CN115344910A - Big data-based shoe body library information adjusting method and device - Google Patents

Abstract

The embodiment of the invention discloses a method and a device for adjusting shoe body library information based on big data, wherein the method comprises the following steps: splitting and storing each configurable assembly in the shoe body design process, and setting an initialization weight value, wherein the configurable assemblies comprise a shape assembly, a color matching assembly and a material assembly; acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction; adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component; and in the case that the various configurable components are provided by a display interface, displaying the updated weight values of the various configurable components. The scheme improves the intelligent degree of design software, and enables users to design the practical and usable shoe bodies more efficiently and simply.

Description

Big data-based shoe body library information adjusting method and device

Technical Field

The application relates to the field of intelligent design, in particular to a method and a device for adjusting shoe body library information based on big data.

Background

With the development of software intellectualization, the situation that shoe body design is carried out through a software system so as to meet the individual design requirements of users is more and more. The user can design the shoe body according to personal needs through software, such as setting the favorite shoe body style and color.

In the related art, when the shoe body is designed through a design system, in order to improve the intelligent degree of design, a design software database stores corresponding design data, and most of certain design parameters can provide multiple selectable items at the same time, for example, multiple selectable color panels can be provided for users to select according to the color setting. For another example, for the material of the shoe body, a plurality of material-selectable options can be displayed, and the attribute and name of each material can be labeled correspondingly for the user to select. However, the above design mode of the shoe body only considers providing options for users, the design mode is relatively single, and cannot provide more complicated and available further design information for users, and the use experience for beginners or non-professional designers is relatively poor, and the style of the shoe body which meets the aesthetic and functional requirements and the self-demand cannot be really designed.

Disclosure of Invention

The invention provides a method and a device for adjusting shoe body library information based on big data, which solve the problem that the available and appropriate degree of each available option can not be identified when design software provides the available options in the prior art, improve the intelligent degree of the design software, and enable a user to design a practical available shoe body which meets the requirements more efficiently and simply.

In a first aspect, the invention provides a big data-based shoe body library information adjusting method, which comprises the following steps: splitting and storing each configurable component in the shoe body design process, and setting initialization weight values, wherein the configurable components comprise shape components, color matching components and material components;

acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction;

adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component;

and in the case that the various configurable components are provided by a display interface, displaying the updated weight values of the various configurable components.

Furthermore, the splitting and storing of each configurable component in the shoe body design process and the setting of the initialization weight value include:

according to the type of each configurable component, each configurable component in the shoe body design process is disassembled and stored;

and setting the initialization weight value of each configurable component according to the finished product template data.

Further, the acquiring operation information used by a plurality of users for the configuration component in the shoe body designing process comprises the following steps:

acquiring each operation instruction of a plurality of users in the shoe body design process;

determining that an instruction meeting the weight updating requirement in each operation instruction is added to an instruction set;

and deleting the operation instruction aiming at the same configuration component in the instruction set to obtain operation information.

Further, the adjusting the initialization weight value according to the operation information to obtain an updated weight value of each configurable component includes:

generating a weight adjustment value of the configurable component according to the instruction type and the instruction sequence recorded in the operation information;

and adjusting the initialization weight value based on the weight adjusting value to obtain an update weight value of each configurable component.

Further, the generating a weight adjustment value of the configurable component according to the instruction type and the instruction sequence recorded in the operation information includes:

acquiring a set basic weight value according to the instruction type recorded in the operation information;

determining an additional weight value corresponding to the operation instruction according to the instruction sequence recorded in the operation information;

and generating a weight adjustment value of the configurable component according to the basic weight value and the additional weight value.

Further, the determining an additional weight value corresponding to the operation instruction according to the instruction sequence recorded in the operation information includes:

and according to the sequence of the order sequence recorded in the operation information, additional weight values are distributed from high to low in sequence.

Further, the displaying the updated weight values of the configurable elements includes:

generating an indication frame when the mouse is detected to hover to the corresponding configurable component;

and displaying the updating weight value in the indicating frame body, synchronously displaying an initialization weight value, and highlighting and flashing a selection icon of the corresponding configurable component when the updating weight value is detected to be adjusted.

In a second aspect, the present invention further provides a big data-based shoe library information adjusting apparatus, including:

splitting and storing the module: the device is used for splitting and storing each configurable assembly in the shoe body design process, and setting an initialization weight value, wherein the configurable assemblies comprise a shape assembly, a color matching assembly and a material assembly;

an operation information acquisition module: the system comprises a plurality of pieces of configuration components, a plurality of pieces of control information and a plurality of pieces of control information, wherein the configuration components are used by a plurality of users in the shoe body design process;

a weight value updating module: the initialization weight value is adjusted according to the operation information to obtain an update weight value of each configurable component;

a display module: and the updating weight value of each configurable component is displayed under the condition that the each configurable component is provided by a display interface.

In a third aspect, the present invention further provides a big data-based shoe body library information adjusting apparatus, including:

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 big data-based shoe body library information adjusting method according to the embodiment of the invention.

In a fourth aspect, the present invention further provides a storage medium storing computer-executable instructions, which when executed by a computer processor, are used to perform a big data-based shoe library information adjustment method according to an embodiment of the present invention.

In the invention, each configurable component in the shoe body design process is split and stored, and an initialization weight value is set; acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process; adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component; and displaying the updated weight values of the configurable components under the condition that the configurable components are provided by a display interface. According to the scheme, the user can further design the configurable assembly, the design mode is diversified, the intelligent degree and the user experience feeling of design software are further improved, the weighted value of the configurable assembly is adjusted and updated, the design effect can be observed in time, and the user can design the shoe body which meets the requirement and is actually usable more efficiently and simply.

Drawings

FIG. 1 is a flow chart of a method for adjusting shoe body library information based on big data according to an embodiment of the present invention;

FIG. 2 is a flowchart of a method for setting initialization weight values of various configurable elements according to an embodiment of the present invention;

fig. 3 is a flowchart of a method for obtaining operation information used by a configuration component according to an embodiment of the present invention;

FIG. 4 is a flowchart of a method for obtaining updated weight values for various configurable elements according to an embodiment of the present invention;

FIG. 5 is a flowchart of a method for generating a weight adjustment value of a configurable component according to an embodiment of the present invention;

FIG. 6 is a flowchart illustrating a method for updating weight values of configurable elements according to an embodiment of the present invention;

FIG. 7 is a block diagram of a device for adjusting shoe body library information based on big data according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a device for adjusting shoe body library information based on big data 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 a method for adjusting shoe body library information based on big data according to an embodiment of the present invention, which can be executed by an intelligent terminal, and specifically includes the following steps:

s101, splitting and storing each configurable assembly in the shoe body design process, and setting an initialization weight value, wherein the configurable assemblies comprise a shape assembly, a color matching assembly and a material assembly.

The use scene of the scheme is that a user designs the shoe body in a mode of running shoe body design software on the intelligent terminal device or in a mode of accessing a shoe body design website through a browser. The intelligent terminal can be a tablet computer, a notebook computer and the like.

In one embodiment, the configurable elements may refer to elements of the shoe body that can further configure the elements that make up the shoe body, and may include laces, soles, heels, and the like. Optionally, the configurable components include shape class components, color class components, and material class components. The shape-like components can be the shapes of the components of the shoe body, such as the shape of the heel. The color matching components can be used for setting the color matching of each component of the shoe body, such as the color of the shoelace. The material type components can be arranged on the material of each component of the shoe body, such as the material of the shoe upper. The weight value may refer to the specific gravity that the configurable element accounts for in the overall shoe body design. The initialization weight value may be a weight value that sets each configurable component according to the approximate design requirements. If the weight value of the shape component is set to be 40%, the weight value of the color matching component is 30%, and the weight value of the material component is 30%.

In one embodiment, the configurable components of the shoe body are determined first in the shoe body design process, an initialization weight value is set for each configurable component, and then each configurable component and the set corresponding initialization weight value are stored respectively. Facilitating subsequent modification of a single configurable element.

S102, acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction.

In one embodiment, a configuration component may refer to a certain component that a user selects among the configurable components. The operation information can be the operation record of each step of the user in the shoe body design process, and can comprise the storage operation instruction. The save operation instruction can be a save operation instruction generated by clicking a "save" option when a user wants to save all operation procedures of the configuration component. In one embodiment, optionally, the operation information includes a select operation instruction, a cancel operation instruction, and a determine operation instruction. The selection operation instruction can be generated by clicking the corresponding configuration component on the system design interface. The undo operation instruction may be an undo operation instruction generated by clicking an "undo" option on the system design interface in order to undo the last operation on the configuration component. The determined operation instruction can be a determined operation instruction generated by clicking a 'determination' option in the system design interface when a user wants to confirm all operation steps after performing corresponding operations on the configuration component. In one embodiment, the shoe body design software can be used by multiple users simultaneously. The users respectively run shoe body design software on respective intelligent terminals and operate aiming at the configuration assembly, and each intelligent device respectively sends the operation information of each user to the shoe body design system through a wireless network.

S103, adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component.

In one embodiment, the initial weight values corresponding to the configurable components are modified according to the obtained operation information used by a plurality of users for the configurable components in the shoe body design process. Specifically, if the weight value of the initialized shape component is 40% and the weight value of the color matching component is 30%, the design effect obtained by the initialized weight does not meet the actual requirements of the user, and therefore the shape component and the color matching component are respectively clicked in a system design interface to generate a selection operation instruction. Further, after the modification, the modification operation of the corresponding configurable component is confirmed by clicking a 'confirm' option, and a confirm operation instruction is generated. The intelligent terminal sends the selection operation instruction and the determination operation instruction contained in the operation information to the shoe body design system, and the shoe body design updates the corresponding initialization weight value of the corresponding configuration component according to the received operation information.

And S104, displaying the updated weight value of each configurable component under the condition that each configurable component is provided on a display interface.

In one embodiment, the display interface may be an operation interface for a user to design a shoe body, and the interface includes a toolbar, a display window, and the like. The updated weight value may be a value obtained by modifying and confirming the weight of each configurable component. When each configurable component is displayed on the toolbar of the display interface, the latest weight value of each configurable component is correspondingly displayed. And when the weight value of each configurable component is not updated, displaying the initialization weight value corresponding to each configurable component on a display interface.

According to the method, each configurable component in the shoe body design process is split and stored, and an initialization weight value is set; acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process; adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component; and displaying the updated weight values of the configurable components under the condition that the configurable components are provided by a display interface. According to the scheme, the user can further design the configurable assembly, the design mode is diversified, the intelligent degree and the user experience feeling of design software are further improved, the weighted value of the configurable assembly is adjusted and updated, the design effect can be observed in time, and the user can design the shoe body which meets the requirement and is actually usable more efficiently and simply.

Fig. 2 is a flowchart of a method for setting an initialization weight value of each configurable component according to an embodiment of the present invention, as shown in fig. 2, specifically including the following steps:

s201, disassembling and storing each configurable component in the shoe body design process according to the type of each configurable component.

In one embodiment, the types of configurable components may include shape types, color types, and material types, among others. Wherein the shape types may include the shape of a sole, the shape of an upper, and the like. The color types may include the color of the sole, the color of the upper, and the like. The material type may include the material of the sole, the material of the upper, etc. Illustratively, the configurable assembly sole is disassembled according to the shape of the sole, the color of the sole and the material of the sole. And (5) respectively and independently storing the shape of the disassembled sole, the color of the sole and the material of the sole.

S202, setting the initialization weight value of each configurable component according to the finished product template data.

In one embodiment, the finished product module data may be entered by the shoe body design system during the development process, and the user need only call the data during the shoe body design process. Or may be obtained from big data to obtain other user-designed finished products. The finished product template data may include weights corresponding to colors, shapes, and materials of finished products. In one embodiment, the initialization weight value settings for each configurable component are made according to the finished product template data. Specifically, the weight of the color, shape, and material setting appearing in the finished product template data is higher, and the weight of the color, shape, and material setting not appearing or appearing less in the finished product data is lower.

S203, acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction;

s204, adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component;

s205, under the condition that the configurable components are provided on the display interface, displaying the updated weight values of the configurable components.

According to the method, each configurable component in the shoe body design process is disassembled and stored according to the type of each configurable component; the initial weight values of all the configurable components are set according to the finished product template data, so that independent setting and adjustment can be performed on the configurable components of different types, when the design requirements of users are not met, only one type of configurable component needs to be adjusted, and the weight values corresponding to the types which do not need to be adjusted do not need to be repeatedly set, so that the design time of the shoe body is greatly saved.

Fig. 3 is a flowchart of a method for obtaining operation information used by a configuration component according to an embodiment of the present invention, and as shown in fig. 3, the method specifically includes the following steps:

s301, all configurable components in the shoe body design process are disassembled and stored, and initialization weight values are set, wherein the configurable components comprise shape components, color matching components and material components.

S302, obtaining each operation instruction of a plurality of users in the shoe body design process.

In one embodiment, the operation instruction may be one or more of a select operation instruction, a cancel operation instruction, and a determine operation instruction. The shoe body design system collects each operation instruction sent by each user in the shoe body design process through a wireless network.

And S303, determining that the instruction which meets the weight updating requirement in each operation instruction is added to an instruction set.

The weight update requirement may be when the duration of the action of the instruction is greater than a preset time threshold. The set of instructions may be a collection of instructions sent by all users received by the shoe body design system. In one embodiment, the flashlight determines whether each operating instruction satisfies the weight update requirement. For example, if the time threshold is set to 20 seconds, the shoe body design system receives the withdrawal instruction from the same user within 10 seconds after receiving the selection operation instruction, and does not receive other operation instructions from the user within 20 seconds after receiving the withdrawal instruction. Therefore, the duration of the selection instruction is less than 20 seconds, and the weight update requirement is not satisfied. And if no other operation instruction from the user is received within 20 seconds after the withdrawal instruction is received, and the duration of the withdrawal instruction exceeds 20 seconds, the weight updating requirement is considered to be met. And adds the retire instruction to the instruction set.

S304, deleting the operation instructions aiming at the same configuration component in the instruction set to obtain operation information.

Specifically, all instructions in the instruction set are counted, and the operation instructions for the same configuration component obtained through counting are deleted from the instruction set, so that repeated counting of the operation instructions of the same configuration component is avoided, and the obtained operation information is inaccurate.

S305, adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component.

S306, under the condition that the configurable components are provided on the display interface, displaying the updated weight values of the configurable components.

Therefore, each operation instruction of a plurality of users in the shoe body design process is obtained; determining that the instruction meeting the weight updating requirement in each operation instruction is added to the instruction set, so as to be beneficial to preventing the weight updating caused by false touch and misoperation; and deleting the operation instruction aiming at the same configuration component in the instruction set to obtain the operation information, so that the accuracy of the operation information can be improved, and the design requirement of a user can be fully met.

Fig. 4 is a flowchart of a method for obtaining an updated weight value of each configurable component according to an embodiment of the present invention, as shown in fig. 4, which specifically includes the following steps:

s401, all configurable components in the shoe body design process are disassembled and stored, and initialization weight values are set, wherein the configurable components comprise shape components, color matching components and material components.

S402, acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction.

And S403, generating a weight adjustment value of the configurable component according to the instruction type and the instruction sequence recorded in the operation information.

In one embodiment, the instruction types may include select class, undo class, and determine class, among others. The instruction order may be the order in which each instruction is generated, such as generating a select instruction for the first time, generating a confirm instruction for the second time, and so on. The weight adjustment value may be a weight added or subtracted by a corresponding weight based on the initial weight value, such as a weight added by 10%, a weight subtracted by 5%, and so on. In one embodiment, the weight adjustment values for the configurable components are generated according to the instruction type and instruction order recorded in the operation information. Specifically, the generation sequence of the different types of instructions further reflects the maximum design requirements of the user, and the weight adjustment value of the configurable component is generated according to the design requirements.

S404, adjusting the initialization weight value based on the weight adjusting value to obtain an update weight value of each configurable component.

For example, if the initial weight value of the sole shape is 40%, the weight adjustment value is a weight increased by 10%, and the updated weight value of the sole shape is 50%; if the initial weight value of the vamp color is 40% and the weight adjustment value is the weight reduced by 5%, the update weight value of the vamp color is 35%.

S405, displaying the updated weight value of each configurable component under the condition that the configurable components are provided on a display interface.

As can be seen from the above, the weight adjustment value of the configurable component is generated according to the instruction type and the instruction sequence recorded in the operation information; adjusting the initialization weight value based on the weight adjusting value to obtain an update weight value of each configurable component; the size of the requirement for each configurable component can be judged according to the operation information of the user, so that the design result can meet the requirement of the user, and the experience of the user is further improved.

Fig. 5 is a flowchart of a method for generating a weight adjustment value of a configurable component according to an embodiment of the present invention, as shown in fig. 5, which specifically includes the following steps:

s501, all configurable components in the shoe body design process are disassembled and stored, and initialization weight values are set, wherein the configurable components comprise shape components, color matching components and material components.

S502, obtaining operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction.

S503, acquiring a set basic weight value according to the instruction type recorded in the operation information;

in one embodiment, the base weight value may be used to represent the weight size for different instruction types. If the weight of the selected class is set to 2, the weight of the revoked class is set to 1, and the weight of the confirmed class is set to 3. Specifically, the shoe body design system counts various instructions according to the obtained operation information, and sets a basic weight value corresponding to each instruction type according to the number of the various instructions in the operation information obtained through counting.

S504, determining an additional weight value corresponding to the operation instruction according to the instruction sequence recorded in the operation information;

the additional weight value of the operation instruction can represent the design requirement of the user for each configurable component, and the greater the additional weight value, the more the design requirement of the user can be met. In a possible implementation, since a user needs to continuously modify the configurable component according to a requirement, the instruction type generated last time is often determined as the operation instruction that best meets the requirement, so that the additional weight value of the instruction type generated first time can be determined to be the minimum along with the instruction sequence, and the additional weight values of the corresponding instruction types are sequentially increased according to the appearance sequence of the instruction types. Illustratively, the instruction sequence is: selecting instruction-withdraw instruction-confirm instruction, it may be determined that the additional weight value of the selecting instruction < the additional weight value of the withdraw selecting instruction < the additional weight value of the confirm selecting instruction. Thus, it may be determined that the selection instruction additional weight value is 1, the retire instruction additional weight value is 2, and the instruction additional weight value is 3.

And S505, generating a weight adjustment value of the configurable component according to the basic weight value and the additional weight value.

Specifically, the selection ratio of each user to the configurable component may be determined by adding the basic weight value and the attachment weight value, so as to determine the weight adjustment value of the configurable component according to the ratio.

S506, adjusting the initialization weight value based on the weight adjusting value to obtain an update weight value of each configurable component.

And S507, displaying the updated weight value of each configurable component under the condition that each configurable component is provided on a display interface.

As can be seen from the above, the set basic weight value is obtained according to the type of the instruction recorded in the operation information; determining an additional weight value corresponding to the operation instruction according to the instruction sequence recorded in the operation information; and generating a weight adjustment value of the configurable assembly according to the basic weight value and the additional weight value, so that a user can adjust the design requirement of the configurable assembly in time through the weight value in the operation information, the intelligent degree of design is further improved, the use experience of the user is improved, and the satisfaction of shoe body design is improved.

Optionally, the additional weight values are sequentially distributed from high to low according to the order sequence of the instructions recorded in the operation information.

In one embodiment, specifically, the instruction type generated by the user in the first generation is the instruction type that best meets the design requirement, so that the instruction type generated in the first generation may be determined as the highest weight value, and the additional weight values of the corresponding instruction types are sequentially reduced according to the appearance sequence of the instruction types. Illustratively, the instruction sequence is: selecting instruction-withdrawing instruction-confirming instruction, it may be determined that an additional weight value of the selecting instruction > withdraws an additional weight value of the selecting instruction > confirms an additional weight value of the selecting instruction. Thus, it may be determined that the selection instruction additional weight value is 3, the withdrawal instruction additional weight value is 2, and the instruction additional weight value is 1.

Therefore, the additional weight values are distributed from high to low in sequence according to the order sequence recorded in the operation information, the optimal design requirement of the user can be determined according to the operation information of the user, and the satisfaction degree and the use feeling of the user on the shoe body design are further improved.

Fig. 6 is a flowchart of a method for displaying an updated weight value of each configurable component according to an embodiment of the present invention, as shown in fig. 6, which specifically includes the following steps:

s601, each configurable assembly in the shoe body design process is disassembled and stored, and initialization weight values are set, wherein the configurable assemblies comprise shape assemblies, color matching assemblies and material assemblies.

S602, acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction.

S603, the initialization weight values are adjusted according to the operation information to obtain the update weight values of the configurable components.

S604, when the mouse is detected to hover to the corresponding configurable component, an indication frame body is generated.

The instruction box may be a dialog box. In one embodiment, a user can generate a shoe design model in the shoe design interface according to the settings on the configurable components and display the shoe design model in the display bar, and when the user hovers a mouse over the configurable components corresponding to the shoe design model, an indication frame can be generated accordingly.

And S605, displaying the updating weight value in the indication frame body, synchronously displaying the initialization weight value, and highlighting and flashing a selection icon of the corresponding configurable component when the adjustment of the updating weight value is detected.

In one embodiment, the selection icon may refer to an identification of a corresponding area of the shoe body model corresponding to the configurable element. Specifically, when a user hovers a mouse over a configurable component in a shoe body design interface, an indication frame corresponding to the configurable component is generated, and an initialization weight value and an updated weight value corresponding to the configurable component are displayed in the indication frame. And judging whether the design requirements are met or not by the user according to the updated weight value and the shoe body model. If the design requirements are not met and the updated weight value needs to be adjusted, double-clicking any position in the indicating frame body, and after the system detects that double-clicking is performed on the indicating frame body, highlight flickering is performed on the selection icon corresponding to the configurable component in the toolbar, so that a worker can quickly determine the position where the configurable component is arranged, and further adjustment can be performed conveniently.

According to the method, when the mouse is detected to hover to the corresponding configurable component, the indicating frame body is generated; and displaying the updated weight value in the indication frame body, synchronously displaying the initialized weight value, and when the adjustment of the updated weight value is detected, highlighting and flashing the selection icon of the corresponding configurable component, so that the initial weight value and the updated weight value corresponding to each configurable component can be known conveniently, and the configurable components which need to be further adjusted can be identified, thereby being beneficial to improving the design efficiency of the shoe body and the intelligent degree of the shoe body design, and further improving the experience of a user.

Fig. 7 is a structural block diagram of a big data-based shoe body library information adjusting device according to an embodiment of the present invention, which is used for executing the big data-based shoe body library information adjusting method according to the above embodiment, and has corresponding functional modules and beneficial effects of the executing method. As shown in fig. 7, the apparatus specifically includes:

splitting and storing module 71: the device is used for splitting and storing each configurable assembly in the shoe body design process, and setting an initialization weight value, wherein the configurable assemblies comprise a shape assembly, a color matching assembly and a material assembly;

the operation information acquisition module 72: the system comprises a plurality of pieces of configuration components, a plurality of pieces of control information and a plurality of pieces of control information, wherein the configuration components are used by a plurality of users in the shoe body design process;

the weight value updating module 73: the initialization weight value is adjusted according to the operation information to obtain an update weight value of each configurable component;

the display module 74: and the updating weight value of each configurable component is displayed under the condition that the each configurable component is provided by a display interface.

According to the scheme, each configurable component in the shoe body design process is split and stored, and an initialization weight value is set; acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process; adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component; and displaying the updated weight values of the configurable components under the condition that the configurable components are provided by a display interface. According to the scheme, the user can further design the configurable component, the design mode is diversified, the intelligent degree and the user experience feeling of design software are further improved, the weighted value of the configurable component is adjusted and updated, the design effect can be observed timely, and the user can design the shoe body which meets the requirements and is actually usable more efficiently and simply.

Fig. 8 is a schematic structural diagram of a big data-based shoe body library information adjusting apparatus according to an embodiment of the present invention, as shown in fig. 8, the apparatus includes a processor 801, a memory 802, an input device 803, and an output device 804; the number of the processors 801 in the device may be one or more, and one processor 801 is taken as an example in fig. 8; the processor 801, the memory 802, the input device 803 and the output device 804 in the apparatus may be connected by a bus or other means, and the bus connection is exemplified in fig. 8. The memory 802 is a computer-readable storage medium for storing software programs, computer-executable programs, and modules, such as program instructions/modules for a big data-based shoe body library information adjusting method according to an embodiment of the present invention. The processor 801 executes various functional applications and data processing of the device by running software programs, instructions and modules stored in the memory 802, so as to implement the above-mentioned method for adjusting shoe body library information based on big data. The input unit 803 may be used to receive input numeric or character information and generate key signal inputs related to user settings and function controls of the device. The output device 804 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 big data based adjustment of shoe library information, the method comprising: splitting and storing each configurable assembly in the shoe body design process, and setting an initialization weight value, wherein the configurable assemblies comprise a shape assembly, a color matching assembly and a material assembly; acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction; adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component; and displaying the updated weight values of the configurable components under the condition that the configurable components are provided by a display interface.

It should be noted that, in the embodiment of the shoe body library information adjusting device based on big data, the included units and modules are only divided according to the 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 including 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 runs on the computer device, for example, the computer device may perform a big data based shoe library information adjusting method 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, rearrangements and substitutions can be made by those skilled in the art without departing from the scope of the embodiments of the 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. A shoe body library information adjusting method based on big data is characterized by comprising the following steps:

splitting and storing each configurable assembly in the shoe body design process, and setting an initialization weight value, wherein the configurable assemblies comprise a shape assembly, a color matching assembly and a material assembly;

acquiring operation information used by a plurality of users for the configuration assembly in the shoe body design process, wherein the operation information comprises a selection operation instruction, a cancellation operation instruction and a determination operation instruction;

adjusting the initialization weight value according to the operation information to obtain an update weight value of each configurable component;

and in the case that the various configurable components are provided by a display interface, displaying the updated weight values of the various configurable components.

2. The big data-based shoe body library information adjusting method according to claim 1, wherein the splitting and storing each configurable component in the shoe body design process and setting the initialization weight value comprises:

according to the type of each configurable component, each configurable component in the shoe body design process is disassembled and stored;

and setting the initialization weight value of each configurable component according to the finished product template data.

3. The big-data-based shoe body library information adjusting method according to claim 1, wherein the obtaining of the operation information used by a plurality of users for the configuration component in the shoe body design process comprises:

acquiring each operation instruction of a plurality of users in the shoe body design process;

determining that an instruction meeting the weight updating requirement in each operation instruction is added to an instruction set;

and deleting the operation instruction aiming at the same configuration component in the instruction set to obtain operation information.

4. The big data based shoe body library information adjusting method according to any one of claims 1-3, wherein the adjusting the initialization weight values according to the operation information to obtain updated weight values of the configurable components comprises:

generating a weight adjustment value of the configurable component according to the instruction type and the instruction sequence recorded in the operation information;

and adjusting the initialization weight value based on the weight adjusting value to obtain an update weight value of each configurable component.

5. The big data based shoe body library information adjusting method according to claim 4, wherein the generating of the weight adjustment value of the configurable component according to the instruction type and the instruction sequence recorded in the operation information comprises:

acquiring a set basic weight value according to the instruction type recorded in the operation information;

determining an additional weight value corresponding to the operation instruction according to the instruction sequence recorded in the operation information;

and generating a weight adjustment value of the configurable component according to the basic weight value and the additional weight value.

6. The big data-based shoe body library information adjusting method according to claim 5, wherein the determining an additional weight value corresponding to the operation instruction according to the instruction sequence recorded in the operation information comprises:

and according to the sequence of the order sequence recorded in the operation information, distributing additional weighted values from high to low in sequence.

7. The big-data-based shoe library information adjusting method according to any one of claims 1-3, wherein the displaying the updated weight value of each configurable component comprises:

generating an indication frame when detecting that the mouse hovers over to the corresponding configurable component;

and displaying the updating weight value in the indicating frame body, synchronously displaying an initialization weight value, and highlighting and flashing a selection icon of the corresponding configurable component when the updating weight value is detected to be adjusted.

8. A shoe body library information adjusting device based on big data is characterized by comprising:

splitting and storing the module: the device is used for splitting and storing each configurable assembly in the shoe body design process, and setting an initialization weight value, wherein the configurable assemblies comprise a shape assembly, a color matching assembly and a material assembly;

an operation information acquisition module: the system comprises a plurality of pieces of configuration components, a plurality of pieces of control information and a plurality of pieces of control information, wherein the configuration components are used by a plurality of users in the shoe body design process;

a weighted value updating module: the initialization weight value is adjusted according to the operation information to obtain an update weight value of each configurable component;

a display module: and the updating weight value of each configurable component is displayed under the condition that the each configurable component is provided by a display interface.

9. A big data based shoe library information adjusting apparatus, 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 a big data-based shoe library information adjustment method of any one of claims 1-7.

10. A storage medium storing computer-executable instructions for performing a big-data based shoe body library information adjustment method according to any one of claims 1-7 when executed by a computer processor.

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