CN111523704B - Cloth using result determining method and device for virtual ready-made clothes and computer equipment - Google Patents

Abstract

The application relates to a cloth use result determining method, a cloth use result determining device, computer equipment and a storage medium for virtual ready-made clothes, wherein the cloth use result determining method comprises the following steps of: acquiring a ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined; acquiring cut pieces of the virtual ready-made clothes according to the ready-made clothes identification; arranging the cut pieces of the virtual ready-made clothes on the virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made clothes, and arranging and combining the cut piece with the smallest total gap area among the cut pieces in the cut piece arrangement combinations to serve as a cut piece arrangement effect graph of the virtual ready-made clothes; determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces; and determining the cloth using rate of the virtual ready-made clothes on the virtual cloth according to the total area of the cut pieces and the area parameters carried by the virtual cloth, and determining the cloth using result of the virtual ready-made clothes according to the cloth using rate of the virtual ready-made clothes on the virtual cloth. The method and the device for determining the cloth consumption result of the virtual ready-made clothes improve the determination efficiency of the cloth consumption result of the virtual ready-made clothes, and reduce the risk of calculation errors.

Description

Cloth using result determining method and device for virtual ready-made clothes and computer equipment

Technical Field

The application relates to the technical field of clothing production, in particular to a cloth use result determining method and device for a virtual garment, computer equipment and a storage medium.

Background

With the continuous optimization of the garment production process, before the production of the garment, in order to ensure the efficient utilization of the fabric, the cloth consumption condition of the garment to be produced is estimated in advance, and the garment is produced in large quantities according to the estimation result of the cloth consumption condition.

However, at present, a plurality of numerical values are obtained by manually operating in a plurality of software at the same time, and the cloth consumption condition estimation result of the garment to be produced is obtained after each numerical value is manually calculated, so that the process is complicated, the efficiency is low, and a great risk of calculation errors exists.

Disclosure of Invention

In view of the above, it is desirable to provide a cloth use result determination method, device, computer device, and storage medium for a virtual garment, which can improve cloth use result determination efficiency of the virtual garment.

A method of determining a cloth use outcome for a virtual garment, the method comprising:

acquiring a ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined;

acquiring cut pieces of the virtual ready-made clothes according to the ready-made clothes identification;

arranging the cut pieces of the virtual ready-made garment on a virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and arranging and combining the cut pieces with the smallest total gap area among the cut pieces in the cut piece arrangement combinations to serve as a cut piece arrangement effect graph of the virtual ready-made garment;

determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces;

and determining the cloth consumption rate of the virtual ready-made garment on the virtual cloth according to the total area of the cutting pieces and the area parameters carried by the virtual cloth, and determining the cloth consumption result of the virtual ready-made garment according to the cloth consumption rate of the virtual ready-made garment on the virtual cloth.

In one embodiment, before the acquiring the cut pieces of the virtual garment according to the garment identification, the method further comprises:

acquiring parameters of the virtual ready-made clothes;

the step of obtaining the cut pieces of the virtual ready-made clothes according to the ready-made clothes identification comprises the following steps:

obtaining cut pieces corresponding to the ready-made clothes identification from a preset database to serve as initial cut pieces corresponding to the virtual ready-made clothes;

correspondingly adjusting the initial cut pieces according to the ready-made clothes parameters of the virtual ready-made clothes to obtain adjusted initial cut pieces;

and taking the adjusted initial cut piece as a cut piece of the virtual ready-made clothes.

In one embodiment, the obtaining of the parameters of the virtual garment includes:

acquiring a parameter adjustment recording log of the virtual ready-made garment; the parameter adjustment record log stores parameter adjustment records of a plurality of time periods of the virtual ready-made clothes;

determining a parameter adjustment record closest to the current time period as a target parameter adjustment record of the virtual ready-made clothes from the parameter adjustment record log;

and taking the corresponding ready-made clothes parameters in the target parameter adjustment record as the ready-made clothes parameters of the virtual ready-made clothes.

In one embodiment, the arranging the cut pieces of the virtual ready-made garment on the virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and the cut piece arrangement combination with the smallest total gap area between the cut pieces in the cut piece arrangement combinations is used as the cut piece arrangement effect diagram of the virtual ready-made garment, and includes:

acquiring a plurality of preset cut piece arrangement sequence parameters corresponding to the ready-made clothes identification from a database according to the ready-made clothes identification;

sequentially arranging the cut pieces of the virtual ready-made garment according to the preset cut piece arrangement sequence parameters to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment;

respectively calculating the total area of gaps among the cut pieces in each cut piece arrangement combination, and determining the cut piece arrangement combination with the minimum total area of the gaps as the cut piece arrangement effect graph of the virtual ready-made clothes.

In one embodiment, the determining the total area of the cut pieces in the cut piece arrangement effect map according to the area parameter carried by the cut pieces includes:

acquiring area parameters carried by the cut pieces, and determining the areas of the cut pieces according to the area parameters;

and taking the sum of the areas of all the cut pieces in the cut piece arrangement effect graph as the total area of the cut pieces in the arrangement effect graph.

In one embodiment, determining the cloth consumption rate of the virtual garment on the virtual cloth according to the total area of the cut pieces and the area parameter carried by the virtual cloth comprises:

determining the area of the virtual cloth according to the area parameter carried by the virtual cloth;

and acquiring the ratio of the total area of the cut pieces to the area of the virtual cloth as the cloth consumption rate of the virtual ready-made clothes.

In one embodiment, after determining the cloth usage rate of the virtual garment on the virtual cloth according to the total area of the cut pieces and the area parameter carried by the virtual cloth, the method further comprises the following steps:

acquiring an actual conversion coefficient corresponding to the virtual cloth from a database;

and determining the actual cloth consumption of the virtual ready-made clothes according to the area of the virtual cloth, the cloth consumption rate of the virtual ready-made clothes and the conversion coefficient.

A cloth usage rate determination apparatus for a virtual garment, the apparatus comprising:

the garment identification acquisition module is used for acquiring the garment identification of the virtual garment with the cloth consumption rate to be determined;

the cut piece acquisition module is used for acquiring the cut pieces of the virtual ready-made clothes according to the ready-made clothes identification;

the cut piece arrangement module is used for arranging the cut pieces of the virtual ready-made garment on a virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and the cut piece arrangement combination with the smallest total gap area among the cut pieces in the cut piece arrangement combinations is used as a cut piece arrangement effect graph of the virtual ready-made garment;

the total area determining module is used for determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces;

and the cloth utilization result determining module is used for determining the cloth utilization rate of the virtual ready-made clothes on the virtual cloth according to the total area of the cut pieces and the area parameters carried by the virtual cloth, and determining the cloth utilization result of the virtual ready-made clothes according to the cloth utilization rate of the virtual ready-made clothes on the virtual cloth.

A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

acquiring a ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined;

acquiring cut pieces of the virtual ready-made clothes according to the ready-made clothes identification;

arranging the cut pieces of the virtual ready-made garment on a virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and arranging and combining the cut pieces with the smallest total gap area among the cut pieces in the cut piece arrangement combinations to serve as a cut piece arrangement effect graph of the virtual ready-made garment;

determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces;

and determining the cloth consumption rate of the virtual ready-made garment on the virtual cloth according to the total area of the cutting pieces and the area parameters carried by the virtual cloth, and determining the cloth consumption result of the virtual ready-made garment according to the cloth consumption rate of the virtual ready-made garment on the virtual cloth.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

acquiring a ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined;

acquiring cut pieces of the virtual ready-made clothes according to the ready-made clothes identification;

arranging the cut pieces of the virtual ready-made garment on a virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and taking the cut piece arrangement combination with the smallest total gap area among the cut pieces in the cut piece arrangement combinations as a cut piece arrangement effect graph of the virtual ready-made garment;

determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces;

determining the cloth using rate of the virtual ready-made clothes on the virtual cloth according to the total area of the cut pieces and the area parameters carried by the virtual cloth, and determining the cloth using result of the virtual ready-made clothes according to the cloth using rate of the virtual ready-made clothes on the virtual cloth.

The cloth use result determining method, device, computer equipment and storage medium for the virtual ready-made clothes comprise the following steps: acquiring a ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined; obtaining cut pieces of the virtual ready-made clothes according to the ready-made clothes identification; arranging the cut pieces of the virtual ready-made clothes on the virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made clothes, and arranging and combining the cut piece with the smallest total gap area among the cut pieces in the cut piece arrangement combinations to serve as a cut piece arrangement effect graph of the virtual ready-made clothes; determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces; determining the cloth utilization rate of the virtual ready-made garment on the virtual cloth according to the total area of the cut pieces and the area parameters carried by the virtual cloth, determining the cloth utilization rate of the virtual ready-made garment according to the cloth utilization rate of the virtual ready-made garment on the virtual cloth, obtaining a plurality of cut pieces according to the data identification of the virtual ready-made garment to be produced, arranging all the cut pieces according to a preset arrangement rule, calculating the cloth proportion, obtaining the cloth utilization rate of the virtual ready-made garment, and determining the cloth utilization rate of the virtual ready-made garment; the method has the advantages that manual operation of a plurality of pieces of software and manual calculation are not needed, the determination efficiency of cloth using results of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

Drawings

FIG. 1 is a diagram of an exemplary environment for implementing a cloth result method for a virtual garment;

FIG. 2 is a schematic flow chart illustrating a cloth result method for a virtual garment according to one embodiment;

FIG. 3 is a diagram illustrating the effect of the arrangement of cut pieces of a virtual garment according to an embodiment;

FIG. 4 is a diagram illustrating the effect of the arrangement of the cut pieces of a virtual garment according to another embodiment;

FIG. 5 is a schematic flow chart illustrating the steps of obtaining a virtual cut-part of a garment based on the garment identifier according to an embodiment;

FIG. 6 is a schematic flow chart of the steps for obtaining parameters of a virtual garment in one embodiment;

FIG. 7 is a block diagram showing the construction of a cloth consumption effect device for a virtual garment according to an embodiment;

FIG. 8 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The cloth use result determining method for the virtual ready-made clothes can be applied to the application environment shown in fig. 1. Specifically, the server 11 communicates with the database 12 through a network. The server 11 acquires the ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined from the database 12; the server 11 acquires the cut pieces of the virtual ready-made clothes from the database 12 according to the ready-made clothes identification; the server 11 arranges the cut pieces of the virtual ready-made garment on the virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and arranges and combines the cut piece with the smallest total gap area among the cut pieces in the cut piece arrangement combinations to serve as a cut piece arrangement effect graph of the virtual ready-made garment; the server 11 determines the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces; the server 11 determines the cloth consumption rate of the virtual ready-made clothes on the virtual cloth according to the total area of the cut pieces and the area parameters carried by the virtual cloth, and determines the cloth consumption result of the virtual ready-made clothes according to the cloth consumption rate of the virtual ready-made clothes on the virtual cloth. The server 11 may also send the cloth use result of the virtual garment to a terminal through a network, where the terminal may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the server 11 may be implemented by an independent server or a server cluster formed by multiple servers.

In one embodiment, as shown in fig. 2, a cloth use result determination method for a virtual garment is provided, which is described by taking the method as an example applied to the server 11 in fig. 1, and includes the following steps:

and step 21, acquiring the ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined.

The virtual garment can be a 3D or 2D model obtained by simulating the effect of the garment to be produced in computer software; the cloth consumption rate is the proportion of one or more virtual ready-made clothes in unit cloth in actual manufacturing; the garment identification is marking information capable of uniquely identifying virtual garment data information corresponding to the garment to be produced in the database.

Specifically, the server receives and analyzes an instruction determined by the cloth ratio through the terminal equipment of the user to obtain a ready-made garment identification corresponding to the instruction, or determines ready-made garment identification information carried by the virtual ready-made garment according to the virtual ready-made garment selected by the user on the computer equipment; the virtual garment can also be obtained by converting according to a 2D pattern. For example, in the order information of the customer a in the street of the clothing factory, the order specifies that the clothing with the model abc-101 is to be produced, the staff can input the model parameter, and the server can obtain the corresponding virtual clothing parameter from the database according to the model parameter and obtain the corresponding identification information of the clothing. The server can determine the ready-made clothes identification of the virtual ready-made clothes in various modes, the ready-made clothes identification is searched quickly, and the ready-made clothes identification can be associated with other data well, so that the determination efficiency of the cloth consumption rate of the virtual ready-made clothes can be improved by acquiring the ready-made clothes identification at first.

And step 22, obtaining the cut pieces of the virtual ready-made clothes according to the ready-made clothes identification.

Wherein the panels of the virtual garment are the individual fabric components that make up a complete virtual garment, e.g. a vest consisting of a side a and a side B, the panels of the vest are panels a and B.

Specifically, the database stores models of virtual ready-made garments, and also stores models of respective cut pieces corresponding to the virtual ready-made garments. The server can correspondingly search each cut piece from the database according to the ready-made clothes identification of the virtual ready-made clothes. The cut-parts can be obtained by computer recognition and proportional conversion according to patterns used in actual production. The corresponding cut pieces are obtained through the ready-made clothes identification, the ready-made clothes are divided into the cut pieces, the cloth using result of the virtual ready-made clothes is determined more efficiently, and the determining efficiency of the cloth using result of the virtual ready-made clothes is improved.

And step 23, arranging the cut pieces of the virtual ready-made clothes on the virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made clothes, and arranging and combining the cut pieces with the smallest total gap area among the cut pieces in the cut piece arrangement combinations to serve as a cut piece arrangement effect graph of the virtual ready-made clothes.

Wherein, as shown in fig. 3, it is a view of the arrangement effect of the cut pieces containing two virtual ready-made clothes; a and B on the cut pieces are distinguishing marks of the virtual ready-made clothes, one virtual ready-made clothes is A, two virtual ready-made clothes are A, B (shown in figure 3), three virtual ready-made clothes are A, B, C, and the like; the M mark on the cut piece is specification information of the virtual ready-made garment, and other than M, L, X, XXL can be used; the lines inside each cut piece are cut piece inner lines; the rectangle arranged by each cutting piece is a virtual cloth, the scales of the left side and the lower side of the virtual cloth are respectively the latitude and the longitude of the cloth, and the latitude and the longitude can be understood as coordinates adopted by computer equipment when processing data, and the latitude and the longitude can be converted into the width and the length of the cloth when actually producing in subsequent processing. It should be noted that the size of the virtual cloth can be specifically set according to actual production.

Specifically, the server can arrange a plurality of cut pieces of one virtual ready-made garment or a plurality of cut pieces of a plurality of virtual ready-made garments according to actual production needs. When the server arranges the cut pieces, the cut pieces can be arranged according to a preset arrangement sequence, or the cut pieces can be randomly arranged and combined, the arrangement result of each time is used as an arrangement combination, the gap area among the cut pieces in each arrangement combination is calculated, and the minimum gap area is used as a cut piece arrangement effect graph. For example, as shown in fig. 4, the effect of arranging the panels of a virtual garment is shown, and the virtual garment a comprises 6 panels; firstly, a server acquires 6 cut pieces corresponding to a virtual ready-made garment A, a plurality of arrangement combinations are acquired in a random combination mode, and the total area of gaps among the cut pieces is calculated, namely the area of a blank area except each cut piece in a rectangle corresponding to a virtual cloth is calculated; if the area is the smallest in all the permutation combinations, for example, the permutation combination corresponding to fig. 4 is the permutation combination with the smallest total area of the gaps between the cut pieces in the multiple permutation combinations, the permutation combination shown in fig. 4 is determined as the cut piece permutation effect diagram of the virtual garment obtained by arranging the cut pieces on the virtual fabric. The cutting pieces are arrayed for multiple times, so that the gap area among the cutting pieces in the cutting piece array effect diagram is as small as possible, higher utilization efficiency of the cloth is achieved, a plurality of cutting pieces are obtained according to the data identification of the virtual ready-made clothes to be produced, the cloth occupation ratio is calculated after all the cutting pieces are arrayed according to the preset array rule, the cloth utilization rate of the virtual ready-made clothes is obtained, and the cloth utilization result of the virtual ready-made clothes is determined; the method has the advantages that manual operation of a plurality of pieces of software and manual calculation are not needed, the determination efficiency of cloth using results of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

And 24, determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces.

Specifically, each cut piece carries an area parameter, and the server can calculate the area of each cut piece through the area parameters and further calculate the total area of the cut pieces in the cut piece arrangement effect graph; the total area may be a virtual unit area in the computer or an area required for actual production after conversion; the fault tolerance rate can be set for the area parameter, for example, the total area of the cutting pieces calculated actually is 200 square meters, and the fault tolerance rate is 202 square meters after being added with 1 percent, and the fault tolerance rate can be set according to the actual production needs, so that the phenomenon that the cloth cannot be subjected to production operation according to the cutting piece arrangement effect graph due to extra waste caused by shrinkage and improper cutting of the cloth in the actual production can be avoided. The total area of the cut pieces in the cut piece arrangement effect graph is determined through the area parameters carried by the cut pieces, the data of the cut pieces are provided for the subsequent calculation of the cloth consumption rate of the virtual ready-made clothes, manual calculation is not needed, the determination efficiency of the cloth consumption result of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

And 25, determining the cloth consumption rate of the virtual ready-made clothes on the virtual cloth according to the total area of the cut pieces and the area parameters carried by the virtual cloth, and determining the cloth consumption result of the virtual ready-made clothes according to the cloth consumption rate of the virtual ready-made clothes on the virtual cloth.

Specifically, the server may calculate the area of the corresponding virtual fabric according to an area parameter carried by the virtual fabric, such as longitude and latitude, and the total area of the cut pieces may also be calculated according to the longitude and latitude of the virtual fabric where the cut pieces are located, in short, the measurement units between the two are kept consistent. The cloth consumption rate is the total area of the cut pieces/(longitude of the virtual cloth × latitude of the virtual cloth) × 100%, and the proportion of the cut pieces in the cloth can be determined according to the cloth consumption rate. The area of the virtual cloth is obtained through calculation, the cloth consumption rate of the virtual ready-made clothes can be further determined by combining the total area of the cut pieces, the cloth consumption rate and other parameters can determine the cloth consumption result of the produced virtual ready-made clothes, the preliminary cloth consumption condition estimation is performed on the actual production, the cloth can be reasonably ordered according to the data, the waste is reduced, and the cost is reduced; meanwhile, a plurality of pieces of software do not need to be operated manually, manual calculation is also not needed, the determination efficiency of the cloth using result of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

The method for determining the cloth using result of the virtual ready-made clothes comprises the following steps: acquiring a ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined; acquiring cut pieces of the virtual ready-made clothes according to the ready-made clothes identification; arranging the cut pieces of the virtual ready-made clothes on the virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made clothes, and arranging and combining the cut piece with the smallest total gap area among the cut pieces in the cut piece arrangement combinations to serve as a cut piece arrangement effect graph of the virtual ready-made clothes; determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces; determining the cloth consumption rate of the virtual ready-made clothes on the virtual cloth according to the total area of the cut pieces and the area parameters carried by the virtual cloth, determining the cloth consumption rate of the virtual ready-made clothes according to the cloth consumption rate of the virtual ready-made clothes on the virtual cloth, obtaining a plurality of cut pieces according to the data identification of the virtual ready-made clothes to be produced, arranging all the cut pieces according to a preset arrangement rule, calculating the cloth occupation ratio, obtaining the cloth consumption rate of the virtual ready-made clothes, and determining the cloth consumption rate of the virtual ready-made clothes; the method has the advantages that manual operation of multiple pieces of software and manual calculation are not needed, the determination efficiency of cloth using results of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

In one embodiment, before the step 22 of obtaining the cut pieces of the virtual garment according to the garment identifier, the method further includes: acquiring parameters of the virtual ready-made clothes;

as shown in fig. 5, the step 22 of obtaining the cut pieces of the virtual ready-made garment according to the ready-made garment identifier includes:

step 51, obtaining the cut pieces corresponding to the ready-made clothes identification from a preset database, and using the cut pieces as initial cut pieces corresponding to the virtual ready-made clothes;

step 52, correspondingly adjusting the initial cut pieces according to the ready-made clothes parameters of the virtual ready-made clothes to obtain adjusted initial cut pieces;

and step 53, taking the adjusted initial cut piece as a cut piece of the virtual ready-made clothes.

Specifically, after the staff selects the virtual ready-made clothes on the terminal, the length of the virtual ready-made clothes may be modified, for example, the length of the shirt is changed or the bust is lengthened, and the modified data are parameters of the virtual ready-made clothes. The server can correspondingly adjust the size of each cut piece of the virtual ready-made garment according to the modification of the parameters of the virtual ready-made garment, and the adjusted cut pieces are used as the cut pieces of the virtual ready-made garment. For example, if the client wants to change the sleeve length from 30 to 33 when the virtual garment is produced, the client can modify the virtual garment by setting the sleeve length of the virtual garment or by dragging the sleeve length with a mouse on the terminal, and after recognizing the dragging operation or the parameter input, the server correspondingly adjusts the lengths of the panels of the left sleeve a and the right sleeve b from 30 to 33, so that the lengths of the panels a and b used by the server in the subsequent processing steps are both 33. For another example, if the customer wants to perform the production after washing the fabric a for the virtual ready-made garment, and the server can adjust the area of each initial cut segment of the virtual ready-made garment downward by 3% if the fabric a shrinks by 3% in the washing. According to the method, the size of the cut pieces can be correspondingly adjusted along with the change of the parameters of the virtual ready-made clothes through setting the initial cut pieces and the adjusted initial cut pieces, manual calculation is not needed when a plurality of pieces of software are operated manually, the determination efficiency of cloth using results of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

In one embodiment, as shown in fig. 6, obtaining parameters of the virtual garment comprises:

step 61, acquiring a parameter adjustment record log of the virtual ready-made clothes; the parameter adjustment record log stores parameter adjustment records of a plurality of time periods of the virtual ready-made clothes;

step 62, determining the parameter adjustment record closest to the current time period from the parameter adjustment record log as the target parameter adjustment record of the virtual ready-made clothes;

and step 63, taking the corresponding ready-made clothes parameters in the target parameter adjustment records as the ready-made clothes parameters of the virtual ready-made clothes.

Specifically, the log of the parameter adjustment records the log of modification and adjustment of the terminal to the virtual ready-made clothes, such as cloth replacement, length adjustment, process adjustment and the like. Each adjustment is accompanied by a change in the parameters, and the adjustment closest to the current time period is the last identified adjustment. The method and the device can be applied to parameter adjustment of the user in real time, the server determines the scene of the latest cloth using result according to the parameter adjustment in real time, and the effect that the cloth using result of the virtual garment or other parameters are updated in real time along with the adjustment of the user is achieved.

In an embodiment, in step 23, the arranging the cut pieces of the virtual ready-made garment on the virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and the arranging and combining the cut pieces with the smallest total gap area among the cut pieces in the cut piece arrangement combinations as the cut piece arrangement effect diagram of the virtual ready-made garment includes: acquiring a plurality of preset cut piece arrangement sequence parameters corresponding to the ready-made clothes identification from a database according to the ready-made clothes identification; sequentially arranging the cut pieces of the virtual ready-made garment according to the preset cut piece arrangement sequence parameters to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment; and respectively calculating the total area of gaps among the cut pieces in each cut piece arrangement combination, and determining the cut piece arrangement combination with the minimum total area of the gaps as a cut piece arrangement effect graph of the virtual ready-made clothes.

Specifically, in actual production, although the arrangement combination of the optimal cloth utilization rate can be calculated by using the mode of exhausting various arrangement combinations, the arrangement sequence of the cut pieces can be preset for the virtual ready-made clothes with the unified style in consideration of the production flow and the sequence of the cut piece use, for example, the larger cut pieces are placed firstly and the smaller cut pieces are placed secondly; the preset sequence is preset cut piece arrangement sequence parameters, and one preset cut piece arrangement sequence parameter can simultaneously correspond to a plurality of virtual ready-made clothes. The server arranges the cut pieces according to preset cut piece arrangement sequence parameters to obtain a plurality of cut piece arrangement combinations, and selects the cut piece arrangement effect graph with the smallest total gap area from the arrangement combinations as the virtual ready-made clothes. The embodiment can limit the range of the cut pieces in the arrangement by presetting the parameters of the arrangement sequence of the cut pieces, the server obtains an arrangement combination determination effect diagram with higher cloth utilization rate from the result according to the area of the gap, and the utilization efficiency of the cloth is improved under the condition of combining with actual production.

In one embodiment, the step 24 of determining the total area of the panels in the panel arrangement effect map according to the area parameters carried by the panels includes: acquiring area parameters carried by the cut pieces, and determining the areas of the cut pieces according to the area parameters; and taking the sum of the areas of all the cut pieces in the cut piece arrangement effect graph as the total area of the cut pieces in the arrangement effect graph.

Specifically, the server determines the total area of all the cut pieces in the cut piece arrangement effect graph as the total area of the cut pieces according to the area parameter carried by each cut piece. For example, if there are 10 square panels in the panel arrangement effect map, each of which is equal in size and each of which has a side length of 10 longitude/latitude units, the total area of the panels in the panel arrangement effect map is 1000 longitude/latitude area units. According to the embodiment, the total area of the cut pieces in the arrangement effect graph is further calculated according to the area parameters of all the cut pieces in the cut piece arrangement effect graph, manual operation of a plurality of pieces of software is not needed, manual calculation is also not needed, the determination efficiency of the cloth using result of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

In one embodiment, the step 25 of determining the cloth consumption rate of the virtual ready-made garment on the virtual cloth according to the total area of the cut pieces and the area parameter carried by the virtual cloth includes: determining the area of the virtual cloth according to the area parameters carried by the virtual cloth; and acquiring the ratio of the total area of the cut pieces to the area of the virtual cloth as the cloth utilization rate of the virtual ready-made clothes.

Specifically, for example, if the area parameter carried by the virtual cloth is 100 longitude units and 100 latitude units, the area of the virtual cloth is 10000 units; if the total area of the cut pieces is 6666 units, the ratio of the total area of the cut pieces to the area of the virtual cloth, i.e., the cloth consumption rate of the virtual ready-made clothes, is 66.66%. The area of the virtual cloth is calculated through the area parameters carried by the virtual cloth, the cloth consumption rate of the virtual ready-made clothes can be determined by combining the total area of the cut pieces, manual operation of a plurality of pieces of software and manual calculation are not needed, the determination efficiency of the cloth consumption result of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

In one embodiment, after determining the cloth consumption rate of the virtual ready-made clothes on the virtual cloth according to the total area of the cut pieces and the area parameter carried by the virtual cloth, the method further comprises the following steps: acquiring an actual conversion coefficient corresponding to the virtual cloth from a database; and determining the actual cloth consumption of the virtual ready-made clothes according to the area of the virtual cloth, the cloth consumption rate of the virtual ready-made clothes and the conversion coefficient.

Specifically, the server acquires an actual conversion coefficient corresponding to the virtual cloth from the database according to a parameter of the virtual cloth, such as identification information, where the actual conversion coefficient may be a conversion value between the length of the cloth used for actual production and the longitude and latitude of the virtual cloth; for example, in the actual conversion coefficient, one longitude unit is 10cm, and one latitude unit is 20 cm. And determining the actual cloth consumption of the virtual ready-made clothes by combining the area of the virtual cloth, the cloth consumption rate of the virtual ready-made clothes and the conversion coefficient. For example, when the actual conversion factor is 10000 in terms of area unit, 100 square meters, the cloth consumption rate of the virtual ready-made garment is 80%, and the area of the virtual cloth is 10000 in terms of area unit, the actual cloth consumption of the virtual ready-made garment is 80 square meters. According to the cloth using method and device for the virtual ready-made clothes, the cloth using result of the virtual ready-made clothes can be converted into the cloth using result of cloth used in actual production through the actual conversion coefficient, manual calculation is not needed when a plurality of pieces of software are operated manually, the determination efficiency of the cloth using result of the virtual ready-made clothes is improved, and meanwhile the risk of calculation errors is reduced.

It should be understood that although the steps in the flowcharts of fig. 2, 5, and 6 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2, 5, and 6 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least some of the other steps or stages.

In one embodiment, as shown in fig. 7, there is provided a cloth use rate determining apparatus for a virtual garment, including:

a ready-made clothes identification obtaining module 71, configured to obtain a ready-made clothes identification of a virtual ready-made clothes with a cloth consumption rate to be determined;

a cut piece obtaining module 72, configured to obtain a cut piece of the virtual ready-made garment according to the ready-made garment identifier;

the cut piece arranging module 73 is used for arranging the cut pieces of the virtual ready-made garment on the virtual cloth for multiple times to obtain a plurality of cut piece arranging combinations of the virtual ready-made garment, and arranging and combining the cut pieces with the smallest total gap area among the cut pieces in the cut piece arranging combinations to serve as a cut piece arranging effect graph of the virtual ready-made garment;

a total area determination module 74, configured to determine the total area of the cut pieces in the cut piece arrangement effect map according to the area parameters carried by the cut pieces;

and a cloth utilization result determining module 75, configured to determine a cloth utilization rate of the virtual ready-made garment on the virtual cloth according to the total area of the cut pieces and the area parameter carried by the virtual cloth, and determine a cloth utilization result of the virtual ready-made garment according to the cloth utilization rate of the virtual ready-made garment on the virtual cloth.

In one embodiment, the cloth consumption rate determining device for the virtual ready-made clothes further comprises a cut-part adjusting module for acquiring parameters of the virtual ready-made clothes; obtaining cut pieces corresponding to ready-made clothes identification from a preset database, and taking the cut pieces as initial cut pieces corresponding to the virtual ready-made clothes; correspondingly adjusting the initial cut pieces according to the ready-made clothes parameters of the virtual ready-made clothes to obtain adjusted initial cut pieces; and taking the adjusted initial cut piece as a cut piece of the virtual garment.

In one embodiment, the cut piece adjusting module is further used for acquiring a parameter adjusting record log of the virtual ready-made garment; the parameter adjustment record log stores parameter adjustment records of a plurality of time periods of the virtual ready-made clothes; determining a parameter adjustment record closest to the current time period from the parameter adjustment record log as a target parameter adjustment record of the virtual ready-made clothes; and taking the corresponding ready-made clothes parameters in the target parameter adjustment record as the ready-made clothes parameters of the virtual ready-made clothes.

In one embodiment, the cut piece arrangement module 73 is further configured to obtain a plurality of preset cut piece arrangement sequence parameters corresponding to the ready-made clothes identifier from the database according to the ready-made clothes identifier; sequentially arranging the cut pieces of the virtual ready-made garment according to the preset cut piece arrangement sequence parameters to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment; and respectively calculating the total area of gaps among the cut pieces in each cut piece arrangement combination, and determining the cut piece arrangement combination with the minimum total area of the gaps as a cut piece arrangement effect graph of the virtual ready-made clothes.

In one embodiment, the total area of the cut segment determining module 74 is further configured to obtain an area parameter carried by the cut segment, and determine the area of the cut segment according to the area parameter; and taking the sum of the areas of all the cut pieces in the cut piece arrangement effect graph as the total area of the cut pieces in the arrangement effect graph.

In one embodiment, the cloth-using result determining module 75 is further configured to determine an area of the virtual cloth according to an area parameter carried by the virtual cloth; and acquiring the ratio of the total area of the cut pieces to the area of the virtual cloth as the cloth consumption rate of the virtual ready-made clothes.

In one embodiment, the cloth consumption rate determining device for the virtual ready-made clothes further comprises a conversion module, which is used for obtaining an actual conversion coefficient corresponding to the virtual cloth from a database; and determining the actual cloth consumption of the virtual ready-made clothes according to the area of the virtual cloth, the cloth consumption rate of the virtual ready-made clothes and the conversion coefficient.

For the specific limitation of the cloth consumption rate determining device of the virtual ready-made garment, reference may be made to the above limitation on the cloth consumption rate determining method of the virtual ready-made garment, and details are not repeated here. The modules in the cloth utilization rate determining device for the virtual garment can be wholly or partially realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 8. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing the cloth consumption rate determining data of the virtual ready-made clothes. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method for determining a cloth usage rate of a virtual garment.

Those skilled in the art will appreciate that the architecture shown in fig. 8 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having stored therein a computer program, the processor implementing the steps of the above-described method embodiments when executing the computer program.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware related to instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A method for determining a result of a virtual garment, the method comprising:

acquiring a ready-made clothes identification of the virtual ready-made clothes with the cloth consumption rate to be determined;

acquiring cut pieces of the virtual ready-made clothes according to the ready-made clothes identification;

arranging the cut pieces of the virtual ready-made garment on a virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and arranging and combining the cut pieces with the smallest total gap area among the cut pieces in the cut piece arrangement combinations to serve as a cut piece arrangement effect graph of the virtual ready-made garment;

determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces;

and determining the cloth consumption rate of the virtual ready-made garment on the virtual cloth according to the total area of the cutting pieces and the area parameters carried by the virtual cloth, and determining the cloth consumption result of the virtual ready-made garment according to the cloth consumption rate of the virtual ready-made garment on the virtual cloth.

2. The method according to claim 1, further comprising, before obtaining the cut pieces of the virtual garment according to the garment identification:

acquiring parameters of the virtual ready-made clothes;

the step of obtaining the cut pieces of the virtual ready-made clothes according to the ready-made clothes identification comprises the following steps:

acquiring the cut pieces corresponding to the ready-made clothes identification from a preset database to serve as initial cut pieces corresponding to the virtual ready-made clothes;

correspondingly adjusting the initial cut pieces according to the ready-made clothes parameters of the virtual ready-made clothes to obtain adjusted initial cut pieces;

and taking the adjusted initial cut piece as a cut piece of the virtual ready-made clothes.

3. The method of claim 2, wherein said obtaining parameters of said virtual garment comprises:

acquiring a parameter adjustment recording log of the virtual ready-made clothes; the parameter adjustment record log stores parameter adjustment records of a plurality of time periods of the virtual ready-made clothes;

determining a parameter adjustment record closest to the current time period as a target parameter adjustment record of the virtual ready-made clothes from the parameter adjustment record log;

and taking the corresponding ready-made clothes parameters in the target parameter adjustment record as the ready-made clothes parameters of the virtual ready-made clothes.

4. The method according to claim 1, wherein the arranging the cut pieces of the virtual ready-made garment on the virtual cloth for a plurality of times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and the arranging and combining the cut pieces with the smallest total gap area among the cut pieces in the cut piece arrangement combinations as the cut piece arrangement effect graph of the virtual ready-made garment comprises:

acquiring a plurality of preset cut piece arrangement sequence parameters corresponding to the ready-made clothes identification from a database according to the ready-made clothes identification;

sequentially arranging the cut pieces of the virtual ready-made garment according to the preset cut piece arrangement sequence parameters to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment;

respectively calculating the total area of gaps among the cut pieces in each cut piece arrangement combination, and determining the cut piece arrangement combination with the minimum total area of the gaps as the cut piece arrangement effect graph of the virtual ready-made clothes.

5. The method according to claim 1, wherein said determining the total area of the panels in the panel arrangement effect map according to the area parameters carried by the panels comprises:

acquiring area parameters carried by the cut pieces, and determining the areas of the cut pieces according to the area parameters;

and taking the sum of the areas of all the cut pieces in the cut piece arrangement effect graph as the total area of the cut pieces in the arrangement effect graph.

6. The method according to claim 1, wherein determining a cloth usage rate of the virtual garment on the virtual cloth according to the total area of the cut pieces and the area parameter carried by the virtual cloth comprises:

determining the area of the virtual cloth according to the area parameter carried by the virtual cloth;

and acquiring the ratio of the total area of the cut pieces to the area of the virtual cloth as the cloth consumption rate of the virtual ready-made clothes.

7. The method according to claim 6, further comprising, after determining the cloth usage rate of the virtual garment on the virtual cloth according to the total area of the cut pieces and the area parameter carried by the virtual cloth:

acquiring an actual conversion coefficient corresponding to the virtual cloth from a database;

and determining the actual cloth consumption of the virtual ready-made clothes according to the area of the virtual cloth, the cloth consumption rate of the virtual ready-made clothes and the conversion coefficient.

8. A cloth use rate determining apparatus for a virtual garment, the apparatus comprising:

the garment identification acquisition module is used for acquiring the garment identification of the virtual garment with the cloth consumption rate to be determined;

the cut piece acquisition module is used for acquiring the cut pieces of the virtual ready-made clothes according to the ready-made clothes identification;

the cut piece arrangement module is used for arranging the cut pieces of the virtual ready-made garment on a virtual cloth for multiple times to obtain a plurality of cut piece arrangement combinations of the virtual ready-made garment, and the cut piece arrangement combination with the smallest total gap area among the cut pieces in the cut piece arrangement combinations is used as a cut piece arrangement effect graph of the virtual ready-made garment;

the total area determining module is used for determining the total area of the cut pieces in the cut piece arrangement effect graph according to the area parameters carried by the cut pieces;

and the cloth utilization result determining module is used for determining the cloth utilization rate of the virtual ready-made clothes on the virtual cloth according to the total area of the cut pieces and the area parameters carried by the virtual cloth, and determining the cloth utilization result of the virtual ready-made clothes according to the cloth utilization rate of the virtual ready-made clothes on the virtual cloth.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method of any of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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