usage scenario includes:

determining the bending degree of the shoe body according to the shoe body change degree of the use scene;

determining comfort level according to the use duration of the use scene;

and determining the wear resistance according to the road surface condition of the use scene.

Optionally, determining the material selection range of each block of the shoe body according to the shoe body motion attribute comprises:

determining a first material selection range of each block of the shoe body according to the bending degree of the shoe body;

determining a second material selection range of each block according to the comfort level and the wear resistance;

and determining the material selection range of each block according to the first material selection range and the second material selection range, wherein the material selection range comprises material types and material parameters of corresponding types.

Optionally, based on the material selection scope of each block of the shoe body that determines, carry out the packing of each shoe body block material in proper order, include:

in the determined material selection range of each block of the shoe body, filling the material of each block of the shoe body in sequence, and dynamically displaying;

and receiving the selection confirmation operation of the user to complete the material selection of the current shoe body block.

Optionally, the performing dynamic display includes:

and (4) performing bending, stretching and extrusion deformation display on the shoe body.

In a second aspect, an embodiment of the present invention further provides an apparatus for automatically generating a three-dimensional shoe model design material, where the apparatus includes:

the attribute setting module is configured to acquire shoe body motion attributes set by a user, wherein the shoe body motion attributes comprise shoe body bending degree, comfort degree and wear resistance degree;

the material interval determining module is configured to determine the material selection range of each block of the shoe body according to the shoe body motion attribute;

and the material filling module is configured to sequentially fill the material of each shoe body block based on the determined material selection range of each block of the shoe body.

In a third aspect, an embodiment of the present invention further provides an apparatus for automatically generating a three-dimensional shoe model design material, where the apparatus includes:

one or more processors;

a storage device for storing one or more programs,

when the one or more programs are executed by the one or more processors, the one or more processors implement the method for automatically generating the three-dimensional shoe body model design material according to the embodiment of the invention.

In a fourth aspect, the embodiments of the present invention further provide a storage medium storing computer-executable instructions, which when executed by a computer processor, are used for performing the method for automatically generating three-dimensional shoe body model design materials according to the embodiments of the present invention.

In the embodiment of the invention, the shoe body movement attributes set by a user are obtained, wherein the shoe body movement attributes comprise shoe body bending degree, comfort degree and wear resistance; determining the material selection range of each block of the shoe body according to the shoe body motion attribute; and filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block. This scheme has solved prior art, and the problem that shoes body design mode intelligent degree is low, can be intelligent carry out the design of shoes body material, satisfy user's global design demand, and design efficiency is showing and is promoting, and the material scope setting based on big data simultaneously can design the product that accords with self demand by ordinary user in addition.

Drawings

FIG. 1 is a flow chart of a method for automatically generating three-dimensional shoe body model design materials according to an embodiment of the present invention;

FIG. 2 is a flow chart of another method for automated generation of three-dimensional shoe body model design materials according to an embodiment of the present invention;

FIG. 3 is a block diagram of an apparatus for automatically generating three-dimensional shoe model design material according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an apparatus for automatically generating a three-dimensional shoe model design material according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad invention. It should be further noted that, for convenience of description, only some structures, not all structures, relating to the embodiments of the present invention are shown in the drawings.

Fig. 1 is a flowchart of an automated generation method of a three-dimensional shoe body model design material according to an embodiment of the present invention, which can be performed by an apparatus for installing a shoe body design system, and specifically includes the following steps:

step S101, obtaining shoe body movement attributes set by a user, wherein the shoe body movement attributes comprise shoe body bending degree, comfort degree and wear resistance.

In one embodiment, automated generation of shoe body material is performed based on user-defined shoe body motion attributes, with different motion attributes corresponding to different generated materials. Wherein the athletic attributes include shoe body flex, comfort, and wear resistance. Wherein, the degree of bending of shoes body has characterized the degree that the shoes body can be buckled, and the comfort level is the comfortable degree of foot in the use, and the abrasion resistance is the degree of the shoes body resistance to wear and tear ability. Wherein generally a higher degree of wear corresponds to a correspondingly lower degree of comfort.

In one embodiment, obtaining the shoe body movement attribute set by the user comprises the following steps: receiving a shoe body use scene input by a user, determining a corresponding shoe body motion attribute according to the shoe body use scene, and acquiring the shoe body motion attribute. Namely, a user inputs a shoe body use scene, the system automatically obtains corresponding shoe body motion attributes according to the use scene, and the shoe body motion attributes are obtained to be used as the basis for subsequent material filling. By way of example, the usage scenarios may be various types of common athletic scenarios such as walking, running, badminton, basketball, football, mountain climbing, and the like.

Optionally, the determining the corresponding shoe motion attribute according to the shoe usage scenario includes: determining the bending degree, comfort degree and wear resistance of the shoe body corresponding to the use scene; and combining the bending degree, the comfort degree and the wear resistance degree of the shoe body to obtain the motion attribute of the shoe body. Namely, the shoe body motion attributes are the shoe body bending degree, the comfort degree and the wear resistance, and the corresponding shoe body bending degree, the comfort degree and the wear resistance are determined based on different scenes, and the shoe body motion attributes are taken as the current model with the filling materials.

In one embodiment, the determining the shoe body bending degree, the comfort degree and the wear resistance degree corresponding to the usage scenario includes: determining the bending degree of the shoe body according to the shoe body change degree of the use scene; determining comfort level according to the use duration of the use scene; and determining the wear resistance according to the road surface condition of the use scene. Optionally, different shoe body change degrees are correspondingly set for different use scenes, such as walking, running and mountain climbing, the shoe body change degrees are different, and are specifically classified or set individually for different scenes, for example, a plurality of shoe body change degrees of different grades are set, which include all possible scenes, and of course, for scenes which are not added, the change degrees can be added or set manually subsequently. The shoes body degree of change difference corresponds different shoes body degree of buckling, and is exemplary, sets up 10 grades of shoes body degree of change, shoes body degree of buckling of every rank degree of change, and the shoes body degree of change of 10 grades is the highest, most violent if, and the shoes body degree of buckling that corresponds this moment is the highest, and the exemplary numerical value that carries on sets up, if set up the shoes body degree of buckling to 1 to 100 different numerical values by the difference of degree of buckling, every numerical value corresponds different bending conditions.

Different scenes are correspondingly set to be different in use time, such as mountain climbing for 2-3 hours, walking for 1 hour, a football for 1 hour and the like, different comfort levels are determined according to different use time, the comfort levels are set to be different values from 1 to 100, each value corresponds to different comfort levels, and the longer the time is, the higher the corresponding comfort level requirement is, and the higher the value is.

Wherein, different use scenes correspond different wearing resistances, for example, mountaineering is a mountain body and stone head road scene, football is a grassland, walking is Dan Huide, etc., the harder the address, the higher the corresponding wearing resistance, for example, setting the wearing resistance to different values of 1 to 100, each value corresponds to different wearing resistances.

Wherein, specific shoes body bending degree, comfort level and wearability can be based on the mapping table that each corresponding shoes body change degree, length of time of using and road surface condition set up and confirm.

And S102, determining the material selection range of each block of the shoe body according to the shoe body motion attribute.

In one embodiment, after determining the motion attributes of the shoe body, the material selection range of each block of the shoe body is further determined. Specifically, the selection range of the first material of each block of the shoe body can be determined according to the bending degree of the shoe body; determining a second material selection range of each block according to the comfort level and the wear resistance; and determining the material selection range of each block according to the first material selection range and the second material selection range, wherein the material selection range comprises material types and material parameters of corresponding types. The material can be selected independently according to different parameters, for example, the first material selection range of each block of the shoe body is determined according to the bending degree of the shoe body, and the first material selection range comprises a plurality of preset available materials. And similarly, determining the second material selection range of each block according to the comfort level and the wear resistance, and comprehensively considering the requirements of comfort level and wear resistance to determine the second material selection range.

Optionally, different material selection ranges are set for different blocks, for example, for the same comfort level and wear resistance, the material selection ranges preset for different shoe body blocks are different. For example, the preset condition of the shoe body material includes a rubber sole, a modified PVC, a TPR sole, a PU sole, an EVA sole, a composite sole and the like. For the shoe surface block, the preset material, for example leather, comprises: cow leather, sheep leather, pig leather, animal leather, and the like.

Taking the shoe body block as a sole for example, the first material selection range is exemplarily a rubber sole, a modified PVC sole and a TPR sole, the second material selection range is exemplarily a PVC sole, a TPR sole, a PU sole, an EVA sole and a composite sole, and finally the intersection selected based on the first material selection range and the second material selection range is a PVC sole and a TPR sole as the final material selection range of the shoe body block, namely, the selection is performed in the PVC sole and the TPR sole.

And S103, filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block.

In one embodiment, the material of each block of the shoe body is filled in sequence within the range of material selection of each block of the shoe body. For example, after the blocks at the bottom of the shoe body are filled, the filling display of the blocks at the side surface of the shoe body, the inner lining of the shoe body and the like is carried out.

Optionally, in the determined material selection range of each block of the shoe body, filling the material of each block of the shoe body in sequence, and dynamically displaying; and receiving the selection confirmation operation of the user to complete the material selection of the current shoe body block. Namely, in the display process, the user can confirm the corresponding final shoe body material so as to complete the design of the shoe body model material.

According to the method, the shoe body motion attributes set by the user are obtained, and the shoe body motion attributes comprise shoe body bending degree, comfort degree and wear resistance degree; determining the material selection range of each block of the shoe body according to the shoe body motion attribute; and filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block. This scheme has solved prior art, and the problem that shoes body design mode intelligent degree is low, and the design of shoes body material that carries on that can be intelligent satisfies user's global design demand, and design efficiency is showing and is promoting, and the material scope setting based on big data simultaneously can design the product that accords with self demand by ordinary user in addition.

Fig. 2 is a flowchart of another method for automatically generating a three-dimensional shoe model design material according to an embodiment of the present invention, as shown in fig. 2, specifically including:

step S201, receiving a shoe body use scene input by a user, determining the bending degree of the shoe body according to the shoe body change degree of the use scene, determining the comfort degree according to the use duration of the use scene, and determining the wear resistance according to the road condition of the use scene.

Step S202, combining the bending degree, the comfort degree and the wear resistance degree of the shoe body to obtain the motion attribute of the shoe body, and obtaining the motion attribute of the shoe body, wherein the motion attribute of the shoe body comprises the bending degree, the comfort degree and the wear resistance degree of the shoe body.

Step S202, determining a first material selection range of each block of the shoe body according to the bending degree of the shoe body, determining a second material selection range of each block according to the comfort degree and the wear resistance, and determining the material selection range of each block according to the first material selection range and the second material selection range, wherein the material selection range comprises material types and material parameters corresponding to the types.

And S203, sequentially filling the material of each shoe body block in the determined material selection range of each shoe body block, displaying the bending, stretching and extruding deformation of the shoe body, receiving the selection confirmation operation of the user, and finishing the material selection of the current shoe body block.

According to the method, the shoe body motion attributes set by the user are obtained, and the shoe body motion attributes comprise the shoe body bending degree, the comfort degree and the wear resistance degree; determining the material selection range of each block of the shoe body according to the motion attribute of the shoe body; and filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block. This scheme has solved prior art, and the problem that shoes body design mode intelligent degree is low, and the design of shoes body material that carries on that can be intelligent satisfies user's global design demand, and design efficiency is showing and is promoting, and the material scope setting based on big data simultaneously can design the product that accords with self demand by ordinary user in addition.

Fig. 3 is a structural block diagram of an automatic generation device for a three-dimensional shoe body model design material according to an embodiment of the present invention, which is used for executing the automatic generation method for a three-dimensional shoe body model design material according to the above embodiment, and has functional modules and beneficial effects corresponding to the execution method. As shown in fig. 3, the apparatus specifically includes: the attribute setting module 101 is configured to acquire shoe body motion attributes set by a user, wherein the shoe body motion attributes comprise shoe body bending degree, comfort degree and wear resistance degree;

the material interval determining module 102 is configured to determine the material selection range of each block of the shoe body according to the shoe body motion attribute;

and the material filling module 103 is configured to sequentially fill the material of each shoe body block based on the determined material selection range of each shoe body block.

According to the scheme, the shoe body motion attributes set by a user are obtained, and the shoe body motion attributes comprise shoe body bending degree, comfort degree and wear resistance; determining the material selection range of each block of the shoe body according to the shoe body motion attribute; and filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block. This scheme has solved prior art, and the problem that shoes body design mode intelligent degree is low, and the design of shoes body material that carries on that can be intelligent satisfies user's global design demand, and design efficiency is showing and is promoting, and the material scope setting based on big data simultaneously can design the product that accords with self demand by ordinary user in addition. The corresponding module execution functions of the corresponding method are as follows:

in one possible embodiment, the acquiring of the shoe motion attributes set by the user includes:

receiving a shoe body use scene input by a user, determining a corresponding shoe body motion attribute according to the shoe body use scene, and acquiring the shoe body motion attribute.

In one possible embodiment, the determining the corresponding shoe motion attribute according to the shoe usage scenario includes:

determining the bending degree, the comfort degree and the wear resistance of the shoe body corresponding to the use scene;

and combining the bending degree, the comfort degree and the wear resistance degree of the shoe body to obtain the motion attribute of the shoe body.

In a possible embodiment, the determining the shoe body bending degree, the comfort degree and the wear resistance degree corresponding to the usage scenario includes:

determining the bending degree of the shoe body according to the shoe body change degree of the use scene;

determining comfort level according to the use duration of the use scene;

and determining the wear resistance according to the road surface condition of the use scene.

In a possible embodiment, the determining the material selection range of each block of the shoe body according to the shoe body motion attribute includes:

determining a first material selection range of each block of the shoe body according to the bending degree of the shoe body;

determining a second material selection range of each block according to the comfort level and the wear resistance;

and determining the material selection range of each block according to the first material selection range and the second material selection range, wherein the material selection range comprises material types and material parameters of corresponding types.

In a possible embodiment, the step of sequentially filling the material of each shoe body block based on the determined material selection range of each shoe body block comprises:

in the determined material selection range of each block of the shoe body, filling the material of each block of the shoe body in sequence, and dynamically displaying;

and receiving the selection confirmation operation of the user to complete the material selection of the current shoe body block.

In one possible embodiment, the performing the dynamic presentation includes:

and (4) performing bending, stretching and extrusion deformation display on the shoe body.

Fig. 4 is a schematic structural diagram of an apparatus for automatically generating a three-dimensional shoe body model design material according to an embodiment of the present invention, as shown in fig. 4, the apparatus includes a processor 201, a memory 202, an input device 203 and an output device 204; the number of the processors 201 in the device may be one or more, and one processor 201 is taken as an example in fig. 4; the processor 201, the memory 202, the input device 203 and the output device 204 in the apparatus may be connected by a bus or other means, for example in fig. 4. Memory 202, which is a computer-readable storage medium, may be used to store software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the method for automated generation of three-dimensional shoe body model design materials in accordance with embodiments of the present invention. The processor 201 executes various functional applications and data processing of the device by running software programs, instructions and modules stored in the memory 202, namely, the automatic generation method of the three-dimensional shoe body model design material is realized. The input device 203 may be used to receive input numeric or character information and generate key signal inputs relating to user settings and function controls of the apparatus. The output device 204 may include a display device such as a display screen.

Embodiments of the present invention also provide a storage medium containing computer-executable instructions which, when executed by a computer processor, perform a method for automated generation of three-dimensional shoe body model design materials, the method comprising:

obtaining shoe body motion attributes set by a user, wherein the shoe body motion attributes comprise shoe body bending degree, comfort degree and wear resistance;

determining the material selection range of each block of the shoe body according to the shoe body motion attribute;

and filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block.

Receiving a shoe body use scene input by a user, determining a corresponding shoe body motion attribute according to the shoe body use scene, and acquiring the shoe body motion attribute.

Optionally, the determining the corresponding shoe motion attribute according to the shoe usage scenario includes:

determining the bending degree, the comfort degree and the wear resistance of the shoe body corresponding to the use scene;

and combining the bending degree, the comfort degree and the wear resistance of the shoe body to obtain the motion attribute of the shoe body.

Optionally, determining the shoe body bending degree, comfort degree and wear resistance corresponding to the usage scenario includes:

determining the bending degree of the shoe body according to the shoe body change degree of the use scene;

determining comfort level according to the service duration of the service scene;

and determining the wear resistance according to the road surface condition of the use scene.

Optionally, determining the material selection range of each block of the shoe body according to the shoe body motion attribute comprises:

determining a first material selection range of each block of the shoe body according to the bending degree of the shoe body;

determining a second material selection range of each block according to the comfort level and the wear resistance;

and determining the material selection range of each block according to the first material selection range and the second material selection range, wherein the material selection range comprises material types and material parameters of corresponding types.

Optionally, based on the material selection scope of each block of the shoe body that determines, carry out the packing of each shoe body block material in proper order, include:

filling the material of each shoe body block in sequence in the determined material selection range of each block of the shoe body, and dynamically displaying;

and receiving the selection confirmation operation of the user to complete the material selection of the current shoe body block.

Optionally, the performing dynamic display includes:

and (4) performing bending, stretching and extrusion deformation display on the shoe body.

It should be noted that, in the embodiment of the device for automatically generating three-dimensional shoe body model design material, the included units and modules are only divided according to functional logic, but not limited to the above division, as long as the corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the embodiment of the invention.

In some possible embodiments, various aspects of the methods provided herein may also be implemented in the form of a program product comprising program code for causing a computer device to perform the steps of the methods according to various exemplary embodiments of the present application described above in this specification when the program product is run on the computer device, for example, the computer device may perform the method for automated generation of three-dimensional shoe body model design materials described in the examples of the present application. The program product may be implemented using any combination of one or more readable media.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. Those skilled in the art will appreciate that the embodiments of the present invention are not limited to the specific embodiments described herein, and that various obvious changes, adaptations, and substitutions are possible, without departing from the scope of the embodiments of the present invention. Therefore, although the embodiments of the present invention have been described in more detail through the above embodiments, the embodiments of the present invention are not limited to the above embodiments, and many other equivalent embodiments can be included without departing from the concept of the embodiments of the present invention, and the scope of the embodiments of the present invention is determined by the scope of the appended claims.

Claims (10)

1. The automatic generation method of the three-dimensional shoe body model design material is characterized by comprising the following steps:

obtaining shoe body movement attributes set by a user, wherein the shoe body movement attributes comprise shoe body bending degree, comfort degree and wear resistance degree;

determining the material selection range of each block of the shoe body according to the shoe body motion attribute;

and filling the material of each shoe body block in sequence based on the determined material selection range of each shoe body block.

2. The method of claim 1, wherein the obtaining of the shoe body motion attributes set by the user comprises:

receiving a shoe body use scene input by a user, determining a corresponding shoe body motion attribute according to the shoe body use scene, and acquiring the shoe body motion attribute.

3. The method of claim 2, wherein said determining corresponding shoe body motion attributes based on said shoe body usage scenario comprises:

determining the bending degree, the comfort degree and the wear resistance of the shoe body corresponding to the use scene;

and combining the bending degree, the comfort degree and the wear resistance degree of the shoe body to obtain the motion attribute of the shoe body.

4. The method of claim 3, wherein the determining the degree of bending, comfort and wear of the shoe body corresponding to the usage scenario comprises:

determining the bending degree of the shoe body according to the shoe body change degree of the use scene;

determining comfort level according to the use duration of the use scene;

and determining the wear resistance according to the road surface condition of the use scene.

5. The method of claim 1, wherein determining a material selection range for each block of the shoe body according to the shoe body motion attributes comprises:

determining a first material selection range of each block of the shoe body according to the bending degree of the shoe body;

determining a second material selection range of each block according to the comfort degree and the wear resistance;

and determining the material selection range of each block according to the first material selection range and the second material selection range, wherein the material selection range comprises material types and material parameters of corresponding types.

6. The method of claim 1, wherein the step of sequentially filling the material of each block of the shoe body based on the determined material selection range of each block of the shoe body comprises:

in the determined material selection range of each block of the shoe body, filling the material of each block of the shoe body in sequence, and dynamically displaying;

and receiving the selection confirmation operation of the user to complete the material selection of the current shoe body block.

7. The method of claim 6, wherein said performing a dynamic display comprises:

and (4) performing bending, stretching and extrusion deformation display on the shoe body.

8. Automatic generation device of three-dimensional shoes body model design material, its characterized in that includes:

the attribute setting module is configured to acquire shoe body motion attributes set by a user, wherein the shoe body motion attributes comprise shoe body bending degree, comfort degree and wear resistance degree;

the material interval determining module is configured to determine the material selection range of each block of the shoe body according to the shoe body motion attribute;

and the material filling module is configured to sequentially fill the material of each shoe body block based on the determined material selection range of each block of the shoe body.

9. An apparatus for automated generation of three-dimensional shoe body model design material, the apparatus comprising: one or more processors; a storage device for storing one or more programs which, when executed by the one or more processors, cause the one or more processors to implement the method for automated generation of three-dimensional shoe body model design material according to any one of claims 1-7.

10. A storage medium storing computer executable instructions for performing the method of automated generation of three-dimensional shoe body model design material according to any one of claims 1-7 when executed by a computer processor.

Images