JP4337592B2 - Profile creation apparatus, profile creation method, recording medium, and program - Google Patents

Description

  The present invention relates to a profile creation apparatus, a profile creation method, a recording medium, and a program for creating a profile used when converting RGB data into CMYK data.

  In recent years, the manuscript of printed matter has been increasingly created using a computer with the spread of DTP (desktop publishing). When a document is created using a computer, the document creator recognizes the color of the document image on the computer display (monitor). Therefore, in a company that performs plate making, printing plate, printing, etc. of an actually created document (hereinafter collectively referred to as “printing plate making company”), the image data of the document is RGB (red, green, which is data for the display device). , Blue) will be received in the form of data. Therefore, the printing plate making company that has received the image data of the document needs to convert the RGB data for the display device into CMYK (cyan, magenta, yellow, black) data for the printing device.

  In general, since the color gamut that can be represented by RGB data is wider than the color gamut that can be represented by CMYK data, color conversion from RGB to CMYK involves color gamut compression. In addition, the color of the printed matter obtained by printing needs to be reproduced in accordance with the color image of the original image viewed on the display. Therefore, for example, Patent Document 1 below discloses a color correction method based on RGB data of a high-quality output system for performing color reproduction independent of output devices between devices having different color reproducibility.

  Also, since RGB data and CMYK data are both color data represented in a device-dependent color space, when converting RGB data into CMYK data, device-dependent RGB data is converted into a device-independent color space. It is necessary to convert to color data and then to device-dependent CMYK data. Normally, printing plate makers use a unique color conversion method that matches the printing characteristics of their printing presses to convert RGB data into CMYK data. The color conversion method used there is an external third party. It is information (know-how) that cannot be known. For this reason, a print requester who requests printing to a printing plate making company looks at a printed material that has undergone trial printing (trial printing) by the printing plate making company and confirms whether or not printing is performed in a desired color.

  However, it takes a considerable amount of time (days) from requesting a trial printing to a printing plate making company until obtaining a printed matter actually printed by trial printing. For this reason, if it is desired to immediately check the color (printing result) of the printed matter for some reason, it is necessary to perform a printing simulation using an inexpensive printer device owned by the print requester. In this case, color conversion from RGB data to CMYK data is performed using a profile defined by ICC (International Color Consortium) or a system profile. For example, after converting RGB data depending on a display device into color data (hereinafter referred to as Lab data) of a CIELAB color space (uniform color space) which is a device-independent color space, the Lab data is converted to CMYK depending on a printing device. In the case of conversion to data, color conversion is performed using two profiles (color conversion profile from RGB data to Lab data and color conversion profile from Lab data to CMYK data).

JP-A-7-283958

  However, when converting RGB data of a document created on a computer display into CMYK data for a printing device, the color of the printed material printed by the printer device matches the color of the document displayed on the display as much as possible. However, it is difficult to know what color conversion method is used by the printing plate making company that actually undertakes the printing work. There were many cases where the color was different from the color of the printed matter printed by the printing plate making company. In addition, in order to match the colors of the two printed materials, it is necessary to repeat the work of adjusting the amount ratio of CMYK appropriately for each portion of different colors, printing each time with the printer device, and checking the color of the printed material many times. was there. Therefore, it takes a lot of time and labor to create a profile. Also, it has been difficult to create a profile that can perform printing simulation with high accuracy.

  The present invention has been made to solve the above-described problems. The object of the present invention is to convert the RGB data into CMYK data even when the first printing environment for printing is unknown. In other words, the color of the printed matter to be printed can be accurately reproduced in a second printing environment different from the first printing environment.

The profile creation device according to the present invention includes a plurality of different first patch data represented by three color component color system data and a plurality of different second patch data represented by four color component color system data. Input and colorimetrically measure the first colorimetric data obtained by applying colorimetry to the first patchchart printed by applying the first patch data and the second patchchart printed by applying the second patch data Data input means for inputting the second colorimetric data obtained in this manner, and the first patch data, the first colorimetric data, the second patch data, and the second colorimetric data input by the data input means. a profile creating means for creating a color conversion profile from the color system data three color components to the color system data 4 color components, black on the basis of the first colorimetric data inputted by said data input means A black ink generation information adding unit that obtains a black ratio and adds information indicating the black generation ratio to the first colorimetric data; and the profile generation unit includes the second patch data and the second colorimetric data. And the second patch data corresponding to the first colorimetric data by the first unit and the second colorimetric data corresponding to the second patch data corresponding to the first colorimetric data. Therefore, the second means for extracting, the third means for associating the second patch data extracted by the second means with the first patch data, and the second means associated with each other by the third means And a fourth means for generating the color conversion profile according to the correspondence between the patch data and the first patch data. In the second means, the black generation ratio information is added by the black generation adding means. Was Using the first colorimetric data, the second patch data corresponding to the first colorimetric data is associated with the second patch data associated with the first means and the second colorimetric data. Are extracted according to

  In the profile creation device according to the present invention, the profile creation means displays a table of three color components based on the first patch data, the first color measurement data, the second patch data, and the second color measurement data input from the data input means. A color conversion profile from color system data to color system data of four color components is created. At this time, the characteristics used for printing the first patch chart based on the correspondence between the first patch data and the first colorimetric data (characteristics obtained by converting the color system data of the three color components into the color system data of the four color components) And the printing characteristics of the printing device) and the printing characteristics of the printing device used for printing the second patch chart from the correspondence between the second patch data and the second colorimetric data. The first patch data and the second patch data are associated with each other by matching the colorimetric data, and a color conversion profile is created in accordance with the correspondence relationship, so that the printing characteristics of the printing device used for printing each patch chart can be adjusted. A reflected color conversion profile is obtained.

  According to the present invention, based on the first patch data, the first colorimetric data, the second patch data, and the second colorimetric data that are input as data, the color specification of the four color components from the color system data of the three color components. By creating a color conversion profile for system data, a color conversion profile reflecting the printing characteristics of the printing device used for printing each patch chart can be obtained. Therefore, the first printing environment for printing by converting the color system data of the three color components into the color system data of the four color components, and converting the color system data of the three color components into the color system data of the four color components Even if the method is unknown, the color of the printed matter printed in the first printing environment can be accurately reproduced in the second printing environment different from the first printing environment. As a result, it is possible to simulate the printing result of the original image created with the color system data of the three color components with high accuracy.

  Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a schematic diagram showing a configuration example of a profile creation system including a profile creation apparatus according to an embodiment of the present invention. The illustrated profile creation system is configured using a colorimeter 1 and a profile creation device 2. The colorimeter 1 and the profile creation device 2 are connected using, for example, a communication cable. Among these, the colorimeter 1 is a spectrophotometer that measures the color of a color patch printed on paper or the like as a printed material based on, for example, the spectral characteristics of reflected light obtained when the color patch is irradiated with white light. It is comprised using. The profile creation device 2 is constituted by a computer device (personal computer or the like) in which a profile creation program is installed (installed) as one of application programs, for example. The computer device is configured using a CPU (Central Processing Unit), a ROM (Read-Only Memory), a RAM (Random Access Memory), a hard disk, etc., and the CPU reads and executes a program written in the ROM or the hard disk. Thus, various processes are performed.

  In the colorimeter 1, the two patch charts 3 and 4 printed out in advance using a printing device (printer, printer, etc.) are measured. One is RGB printed by applying a plurality of different RGB patch data (first patch data) represented by, for example, RGB color system data (hereinafter referred to as RGB data) as a color system of three color components. A patch chart (first patch chart) 3, and the other is a plurality of different CMYK patch data (first data) expressed by CMYK color system data (hereinafter referred to as CMYK data) as a color system of four color components. 2 is a CMYK patch chart (second patch chart) 4 printed by applying the second patch data). A plurality of color patches with different RGB data values are recorded on the RGB patch chart 3, and a plurality of color patches with different CMYK data values are recorded on the CMYK patch chart 4. RGB patch data refers to color data of color patches represented by RGB data (hereinafter also referred to as RGB patches), and CMYK patch data refers to color patches represented by CMYK data (hereinafter also referred to as CMYK patches). Color data.

  Now, in order to reproduce the color of printed matter printed with color material ink using a printing machine owned by a printing plate making company, for example, printing simulation with a color printer using four color toners of CMYK as color material Assuming the case where the printing is performed, the RGB patch chart 3 and the CMYK patch chart 4 are printed using a printing press (printing device) of a printing plate making company which is a reference (target) for printing simulation. In this case, the printing plate making company is provided with RGB patch data applied to the printing of the RGB patch chart 3 and CMYK patch data applied to the printing of the CMYK patch chart 4 to request printing, and printing by the printing plate making company is performed. The RGB patch chart 3 and the CMYK patch chart 4 printed by the machine are obtained. The RGB patch chart 3 and the CMYK patch chart 4 may be printed together on a single (common) print medium (such as a sheet) or may be printed separately on separate print media.

  FIG. 2 shows the relationship between patch data and a patch chart printed by applying the patch data. In FIG. 2, (A) is RGB patch data, (B) is CMYK patch data, (C) is an RGB patch chart, ( D) shows a CMYK patch chart.

  First, if the RGB patch data Sd1 shown in FIG. 2A represents the RGB data values in 256 steps (0 to 255) for each of the R, G, and B color components, the range that the RGB patch data can take. The value of each color component is changed for each patch within the range of RGB (0, 0, 0) to RGB (255, 255, 255). Similarly, if the CMYK patch data Pd2 shown in FIG. 2B represents the CMYK data values in 256 steps (0 to 255) for each color component of C, M, Y, and K, the CMYK patch data Each color component value is changed for each patch within a possible range, that is, within a range of CMYK (0, 0, 0, 0) to CMYK (255, 255, 255, 255).

  Further, assuming that the values of the color components of RGB and CMYK are changed at predetermined intervals in each of the patch data Pd1 and Pd2, this predetermined interval can be printed on the number of patches necessary for profile creation or on a printing medium. For example, 8 stages (0, 8, 16,..., 240, 248, 255) or 16 stages coarser (0, 16, 32,..., 224, 240, 255) according to the limitation of the number of patches. Or 32 stages (0, 32, 64,..., 192, 224, 255). In this case, for the CMYK patch data, for example, the value of each color component of CMY is changed at an interval of 8 steps, while the value of K is changed at an interval of 16 steps coarser than that. The interval may be changed. In addition, patch creation can change not only the values of each color component at equal intervals, but also at different intervals. Specifically, it is possible to take measures such as setting a step interval smaller in the high density part than in the low density part according to the level of density.

  Incidentally, RGB is an additive color mixture of three primary colors, and CMY is a subtractive color mixture of three primary colors. Therefore, in the RGB patch chart 3 shown in FIG. 2C, the color of the patch printed in RGB (0, 0, 0) is black, and the color of the patch printed in RGB (255, 255, 255) is Become white. In the CMYK patch chart 4 shown in FIG. 2D, the color of the patch printed with CMYK (0, 0, 0, 0) is white and printed with CMYK (255, 255, 255, 255). The color of the patch is black.

In addition, when the respective color charts 1 and 4 are set in the colorimeter 1 and colorimetry is performed, colorimetric data (colorimetric results) corresponding to the respective patch charts 3 and 4 is obtained. The colorimetric data is generated as Lab data defined in a device-independent color space, for example, a color space of the CIELAB color system (uniform color space). Lab data is data represented by a value of L ^* representing brightness and a ^* and b ^* values representing hue and saturation. This colorimetric data is generated for each color patch included in each of the patch charts 3 and 4. For example, when 4096 RGB patches are recorded in the RGB patch chart 3, the colorimetric data of the RGB patch chart 3 is obtained by the colorimeter 1, thereby obtaining 4096 colorimetric data equal to the number of RGB patches. It is done. Similarly, when 4096 CMYK patches are recorded on the CMYK patch chart 4, 4096 colorimetric data equal to the number of CMYK patches is obtained.

  Incidentally, the correspondence between the RGB patch data Pd1 applied when printing the RGB patch chart 3 and the RGB colorimetric data Sd1 obtained when the RGB patch chart 3 is color-measured is, for example, in the RGB patch chart 3 This is performed by assigning unique patch identification information (ID) to each of the contained RGB patches and assigning the patch identification information to RGB patch data and RGB colorimetric data corresponding to a common RGB patch. Similarly, the association between the CMYK patch data Pd2 applied when printing the CMYK patch chart 4 and the CMYK colorimetric data Sd2 obtained when the CMYK patch chart 4 is measured is included in the CMYK patch chart 4. Each unique CMYK patch is assigned unique patch identification information (ID), and this patch identification information is assigned to CMYK patch data and CMYK colorimetric data corresponding to a common CMYK patch.

  The profile creation device 2 includes a patch data input unit 5, a colorimetric data input unit 6, and a profile creation unit 7. The patch data input unit 5 is for inputting RGB patch data Pd1 and CMYK patch data Pd2 applied to the printing of the patch charts 3 and 4 described above. The colorimetric data input unit 6 receives colorimetric data (hereinafter also referred to as RGB colorimetric data) Sd1 obtained when the RGB patch chart 3 is measured by the colorimeter 1 and the CMYK patch chart 4 as the colorimeter 1. The colorimetric data (hereinafter also referred to as CMYK colorimetric data) Sd2 obtained when the colorimetry is performed is input.

  The profile creation unit 7 is based on the RGB patch data Pd1 and CMYK patch data Pd2 input from the patch data input unit 5, and the RGB colorimetric data Sd1 and CMYK colorimetry data Sd2 input from the colorimetry data input unit 6. A color conversion profile from RGB data to CMYK data is created. More specifically, the profile creating unit 7 uses the data input units 5 and 6 to print the RGB patch chart 3 based on the correspondence between the RGB patch data Pd1 and the RGB colorimetric data Sd1. Characteristics (including characteristics obtained by converting RGB data into CMYK data and printing characteristics of the printing device), and CMYK patch chart 4 was used for printing from the correspondence between CMYK patch data Pd2 and CMYK colorimetric data Sd2. The printing characteristics of the printing device can be grasped. Therefore, the profile creating unit 7 associates the RGB patch data Pd1 and the CMYK patch data Pd2 by matching each of the colorimetric data Sd1 and Sd2, and creates a color conversion profile according to this correspondence relationship. A color conversion profile reflecting the printing characteristics of the printing device used for printing the patch charts 3 and 4 can be obtained. As a specific configuration for creating such a profile, as shown in FIG. 3, the profile creation unit 7 includes a first model creation unit 8, a black generation information addition unit 9, a data extraction unit 10, The configuration includes a second model creation unit 11 and a profile generation unit 12.

  Based on the CMYK patch data Pd2 input from the patch data input unit 5 and the CMYK colorimetric data Sd2 input from the colorimetric data input unit 6, the first model creation unit 8 uses the CMYK patch data Pd1 and CMYK. The first model (dynamic look-up table) indicating the correspondence (correlation) between the colorimetric data Sd2 and the correspondence (correlation) is created. In the first model creation unit 8, CMYK patch data to which common patch identification information is assigned and CMYK colorimetric data for each CMYK patch printed on the CMYK patch chart 4 are in a 1: 1 relationship. By associating and sequentially accumulating them in the database, a first model showing their correspondence is created. The first model created by the first model creation unit 8 models the characteristics of the printing press used by the printing plate making company for printing the CMYK patch chart 4. Therefore, it is possible to grasp the printing characteristics of the printing machine owned by the printing plate making company from the first model created by the first model creation unit 8. Since the CMYK patch data Pd2 is obtained by changing the values of the C, M, Y, and K color components at a predetermined interval, the corresponding CMYK colorimetric data Sd2 also jumps in the LAB color space. Although appearing as dots, the blank portion of the data at the predetermined interval can be interpolated by interpolation.

The black generation information adding unit 9 calculates a black generation ratio (K generation) (%) based on the RGB color measurement data Sd1 input from the color measurement data input unit 6, and represents the black generation ratio (black amount). Information Bk is added to the RGB colorimetric data Sd1. The black generation information adding unit 9 refers to an LUT (look-up table) in which Lab data and black generation ratio are associated with each other in advance, for each RGB color measurement data obtained by measuring each RGB patch. Find the black generation ratio. In the LUT that is referred to when determining the black generation ratio, the smaller the value of L ^{* and} the smaller the value of C ^* (= √ (a ^{* 2} + b ^{* 2} )) serving as a saturation index, The Lab data and the black generation ratio are associated with each other so that the ratio increases.

  The data extraction unit 10 uses the RGB colorimetric data Sd1 to which the black generation ratio information Bk is added by the black generation information addition unit 9 to obtain the first CMYK patch data Pd2 ′ corresponding to the RGB colorimetric data Sd1. Are extracted in accordance with the correspondence relationship (first model) between the CMYK patch data Pd1 and the CMYK colorimetric data Sd2 associated with each other. Specifically, the first model shows the correspondence between the CMYK patch data Pd2 and the CMYK colorimetric data Sd2, and the CMYK colorimetric data Sd2 is expressed by Lab data in the same manner as the RGB colorimetric data Sd1. It is. In addition, even if the color is represented by the same Lab data, there are a plurality of CMYK data (a combination of C, M, Y, and K values) that can reproduce this color by printing depending on the amount of black generation. Therefore, the data extraction unit 10 performs RGB generation according to the black generation ratio information Bk added to the RGB colorimetric data Sd1 and the first model indicating the correspondence between the CMYK patch data Pd1 and the CMYK colorimetric data Sd2. CMYK patch data Pd2 ′ corresponding to the colorimetric data Sd1 is extracted. The CMYK patch data Pd2 'extracted here is the same color system data as the CMYK patch data Pd2 applied to the printing of the CMYK patch chart, but the values of the respective color components are different. Further, the data extraction unit 10 extracts the same number of CMYK patch data Pd2 as the number of RGB colorimetric data Sd1 (number of RGB patches).

  The second model creation unit 11 associates the CMYK patch data Pd2 ′ extracted by the data extraction unit 10 with the RGB patch data Pd1 input from the patch data input unit 5, and sets the correspondence (correlation) between them. The second model (dynamic look-up table) shown is created. In the second model creation unit 11, when the CMYK patch data Pd2 ′ corresponding to the RGB colorimetric data Sd1 is extracted by the data extraction unit 10, the RGB colorimetric data Sd1 used for the data extraction is added thereto. By replacing with the corresponding RGB patch data Pd1, the second model is created by associating the CMYK patch data Pd2 ′ and the RGB patch data Pd1 in a 1: 1 relationship and sequentially storing them in the database. The replacement of the RGB colorimetric data Sd1 with the RGB patch data Pd1 is performed between the RGB patch data to which the common patch identification information is assigned and the RGB colorimetric data. As a result, on the RGB patch chart 3, the color measurement of Lab (d, e, f) is performed when one RGB patch printed by applying the patch data of RGB (a, b, c) is measured. Assuming that data has been obtained, Lab (d, e, f), which is RGB colorimetric data used for data extraction, becomes RGB (a, b, c), which is RGB patch data corresponding thereto. Will be replaced.

  The profile generation unit 12 is a color conversion profile from RGB data to CMYK data according to the second model created by the second model creation unit 11 (correspondence relationship between CMYK patch data Pd2 ′ and RGB patch data Pd1). Is generated. The profile generation unit 12 generates a color conversion profile according to an ICC profile structure or a dynamic lookup table structure including a header, a tag table, and tag elements. Further, in the profile generation unit 12, for example, all correspondence relationships between input data expressed by RGB data and output data expressed by CMYK data are stored in the LUT, and the input / output relationship is handled by matrix calculation. To create a color conversion profile.

  Next, a profile creation method (procedure) using the profile creation system configured as described above will be described with reference to the flowchart of FIG.

  First, when the RGB patch chart 3 and the CMYK patch chart 4 are prepared, the colorimetric device 1 is used to measure the colors of these patch charts 3 and 4 in order (step S1). In this case, the colorimeter 1 may measure the color of the RGB patch chart 3 or the CMYK patch chart 4 first.

  Next, in the profile creation device 2, RGB patch data Pd 1 and CMYK patch data Pd 2 are input from the patch data input unit 5, and RGB colorimetric data Sd 1 and CMYK colorimetric data Sd 2 are input from the colorimetric data input unit 6. (Steps S2, S3). In this case, input of RGB patch data Pd1 and CMYK patch data Pd2 (step S2) and input of RGB colorimetric data Sd1 and CMYK colorimetry data Sd2 (step S3) may be performed first. The input of RGB colorimetric data Sd1 and CMYK colorimetric data Sd2 (step S3) is performed after the patch chart measurement (step S1) is completed. However, input of RGB patch data Pd1 and CMYK patch data Pd2 is performed. (Step S2) may be performed before the measurement of the patch chart (Step S1).

  Subsequently, in the profile creation device 2, the first model creation unit 8 associates the CMYK patch data Pd2 with the CMYK colorimetric data Sd2, and according to this, the first correspondence relationship between the data Pd2 and Sd2 is shown. Is created (step S4). Next, in the profile creation apparatus 2, the black generation information adding unit 9 adds black generation ratio information Bk to the RGB colorimetric data Sd1 (step S5).

  Thereafter, the profile creation device 2 uses the RGB colorimetric data Sd1 to which the black generation information Bk is added by the black generation information adding unit 9 in step S5, and uses the CMYK patch data Pd2 ′ corresponding to the RGB colorimetric data Sd1. Are extracted by the data extraction unit 10 according to the first model (correspondence relationship between the CMYK patch data Pd1 and the CMYK colorimetric data Sd2) (step S6).

  Next, in the profile creation device 2, the second model creation unit 11 associates the CMYK patch data Pd2 ′ and the RGB patch data Pd1 extracted by the data extraction unit 10 in the above step S6. A second model indicating the correspondence between the data Pd2 ′ and Pd1 is created (step S7).

  Subsequently, in the profile creation device 2, according to the second model (correspondence between CMYK patch data Pd2 ′ and RGB patch data Pd1) created by the second model creation unit 11 in step S7, RGB data is converted into CMYK. A profile for color conversion to data is generated (step S8).

  By creating a color conversion profile in the above-described manner, for example, as described above, in order to reproduce the color of a printed matter printed with color material ink using a printing press owned by a printing plate making company, CMYK When a printing simulation is performed with a color printer that uses the four color toners as color materials, it is possible to perform a printing simulation with high accuracy using this color printer.

  Specifically, prior to the execution of the printing simulation, printing using the CMYK patch data Pd2 is performed using a color printer device used for the printing simulation, and a CMYK patch chart (printed material) is output. Since this CMYK patch chart reflects the printing characteristics of the color printer apparatus, the CMYK patch chart 4 is printed on the printing machine of the printing plate making company using the same CMYK patch data Pd2, and the printing color of the CMYK patch is the same. It will be different.

  Therefore, in order to eliminate the printing color error due to the difference in printing characteristics between printing devices, the CMYK patch chart printed out using the color printer apparatus is measured by the colorimeter 1 and the colorimetric result is obtained. CMYK colorimetric data Sd3 is obtained. From the relationship between the CMYK patch data Pd2 and the CMYK colorimetric data Sd2 obtained by the previous profile creation method and the relationship between the CMYK patch data Pd2 and the CMYK colorimetric data Sd3 obtained using the color printer device, the printing plate making company. Input / output of CMYK data applied to printing using a printing press as input data and C′M′Y′K ′ data applied to printing using a color printer device for printing simulation as output data Create a device profile that shows the corresponding relationship.

  When actually performing a printing simulation, the original image data expressed in RGB data is converted into CMYK data using the color conversion profile created by the previous profile creation method, and then the CMYK data is converted to CMYK data. Using the device profile, the data is converted into C′M′Y′K ′ data, and printing is executed by the color printer according to the C′M′Y′K ′ data. As a result, even if it is not clear at all what color conversion method is adopted by the printing plate making company, the color of the printed matter printed by the printing plate making company can be accurately measured by simulation printing using a color printer device. Can be reproduced well. Therefore, for example, the printing result of an image taken with a digital camera or the like can be predicted with high accuracy by simulation printing. In addition, since it is not necessary to repeat the color confirmation operation of the printed matter, a desired print image can be obtained in a very short period.

  In the above embodiment, the colorimeter 1 and the profile creation device 2 are configured separately. However, the present invention is not limited to this, and the colorimeter 1 is incorporated as one function of the profile creation device 2. These can also be configured integrally.

  In the above embodiment, the RGB patch chart 3 and the CMYK patch chart 4 are printed by the same printing device (a printing press of a printing plate making company). However, the present invention is not limited to this, and the RGB patch chart 3 and The CMYK patch chart 4 may be printed by a different printing device. For example, as described above, in a color printer using four color toners of CMYK as color materials in order to reproduce the color of a printed matter printed with color material inks using a printing machine owned by a printing plate making company. In the case of performing a printing simulation, the RGB patch chart 3 is printed by a printing press of a printing plate making company, while the CMYK patch chart 4 is printed by a color printer apparatus. In this case, when RGB data is color-converted into CMYK data using a color conversion profile created by the same profile creation method as described above, the CMYK data obtained by color conversion conforms to the printing characteristics of the color printer device. Therefore, it is not necessary to perform data conversion (CMYK data → C′M′Y′K ′ data) using the device profile as described above.

  Further, the present invention is not only a profile creation apparatus and profile creation method, but also a computer readable recording program for realizing a profile creation method based on the processing procedure (each step) shown in the flowchart of FIG. It is also possible to provide a recording medium, and further in the form of a program for causing a computer to execute the program creation method. As a recording medium for recording the program, for example, a floppy (registered trademark) disk, an optical disk, a magneto-optical disk, a CD-ROM, a CD-R, a magnetic tape, a nonvolatile memory card, a ROM, an EEPROM, or the like is used. Can do.

It is the schematic which shows the structural example of the profile creation system containing the profile creation apparatus which concerns on embodiment of this invention. It is a figure which shows the relationship between patch data and a patch chart. It is the schematic which shows the structural example of the profile production apparatus which concerns on embodiment of this invention. It is a flowchart which shows an example of the profile creation method which concerns on embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Colorimeter, 2 ... Profile creation apparatus, 3 ... RGB patch chart, 4 ... CMYK patch chart, 5 ... Patch data input part, 6 ... Color measurement data input part, 7 ... Profile creation part, 8 ... 1st Model creation unit, 9 ... black generation information addition unit, 10 ... data extraction unit, 11 ... second model creation unit, 12 ... profile generation unit

Claims (4)

A plurality of different first patch data represented by color system data of three color components and a plurality of different second patch data represented by color system data of four color components are input, and the first patch data The second color measurement obtained by colorimetrically measuring the first colorimetric data obtained by measuring the first patchchart printed by applying the second patchchart and the second patch chart printed by applying the second patch data. Data input means for inputting color data;
Based on the first patch data, the first colorimetric data, the second patch data, and the second colorimetric data input by the data input unit, the four colors from the color system data of the three color components. Profile creation means for creating a color conversion profile for component color system data ;
Black generation information adding means for obtaining a black generation ratio based on the first colorimetric data input by the data input means and adding information indicating the black generation ratio to the first colorimetric data;
The profile creation means includes:
First means for associating the second patch data with the second colorimetric data;
Second means for extracting second patch data corresponding to the first colorimetric data in accordance with a correspondence relationship between the second patch data associated with the first means and the second colorimetric data;
Third means for associating the second patch data extracted by the second means with the first patch data;
And fourth means for generating the color conversion profile in accordance with the correspondence between the second patch data and the first patch data associated by the third means,
In the second means, second patch data corresponding to the first colorimetric data is obtained by using the first colorimetric data to which the black generation ratio information has been added by the black generation / addition means. A profile creation apparatus that extracts data according to a correspondence relationship between the second patch data and the second colorimetric data associated with each other . A plurality of different first patch data represented by color system data of three color components and a plurality of different second patch data represented by color system data of four color components are input, and the first patch data The second color measurement obtained by measuring the color of the first color measurement data obtained by applying color measurement to the first patch chart printed by applying the second patch data. Data input processing for inputting color data;
Based on the first patch data, the first colorimetric data, the second patch data, and the second colorimetric data input in the data input step, the four colors from the color system data of the three color components. Profile creation processing to create a profile for color conversion to component color system data,
A black generation information adding process for obtaining a black generation ratio based on the first colorimetric data input in the data input process and adding information representing the black generation ratio to the first colorimetric data; ,
The profile creation process includes:
A first step of associating the second patch data with the second colorimetric data;
A second step of extracting second patch data corresponding to the first colorimetric data in accordance with a correspondence relationship between the second patch data and the second colorimetric data associated in the first step;
A third step of associating the second patch data extracted in the second step with the first patch data;
And a fourth step of generating the color conversion profile according to the correspondence between the second patch data and the first patch data associated in the third step,
In the second step, second patch data corresponding to the first colorimetric data is converted to the first colorimetric data using the first colorimetric data to which information on the black generation ratio is added in the black generation addition process. In accordance with the correspondence relationship between the second patch data and the second colorimetric data associated in the step
A profile creation method characterized by that. A plurality of different first patch data represented by color system data of three color components and a plurality of different second patch data represented by color system data of four color components are input, and the first patch data The second color measurement obtained by measuring the color of the first color measurement data obtained by applying color measurement to the first patch chart printed by applying the second patch data. Data input processing for inputting color data;
Based on the first patch data, the first colorimetric data, the second patch data, and the second colorimetric data input in the data input step, the four colors from the color system data of the three color components. Profile creation processing to create a profile for color conversion to component color system data,
A black generation information adding process for obtaining a black generation ratio based on the first colorimetric data input in the data input process and adding information representing the black generation ratio to the first colorimetric data; ,
The profile creation process includes:
A first step of associating the second patch data with the second colorimetric data;
A second step of extracting second patch data corresponding to the first colorimetric data in accordance with a correspondence relationship between the second patch data and the second colorimetric data associated in the first step;
A third step of associating the second patch data extracted in the second step with the first patch data;
And a fourth step of generating the color conversion profile according to the correspondence between the second patch data and the first patch data associated in the third step,
In the second step, second patch data corresponding to the first colorimetric data is converted to the first colorimetric data using the first colorimetric data to which information on the black generation ratio is added in the black generation addition process. In accordance with the correspondence relationship between the second patch data and the second colorimetric data associated in the step
A computer-readable recording medium having recorded thereon a program for causing a computer to execute the profile creation method. A plurality of different first patch data represented by color system data of three color components and a plurality of different second patch data represented by color system data of four color components are input, and the first patch data The second color measurement obtained by measuring the color of the first color measurement data obtained by applying color measurement to the first patch chart printed by applying the second patch data. Data input processing for inputting color data;
Based on the first patch data, the first colorimetric data, the second patch data, and the second colorimetric data input in the data input step, the four colors from the color system data of the three color components. Profile creation processing to create a profile for color conversion to component color system data,
A black generation information adding process for obtaining a black generation ratio based on the first colorimetric data input in the data input process and adding information representing the black generation ratio to the first colorimetric data; ,
The profile creation process includes:
A first step of associating the second patch data with the second colorimetric data;
A second step of extracting second patch data corresponding to the first colorimetric data in accordance with a correspondence relationship between the second patch data and the second colorimetric data associated in the first step;
A third step of associating the second patch data extracted in the second step with the first patch data;
And a fourth step of generating the color conversion profile according to the correspondence between the second patch data and the first patch data associated in the third step,
In the second step, second patch data corresponding to the first colorimetric data is converted to the first colorimetric data using the first colorimetric data to which information on the black generation ratio is added in the black generation addition process. In accordance with the correspondence relationship between the second patch data and the second colorimetric data associated in the step
A program for causing a computer to execute the profile creation method.

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