JP2008186276A - Knit design system and design method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a designer to create a virtual sample of a knit product by retrieving desired thread without obtaining an actual article or the like of a thread sample. <P>SOLUTION: A maker terminal creates a color image of thread and registers the color image in a system server. A designer terminal retrieves a thread database of the system server, downloads a desired thread image, prepares a simulation image for design data of a knit product by using the thread image to obtain the virtual sample. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a design of a knitted product, and more particularly to a system and method for obtaining a yarn image necessary for simulation of a designed knitted product via a network.

  Simulating the finished product using the design data of the knit product is called loop simulation. In the loop simulation, the design data is converted into knitting data on the knitting machine, and the knitting data is used to arrange the yarns so that the yarns form stitches and the stitches are connected to each other to form a knit product. Simulate the product. The yarn arrangement data obtained by the loop simulation is called yarn streak data. The applicant has proposed that a 3D image of a garment is created by loop simulation and is worn on a virtual human body model (Patent Document 1: JP-A-2005-242611).

  In a simple loop simulation, the yarn of the knit product is expressed using a standard yarn image prepared in advance, so it is unrealistic to use the loop simulation image as a sample for trading the knit product. Therefore, the applicant has proposed to use a real yarn and read the color image a plurality of times while changing the background to obtain a color image and an opacity image of the yarn (Patent Document 2: JP-A-2005-251162). . Thus, a realistic yarn image is obtained, and an image of a knit product at a level that can be used as a sample for trading is obtained by loop simulation.

However, the creation of a thread image requires the designer to obtain the actual thread. For this purpose, a thread sample book is obtained from a thread manufacturer with a deal, but is difficult to obtain from a manufacturer without a deal. Also, as to what kind of yarn exists in the market, the designer can know only a part of the yarn, such as the yarn of the manufacturer with whom he has trade, without going through the exhibition. In addition, it is a great burden for a yarn manufacturer to provide a yarn sample book on which an actual yarn sample is pasted or to send a sample yarn as a yarn sample.
JP-A-2005-242611 JP 2005-251162 A

  An object of the present invention is to make it possible to create a virtual and high-quality sample of a knit product without an actual yarn sample.

The knit design system of the present invention comprises a system in which a system server, a thread image sending terminal, and a designer terminal are connected via a network,
The thread image sending terminal creates a color image of the thread and uploads it to the system server.
The system server registers the uploaded thread color image in the database and sends it to the designer terminal.
The designer terminal uses the color image of the yarn sent from the system server and creates a color image that simulates the knit product according to the design data of the knit product.

In the knit design method of the present invention, the system server, the yarn image sending terminal, and the designer terminal are connected via a network,
At the thread image sending terminal, create a color image of the thread and upload it to the system server.
In the system server, the uploaded yarn color image is registered in the database and sent to the designer terminal.
The designer terminal creates a color image that simulates the knit product using the color image of the yarn sent from the system server.

Preferably, the yarn image sending terminal creates a yarn opacity image in addition to the yarn color image, and uploads it to the system server. In the system server, the yarn color image and the opacity image Are registered in a database and sent to the designer terminal. The designer terminal uses the color image of the yarn and the image of opacity to create a color image that simulates the knit product.
Preferably, a thread image creating unit that reads a thread color image a plurality of times while changing the background color, removes the influence of the background color using the plurality of read images, and creates a thread color image and an opacity image, Connect to the thread image sending terminal.
Particularly preferably, means for creating an image of a color variation in which the color value is changed without changing the shape of the yarn in the color image of the yarn created by the yarn image creating means, the system server, the thread image sending terminal And at least one of the designer terminals.

Preferably, the system server is connected to a loop simulation means for creating an image for simulating a knitted fabric sample using the uploaded color image of the yarn, and the obtained color simulation image of the knitted fabric sample is obtained. Is displayed on the search screen provided by the system server to the designer terminal together with the color image of the yarn.
Preferably, the system server is provided with means for creating access statistics to the database from the designer terminal, and the obtained access statistics are sent to the yarn image sending terminal.

  In this invention, the designer terminal can create a virtual sample for the design of the knit product using the color image of the yarn downloaded from the system server. For this reason, the effort which manufactures an actual sample with respect to a design can be saved. The created virtual sample can be used in place of the actual sample. Since yarn images are registered in the system server database, designers can also access yarns from non-trade yarn manufacturers, and touch the latest yarns around the world without visiting overseas yarn exhibitions. be able to. Yarn manufacturers can promote yarn to designers around the world without an exhibition or a sample book of yarn.

Here, when the color image of the yarn and the image of the opacity of the yarn are used as the yarn image, a translucent portion such as fluff can be expressed.
Furthermore, if you change the background color and read the color image of the yarn multiple times, and create a color image of the yarn and an opacity image using the read images, the influence of the background color is removed, and fine details such as fluff are removed. A color image of yarn that accurately represents the shape of the portion and an image of opacity can be obtained. For this reason, the quality of the virtual sample can be particularly improved.
Furthermore, if you create an image of a color variation with a changed color value without changing the shape of the yarn in the color image of the yarn created by the yarn image creation means, create a color image of the yarn once and use that image. Many color variations can be created, and virtual samples with different colors can be created easily.

The designer can understand the texture of the yarn by creating an image simulating a swatch sample using the color image of the yarn and publishing it from the database together with the yarn image.
By providing means for creating access statistics to the database from the designer terminal, and sending the obtained access statistics to the thread image sending terminal, the thread manufacturer etc. will know the degree of interest of the thread designers etc. Can be used for yarn production planning and sales promotion.

  The best mode for carrying out the present invention will be described below, but the present invention is not limited to this.

  1 to 6 show a knit design system and a knit design method of the embodiment. The description regarding the knit design system applies to the knit design method as it is, unless otherwise specified, and similarly, the description regarding the knit design method also applies to the knit design system. In each figure, the same reference numeral represents the same thing. In the following description, a thread image refers to a combination of a thread color image and a thread opacity image, and the thread color image and the opacity image may be stored in one file or in another file. good. Note that only the color image of the yarn may be used without using the opacity image. A swatch image means a color image of a knitted fabric sample.

  In the figure, 2 is the Internet and may be another network, 4 is a manufacturer terminal, 12 is a system server, and 30 is a designer terminal. The manufacturer terminal 4 and the designer terminal 30 are each connected to the system server 12. 5, 13, and 31 are authentication units, and the authentication units 5 and 13 are used for communication between the maker terminal 4 and the system server 12, but authentication is used for communication between the designer terminal 30 and the maker terminal 4 or the system server 12. It does not have to be. 6, 14, 32 are communication interfaces.

  The manufacturer terminal 4 is provided with a thread image creation unit 8 to which a color scanner 9, a colorimeter 10 and a color conversion unit 11 are connected. The colorimeter 10 and the color conversion unit 11 may not be connected. The color scanner 9 reads a color image twice with changing the background color of an actual thread sample. By removing the influence of the background color from the read two color images, a color image of the yarn sample itself and an image of its opacity are obtained. The yarn sample generally requires a large number of color variations. For each color variation, the yarn may be dyed, and the color scanner 9 may change the background color and read it twice. Alternatively, instead of reading the yarn image with the color scanner 9, the color sample 10 may be used for color measurement to create a color variation yarn image. In addition, the color value of the yarn sample may be specified by a color chart or the like for the color variation yarn sample.

  The yarn image consists of a color image of the yarn itself and an opacity image. On the other hand, an opacity image cannot be obtained even if the color sample is measured by a colorimeter or the color of the sample is specified by a color chart or the like. Therefore, an opacity image obtained by reading the yarn sample twice with the color scanner 9 is used as it is, for example. Next, the color image of the thread sample has a distribution of brightness, saturation, and hue. The color specified on the colorimeter or color chart represents the average value of the brightness, saturation and hue of the thread sample. As the distribution from the average value of the color values (lightness, saturation and hue values), the distribution in the color image of the yarn read by the color scanner 9 is used. That is, according to the color value distribution in the color image of the yarn read by the color scanner 9, a color value distribution is provided around the average color designated by the colorimeter or color chart. In this way, the color conversion unit 11 creates an image of lightness, saturation, hue distribution, and thread opacity for the color values designated by the colorimeter 10 or the color chart.

  The manufacturer terminal 4 uploads the created thread image to the system server 12 via the Internet 2. The thread image creation unit 8 is connected to the manufacturer terminal 4 via a cable, a communication line, or the like, or is connected via an appropriate storage medium.

  The system server 12 registers the yarn image uploaded from the manufacturer terminal 4 in the yarn database 16. What is registered in the yarn database 16 includes an image of yarn opacity, a color image of the yarn, a swatch image (color) in which a knitted fabric obtained by trial knitting this yarn is simulated by loop simulation, a name of the yarn, a count, Types of yarn such as eyelashes and wool, material and manufacturer name, year and season. The database 16 is provided with a search sort unit 17 so that the database 16 can be searched from the designer terminal 30 and the search results can be sorted. Further, the access statistics unit 18 creates access statistics from the designer terminal 30 to the yarn database 16.

  The color variation of the thread image may be created on the maker terminal 4 or on the system server 12 side. Therefore, the color conversion unit 11 is provided in the system server 12. The network processing unit 20 stores various network application programs, and provides link information to the manufacturer terminal 4 for the designer terminal 30, for example.

  The loop simulation unit 21 converts the design data of the knit product into knitting data, and simulates the knit product knitted according to the knitting data. The type of knitting machine used for knitting is, for example, a flat knitting machine. What is obtained by the simulation is a 3D or 2D color image of the knit product, and the loop simulation unit 21 creates the thread line data according to the knitting data. Yarn streak data is data indicating the arrangement of the yarns constituting the knit product, and indicates what kind of stitches the yarns form at what positions, and how the stitches are connected to each other.

  When the color data of the yarn image and the image of the opacity are combined with the obtained thread line data, a color image of a 3D to 2D knit product is obtained. Here, a semi-transparent portion such as a yarn fluff can be finely expressed by an image of yarn opacity. The viewpoint conversion unit 23 is provided when a 3D loop simulation image is obtained, and performs viewpoint conversion on the 3D loop simulation image. The wearing unit 22 wears the color image of the knit product obtained by the loop simulation on a virtual human body model or the like. As a result, the 3D loop simulation image can be worn on a virtual human body model and viewed from various viewpoints. The human body database 24 is a database that stores various human body models, and provides a human body model in which the wearing unit 22 wears a loop simulation image.

  When the designer terminal 30 is shown in FIG. 2, the designer terminal 30 is connected to the system server 12 via the Internet 2, provided with the URL of the manufacturer terminal 4 from the network processing unit 20 of the system server 12, and the homepage of the manufacturer terminal 4. To access. The designer terminal 30 is connected to the customer terminal 36 via the Internet 2 and sends out a virtual sample of the knit product. The color conversion unit 11 may also be provided in the designer terminal 30. In this case, the color variation color and the thread image may be acquired from the system server 12, and the color variation thread image may be created by the designer terminal 30.

  The designer terminal 30 includes a knit design unit 33 and designs a knit product. In addition, a loop simulation unit 21, a wearing unit 22, a viewpoint conversion unit 23, a human body database 24, and the like are provided, and the obtained simulation image is printed as a virtual sample of the knit product by the color printer 34. Print data and image data obtained by simulation are sent to the customer terminal 36 as a virtual sample. The virtual sample is not limited to the one representing the state where the knit product is worn by the human body model, but may be any state as long as it is hung on a hanger, placed flat, or other realistic representation of the designed knit product. . In addition, the virtual sample may include two or more types of images such as a state in which the human body model is worn and a state in which the human body model is flatly arranged, and a plurality of different viewpoints such as a state viewed from the front and a state viewed from the back. An image may be included.

  FIG. 3 shows a yarn search screen 40 that the system server 12 provides to the designer terminal 30. On the search screen, the yarn can be searched from the database by the name and count of the yarn and the type of yarn, for example, eyelash / spun / stretch / fancy / mohair. The material represents cotton / wool / rayon / silk or a mixture ratio thereof, and the material can be searched for yarn. You can also search for yarn by manufacturer name, year, season such as autumn / winter and spring / summer, and any keywords (comments). When the yarns are searched according to these, the corresponding yarns are sorted by the yarn name, manufacturer name, etc., and the color yarn image 41 and the color swatch images 42 and 43 are displayed. Is the back eye.

FIG. 4 shows processing at the manufacturer terminal 4. Scan the color image of the yarn twice with a scanner, changing the background. For example, the background color is black B and white W, the image obtained with the background color black is A, and the image obtained with the background color white is C. The yarn color image X and opacity image D are:
A = B + (X−B) D
C = W + (X−W) D
So when you solve this,
X = {W (A−B) −B (C−W)} / {(A−B) − (C−W)}
D = {(A−B) − (C−W)} / (W−B)
It is represented by As described above, the fine color image X of the yarn and the opacity image D can be obtained without the influence of the background color. For other color variations, a thread color image X and an opacity image D are obtained. The background color may be other than black and white, or the image of the thread may be read three or more times by changing the background color three or more times.

  For color variations, if the color image is not read twice by the color scanner, the average value (average value of hue, brightness, and saturation) of the thread color image is obtained or specified using a colorimeter or color chart. . As the opacity image D, the image D obtained by reading twice with the scanner is used as it is. Next, the average value of the color image of the yarn matches that specified by the colorimeter or color chart, and the brightness, hue, and color from the average value of the color image X obtained by reading twice with a color scanner. The degree shift is shifted from the average value of the color values specified in the colorimeter or color chart. In this way, by specifying the average value of the color values, it is possible to obtain a yarn image for the color variation.

  Upload the thread image and thread data such as thread name, yarn count, type, material, manufacturer name, year, season, etc. to the system server. If there is an inquiry from the designer terminal, for example, a yarn transaction is performed. It also obtains the access statistics for the yarn from the system server, determines which yarn is high in demand, and which yarn is low in demand, and reflects it in production plans and sales activities.

  FIG. 5 shows processing in the system server. Obtain yarn images and yarn data (yarn name, count or thickness, type, material and mixing ratio, manufacturer name, viscosity, season, comments, etc.) from the manufacturer terminal and register them in the yarn database. If there is a color variation of the thread image from the manufacturer terminal, register it. When a color measurement value or a color value on a color chart is specified for a color variation from a manufacturer terminal, a thread image is created using a color conversion unit and registered in a thread database. A gauge of a flat knitting machine suitable for knitting is obtained from the yarn count or thickness, and a swatch image is created by loop simulation using the obtained gauge value and the yarn image. The created swatch image is registered in the yarn database with a size suitable for display at the original size so that the texture can be easily confirmed.

  In response to an inquiry from the designer terminal, the thread database is searched, the search results are sorted, and the thread image and thread data are sent to the designer terminal. Also, link information to the manufacturer terminal is provided in response to a request from the designer terminal. Furthermore, access statistics from the designer terminal are acquired for each thread in the database, and the access statistics are sent to the manufacturer terminal.

  FIG. 6 shows processing at the designer terminal. Obtain a thread image and thread data from the system server. Next, the design data of the knitted product is converted into knitting data, and the knitting process is simulated to obtain yarn thread data of the knitted product. A 3D or 2D color simulation image of the knit product is obtained by using the thread line data and the thread image. When a 3D color simulation image is obtained, processing such as viewpoint conversion, wearing on a human body model, and design change is performed, and the color simulation image is printed, posted on a homepage, or transmitted to a customer terminal. They produce knitted products according to customer requests, access the manufacturer's terminals, and order yarns.

In the embodiment, the following effects can be obtained.
(1) For the yarn manufacturer, the cost of distributing the yarn sample book and the cost of the exhibition can be eliminated or reduced, and the yarn sample can be virtually provided to many designers via the system server.
(2) The designer can access various types of yarn information without obtaining actual yarn samples. The knit product can be simulated to express the texture of the yarn, including fuzz. For this reason, the obtained simulation image can be used for trading as a virtual sample, and the sample organization between the design and manufacture of the knit product can be made unnecessary.
(3) A thread color image excluding the influence of the background color and an image with accurate opacity can be obtained from the thread image read twice while changing the background color. For this reason, the quality of the virtual sample can be improved.
(4) Since a swatch image can be obtained from the database, it becomes easier for designers and the like to evaluate the texture of the yarn.
(5) Since the image of yarn color variations can be obtained from the database, virtual samples with different colors can be created.

The block diagram which shows the maker terminal and the system server in the knit design system of execution example Block diagram showing the designer terminal in the knit design system of the embodiment The figure which shows the search screen of the yarn information which a system server provides in the knit design system of an Example. Flow chart showing processing at the manufacturer terminal in the knit design system of the embodiment The flowchart which shows the process by the system server side in the knit design system of an Example. The flowchart which shows the process in the designer terminal in the knit design system of the execution example

Explanation of symbols

2 Internet 4 Manufacturer terminal 5, 13, 31 Authentication unit 6, 14, 32 Communication interface 8 Thread image creation unit 9 Color scanner 10 Colorimeter 11 Color conversion unit 12 System server 16 Thread database 17 Search sort unit 18 Access statistics unit 20 Network processing unit 21 Loop simulation unit 22 Dressing unit 23 View point conversion unit 24 Human body database 30 Designer terminal 33 Knit design unit 34 Color printer 36 Customer terminal 40 Search screen 41 Thread image 42, 43 Swatch image

Claims (7)

It consists of a system in which a system server, a thread image sending terminal, and a designer terminal are connected via a network.
The thread image sending terminal creates a color image of the thread and uploads it to the system server.
The system server registers the uploaded thread color image in the database and sends it to the designer terminal.
A knit design system in which a designer terminal uses a color image of a yarn sent from a system server and creates a color image that simulates the knit product according to design data of the knit product. In the yarn image sending terminal, in addition to the color image of the yarn, an image of the opacity of the yarn is created and uploaded to the system server.
In the system server, the thread color image and the opacity image are registered in a database and sent to the designer terminal.
2. The knit design system according to claim 1, wherein the designer terminal uses a color image of yarn and an image of opacity to create a color image that simulates a knit product. Thread image creation means for creating a thread color image and an opacity image by using a plurality of read images and removing the influence of the background color by changing the background color. The knit design system according to claim 2, wherein the knit design system is connected to a delivery terminal. Means for creating a color variation image in which the color value is changed without changing the shape of the yarn in the yarn color image created by the yarn image creating means, a system server, a yarn image sending terminal, and a designer terminal The knit design system according to any one of claims 1 to 3, wherein the knit design system is provided in at least one of the above. The system server is connected to a loop simulation means for creating an image that simulates the knitted fabric sample using the uploaded yarn color image, and the obtained color sample image of the knitted fabric sample is used as the color of the yarn. The knit design system according to any one of claims 1 to 4, wherein the system server displays the image together with an image on a search screen provided to the designer terminal. The system server is provided with means for creating access statistics from the designer terminal to the database, and the obtained access statistics are sent to the thread image sending terminal. 5. One of the knit design systems. In a method of creating a color image simulating a knit product by connecting a system server, a yarn image sending terminal, and a designer terminal via a network,
At the thread image sending terminal, create a color image of the thread and upload it to the system server.
In the system server, the uploaded yarn color image is registered in the database and sent to the designer terminal.
A knit design method comprising: creating a color image using a color image of a thread sent from a system server at a designer terminal.