JP4163849B2 - Color conversion method, color conversion device, and color conversion definition storage medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, when performing color printing using a special color ink in addition to a process ink by a color printing machine, a proof image that reproduces the color of the color printed matter is output (printed out) using a proofer such as a printer or a CRT display device. A color conversion method, a color conversion device for converting image data for printing into image data for proofers, and a color conversion definition for performing such color conversion. The color conversion definition storage medium.
[0002]
[Prior art]
Conventionally, when performing color image printing using a color printing machine, a proof image that resembles the color of the image printed by the printing machine as much as possible is printed using a color printer or the like before printing. Prints are output or displayed on a screen using a color display device. In creating such a proof image, the type of printing machine to be printed and the conditions for use of the printing machine (type of ink used, paper quality, etc .; including type of printing machine) The printing profile that describes the relationship between the image data and the color of the actual printed material, the type of proofer that outputs the proofer image, and the use of the proofer. A proofer describing the relationship between image data and the color of the proof image that is actually output, corresponding to the conditions (including the type of proofer, the condition necessary for outputting a certain proof image is called a proof condition) Knows the profile, converts the image data for printing into image data for proofer based on these print profile and proofer profile, And it outputs the proof image based on the image data for converted proofer to the. By doing so, it is possible to obtain a proof image whose color matches that of the actual printed matter. Usually, a printing profile corresponding to typical printing conditions is provided by a printer, and a proofer profile is also provided by a manufacturer of the printer or the like for a printer intended for proof image output.
[0003]
When converting print image data to proofer image data and outputting a proof image, the print profile and the proofer profile are usually combined to create one LUT (lookup table), The image data for printing is converted into image data for the proofer by referring to the LUT and by performing an interpolation operation on the lower bit side for which the correspondence relationship is not described in the LUT.
[0004]
Here, printing is usually performed using four CMYK process inks, but in addition to the four process inks, special color inks may be used. In this case, it is not practical to prepare a printing profile for all combinations of CMYK four-color process inks and various special color inks, and usually a printing profile for printing using CMYK four-color process inks. Is prepared. Therefore, the LUT created as described above uses the process color image data defined in the color space of CMYK 4 colors when printing using the process inks of 4 colors of CMYK as the color of RGB, for example, 3 colors for the proofer. This is an LUT for converting to image data defined in a color space of three RGB colors when a proof image is output using a material.
[0005]
[Problems to be solved by the invention]
Under such circumstances, when printing using special color inks in addition to the CMYK four-color process inks, it becomes a problem how to output a proof image of the printed matter.
[0006]
Normally, a printer for outputting a proof image is of a type that outputs an image using, for example, three color materials of RGB or four color materials of CMYK, and a special color material that matches the special color to be used for printing is prepared. If so, it is extremely rare. Also, when displaying a proof image on a CRT display device, all the colors must be expressed by a combination of the three RGB colors, and the entire printed matter including the special colors is expressed by the three RGB colors.
[0007]
In this case, conventionally, the characteristics of the special color ink to be used for printing (L ^* a ^* b ^* The spot color image data is converted into CMYK four-color process color image data based on the special color image data for printing (such as halftone data) and the process color image for the spot color Data and process color image data for CMYK four process inks excluding the special colors are combined, and the combined CMYK four process color image data is used for the proofer by the conversion system such as LUT created as described above. For example, a method of converting the image data into RGB three-color image data and outputting a proof image based on the converted image data for the proofer is employed. In this case, the spot color is decomposed into four CMYK colors and is converted into proofer image data by a conversion system that is originally composed of a process color LUT or the like, and there is a problem in the color reproduction accuracy of the spot color.
[0008]
Japanese Patent Laid-Open No. 10-248017 proposes a technique for improving the color reproduction accuracy of a spot color. According to the technique disclosed in this publication, CMYK four-color process color image data among print image data is converted into a proofer by the first conversion system including the LUT created as described above. For the spot color, a second conversion system suitable for the spot color is prepared, and the second conversion system converts the spot color for the proofer. Thus, the first conversion system and the second conversion system are used. Both of the image data converted in the above are synthesized on a proofer color space (for example, RGB color space).
[0009]
According to this technology, the second conversion system suitable for the spot color is converted into CMYK four-color process ink as compared with the above-described technique in which the spot color is decomposed into CMYK and converted by a conversion system not originally prepared for spot colors. Since it is prepared separately from the adapted first conversion system, it is possible to perform more accurate color conversion with respect to the spot color and to improve the color reproduction accuracy of the spot color.
[0010]
Here, there are various types of proofers for proof image output, and a proofer for outputting a proof image is selected from among a plurality of types of proofers according to, for example, the speed and cost of proof image creation. In such a system, for example, a proof image is usually displayed on the display screen of a CRT display device, and if necessary, the proof image is printed out by a printer. In the case of constructing a system that selects a printer for proof image output according to the speed and cost of print output, or the required image quality, etc., the technique proposed in the above publication uses the above-mentioned first technique. It is necessary to recreate both the first conversion system and the second conversion system for each type of proofer. Data management on the efficiency is poor. Alternatively, both the first conversion system and the second conversion system can be created in advance for each type of proofer. However, the first conversion system and the second conversion system have a large memory capacity. If a conversion system that requires such a large-capacity memory is prepared in advance according to the type of proofer, a very large-capacity memory is required. Therefore, there is a problem in terms of apparatus configuration and cost.
[0011]
In view of the above circumstances, the present invention is suitable for a color conversion method, a color conversion apparatus, and a color conversion method that are suitable for a system that has high color reproduction accuracy of a special color and that has a plurality of types of proofers that output a proof image. An object of the present invention is to provide a color conversion definition recording medium in which various color conversion definitions are stored.
[0012]
[Means for Solving the Problems]
The color conversion method of the present invention that achieves the above object is for printing comprising process color image data defined by coordinate values of a predetermined first color space and spot color image data defined by coordinate values in the spot color direction. When the image data is obtained by printing an image based on the image data for printing under a predetermined printing condition, the coordinate value of the second color space for the proofer that outputs the proof image reproducing the image. In the color conversion method for converting into defined image data,
A printing condition conversion process corresponding to a printing condition, wherein the coordinate value of the first color space is converted to the coordinate value of a device-independent colorimetric color space;
A spot color reference process for converting the spot color name into the coordinate value of the colorimetric color space;
A proof condition conversion process corresponding to a proof condition for converting the coordinate value of the colorimetric color space into the coordinate value of the second color space;
Image data defined by the coordinate values of the colorimetric color space or the second color space obtained by converting the process color image data in the colorimetric color space or the second color space, and the spot color name are converted. A synthesis process for synthesizing the image data defined by the coordinate values of the colorimetric color space or the second color space,
The printing image data composed of the process color image data defined by the coordinate values of the first color space and the spot color image data defined by the coordinate values of the spot color direction is converted into the above-described first for the proofer. The image data is converted into image data defined by the coordinate values of the second color space.
[0013]
In the color conversion method of the present invention, the above-described printing profile is used in the above-described printing condition conversion process, and in the spot color reference process, the spot color L provided by the manufacturer of the spot color ink or the like is used. ^* a ^* b ^* A chromaticity value such as a value is referred to, and the above-described proofer profile is used in the above proof condition conversion process. In the synthesis process, the process color image data and the spot color image data are synthesized. In this case, only the proofer profile used in the proof condition conversion process needs to be added or changed when the proofer is added or changed. Compared with the technique disclosed in the above-mentioned publication in which both the first conversion system and the second conversion system need to be added or changed, the addition of data associated with the addition of a proofer can be reduced. This is advantageous in terms of management or memory capacity. In addition, according to the present invention, since the spot color conversion process is set separately from the process color conversion process, it is possible to obtain a proof image with a high color reproduction accuracy at the same level as the level disclosed in the aforementioned publication. it can.
[0014]
Here, in the color conversion method of the present invention, the combining step may be a process of combining the image data in the second color space, or combining the image data in the colorimetric color space. You may do.
[0015]
In the case of adopting a synthesis process in which image data is synthesized on the second color space, the color conversion method of the present invention includes:
Of the print image data, the process color image data defined by the coordinate values of the first color space is converted into image data defined by the coordinate values of the colorimetric color space by the printing condition conversion process, and further The image data defined by the coordinate values of the colorimetric color space obtained by this conversion is converted into image data defined by the coordinate values of the second color space by the proof condition conversion process,
The spot color name is converted to the coordinate value of the colorimetric color space by the process of referring to the spot color, and the coordinate value of the colorimetric color space obtained by this conversion is converted to the coordinate value of the second color space by the proof condition conversion process. And
The image data defined by the coordinate values of the second color space after the conversion by the proof condition conversion process and the second color space corresponding to the spot color after the conversion by the proof condition conversion process. The image data defined by the coordinate value of the second color space for the proofer is synthesized from the coordinate value and the spot color image data of the print image data by the above synthesis process.
The color conversion method can be adopted.
[0016]
Further, when adopting a synthesis process of synthesizing image data on the colorimetric color space, in the color conversion method of the present invention,
Of the print image data, the process color image data defined by the coordinate values of the first color space is converted into image data defined by the coordinate values of the colorimetric color space by the printing condition conversion process,
The spot color name is converted to the coordinate value of the colorimetric color space by the spot color reference process.
The image data defined by the coordinate values of the colorimetric color space after being converted by the printing condition conversion process, the coordinate values of the colorimetric color space corresponding to the spot color after being converted by the spot color reference process, and From the spot color image data of the print image data, the image data defined by the coordinate values of the colorimetric color space for the proofer is synthesized by the above synthesis process,
The image data defined by the coordinate values of the colorimetric color space for the proofer synthesized by the synthesis process and the image data defined by the coordinate values of the second color space for the proofer by the proof condition conversion process. A color conversion method of converting to data can be employed.
[0017]
Furthermore, in the color conversion method of the present invention, when adopting a synthesis process for synthesizing image data in the second color space,
Prior to converting the print image data into the proofer image data, the coordinate values of the first color space are converted into the second color space based on the print condition conversion process and the proof condition conversion process. Create a process color conversion process that converts directly to coordinate values,
When converting the process color image data of the image data for printing, instead of applying both the printing condition conversion process and the proof condition conversion process separately, the above process color conversion process is applied. Of the image data, the process color image data defined in the first color space is converted into image data defined by the coordinate values of the second color space before being synthesized with the spot color image data. It is preferable.
[0018]
If the process color conversion process described above is created prior to actual color conversion, it takes time and effort to create the process color conversion process in the preparation stage. Data is converted from the first color space directly to the second color space without going through the colorimetric color space by the process color conversion process, and the efficiency of color conversion is improved.
[0019]
The color conversion device of the present invention that achieves the above object comprises process color image data defined by coordinate values of a predetermined first color space and spot color image data defined by coordinate values in the spot color direction. For a proofer that inputs print image data, outputs a proof image that reproduces the image when the print image data is obtained by printing an image based on the print image data under predetermined printing conditions, In a color conversion device that converts image data defined by coordinate values of a predetermined second color space,
A first coordinate conversion definition corresponding to a printing condition that defines a correspondence between a coordinate value of the first color space and a coordinate value of a device-independent colorimetric color space;
A spot color / coordinate conversion definition that defines the correspondence between the spot color name and the coordinate value of the colorimetric color space,
A second coordinate transformation definition that defines the correspondence between the coordinate values of the colorimetric color space and the coordinate values of the second color space;
In the colorimetric color space or the second color space, the color values of the colorimetric color space or the second color space obtained by converting the process color image data, the coordinate values of the colorimetric color space or the second color space, and the spot color name are converted. A coordinate synthesis definition that defines the correspondence between two coordinate values of the coordinate values of the two color spaces and one coordinate value obtained by synthesizing these two coordinate values;
A definition storage unit for storing
While referring to the first coordinate transformation definition, the spot color / coordinate transformation definition, the second coordinate transformation definition, and the coordinate composition definition stored in the definition storage unit, the coordinate values of the first color space are used. Convert printing image data consisting of defined process color image data and spot color image data defined by coordinate values in the spot color direction to image data defined by the coordinate values of the second color space for the proofer. The color conversion part which comprises is provided.
[0020]
According to the color conversion apparatus of the present invention, even if a proofer is added, the degree of increase in the memory capacity of the definition storage unit can be suppressed, and highly accurate color conversion for proof image output can be performed.
[0021]
Here, in the color conversion device according to the present invention, the coordinate composition definition stored in the definition storage unit includes two coordinate values in the second color space and one coordinate value obtained by combining these two coordinate values. It defines the correspondence with coordinate values,
The color converter is
With reference to the first coordinate conversion definition, the process color image data defined by the coordinate values of the first color space in the image data for printing is converted into image data defined by the coordinate values of the colorimetric color space. First converting means for converting;
A second conversion means for converting a spot color name into a coordinate value of a colorimetric color space with reference to the spot color / coordinate conversion definition;
The image data defined by the coordinate values of the colorimetric color space after being converted by the first conversion means with reference to the second coordinate conversion definition is defined as the image data defined by the coordinate values of the second color space. A third conversion means for converting to data;
With reference to the second coordinate conversion definition, the fourth color value coordinate value corresponding to the spot color after being converted by the second conversion means is converted to the coordinate value of the second color space. Conversion means;
Referring to the coordinate composition definition, the image data defined by the coordinate values of the second color space after being converted by the third converting means, and the spot color after being converted by the fourth converting means The image data defined by the coordinate values of the second color space for the proofer are synthesized from the coordinate values of the second color space corresponding to the image data and the spot color image data of the print image data. And a first synthesis means that
Alternatively, in the color conversion device according to the present invention, the coordinate composition definition stored in the definition storage unit includes two coordinate values in the colorimetric color space and one coordinate value obtained by synthesizing these two coordinate values. Which defines the correspondence,
The color converter is
With reference to the first coordinate conversion definition, the process color image data defined by the coordinate values of the first color space in the image data for printing is converted into image data defined by the coordinate values of the colorimetric color space. Fifth conversion means for converting;
A sixth conversion means for converting a spot color name into a coordinate value of a colorimetric color space with reference to the spot color / coordinate conversion definition;
Referring to the coordinate composition definition, it corresponds to the image data defined by the coordinate values of the colorimetric color space after being converted by the fifth conversion means and the spot color after being converted by the sixth conversion means Second synthesizing means for synthesizing image data defined by the coordinate values of the colorimetric color space for the proofer from the coordinate values of the colorimetric color space and the spot color image data of the print image data;
With reference to the second coordinate transformation definition, the image data defined by the coordinate values of the colorimetric color space for the proofer synthesized by the second synthesis means is converted into the coordinates of the second color space for the proofer. And a seventh conversion means for converting into image data defined by values,
Alternatively, in the color conversion device according to the present invention, the coordinate composition definition stored in the definition storage unit includes two coordinate values in the second color space and one coordinate obtained by synthesizing these two coordinate values. Which defines the correspondence with values,
The color converter is
Based on the first coordinate transformation definition and the second coordinate transformation definition, a third coordinate transformation definition that directly associates the coordinate values of the first color space and the coordinate values of the second color space is constructed. Coordinate transformation definition construction means;
With reference to the third coordinate conversion definition, the process color image data defined by the coordinate values of the first color space, among the image data for printing, is an image defined by the coordinate values of the second color space. An eighth conversion means for converting the data;
Referring to the spot color / coordinate conversion definition, a ninth conversion means for converting the spot color name into the coordinate value of the colorimetric color space;
Referring to the second coordinate conversion definition, a tenth color value that corresponds to the spot color after being converted by the ninth conversion means is converted to a coordinate value of the second color space. Conversion means;
With reference to the coordinate composition definition, the image data defined by the coordinate values of the second color space after being converted by the eighth conversion unit, and the spot color after being converted by the ninth conversion unit The image data defined by the coordinate values of the second color space for the proofer is synthesized from the coordinate values of the second color space corresponding to the above and the spot color image data of the print image data. And a third synthesizing unit.
[0022]
Further, the color conversion definition storage medium of the present invention is a printing image comprising process color image data defined by coordinate values of a predetermined first color space and spot color image data defined by coordinate values in the spot color direction. Data is defined by the coordinate values of a predetermined second color space for a proofer that outputs a proof image that reproduces the image obtained by printing an image based on the printing image data under a predetermined printing condition. A color conversion definition storage medium storing a color conversion definition for conversion into image data to be processed,
A first coordinate conversion definition corresponding to a printing condition that defines a correspondence between a coordinate value of the first color space and a coordinate value of a device-independent colorimetric color space;
A spot color / coordinate conversion definition that defines the correspondence between the spot color name and the coordinate value of the colorimetric color space,
A second coordinate conversion definition corresponding to the proof condition, which defines a correspondence between the coordinate value of the colorimetric color space and the coordinate value of the second color space;
In the colorimetric color space or the second color space, the process color image data is converted, the coordinate values of the colorimetric color space or the second color space, and the spot color name are converted, or the colorimetric color space or the second color space. A coordinate composition definition that defines the correspondence between two coordinate values of the color space of the color space and one coordinate value obtained by synthesizing the two coordinate values.
The color conversion definition including is stored.
[0023]
The color conversion definition stored in the color conversion definition storage medium of the present invention is adapted to the addition of a proofer, etc., and color conversion is performed by adopting the color conversion definition, thereby improving the color reproduction accuracy of a special color. High color conversion can be performed.
[0024]
The various “definitions” in the present invention may be, for example, data having a table structure such as an LUT or other structure, or may be a program for executing an operation based on a conversion formula. It may be a combination of data and a program, such as a combination of structure data and a program that executes an interpolation operation.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described.
[0026]
FIG. 1 is an overall configuration diagram of a printing and proof image creation system to which an embodiment of the present invention is applied.
[0027]
The color scanner 10 reads a document image and generates color-separated image data of CMYK four colors representing the read document image. The CMYK image data is input to the workstation 20. In the workstation 20, electronic plate collection based on the input image data is performed by the operator, and image data representing an image for printing is generated. Here, the operator operating the workstation 20 decides to perform printing using not only the CMYK four process color inks but also a special color ink, and in the electronic plate collection, an image including the special color is designed. The Therefore, here, as printing image data representing the printing image, the coordinate values (C, M, Y, and K in each of the C, M, Y, and K coordinate values of the CMYK four-color color space (an example of the first color space referred to in the present invention) are used. Process color image data defined as a combination of the above and a special color image data defined as coordinate values in the special color direction (half% of the special color) for the adopted special color. The print image data composed of the process color image data and the spot color image data is input to the film printer 30 when printing is performed. The film printer 30 receives each CMYK corresponding to the input print image data. A printing film original plate comprising a plate and a plate for a special color is created.
[0028]
A printing plate is created from the printing film original plate, and the created printing plate is mounted on the printing machine 40. Ink is applied to the printing plate mounted on the printing press, and the applied ink is transferred onto a printing sheet to form an image 41 on the sheet. The ink used at this time is CMYK four-color process ink and a predetermined spot color ink. On the image 41, an image portion 41a printed with the spot color ink exists. In addition, although the special color ink used for one printing is not restricted to one type, it demonstrates here that only one type of special color ink is used for convenience of explanation.
[0029]
A series of operations in which a film original plate is prepared by the film printer 30, a printing plate is further prepared and mounted on the printing machine 40, ink is applied to the printing plate and printing is performed on paper is a large-scale operation. Cost too. Therefore, before the actual printing operation is performed, the proof image 61 is created by the proofer as follows, and the finished confirmation of the printed image 41 is performed in advance.
[0030]
When creating a proof image, printing image data created by electronic plate collection on the workstation 20 is input to the personal computer 50. Here, the image data input to the personal computer 50 is description language data described in so-called PDL (Page Description Language). In the personal computer 50, the image data is developed into a bitmap by a so-called RIP (Raster Image Processor). The converted CMYK process color image data and special color image data corresponding to the special color are converted. The image data obtained by combining the CMYK four-color process image data and the spot color special color image data is substantially the same as the print image data input to the film printer 30.
[0031]
These process color image data and spot color image data are referred to in the color conversion definition inside the personal computer 50, and a proof image of a plurality of proofers including a plurality of printers 60a, 60b,. The image data is converted into RGB three-color image data suitable for the proofer (in this case, the printer 60a) to be output. The printer 60a receives the RGB three-color image data, and the printer 60a creates a proof image 61 based on the input RGB three-color image data.
[0032]
Here, the degree of color matching between the image 41 obtained by printing by the printer 40 and the proof image obtained by the printer 60 a is determined by the color conversion definition in the personal computer 50. This color conversion definition is created for each proofer (for each proof condition).
[0033]
Further, FIG. 1 shows only one printing machine, but there may be a plurality of printing machines, or even a single printing machine may have a plurality of different printing conditions. Often, the color conversion definition is created according to each of a plurality of printing conditions including differences in printing presses. That is, the color conversion definition is created in accordance with a combination of each printing condition and each proofer (each proof condition when a plurality of proof conditions exist with one proofer). This color conversion definition will be described later. The colorimeter 200 shown in FIG. 1 will also be described later.
[0034]
By creating a proof image and confirming the proof image in this way, the finishing of printing can be confirmed in advance.
[0035]
Here, the feature as one embodiment of the present invention in the proof image creation system shown in FIG. 1 lies in the processing content executed inside the personal computer 50. The personal computer 50 will be described below.
[0036]
2 is an external perspective view of the personal computer 50 shown as one block in FIG. 1, and FIG. 3 is a hardware configuration diagram of the personal computer 50. As shown in FIG.
[0037]
The personal computer 50 has an appearance configuration, the main body device 51, an image display device 52 that displays an image on a display screen 52a in accordance with an instruction from the main body device 51, and a main body device 51 that can perform various operations according to key operations. A keyboard 53 for inputting information and a mouse 54 for inputting an instruction corresponding to, for example, an icon or the like displayed at that position by designating an arbitrary position on the display screen 52a are provided. The main body 51 has a floppy disk loading slot 51a for loading a floppy disk and a CD-ROM loading slot 51b for loading a CD-ROM.
[0038]
As shown in FIG. 3, the main unit 51 includes a CPU 511 that executes various programs, a main memory 512 that is read for execution by the CPU 511, and a program stored in the hard disk device 513. And FD driver 514 for accessing floppy disk 100 loaded with floppy disk 100, CD-ROM 110 loaded, and CD-ROM for accessing loaded CD-ROM 110 Connected to the ROM driver 515 and the workstation 20 (see FIG. 1), an input interface 516 for receiving image data from the workstation 20, each printer 60a, 60b,... Used as a proofer, and a CRT display 60n. Data has a built-in output interface 517 to send a, with these various elements, further an image display device 52 shown in FIG. 2, a keyboard 53, a mouse 54 are connected to each other via a bus 55. The image display device 52 shown in FIGS. 2 and 3 may also be used as one of the proofers.
[0039]
Here, the CD-ROM 110 stores a color conversion program for operating the personal computer 50 as a color conversion device. The CD-ROM 110 is loaded into a CD-ROM driver 515, and is stored in the CD-ROM 110. The stored color conversion program is uploaded to the personal computer 50 and stored in the hard disk device 513.
[0040]
Next, a method for creating a color conversion definition built in the personal computer 50 will be described.
[0041]
FIG. 4 is a conceptual diagram of a print profile that forms part of the color conversion definition.
[0042]
As described above, a printing profile corresponding to typical printing conditions is often provided by a printer, and if a printing profile corresponding to desired printing conditions can be obtained, it is not necessary to create a printing profile. However, here, a basic creation method when the print profile is newly created will be described.
[0043]
From the workstation shown in FIG. 1, the CMYK 4 color halftone data is sequentially changed to 0%, 10%,..., 100%, for example, and the color based on the halftone data thus generated according to the printing procedure described above. Create a patch image. Although the image 41 shown in FIG. 1 is not an image representing a color patch image, it is assumed that a color patch image is printed instead of the image 41, and each color patch constituting the color patch image is displayed on the colorimeter 200. Measure with By doing so, the coordinate values on the color space of CMYK four colors (the first color space in the present invention) and the colorimetric color space (here, L ^* a ^* b ^* A print profile representing the correspondence with the coordinate values on the color space) is constructed. This print profile corresponds to an example of the first coordinate transformation definition referred to in the present invention.
[0044]
Here, only CMYK four process inks are used to create a color patch for creating a printing profile, and no special color ink is used. This is because when the special color ink is added, the created printing profile loses versatility, and it is extremely complicated to set the printing profile for each of various special color inks and combinations thereof.
[0045]
FIG. 5 is a conceptual diagram of a printer profile that forms part of the color conversion definition.
[0046]
As described above, a printer profile is often provided by a printer manufacturer, and if a printer profile corresponding to a desired printer (here, the printer 60a shown in FIG. 1) can be obtained, it is not necessary to create a printer profile. It is. Here, a basic creation method when a printer profile is newly created will be described. This printer profile creation method is the same as the print profile creation method described above.
[0047]
Here, in the personal computer 50 shown in FIG. 1, the RGB three-color image data is sequentially changed from the lowest value (for example, 0) to the highest value (for example, 255) for each color in predetermined increments (for example, increments of 8). A color patch image based on the image data sequentially generated as described above is created. Although the image 61 shown in FIG. 1 is not an image representing a color patch image, it is assumed that a color patch image is output instead of the image 61, and each color patch constituting the color patch image is represented by the colorimeter 200. Measure the color with. By doing so, the coordinate values on the RGB three-color color space (second color space referred to in the present invention) and the colorimetric color space (L in the present embodiment) for the printer 60a. ^* a ^* b ^* A printer profile representing the correspondence with the coordinate values on the color space) is constructed.
[0048]
This printer profile is L ^* a ^* b ^* This is used to convert coordinate values in the color space into coordinate values in the RGB color space, and corresponds to an example of the second coordinate conversion definition referred to in the present invention.
[0049]
FIG. 6 is a conceptual diagram of a color conversion definition that is created by combining a print profile and a printer profile and that directly converts coordinate values in the CMYK color space into coordinate values in the RGB color space.
[0050]
Here, the coordinate value of the CMYK color space is set to L by combining the print profile (first color conversion definition) and the printer profile (second color conversion definition). ^* a ^* b ^* A third color conversion definition referred to in the present invention is constructed that converts directly to coordinate values in the RGB color space without going through the color space.
[0051]
This third color conversion definition is used in some of the various embodiments described below.
[0052]
FIG. 7 is a schematic diagram of a spot color / coordinate conversion definition that forms part of the color conversion definition.
[0053]
This spot color / coordinate conversion definition is the spot color name and the L of the spot color ink. ^* a ^* b ^* The color value is associated with the coordinate value in the color space. ^* a ^* b ^* The coordinate values on the color space can be obtained from the manufacturer of the spot color ink. ^* a ^* b ^* When trying to determine the coordinate value in the color space, the data of 100% of the dot color of the spot color ink is generated, and a patch of the spot color is created based on the data according to the printing procedure described above. The solid patch can be obtained by measuring with a colorimeter.
[0054]
That is, the spot color / coordinate conversion definition shown in FIG. 6 requires that the L of the solid patch when the dot% of the spot color represented by the spot color name is 100%. ^* a ^* b ^* This is the coordinate value of the color space.
[0055]
FIG. 8 is a schematic diagram of a coordinate composition definition that forms part of the color conversion definition.
[0056]
This coordinate composition definition is, for example, a coordinate composition definition for synthesizing coordinate values in the RGB color space (an example of the second color space referred to in the present invention).
[0057]
For this coordinate composition definition, refer to the image data defined by the coordinate values of the RGB color space derived from the CMYK four-color process color image data in the print image data, and the spot color / coordinate conversion definition shown in FIG. L of special color obtained ^* a ^* b ^* The coordinate value of the spot color in the RGB color space, which is derived from the coordinate value of the color space, and the dot% data (spot color image data) of the spot color constituting the print image data are input. In this coordinate composition definition, as an example, the coordinate value of the spot color in the RGB color space (this is the coordinate value when the dot% is 100% as described above) and the dot% represented by the spot color image data. R, G, B data defined by coordinate values in the RGB color space of the spot color of the spot color to be determined, and R, G, B derived from the process color image data of the print image data Each data of B is added. In this coordinate composition definition, for example, a proof image is output by a proof image output proofer (here, the printer 60a in the example shown in FIG. 1) by such an operation or by an LUT corresponding to such an operation. R, G, and B image data are generated.
[0058]
Although the coordinate composition definition for synthesizing coordinates in the RGB color space has been described here, this coordinate composition definition is not limited to the composition for synthesizing coordinates in the RGB color space. ^* a ^* b ^* You may synthesize | combine a coordinate on color space. Since only the color space representing the coordinates is different, here the L color is separated from the RGB color space. ^* a ^* b ^* The illustration and explanation of the coordinate composition definition taking up the color space are omitted.
[0059]
FIG. 9 is a diagram showing a first embodiment of the color conversion method of the present invention.
[0060]
Here, a printing condition conversion process 311, a spot color reference process 312, a printer condition conversion process 313 (corresponding to an example of the proof condition conversion process in the present invention), and a composition process 314 are shown.
[0061]
In the printing condition conversion step 311, the process color defined by the coordinate values in the CMYK color space of the print image data is referred to with reference to the print profile (first color conversion definition) described with reference to FIG. Image data is L ^* a ^* b ^* It is converted into image data defined by coordinate values in the color space.
[0062]
In the spot color reference process 312, the spot color / coordinate conversion definition described with reference to FIG. 7 is referred to, and the spot color name is the L of the spot color. ^* a ^* b ^* Converted to coordinate values in color space.
[0063]
Also, in the printer condition conversion process 313, the printer profile (second color conversion definition) described with reference to FIG. ^* a ^* b ^* The image data defined by the coordinate values in the color space is converted into image data defined by the coordinate values in the RGB color space, and the spot color L obtained in the spot color reference process 312 is converted. ^* a ^* b ^* A coordinate value on the color space is converted into a coordinate value on the RGB color space.
[0064]
Further, in the synthesizing process 314, the image data defined by the coordinate values in the RGB color space obtained in the printer condition converting process 313 and the special color obtained in the printer condition converting process 313 in the RGB color space. The coordinate values of the spot color and the dot% data of the spot color are defined as image data for proof image output defined by the coordinate values in the RGB color space based on the coordinate composition definition described with reference to FIG. Synthesized.
[0065]
The image data in the RGB color space obtained by the synthesis process 314 is sent to the proof image output printer 60a shown in FIG. 1, and the proof image is printed on the printer 60a based on the sent image data. Is output.
[0066]
Here, according to the color conversion method shown in FIG. 9, since the CMYK process color and the spot color are combined after data conversion via different paths, the proof image with good color reproducibility is also obtained for the spot color. Is obtained. Further, according to the color conversion method shown in FIG. 9, when the printer that outputs the proof image is changed, only the printer profile that is referred to in the printer condition conversion process needs to be changed. Compared with the method disclosed in the publication, the burden of data management is reduced.
[0067]
FIG. 10 is a diagram showing a second embodiment of the color conversion method of the present invention. Differences from the first embodiment shown in FIG. 9 will be described.
[0068]
In the second embodiment shown in FIG. ^* a ^* b ^* There is a synthesis process 315 for synthesizing data on the color space. In this synthesis process 315, L obtained in the printing condition conversion process 311 is displayed. ^* a ^* b ^* The image data defined by the coordinate values in the color space and the spot color L obtained in the spot color reference process 312. ^* a ^* b ^* The coordinate values in the color space and the halftone data of the spot color have been described with reference to FIG. ^* a ^* b ^* Based on the coordinate composition definition (which performs operations on the color space) ^* a ^* b ^* It is combined with image data for a printer defined by coordinate values in the color space. L obtained during this synthesis process ^* a ^* b ^* The image data defined by the coordinate values in the color space is referred to the printer profile (second color conversion definition) shown in FIG. 5 in the printer condition conversion process 313, and the RGB color space coordinate values for the printer are used. Converted to image data defined in. The image data in the RGB color space obtained by the conversion in the printer condition conversion process 313 is sent to the proof image output printer 60a shown in FIG. 1, as in the first embodiment shown in FIG. The printer 60a prints out a proof image based on the sent image data.
[0069]
In the color conversion method shown in FIG. 10 as well, as in the case of the color conversion method shown in FIG. ^* a ^* b ^* Since they are synthesized after being converted into coordinate values in the color space, a proof image with good color reproducibility can be obtained with respect to spot colors. Also, when the printer that outputs the proof image is changed, only the printer profile that is referred to in the printer condition conversion process 313 needs to be changed, which reduces the burden of data management.
[0070]
FIG. 11 is a diagram showing a modification of the second embodiment of the color conversion method of the present invention described with reference to FIG.
[0071]
In the synthesis process 315, L ^* a ^* b ^* Coordinate composition is performed in the color space. ^* a ^* b ^* ・ By XYZ conversion process 315a, L ^* a ^* b ^* The coordinate value on the color space is converted into the coordinate value on the XYZ color space, and the composition is performed on the XYZ color space by the composition process 315b. ^* a ^* b ^* By the conversion process 315c, the coordinate value in the XYZ color space after the synthesis is L ^* a ^* b ^* Converted to coordinate values in color space.
[0072]
The XYZ color space is L ^* a ^* b ^* Since it corresponds directly to the visibility rather than the color space, it is possible to combine with less error.
[0073]
FIG. 12 is a diagram showing a third embodiment of the color conversion method of the present invention. Differences from the first embodiment shown in FIG. 9 will be described.
[0074]
In the process conversion process creation process 316 shown in FIG. 12, prior to the conversion of the print image data into the printer image data, the print profile (first color conversion definition) described with reference to FIG. The printer profile (second color conversion definition) described with reference to FIG. 5 is combined into one color conversion definition (third color conversion definition) as shown in FIG.
[0075]
After the preparation up to that point, the printing image data is converted into image data for the printer. Regarding the CMYK four-color process color image data in the printing image data, the printing condition conversion process shown in FIG. Instead of both the process 311 and the printer condition conversion process 313, the process color conversion process 317 directly converts the process color image data of the CMYK four colors into the image data of RGB three colors.
[0076]
The conversion process and the synthesis process regarding the spot color are not different from the case of the first embodiment shown in FIG. 9, and a description thereof will be omitted here.
[0077]
In the case of the color conversion method shown in FIG. 12, it is necessary to create the third color conversion definition shown in FIG. 6 at a preparation stage as compared with the color conversion method of the first embodiment shown in FIG. In this case, the coordinate conversion process is reduced by one, and the color conversion speed can be increased.
[0078]
FIG. 13 is a functional block diagram of the first embodiment of the color conversion apparatus of the present invention.
[0079]
This color conversion apparatus is realized by combining the personal computer 50 shown in FIGS. 2 and 3 and a program executed by the personal computer.
[0080]
The color conversion apparatus shown in FIG. 13 includes a designation unit 601, a definition storage unit 602, and a color conversion unit 603.
[0081]
The definition storage unit 602 includes a plurality of first coordinate conversion definitions (print profiles) corresponding to the printing conditions (see FIG. 4 and the description thereof) 6021a, 6021b,. , 6022q (see FIG. 7 and its description), coordinate composition definition 6023 (see FIG. 8 and its description), and a plurality of second coordinate conversion definitions corresponding to the proof condition (Printer profiles) 6024a, 6024b,..., 6024r (see FIG. 5 and the description thereof) are stored. Here, regarding the second coordinate transformation definition, in FIG. 5, the description was made on the premise that the proof image is printed out by the printer 60a shown in FIG. The definition includes a coordinate conversion definition corresponding to the CRT display 60n shown in FIG.
[0082]
The definition storage unit 602 is set in the hard disk device 513 shown in FIG. 3 in terms of hardware, and the definition storage unit 602 (hard disk device 513 shown in FIG. 3) stores the color conversion definition storage of the present invention. This also corresponds to an embodiment of the medium.
[0083]
The designation unit 601 designates printing conditions, proof conditions (designation of a proofer for outputting a proof image), and special colors used in printing. The specification unit 601 has a hardware function of the keyboard 53 or the mouse 54 shown in FIGS. Note that the printing conditions and spot colors are not specified from the specifying unit 601, but the information may be obtained from the workstation 20 shown in FIG.
[0084]
When the printing condition is designated from the designation unit 601, the first corresponding to the designated printing condition among the plurality of first coordinate transformation definitions 6021a, 6021b,..., 6021p stored in the definition storage unit 602. A coordinate conversion definition (here, the first coordinate conversion definition 6012a) is read out and input to the color conversion unit 603. Similarly, when a spot color is designated from the designation unit 601, it corresponds to the designated spot color among the plurality of spot color / coordinate conversion definitions 6022a, 6022b,..., 6022q stored in the definition storage unit 602. The spot color / coordinate conversion definition (here, the spot color / coordinate conversion definition 6022a) is read and input to the color conversion unit 603. Further, when a printer or CRT display device that outputs a proof image is designated from the designation unit 601, a designation is made among a plurality of second coordinate transformation definitions 6024a, 6024b,..., 6024r stored in the definition storage unit 602. The second coordinate transformation definition (herein referred to as the second coordinate transformation definition 6024a) corresponding to the proofer (here, the printer 60a shown in FIG. 1) is read out and input to the color conversion unit 603. .
[0085]
Further, the coordinate composition definition 6023 is also read from the definition storage unit 602 and input to the color conversion unit 603.
[0086]
In this way, one color conversion definition including the first coordinate conversion definition 6021a, the spot color / coordinate conversion definition 6022a, the coordinate composition definition 6023, and the second coordinate conversion definition 6024a is input to the color conversion unit 603. After that, the personal computer 50 (see FIGS. 1 to 3) on which the color conversion apparatus shown in FIG. 13 is realized is transferred from the workstation 20 shown in FIG. Data is input, the image data in PDL format is converted into image data in bitmap format by RIP, process color image data defined in CMYK color space for printing in bitmap format, and spot color in bitmap format The spot color image data representing the halftone% is input to the color conversion unit 603. Further, data representing a spot color name for specifying a spot color is also input to the color conversion unit 603.
[0087]
The color conversion unit 603 performs color conversion according to the color conversion definition input in advance to the color conversion unit 603 based on the input CMYK four-color process color image data, special color image data, and special color name. As a result of the conversion, RGB image data is generated in order to output a proof image using the printer 60a (see FIG. 1). The RGB image data generated by the color conversion in the color conversion unit 603 is transmitted to the printer 60a, and the printer 60a outputs a proof image having a color that matches the color of the printed matter including the print portion of the special color.
[0088]
Hereinafter, color conversion means in the color conversion unit 603 will be described.
[0089]
The color conversion unit 603 includes a first conversion unit 6031, a second conversion unit 6032, a third conversion unit 6033, a fourth conversion unit 6034, and a first combination unit 6035.
[0090]
The process color image data of CMYK 4 colors in the print image data is input to the first conversion unit 6031. In the first conversion means 6031, the first coordinate conversion definition (print profile) 6021 a read from the definition storage unit 602 and input to the color conversion unit 603 is referred to, and the input process colors of CMYK four colors are input. Image data is L ^* a ^* b ^* It is converted into image data defined by the coordinate values of the color space.
[0091]
L obtained by the conversion by the first conversion means 6031 ^* a ^* b ^* The image data defined by the coordinate values of the color space is input to the third conversion unit 6033. The third conversion unit 6033 refers to the second coordinate conversion definition (printer profile) 6024a read from the definition storage unit 602 and input to the color conversion unit 603, and is input to the third conversion unit 6033. L ^* a ^* b ^* The image data in the color space is converted into image data defined by the coordinate values in the RGB color space. The RGB image data obtained by the conversion by the third conversion unit 6033 is input to the first synthesis unit 6035.
[0092]
On the other hand, the spot color name is input to the second conversion unit 6032, and the second conversion unit 6032 refers to the spot color / coordinate conversion definition 6022 a read from the definition storage unit 602 and input to the color conversion unit 603. The spot color name input to the second conversion means 6032 is L ^* a ^* b ^* Converted to color space coordinates. This special color L ^* a ^* b ^* The coordinate value of the color space is input to the fourth conversion unit 6034. In the fourth conversion unit 6034, as in the third conversion unit 6033, the second coordinate conversion definition (printer profile) 6024a is referred to and L representing the spot color is displayed. ^* a ^* b ^* The color space coordinate values are converted into RGB color space coordinate values. The coordinate value in the RGB color space representing the spot color obtained by the conversion by the fourth conversion unit 6034 is input to the first synthesis unit 6035.
[0093]
The first synthesizing unit 6035 includes the RGB image data obtained by the conversion by the third conversion unit 6033 and the RGB coordinates of the spot color obtained by the conversion by the fourth conversion unit 6034. In addition to the value, spot color image data (half% data) is also input, and the first synthesis means 6035 refers to the coordinate synthesis definition 6023 read from the definition storage unit 602 and input to the color conversion unit 603. Then, the RGB coordinate value of the spot color halftone data, which is determined by the solid RGB coordinate value of the spot color input from the fourth conversion means 6034 and the spot color halftone percentage represented by the spot color image data, and the third conversion means. The RGB coordinate values of the image data input from 6033 are combined to generate image data defined by the RGB color space coordinate values for proof image output.
[0094]
As described above, the RGB image data obtained by the color conversion in the color conversion unit 603 is transmitted to the printer 60a (see FIG. 1) and based on the RGB image data by the printer 60a. A proof image is output.
[0095]
Here, as described in the embodiment of the color conversion method of the present invention, the process color and the spot color are synthesized after being subjected to color conversion in different conversion systems, and therefore, colors suitable for the process color and the spot color, respectively. Conversion is performed, and a proof image with good color reproducibility is obtained not only for process colors but also for special colors. In addition, when adding or changing the proofer that outputs the proof image, only the second coordinate transformation definition needs to be added or changed, which reduces the burden of data management. Accordingly, the increase in the memory capacity of the definition storage unit 602 can be reduced.
[0096]
FIG. 14 is a functional block diagram showing the configuration of the color conversion unit of the second embodiment of the color conversion apparatus of the present invention. The configuration of the designation unit and the definition storage unit is the same as that of the designation unit and the definition storage unit in the first embodiment shown in FIG. 13, and illustration and description thereof are omitted here. However, in the second embodiment shown in FIG. 14, the coordinate composition definition 6023 stored in the definition storage unit 602 shown in FIG. ^* a ^* b ^* Defines coordinate composition in color space.
[0097]
The color conversion unit 613 illustrated in FIG. 14 includes a fifth conversion unit 6131, a sixth conversion unit 6132, a second synthesis unit 6133, and a seventh conversion unit 6134.
[0098]
Here, the fifth conversion unit 6131 and the sixth conversion unit 6132 are respectively the first conversion unit 6031 and the second conversion unit 6032 of the color conversion unit 603 of the first embodiment shown in FIG. Are the same and will not be described here.
[0099]
The second synthesizing means 6133 has L obtained by the conversion by the fifth converting means 6131. ^* a ^* b ^* Image data and the spot color L obtained by the conversion by the sixth conversion means 6132. ^* a ^* b ^* Coordinate values in the color space and spot color image data (half-% data) are input, and in the second synthesis means 6133, L ^* a ^* b ^* The coordinate composition definition for performing the coordinate composition on the color space is referred to, and the spot color solid L input from the sixth conversion means 6132 is displayed. ^* a ^* b ^* The L of the spot color image data determined by the coordinate value and the dot% of the spot color represented by the spot color image data. ^* a ^* b ^* The coordinate value and L of the process image data input from the fifth conversion unit 6131 ^* a ^* b ^* The coordinate value is combined with that for proof image output (L ^* a ^* b ^* Image data (in color space) is generated. This L for proof image output ^* a ^* b ^* The image data defined by the coordinate values of the color space is input to the seventh conversion unit 6134. The seventh conversion unit 6134 refers to the second coordinate conversion definition 6024a and outputs L for proof image output. ^* a ^* b ^* Are converted into RGB image data for proof image output.
[0100]
The RGB image data for proof image output is transmitted to the printer 60a shown in FIG. 1, and the printer 60a outputs a proof image based on the transmitted RGB image data.
[0101]
Here, the second synthesizing means 6133 in the second embodiment shown in FIG. ^* a ^* b ^* Although coordinate synthesis may be performed directly in the color section, as in the case of the embodiment of the color conversion method described with reference to FIG. ^* a ^* b ^* Once the color space coordinate value is converted to the XYZ color space coordinate value, the coordinate composition is performed on the XYZ color space, ^* a ^* b ^* It may be configured to return to the color space.
[0102]
In the second embodiment shown in FIG. 14 as well, the process color and the spot color are separately color-converted and synthesized, so that a good color reproduction can be obtained with respect to the spot color. Similar to the first embodiment, the increase in memory capacity associated with the addition of a proof image output printer or the like is small.
[0103]
FIG. 15 is a functional block diagram showing the configuration of the color conversion unit of the third embodiment of the color conversion apparatus of the present invention. The configuration of the designation unit and the definition storage unit in the third embodiment is the same as that of the designation unit and the definition storage unit in the first embodiment shown in FIG.
[0104]
The color conversion unit 623 illustrated in FIG. 15 includes a coordinate conversion definition construction unit 6213, an eighth conversion unit 6232, a ninth conversion unit 6233, a tenth conversion unit 6234, and a third combination unit 6235. . The operations of the ninth conversion unit 6233, the tenth conversion unit 6234, and the third combination unit 6235 are the second conversion unit 6032, the fourth conversion unit 6034, and the like in the color conversion unit 603 shown in FIG. The operation is the same as that of the first synthesizing means 6035, and the description thereof is omitted here.
[0105]
As described with reference to FIG. 6, the coordinate conversion definition construction unit 6231 reads the first coordinate conversion definition (printing) read from the definition storage unit 602 (see FIG. 13) and input to the color conversion unit 623. Profile) 6021a and the second coordinate transformation definition (printer profile) 6024a are combined, and the coordinate value of the CMYK color space is expressed as L ^* a ^* b ^* A third coordinate conversion definition for converting directly to a coordinate value in the RGB color space without going through the color space is constructed.
[0106]
The CMYK process color image data is input to the eighth conversion unit 6232. The eighth conversion unit 6232 refers to and inputs the third coordinate conversion definition constructed by the coordinate transformation definition construction unit 6231. The CMYK process color image data is directly converted into RGB image data.
[0107]
As described above, in the case of the third embodiment shown in FIG. 15, the coordinate transformation definition construction means 6231 is required, and an operation of constructing the third coordinate transformation definition before color conversion is required. In actual color conversion, CMYK process color image data can be directly converted to RGB image data, and high-speed color conversion is possible.
[0108]
The point that the color reproducibility of the special color in the proof image is good and the increase in the memory capacity when adding the proofer is small is the same as in the case of the first embodiment shown in FIG.
[0109]
In each of the above-described embodiments, an example in which a printer having an RGB color space is used as a proofer is shown. However, in the present invention, a printer having a CMYK color space, a display having an RGB color space, or the like is used as a proofer. It can also be adopted.
[0110]
【The invention's effect】
As described above, according to the present invention, it is compatible with a system in which a plurality of proofers for outputting a proof image are present, and the color reproduction accuracy of a special color can be maintained with high accuracy.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a printing and proof image creation system to which an embodiment of the present invention is applied.
FIG. 2 is an external perspective view of a personal computer shown by one block in FIG.
FIG. 3 is a hardware configuration diagram of a personal computer.
FIG. 4 is a conceptual diagram of a print profile that forms part of a color conversion definition.
FIG. 5 is a conceptual diagram of a printer profile that forms part of a color conversion definition.
FIG. 6 is a conceptual diagram of a color conversion definition that is created by combining a print profile and a printer profile and that directly converts coordinate values in the CMYK color space into coordinate values in the RGB color space.
FIG. 7 is a schematic diagram of a spot color / coordinate conversion definition that forms part of the color conversion definition;
FIG. 8 is a schematic diagram of a coordinate composition definition that forms part of a color conversion definition.
FIG. 9 is a diagram illustrating a first embodiment of a color conversion method according to the present invention.
FIG. 10 is a diagram illustrating a second embodiment of a color conversion method according to the present invention.
FIG. 11 is a diagram showing a modification of the second embodiment of the color conversion method of the present invention.
FIG. 12 is a diagram showing a third embodiment of the color conversion method of the present invention.
FIG. 13 is a functional block diagram of a first embodiment of a color conversion apparatus according to the present invention.
FIG. 14 is a functional block diagram illustrating a configuration of a color conversion unit according to a second embodiment of the color transformation device of the present invention.
FIG. 15 is a functional block diagram illustrating a configuration of a color conversion unit according to a third embodiment of the color conversion apparatus of the present invention.
[Explanation of symbols]
10 Color scanner
20 workstations
30 Film printer
40 printing press
41 images
41a Image part
50 Personal computer
51 Main unit
51a floppy disk loading slot
51b CD-ROM loading slot
52 Image display device
52a Display screen
53 keyboard
54 mouse
55 bus
60a, 60b printer
60n CRT display device
61 Proof Image
100 floppy disks
110 CD-ROM
200 Colorimeter
311 Printing condition conversion process
312 Spot color reference process
313 Printer condition conversion process
314 Synthesis process
315a L ^* a ^* b ^* ・ XYZ conversion process
315b Synthesis process
315c XYZ · L ^* a ^* b ^* Conversion process
316 Process conversion process creation process
317 Process color conversion process
601 Designation part
602 definition storage unit
603 color converter
6021a, 6021b, ..., 6021p First coordinate transformation definition
6022a, 6022b, ..., 6022q Spot color / coordinate conversion definition
6023 Coordinate composition definition
6024a, 6024b, ..., 6024r Second coordinate transformation definition
603, 613, 623 color converter
6031 First conversion means
6032 Second conversion means
6033 Third conversion means
6034 Fourth conversion means
6035 first synthesis means
6131: fifth conversion means
6132 Sixth converting means
6133: Second synthesizing means
6134 Seventh converting means
6231 Coordinate transformation definition construction means
6232 Eighth conversion means
6233 Ninth conversion means
6234 10th conversion means
6235 Third synthesizing means

Claims (9)

Print image data composed of process color image data defined by coordinate values in a predetermined first color space and spot color image data defined by coordinate values in the spot color direction, and an image based on the print image data. In a color conversion method for converting to image data defined by coordinate values of a predetermined second color space for a proofer that outputs a proof image that reproduces the image obtained by printing under predetermined printing conditions,
A printing condition conversion process corresponding to a printing condition, wherein the coordinate value of the first color space is converted into the coordinate value of a device-independent colorimetric color space;
A spot color reference process for converting a spot color name into a coordinate value of the colorimetric color space;
A proof condition conversion process corresponding to a proof condition for converting the coordinate value of the colorimetric color space into the coordinate value of the second color space;
The image data defined by the coordinate values of the colorimetric color space or the second color space obtained by converting the process color image data in the colorimetric color space or the second color space, and the spot color name The image data defined by the coordinate values of the first color space is obtained by performing a composition process of combining the converted color data and the image data defined by the coordinate values of the second color space. Converting printing image data comprising process color image data and spot color image data defined by coordinate values in the spot color direction into image data defined by the coordinate values of the second color space for the proofer. Characteristic color conversion method. The combining step is a step of combining image data in the second color space,
Of the print image data, process color image data defined by the coordinate values of the first color space is converted into image data defined by the coordinate values of the colorimetric color space by the printing condition conversion process. Further, the image data defined by the coordinate values of the colorimetric color space obtained by this conversion is converted into image data defined by the coordinate values of the second color space by the proof condition conversion process. ,
The spot color name is converted into the coordinate value of the colorimetric color space by the spot color reference process, and the coordinate value of the colorimetric color space obtained by this conversion is further converted into the coordinate value of the second color space by the proof condition conversion process. Convert to coordinate values,
The image data defined by the coordinate values of the second color space after being converted by the proof condition conversion process, and the second color corresponding to the spot color after being converted by the proof condition conversion process. The image data defined by the coordinate value of the second color space for the proofer is synthesized from the coordinate value of the color space and the spot color image data of the print image data by the synthesis process. The color conversion method according to claim 1. The combining step is a step of combining image data on the colorimetric color space,
Of the print image data, the process color image data defined by the coordinate values of the first color space is converted into image data defined by the coordinate values of the colorimetric color space by the printing condition conversion process. ,
The spot color name is converted into the coordinate value of the colorimetric color space by the spot color reference process,
The image data defined by the coordinate values of the colorimetric color space after being converted by the printing condition conversion process, and the coordinate values of the colorimetric color space corresponding to the spot color after being converted by the spot color reference process In addition, the image data defined by the coordinate values of the colorimetric color space for the proofer is synthesized from the spot color image data in the print image data by the synthesis process.
The image data defined by the coordinate value of the colorimetric color space for the proofer synthesized by the synthesis process is defined by the coordinate value of the second color space for the proofer by the proof condition conversion process. The color conversion method according to claim 1, wherein the image data is converted into image data. Prior to converting the print image data into proofer image data, the coordinate values of the first color space are converted into the second color space based on the print condition conversion process and the proof condition conversion process. Create a process color conversion process that converts directly to coordinate values,
In converting the process color image data of the image data for printing, instead of separately applying both the printing condition conversion process and the proof condition conversion process, by applying the process color conversion process, Image data defined by the coordinate values of the second color space before the process color image data defined in the first color space of the print image data is combined with the spot color image data. The color conversion method according to claim 2, wherein the color conversion method is performed. Printing image data consisting of process color image data defined by coordinate values of a predetermined first color space and spot color image data defined by coordinate values in the spot color direction is input, and the printing image data is An image defined by the coordinate values of a predetermined second color space for a proofer that outputs a proof image that reproduces the image obtained by printing an image based on the printing image data under a predetermined printing condition. In a color conversion device that converts data,
A first coordinate conversion definition corresponding to a printing condition that defines a correspondence between a coordinate value of the first color space and a coordinate value of a device-independent colorimetric color space;
A spot color / coordinate conversion definition that defines the correspondence between the spot color name and the coordinate value of the colorimetric color space, and a second coordinate that defines the correspondence between the coordinate value of the colorimetric color space and the coordinate value of the second color space Transformation definition,
The colorimetric color obtained by converting the process color image data in the colorimetric color space or the second color space, the coordinate value of the colorimetric color space or the second color space, and the spot color name. A definition storage unit that stores two coordinate values of the coordinate value of the space or the second color space and a coordinate composition definition that defines a correspondence between one coordinate value obtained by synthesizing the two coordinate values; and While referring to the first coordinate conversion definition, the spot color / coordinate conversion definition, the second coordinate conversion definition, and the coordinate composition definition stored in the definition storage unit, the coordinate value of the first color space The image data for printing composed of the process color image data defined in the above and the spot color image data defined by the coordinate values in the spot color direction are converted into image data defined by the coordinate values of the second color space for the proofer. Having a color converter to convert The color conversion apparatus according to claim. The coordinate composition definition stored in the definition storage section defines a correspondence between two coordinate values in the second color space and one coordinate value obtained by synthesizing these two coordinate values. ,
The color conversion unit is
Referring to the first coordinate conversion definition, process color image data defined by the coordinate values of the first color space in the print image data is defined by the coordinate values of the colorimetric color space. First conversion means for converting to image data;
A second conversion means for converting a spot color name into a coordinate value of the colorimetric color space with reference to the spot color / coordinate conversion definition;
With reference to the second coordinate conversion definition, the image data defined by the coordinate value of the colorimetric color space after being converted by the first conversion unit is expressed by the coordinate value of the second color space. A third conversion means for converting into defined image data;
With reference to the second coordinate conversion definition, the coordinate value of the colorimetric color space corresponding to the spot color after being converted by the second conversion means is converted to the coordinate value of the second color space. And a fourth conversion means
With reference to the coordinate composition definition, the image data defined by the coordinate values of the second color space after being converted by the third conversion means, and after being converted by the fourth conversion means The coordinate value of the second color space corresponding to the spot color and the spot color image data of the print image data are defined by the coordinate value of the second color space for the proofer. 6. The color conversion apparatus according to claim 5, further comprising first combining means for combining image data. The coordinate composition definition stored in the definition storage section defines a correspondence between two coordinate values in the colorimetric color space and one coordinate value obtained by synthesizing these two coordinate values,
The color conversion unit is
Referring to the first coordinate conversion definition, process color image data defined by the coordinate values of the first color space in the print image data is defined by the coordinate values of the colorimetric color space. Fifth conversion means for converting into image data;
Referring to the spot color / coordinate conversion definition, sixth conversion means for converting a spot color name into a coordinate value of the colorimetric color space;
With reference to the coordinate composition definition, the image data defined by the coordinate values of the colorimetric color space after being converted by the fifth conversion unit, and after being converted by the sixth conversion unit, Second, the image data defined by the coordinate values of the colorimetric color space for the proofer is synthesized from the coordinate values of the colorimetric color space corresponding to the spot color and the spot color image data of the print image data. A synthesis method of
Referring to the second coordinate transformation definition, image data defined by coordinate values of the colorimetric color space for the proofer synthesized by the second synthesizing means is used for the proofer. 6. A color conversion apparatus according to claim 5, further comprising seventh conversion means for converting into image data defined by coordinate values of the color space. The coordinate composition definition stored in the definition storage section defines a correspondence between two coordinate values in the second color space and one coordinate value obtained by synthesizing these two coordinate values. ,
The color conversion unit is
Based on the first coordinate transformation definition and the second coordinate transformation definition, a third coordinate transformation that directly associates the coordinate value of the first color space with the coordinate value of the second color space. A coordinate transformation definition construction means for constructing a definition;
Referring to the third coordinate conversion definition, process color image data defined by the coordinate values of the first color space in the print image data is defined by the coordinate values of the second color space. An eighth converting means for converting the image data into
Referring to the spot color / coordinate conversion definition, ninth conversion means for converting a spot color name into a coordinate value of the colorimetric color space;
With reference to the second coordinate conversion definition, the coordinate value of the colorimetric color space corresponding to the spot color after being converted by the ninth conversion unit is converted to the coordinate value of the second color space. A tenth converting means to:
With reference to the coordinate composition definition, the image data defined by the coordinate values of the second color space after being converted by the eighth conversion unit, and after being converted by the ninth conversion unit The coordinate value of the second color space corresponding to the spot color and the spot color image data of the print image data are defined by the coordinate value of the second color space for the proofer. 6. The color conversion apparatus according to claim 5, further comprising third combining means for combining image data. Print image data composed of process color image data defined by coordinate values in a predetermined first color space and spot color image data defined by coordinate values in the spot color direction, and an image based on the print image data. Color conversion definition for converting to image data defined by coordinate values of a predetermined second color space, for a proofer that outputs a proof image reproducing the image obtained by printing under a predetermined printing condition Is a color conversion definition storage medium in which
A first coordinate conversion definition corresponding to a printing condition that defines a correspondence between a coordinate value of the first color space and a coordinate value of a device-independent colorimetric color space;
A proof condition that defines the correspondence between the spot color name and the coordinate value of the colorimetric color space, the spot color / coordinate conversion definition, and the correspondence between the coordinate value of the colorimetric color space and the coordinate value of the second color space. A corresponding second coordinate transformation definition;
The colorimetric color space obtained by converting the process color image data in the colorimetric color space or the second color space, the coordinate value of the colorimetric color space or the second color space, and the spot color name. Alternatively, a color conversion definition including two coordinate values with the coordinate value of the second color space and a coordinate synthesis definition that defines a correspondence between one coordinate value obtained by synthesizing these two coordinate values is stored. A color conversion definition storage medium characterized by

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