CN114692235B - Method for fine tuning shoe body model by combining user associated data - Google Patents

Abstract

The embodiment of the invention discloses a method for fine tuning a shoe body model by combining user associated data, which comprises the following steps: acquiring style characteristic information and foot information of a shoe body input by a user; determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region; determining second shoe body model adjustment information according to the foot information; generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information; and adjusting the displayed shoe body model based on the shoe body model adjustment information. According to the scheme, the problems of poor flexibility and low intelligent degree in the design of the shoe body in the prior art are solved, so that the adjustment of the shoe body model is more convenient and quick, and the user experience is better.

Description

Method for fine tuning shoe body model by combining user associated data

Technical Field

The embodiment of the application relates to the field of intelligent design, in particular to a method and a device for fine-tuning a shoe body model by combining user associated data.

Background

With the intelligent development of computers, various kinds of application software are developed for users. For example, a user may design a shoe body by using a computing device to create a shoe that meets his own needs. Specifically, the color, shape, etc. of the shoe body are designed.

In the existing design system, for example, in the design of shoes, a user can adjust and modify a three-dimensional model corresponding to a shoe body so as to design the shoe type which accords with the expected shoe body, but a common use mode needs multiple times of manual adjustment by the user, the operation flow is tedious, the complexity and the efficiency are low, and a reasonable shoe body model cannot be adjusted for non-professional designers.

Disclosure of Invention

The embodiment of the invention provides a method and a device for fine tuning a shoe body model by combining user-related data, which solve the problems of poor flexibility and low intelligent degree in the design of the shoe body in the prior art, so that the adjustment of the shoe body model is more convenient and quick, and the user experience is better.

In a first aspect, an embodiment of the present invention provides a method for fine tuning a shoe body model in combination with user-related data, the method comprising:

acquiring style characteristic information and foot information of a shoe body input by a user;

determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region;

determining second shoe body model adjustment information according to the foot information;

generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information;

and adjusting the displayed shoe body model based on the shoe body model adjustment information.

Optionally, the acquiring the style characteristic information and the foot information of the shoe body input by the user includes:

acquiring shoe style characteristic information manually input or selected by a user, wherein the shoe style characteristic information comprises shape selection information of an adjustable region of a set shoe model;

and acquiring image information of a foot preset angle shot by a user.

Optionally, the shape selection information includes style description data, and the determining the first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region includes:

and determining a corresponding preset parameter adjustment interval according to the style description data, and determining the preset parameter adjustment interval as first shoe body model adjustment information.

Optionally, the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a specific parameter value in the preset parameter adjustment interval according to the second shoe body model adjustment information;

and generating shoe body model adjustment information based on the parameter values.

Optionally, the determining the second shoe body model adjustment information according to the foot information includes:

and determining foot shape data according to the foot information, and determining the foot shape data as second shoe body model adjustment information.

Optionally, the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a regulation subinterval in the preset parameter regulation interval according to the foot shape data;

and generating shoe body model adjustment information based on the adjustment subinterval.

Optionally, the adjusting the displayed shoe body model based on the shoe body model adjustment information includes:

and in the adjustment subinterval, dynamically adjusting and displaying the adjustable area of the corresponding shoe body model.

In a second aspect, an embodiment of the present invention further provides an apparatus for fine-tuning a shoe body model in combination with user-related data, where the apparatus includes:

the information acquisition module is configured to acquire the style characteristic information and the foot information of the shoe body input by a user;

a first adjustment module configured to determine first shoe body model adjustment information based on the shoe body style information and a set shoe body model adjustable region;

a second adjustment module configured to determine second shoe body model adjustment information based on the foot information;

an adjustment information determination module configured to generate shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information;

and the adjusting module is configured to adjust the displayed shoe body model based on the shoe body model adjusting information.

In a third aspect, an embodiment of the present invention further provides an apparatus for fine-tuning a shoe body model in combination with user-related data, the apparatus including:

one or more processors;

storage means 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 fine tuning a shoe body model in combination with user-associated data according to the embodiment of the present invention.

In a fourth aspect, embodiments of the present invention also provide a storage medium storing computer-executable instructions that, when executed by a computer processor, are configured to perform a method for fine-tuning a shoe body model in connection with user-associated data according to embodiments of the present invention.

In the embodiment of the invention, the style characteristic information and the foot information of the shoe body input by a user are acquired; determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region; determining second shoe body model adjustment information according to the foot information; generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information; and adjusting the displayed shoe body model based on the shoe body model adjustment information. According to the scheme, the problems of poor flexibility and low intelligent degree in the design of the shoe body in the prior art are solved, so that the adjustment of the shoe body model is more convenient and quick, and the user experience is better.

Drawings

FIG. 1 is a flowchart of a method for fine tuning a shoe body model in combination with user-associated data according to an embodiment of the present invention;

FIG. 2 is a flowchart of another method for fine tuning a shoe body model in conjunction with user-associated data according to an embodiment of the present invention;

FIG. 3 is a block diagram of an apparatus for fine tuning a shoe body model in combination with user-associated data according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an apparatus for fine-tuning a shoe body model in combination with user-related data according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in further detail below with reference to the drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not limiting of embodiments of the invention. It should be further noted that, for convenience of description, only some, but not all of the structures related to the embodiments of the present invention are shown in the drawings.

FIG. 1 is a flowchart of a method for fine tuning a shoe body model in combination with user-related data according to an embodiment of the present invention, which may be executed by shoe body model design software, and specifically includes the following steps:

step S101, acquiring shoe style characteristic information and foot information input by a user.

The shoe body style characteristic information characterizes the design styles of different shoe body models, and the foot information is user foot information designed by a user, namely the current shoe body model. Preferably, the shoe style characteristic information may be information manually input or selected by a user, specifically, shape selection information of the set shoe body model adjustable region. In one embodiment, the shoe body mold includes a plurality of adjustable regions, such as the shape of the front toe cap of the shoe body mold, the width of the shoe body mold, the height of the upper, and the like. The foot information is preferably obtained image information of a preset angle of the foot shot by the user. The preset angle is different according to different specific angle values of specific adjustment contents. As it relates to the adjustment of the front area of the shoe body along the xy coordinates, the preset angle is taken downwards in the negative z-axis direction. xyz is the constructed spatial coordinate system, xy is the horizontal plane direction, and z is the direction of the vertical horizontal plane.

Optionally, the shape selection information may be information of various preset shapes for selection by a user, or information generated by manual adjustment by the user. The preset shape corresponds to specific curve shape and size data, and when the user selects, the representation needs to be correspondingly adjusted on the part.

Preferably, the shape selection information includes style description data, and the determining the first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region includes: and determining a corresponding preset parameter adjustment interval according to the style description data, and determining the preset parameter adjustment interval as first shoe body model adjustment information.

And step S102, determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region.

In one embodiment, corresponding preset parameter adjustment intervals are set for the adjustable areas of the shoe body model corresponding to different style description data, and the preset parameter adjustment intervals corresponding to different style description data are different so as to represent the difference of the shoe body shapes under different styles. The preset parameter adjustment section comprises a section of the adjustment size of the specific shoe body model adjustment area. And determining the preset parameter adjustment interval as first shoe body model adjustment information. For example, when the radian of the front end of the shoe body is adjusted, different style description data correspond to different curve radian intervals, and the curve radian intervals form the first shoe body model adjustment information.

And step S103, determining second shoe body model adjustment information according to the foot information.

In one embodiment, the foot information is image data of the foot, and determining the second shoe body model adjustment information based on the foot information includes determining foot shape data based on the foot information, and determining the foot shape data as the second shoe body model adjustment information. The foot shape data comprise data of specific shapes of various parts of the foot, such as width, radian, height and the like of the foot. The specific foot shape data is determined as second shoe body model adjustment information.

Step S104, generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information.

After the first shoe body model adjusting information and the second shoe body model adjusting information are determined, the shoe body model adjusting information is generated based on the first shoe body model adjusting information and the second shoe body model adjusting information in a combined mode.

In one embodiment, the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes: determining a specific parameter value in the preset parameter adjustment interval according to the second shoe body model adjustment information; and generating shoe body model adjustment information based on the parameter values. After the first shoe body model adjustment information is determined, the first shoe body model adjustment information is a preset parameter adjustment interval, such as an arc interval, a length interval, a width interval, a height interval and the like, and a specific value in the preset parameter adjustment interval is determined as shoe body model adjustment information based on the second shoe body model adjustment information. For example, if the preset parameter adjustment interval is [ x1, x2], the value of the second shoe body model adjustment information is y1, and if y1 is within [ x1, x2], y1 is determined as the shoe body model adjustment information; if y1 is greater than x2, x2 is determined as the shoe body model adjustment information, and if y1 is less than x1, x1 is determined as the shoe body model adjustment information. The foregoing is merely illustrative of an exemplary implementation of the adjustment process for one preset parameter adjustment interval [ x1, x2], and the specific adjustment process includes a plurality of different preset parameter adjustment intervals and corresponding second shoe body model adjustment information, and the adjustment method is similar.

In another embodiment, the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes: determining a regulation subinterval in the preset parameter regulation interval according to the foot shape data; and generating shoe body model adjustment information based on the adjustment subinterval. In one embodiment, taking the foregoing preset parameter adjustment interval as [ x1, x2] as an example, if y1 is within [ x1, x2], sub-intervals [ x1, y 1) and [ y1, x2] are generated respectively, and the shoe body model adjustment information is generated as specific sub-interval data, which are corresponding to [ x1, y 1) and [ y1, x2].

And step 105, adjusting the displayed shoe body model based on the shoe body model adjustment information.

And after the shoe body model adjustment information is determined, adjusting the displayed shoe body model. Optionally, if a specific value is determined, the parameter corresponding to the shoe body model is adjusted by the value. If the determined shoe body model adjustment information is an interval, adjusting the displayed shoe body model based on the shoe body model adjustment information, including: and in the adjustment subinterval, dynamically adjusting and displaying the adjustable area of the corresponding shoe body model. The user may control and pause the adjustment during the dynamic loop adjustment to save the desired shoe body model data.

The method comprises the steps of obtaining the style characteristic information and the foot information of the shoe body recorded by a user; determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region; determining second shoe body model adjustment information according to the foot information; generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information; and adjusting the displayed shoe body model based on the shoe body model adjustment information. According to the scheme, the problems of poor flexibility and low intelligent degree in the design of the shoe body in the prior art are solved, so that the adjustment of the shoe body model is more convenient and quick, and the user experience is better.

Fig. 2 is a flowchart of another method for fine tuning a shoe body model in combination with user-related data according to an embodiment of the present invention, and a specific and complete example is given as shown in fig. 2. The method specifically comprises the following steps:

step S201, acquiring shoe body style characteristic information manually input or selected by a user, wherein the shoe body style characteristic information comprises shape selection information of a set shoe body model adjustable region, and acquiring image information of a foot preset angle shot by the user.

Step S202, determining a corresponding preset parameter adjustment interval according to the style description data, and determining the preset parameter adjustment interval as first shoe body model adjustment information.

And step 203, determining foot shape data according to the foot information, and determining the foot shape data as second shoe body model adjustment information.

And step S204, determining a regulation subinterval in the preset parameter regulation interval according to the foot shape data, and generating shoe body model regulation information based on the regulation subinterval.

Step 205, in the adjustment subinterval, dynamically adjusting and displaying the adjustable area of the corresponding shoe body model.

According to the scheme, the style characteristic information and the foot information of the shoe body recorded by the user are acquired; determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region; determining second shoe body model adjustment information according to the foot information; generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information; and adjusting the displayed shoe body model based on the shoe body model adjustment information. According to the scheme, the problems of poor flexibility and low intelligent degree in the design of the shoe body in the prior art are solved, so that the adjustment of the shoe body model is more convenient and quick, and the user experience is better.

Fig. 3 is a block diagram of a device for fine tuning a shoe body model according to an embodiment of the present invention, where the device is used to execute the method for fine tuning a shoe body model according to the user-related data provided in the foregoing embodiment, and the device has a functional module and beneficial effects corresponding to the execution method. As shown in fig. 3, the apparatus specifically includes: an information acquisition module 101, a first adjustment module 102, a second adjustment module 103, an adjustment information determination module 104, and an adjustment module, wherein,

the information acquisition module 101 is configured to acquire shoe style characteristic information and foot information input by a user;

a first adjustment module 102 configured to determine first shoe body model adjustment information based on the shoe body style information and the set shoe body model adjustable region;

a second adjustment module 103 configured to determine second shoe body model adjustment information based on the foot information;

an adjustment information determination module 104 configured to generate shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information;

an adjustment module 105 configured to adjust the displayed shoe body model based on the shoe body model adjustment information.

According to the scheme, the style characteristic information and the foot information of the shoe body recorded by the user are acquired; determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region; determining second shoe body model adjustment information according to the foot information; generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information; and adjusting the displayed shoe body model based on the shoe body model adjustment information. According to the scheme, the problems of poor flexibility and low intelligent degree in the design of the shoe body in the prior art are solved, so that the adjustment of the shoe body model is more convenient and quick, and the user experience is better. The specific functions executed by each module are as follows:

in one possible embodiment, the acquiring the style characteristic information of the shoe body and the foot information entered by the user includes:

acquiring shoe style characteristic information manually input or selected by a user, wherein the shoe style characteristic information comprises shape selection information of an adjustable region of a set shoe model;

and acquiring image information of a foot preset angle shot by a user.

In one possible embodiment, the shape selection information includes style description data, and the determining the first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region includes:

and determining a corresponding preset parameter adjustment interval according to the style description data, and determining the preset parameter adjustment interval as first shoe body model adjustment information.

In one possible embodiment, the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a specific parameter value in the preset parameter adjustment interval according to the second shoe body model adjustment information;

and generating shoe body model adjustment information based on the parameter values.

In one possible embodiment, the determining second shoe body model adjustment information according to the foot information includes:

and determining foot shape data according to the foot information, and determining the foot shape data as second shoe body model adjustment information.

In one possible embodiment, the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a regulation subinterval in the preset parameter regulation interval according to the foot shape data;

and generating shoe body model adjustment information based on the adjustment subinterval.

In one possible embodiment, the adjusting the displayed shoe body model based on the shoe body model adjustment information includes:

and in the adjustment subinterval, dynamically adjusting and displaying the adjustable area of the corresponding shoe body model.

Fig. 4 is a schematic structural diagram of an apparatus for fine tuning a shoe body model according to an embodiment of the present invention, where the apparatus includes a processor 201, a memory 202, an input device 203, and an output device 204 as shown in fig. 4; the number of processors 201 in the device may be one or more, one processor 201 being taken as an example in fig. 4; the processor 201, memory 202, input devices 203, and output devices 204 in the apparatus may be connected by a bus or other means, for example in fig. 4. The memory 202 is used as a computer readable storage medium for storing software programs, computer executable programs and modules, such as program instructions/modules corresponding to the methods for fine-tuning a shoe body model in connection with user-associated data in embodiments of the present invention. The processor 201 executes various functional applications of the device and data processing by running software programs, instructions and modules stored in the memory 202, i.e., implementing the method of fine-tuning a shoe body model in conjunction with user-associated data described above. The input means 203 may be used to receive entered numeric or character information and to generate key signal inputs related to user settings and function control of the device. 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 for performing a method of fine-tuning a shoe body model in connection with user-associated data, the method comprising:

acquiring style characteristic information and foot information of a shoe body input by a user;

determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region;

determining second shoe body model adjustment information according to the foot information;

generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information;

and adjusting the displayed shoe body model based on the shoe body model adjustment information.

Optionally, the acquiring the style characteristic information and the foot information of the shoe body input by the user includes:

acquiring shoe style characteristic information manually input or selected by a user, wherein the shoe style characteristic information comprises shape selection information of an adjustable region of a set shoe model;

and acquiring image information of a foot preset angle shot by a user.

Optionally, the shape selection information includes style description data, and the determining the first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region includes:

and determining a corresponding preset parameter adjustment interval according to the style description data, and determining the preset parameter adjustment interval as first shoe body model adjustment information.

Optionally, the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a specific parameter value in the preset parameter adjustment interval according to the second shoe body model adjustment information;

and generating shoe body model adjustment information based on the parameter values.

Optionally, the determining the second shoe body model adjustment information according to the foot information includes:

and determining foot shape data according to the foot information, and determining the foot shape data as second shoe body model adjustment information.

Optionally, the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a regulation subinterval in the preset parameter regulation interval according to the foot shape data;

and generating shoe body model adjustment information based on the adjustment subinterval.

Optionally, the adjusting the displayed shoe body model based on the shoe body model adjustment information includes:

and in the adjustment subinterval, dynamically adjusting and displaying the adjustable area of the corresponding shoe body model.

It should be noted that, in the above embodiment of the device for fine tuning a shoe body model in combination with user-related data, each unit and module included are only divided according to functional logic, but not limited to the above division, so long as the corresponding functions can be implemented; in addition, the specific names of the functional units are also only for distinguishing from each other, and are not used to limit the protection scope of the embodiments of the present 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 described herein above according to various exemplary embodiments of the present application, when the program product is run on the computer device, e.g., the computer device may perform the methods of fine-tuning a shoe body model in connection with user-related data as described in the examples herein. The program product may be implemented using any combination of one or more readable media.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the embodiments of the present invention are not limited to the particular embodiments described herein, but are capable of numerous obvious changes, rearrangements and substitutions without departing from the scope of the embodiments of the present invention. Therefore, while the embodiments of the present invention have been described in connection with the above embodiments, the embodiments of the present invention are not limited to the above embodiments, but may include many other equivalent embodiments without departing from the spirit 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 (4)

1. A method for fine tuning a shoe body model in combination with user-associated data, comprising:

acquiring style characteristic information and foot information of a shoe body input by a user;

determining first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region;

determining second shoe body model adjustment information according to the foot information;

generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information;

adjusting the displayed shoe body model based on the shoe body model adjustment information;

the step of acquiring the style characteristic information and the foot information of the shoe body input by the user comprises the following steps:

acquiring shoe style characteristic information manually input or selected by a user, wherein the shoe style characteristic information comprises shape selection information of an adjustable region of a set shoe model;

acquiring image information of a foot preset angle shot by a user;

wherein the shape selection information includes style description data, and the determining the first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region includes:

determining a corresponding preset parameter adjustment interval according to the style description data, and determining the preset parameter adjustment interval as first shoe body model adjustment information;

wherein the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a specific parameter value in the preset parameter adjustment interval according to the second shoe body model adjustment information;

generating shoe body model adjustment information based on the parameter values; or alternatively, the first and second heat exchangers may be,

wherein the determining second shoe body model adjustment information according to the foot information includes:

determining foot shape data according to the foot information, and determining the foot shape data as second shoe body model adjustment information;

wherein the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a regulation subinterval in the preset parameter regulation interval according to the foot shape data;

generating shoe model adjustment information based on the adjustment subinterval;

wherein, based on the shoe body model adjustment information, adjust the shoe body model that shows, include:

and in the adjustment subinterval, dynamically adjusting and displaying the adjustable area of the corresponding shoe body model.

2. Device for fine-tuning a shoe body model in combination with user-related data, characterized by comprising:

the information acquisition module is configured to acquire the style characteristic information and the foot information of the shoe body input by a user;

a first adjustment module configured to determine first shoe body model adjustment information based on the shoe body style information and a set shoe body model adjustable region;

a second adjustment module configured to determine second shoe body model adjustment information based on the foot information;

an adjustment information determination module configured to generate shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information;

an adjustment module configured to adjust the displayed shoe body model based on the shoe body model adjustment information;

the step of acquiring the style characteristic information and the foot information of the shoe body input by the user comprises the following steps:

acquiring shoe style characteristic information manually input or selected by a user, wherein the shoe style characteristic information comprises shape selection information of an adjustable region of a set shoe model;

acquiring image information of a foot preset angle shot by a user;

wherein the shape selection information includes style description data, and the determining the first shoe body model adjustment information according to the shoe body style information and the set shoe body model adjustable region includes:

determining a corresponding preset parameter adjustment interval according to the style description data, and determining the preset parameter adjustment interval as first shoe body model adjustment information;

wherein the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a specific parameter value in the preset parameter adjustment interval according to the second shoe body model adjustment information;

generating shoe body model adjustment information based on the parameter values; or alternatively, the first and second heat exchangers may be,

wherein the determining second shoe body model adjustment information according to the foot information includes:

determining foot shape data according to the foot information, and determining the foot shape data as second shoe body model adjustment information;

wherein the generating shoe body model adjustment information based on the first shoe body model adjustment information and the second shoe body model adjustment information includes:

determining a regulation subinterval in the preset parameter regulation interval according to the foot shape data;

generating shoe model adjustment information based on the adjustment subinterval;

wherein, based on the shoe body model adjustment information, adjust the shoe body model that shows, include:

and in the adjustment subinterval, dynamically adjusting and displaying the adjustable area of the corresponding shoe body model.

3. An apparatus for fine-tuning a shoe body model in connection with user-associated data, the apparatus comprising: one or more processors; storage means for storing one or more programs that, when executed by the one or more processors, cause the one or more processors to implement the method of fine-tuning a shoe body model in connection with user-associated data as recited in claim 1.

4. A storage medium storing computer-executable instructions which, when executed by a computer processor, are configured to perform the method of fine-tuning a shoe body model in conjunction with user-associated data as claimed in claim 1.