JP2015076692A - Color processing device, color adjusting method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a color processing device or the like capable of performing color adjustment in association with the degree of respective requests by color-reproducing accuracy and a durable period.SOLUTION: A color processing device includes: a request information acquisition part 215 for acquiring request information including information related to color-reproducing accuracy and a durable period required by a device to be color-adjusted; a color reproduction target generation part 216 for generating a color reproduction target of the device to be color-adjusted based on the request information; and a color conversion table forming part 218 for forming a color conversion table used by the device to be color-adjusted for performing color adjustment corresponding to the color reproduction target.

Description

  The present invention relates to a color processing device, a color adjustment system, and a program.

  Patent Document 1 discloses color conversion means for a color output device that retains past history information between an input color space and an output color space, position information in the output medium, and combination information of image output modes of the output medium. And an image processing apparatus having a printer profile generation function for outputting an image that absorbs fluctuations in time and physical characteristics of the printer.

  Japanese Patent Application Laid-Open No. 2004-228561 causes a printer to form a color patch corresponding to a signal value of a color to be calibrated, a colorimetric value of the formed color patch, and a target value corresponding to a signal value of a color to be calibrated A data processing device is disclosed that calibrates signal values based on the above and creates multidimensional table data for calibration based on the colorimetric values of the formed color patches.

JP 2003-298856 A Japanese Patent Laid-Open No. 2004-23740

  When performing color adjustment of an image to be output by the color adjustment device, it is desirable to perform color adjustment in accordance with respective requirements of color reproduction accuracy and lifetime.

According to the first aspect of the present invention, there is provided a request information acquisition unit that acquires request information including information relating to color reproduction accuracy and a service life required for the color adjustment device, and the request information acquired by the request information acquisition unit. A color reproduction target generation unit that generates a color reproduction target of the color adjustment device, and the color adjustment to perform color adjustment corresponding to the color reproduction target generated by the color reproduction target generation unit A color processing apparatus comprising: a conversion relation creating unit that creates a conversion relation used in the apparatus.
In the invention according to claim 2, the color reproduction target generation unit generates a color gamut of an image output from the color adjustment device as the color reproduction target, and the color gamut The area reproduced using three or more color materials used in the color adjustment apparatus is reduced, but is reproduced using two or less color materials used in the color adjustment apparatus. The color processing apparatus according to claim 1, wherein the area is not reduced.
According to a third aspect of the present invention, the color reproduction target generation unit includes a reduction rate calculation unit that calculates a reduction rate that is a rate of reducing the color gamut from the request information in order to reduce the color gamut. The color processing apparatus according to claim 2, wherein the color processing apparatus is a color processing apparatus.
According to a fourth aspect of the present invention, in the color reproduction target generation unit, the color reproduction target is generated starting from an average color gamut of the plurality of color adjustment devices. The color processing apparatus described.
According to a fifth aspect of the present invention, a color signal created for outputting an image by the color adjustment device is subjected to color conversion processing using a predetermined conversion relationship and output to the color adjustment device. Color conversion means; and conversion relation creation means for creating the conversion relation used in the color conversion means in order to perform color adjustment of an image output by the color adjustment device. The means is based on the request information acquisition unit that acquires request information including information on the color reproduction accuracy and the service life required for the color adjustment device, and the request information acquired by the request information acquisition unit. A color reproduction target generation unit that generates a color reproduction target of the color adjustment device, and is used in the color adjustment device to perform color adjustment corresponding to the color reproduction target generated by the color reproduction target generation unit A transformation that creates a transformation relationship The relationship creation unit, a color adjustment system comprising: a.
According to a sixth aspect of the present invention, there is provided a computer with a function of acquiring request information including information relating to color reproduction accuracy and a service life required for the color adjustment device, and based on the acquired request information. A program that realizes a function of generating a color reproduction target of a color adjustment apparatus and a function of creating a conversion relationship used in the color adjustment apparatus to perform color adjustment corresponding to the generated color reproduction target It is.

According to the first aspect of the present invention, it is possible to provide a color processing apparatus capable of creating a conversion relationship in accordance with the respective requirements of the color reproduction accuracy and the useful life compared to the case where the present configuration is not provided. it can.
According to the second aspect of the present invention, it is possible to generate the color target in accordance with the reduction of the color gamut that occurs according to the deterioration with time, as compared with the case where the present configuration is not provided.
According to the third aspect of the present invention, it is possible to perform unified processing regardless of whether the required information is set with either color reproduction accuracy or lifetime.
According to the fourth aspect of the present invention, it is possible to create a conversion relationship in which the accuracy of color adjustment is further improved as compared with the case where this configuration is not provided.
According to the invention of claim 5, it is possible to provide a color adjustment system capable of performing color adjustment of the color adjustment device with higher accuracy.
According to the sixth aspect of the present invention, compared to the case where the present configuration is not provided, the computer can realize a function capable of creating a conversion relationship in accordance with respective requirements of color reproduction accuracy and lifetime.

1 is a diagram illustrating a configuration example of an image forming apparatus according to an exemplary embodiment. FIG. 2 is a diagram for explaining a state in which a color setting system is attached to the image forming apparatus illustrated in FIG. 1. (A)-(b) is a figure explaining the image for colorimetry. It is the figure explaining the function structural example about the color conversion table production | generation apparatus of this Embodiment. (A)-(b) is the conceptual diagram explaining the method to reduce a color gamut in this Embodiment. It is the conceptual diagram explaining the method to reduce a color gamut in this Embodiment. It is a figure explaining the example of a function structure about a color reproduction target production | generation part. It is the flowchart explaining operation | movement of the color conversion table production | generation apparatus. 2 is a block diagram illustrating a signal processing system in a control unit of the image forming apparatus. FIG. It is the figure which showed the hardware constitutions of the color conversion table production | generation apparatus.

<Description of Overall Configuration of Image Forming Apparatus>
Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

FIG. 1 is a diagram illustrating a configuration example of an image forming apparatus 10 according to the present embodiment.
The image forming apparatus 10 includes a control unit 11 that controls each mechanism unit of the image forming apparatus 10 and an image forming unit 12 as a printing mechanism that forms an image on a sheet (recording material, recording medium) P.

  The control unit 11 of the image forming apparatus 10 is connected to the network N and receives print data (image data) from a PC (Personal Computer) (not shown) or the like via the network N. As will be described in detail later, after performing necessary image processing such as color adjustment using a color conversion table (conversion relation), print data is transmitted to the image forming unit 12.

  In this embodiment, the image forming unit 12 is an example of a color adjustment device. The image forming unit 12 is, for example, a printer, and is an electrophotographic system that forms an image by transferring toner adhered to a photoreceptor onto a sheet P, or an inkjet system that forms an image by ejecting ink onto a recording medium. Things are used. Then, after printing on the paper P, the paper P is output to the outside of the image forming apparatus 10 as a printed matter.

  In the present embodiment, the control unit 11 performs color conversion processing on a color signal created for outputting an image by the image forming unit 12 using a color conversion table described later, and outputs the color signal to the image forming unit 12. Functions as color conversion means.

Next, a description will be given of a color setting system attached to the image forming apparatus 10 in creating a color conversion table used by the control unit 11.
FIG. 2 is a view for explaining a state in which the color setting system 20 is attached to the image forming apparatus 10 shown in FIG.

  The color setting system 20 according to the present embodiment includes a color conversion table generation device 21 connected to the image forming device 10, and a color conversion table generation device 21 connected to the color conversion table generation device 21 and formed on the paper P by the image forming device 10. And an image reading device 22 that measures (colorimetry) the color of the image.

  In this color setting system 20, the color conversion table generating device 21 and the image reading device 22 are connected via, for example, a USB (Universal Serial Bus). Further, the color conversion table generation device 21 and the image forming device 10 in the color setting system 20 are connected via, for example, a USB.

The color conversion table generation device 21 can create a color conversion table and write the color conversion table to the control unit 11 of the image forming apparatus 10. In the present embodiment, the color conversion table generation device 21 can be regarded as a color processing device that creates a color conversion table used in the image forming apparatus 10. In addition, the color conversion table used in the control unit 11 can be regarded as a conversion relationship creating unit that is created for adjusting the color of the image output from the image forming unit 12.
The color conversion table generation device 21 can use a so-called general-purpose personal computer (PC), which will be described in detail later. Communication with the image reading device 22 and generation of a color conversion table under the management of the OS, It can be configured to execute processing such as communication with the control unit 11.

  Further, the image reading device 22 includes a sensor that measures the color of the image by being arranged in contact with or non-contacting the image formed on the paper P by the image forming device 10.

  In the image forming apparatus 10 according to the present embodiment, normally, the control unit 11 performs image processing such as color conversion on print data created by an external PC or the like without the color setting system 20 attached. Thereafter, the image forming unit 12 performs printing.

On the other hand, the image forming apparatus 10 performs the color measurement image (color patch) selected by the color conversion table generation apparatus 21 with the color setting system 20 attached when the color conversion table is created or changed. ) Is printed by the image forming unit 12.
In the present embodiment, the image reading device 22 measures the colorimetric image output from the image forming device 10 and printed on the paper P, and outputs the color data to the color conversion table generating device 21. Further, the color conversion table generating device 21 creates a color conversion table based on the color data. As will be described in detail later, this color conversion table is stored in the control unit 11, and the control unit 11 performs color conversion processing using this color conversion table. Examples of the color conversion table include a conversion matrix (matrix), a one-dimensional LUT (Look Up Table), and a multi-dimensional LUT.

FIGS. 3A to 3B are diagrams illustrating the colorimetric image.
Among these, FIG. 3A is a table showing input values for forming a colorimetric image. In the present embodiment, the color of a color material such as toner used for forming an image in the image forming apparatus 10 is C (cyan), M (magenta), Y (yellow), and K (black). FIG. 3A shows how much each colorimetric image is formed using CMYK. The numerical value described here is the dot area ratio (coverage, Cin) of each color of CMYK, and can be in the range of 0% to 100%. For example, no. A color measurement image of 1 means that the dot area ratio is 0% for C, 80% for M, 50% for Y, and 20% for K. In this case, the input value for forming the colorimetric image can be said to be (0, 80, 50, 20) in the CMYK color space using this numerical value as it is. Also, here, as a colorimetric image, No. 1 is used. 1-No. This means that M color measurement images of M are prepared. Note that the input value is not limited to the halftone dot area ratio, and may be described, for example, as a gradation value. In this case, the input value is an integer value of 0 to 255 when the gradation value is expressed in 8 bits.

FIG. 3B is a conceptual diagram of a colorimetric image actually printed on the paper P. Here, it is shown that M color measurement images S having various colors are printed on the paper P in accordance with the input values shown in FIG. Then, the color of each color measurement image S is measured by the image reading device 22 reading the color chart including the color measurement image S on the paper P in this way. In the present embodiment, each value of L ^* a ^* b ^{* in} the device-independent L ^* a ^* b ^* color space is obtained as color data as the colorimetric value at this time.

In the present embodiment, the color adjustment is performed for so-called calibration. That is, the color reproducible range (color reproduction range) of the image forming apparatus 10 is generally narrowed due to factors such as deterioration of members and consumables over time and environmental changes such as temperature differences. In other words, the color gamut that can be reproduced by the image forming apparatus 10 is reduced. For this reason, even if the color reproduction range is reduced due to aging or environmental conversion, it is necessary to perform correction so that the color output corresponding to the input value is reproduced with an error within the allowable color difference. For this purpose, the color conversion table needs to be created in accordance with the change in the color gamut.
Conventionally, however, it cannot be said that sufficient consideration has been given as to what method is used for calibration when deterioration with time or the like occurs.

Therefore, in the present embodiment, the color conversion table generating device 21 is configured as follows to create a color conversion table. According to this method, when deterioration with time or the like occurs in the image forming apparatus 10, correction can be performed by a method adapted thereto, and calibration is performed in consideration of individual differences of the image forming apparatus 10. Will do.
Hereinafter, the configuration of the color conversion table generation device 21 will be described.

<Example of Functional Configuration of Color Conversion Table Generation Device>
FIG. 4 is a diagram illustrating an example of a functional configuration of the color conversion table generation device 21 according to the present embodiment.
The illustrated color conversion table generation device 21 includes an image selection unit 211, an image data storage unit 212, an image data transmission unit 213, a color data acquisition unit 214, a request information acquisition unit 215, and a color reproduction target generation unit 216. A standard color reproduction characteristic storage unit 217, and a color conversion table creation unit 218.

  The image selection unit 211 selects a colorimetric image formed by the image forming apparatus 10. The image data of the color measurement image is stored in the image data storage unit 212. The image selection unit 211 acquires the image data of the selected color measurement image from the image data storage unit 212 and sends it to the image data transmission unit 213.

  The image data transmission unit 213 transmits information (image data) of the colorimetric image to the image forming apparatus 10.

In the image forming apparatus 10, the color measurement images are printed in order based on the image data of the color measurement image transmitted by the image data transmission unit 213. These colorimetric images printed by the image forming apparatus 10 are read by the image reading device 22. Then, the image reading device 22 transmits color information (color data) acquired by reading these colorimetric images to the color conversion table generating device 21. At this time, the color data output by the image reading device 22 is, for example, L ^* value, a ^* value, and b ^* value in the L ^* a ^* b ^* color space.

  The color data acquisition unit 214 acquires the color data of the color measurement image transmitted from the image reading device 22. The color data is sent to the color conversion table creation unit 218.

The request information acquisition unit 215 acquires request information including information on the color reproduction accuracy and the service life required for the image forming unit 12 of the image forming apparatus 10.
As described above, the color reproduction range of an image formed by the image forming apparatus 10 is reduced due to deterioration over time. At this time, the request information acquisition unit 215 acquires a balance between the color reproduction accuracy and the service life in order to adjust the color of the image formed by the image forming apparatus 10. Here, the service life is a period during which an image is formed in the image forming apparatus 10 without replacing members or consumables. Actually, the service life can be determined by the number of output pages from the image forming apparatus 10. That is, when emphasizing color reproduction accuracy, the service life must be shortened. On the other hand, if the service life is lengthened, the color reproduction accuracy is lowered. That is, the color reproduction accuracy and the useful life are in a trade-off relationship.

  In the present embodiment, the request information acquisition unit 215 acquires request information that is information on the degree of request from the user regarding how much of these are important. Actually, for example, five levels are provided between the color reproduction accuracy and the useful life, and the request information acquisition unit 215 acquires the request information when the user selects this level. More specifically, for example, “1” is set as this level when the color reproduction accuracy is most important, and “5” is set as this level when the lifetime is most important. Then, the user inputs a degree to which the color reproduction accuracy and the useful life are to be emphasized by selecting a numerical value between 1 and 5 as the level.

Further, since the color reproduction accuracy and the useful life are in a trade-off relationship, if one is determined, the other can also be determined. Therefore, the user may input one piece of information.
In this case, the color reproduction accuracy can be input as acceptable color difference information. For example, when the allowable color difference is “2”, the user inputs this numerical value, and the request information acquisition unit 215 acquires this as request information.
The useful life can be input as information on the number of available output pages. For example, when the number of available output pages is “10000”, the user inputs this numerical value, and the request information acquisition unit 215 acquires this as request information.

  In the above-described example, the case where the request information is input by the user has been described. However, a separate request information storage unit or the like may be provided in the color conversion table generating device 21 to store the predetermined request information. Good. In this case, the request information acquisition unit 215 acquires request information from the request information storage unit.

The color reproduction target generation unit 216 generates a color reproduction target of the image forming unit 12 of the image forming apparatus 10 based on the request information acquired by the request information acquisition unit 215.
This color reproduction target is a color reproduction characteristic after the color gamut is reduced due to deterioration over time based on the required information, and is expressed by, for example, a data group of L ^* a ^* b ^* to be reproduced by a plurality of different CMYKs. Can do. In this embodiment, the color gamut set as the color reproduction target is as follows.
When the color reproduction target is generated, the area that is reproduced using only two or less chromatic color materials used in the image forming unit 12 is not reduced. That is, among the above-described CMYK color materials, the color gamut is reduced for the color that uses K or the tertiary color that uses all CMY without using K, but uses K. Without reduction, the primary color or secondary color region that is reproduced using two or less CMY colors is not reduced.

FIGS. 5A to 5B and FIG. 6 are conceptual diagrams illustrating a method for reducing the color gamut in the present embodiment.
FIG. 5A is a conceptual diagram illustrating a method of reducing the color gamut when the horizontal axis is the C ^* axis that collectively represents CMY and the vertical axis is L ^* that represents lightness. At this time, the color gamut before the reduction is shown by a solid line, and has a substantially rhombus shape. At this time, the primary color or secondary color region is the location of the upper two sides in the rhombus. On the other hand, the region of the tertiary color or more is the region indicated by the hatched portion below the two sides. FIG. 5B is a diagram in which CMY axes are separated when FIG. 5A is viewed from the Vb direction. According to this figure, the C-axis, M-axis, and Y-axis are primary color regions. The shaded area other than on the C-axis, M-axis, and Y-axis is a secondary color area.

  The reduced color gamut is as shown by the dotted line in FIG. That is, since the primary color or secondary color region is not reduced, the color gamut is not reduced in the upper two portions in the drawing. On the other hand, in the tertiary color region other than the two sides, the lower two sides in the rhombus are lifted upward in the drawing, and the color gamut is reduced.

The color gamut is reduced in the lightness direction at a reduction ratio corresponding to the distance from the paper white. At this time converts the CMYK values to ^L * ^a * ^{b * values,} performs compression of the color gamut using the L ^* a * ^{b *} values.

  In addition, as the color gamut before reduction as a starting point, for example, standard color reproduction characteristics that are standard color reproduction characteristics of the image forming apparatus 10 created by the manufacturer of the image forming apparatus 10 or the like can be used. It can also be said that this is an average color gamut of the image forming apparatus 10 with no deterioration over time. The standard color reproduction characteristics are stored in the standard color reproduction characteristic storage unit 217, and the color reproduction target generation unit 216 acquires the standard color reproduction characteristics from the standard color reproduction characteristic storage unit 217.

FIG. 6 is a conceptual diagram illustrating a method for reducing the color gamut in this embodiment.
FIG. 6 shows how the three points exemplified by P ₁ , P ₂ , and P ₃ move when the color gamut is reduced.
In FIG. 6, the rhombus indicated by the dotted line represents the standard color reproduction characteristics, and the rhombus indicated by the solid line represents the reduced color gamut. Note that the two upper sides of the two rhombuses coincide.

First, P ₁ (C ₁ , M ₁ , Y ₁ , K ₁ ), P ₂ (C ₂ , M ₂ , Y ₂ , K ₂ ), P ₃ (C ₃ , M ₃ , Y ₃ , K ₃ ), Convert to P ₁ (L ₁ ^* , a ₁ ^* , b ₁ ^* ), P ₂ (L ₂ ^* , a ₂ ^* , b ₂ ^* ), P ₃ (L ₃ ^* , a ₃ ^* , b ₃ ^* ) . Then, these P ₁ , P ₂ , and P ₃ are directed to W (L _W ^* , a _W ^* , b _W ^* ), which are the color values of the paper white, and P ₁ ′ (L ₁ ′ ^* , a ₁ ′), respectively. ^{_{*, b 1 '*),}} P 2' (L 2 '*, a 2' *, b 2 '*), P 3' (L 3 '*, a 3' *, moves to _{b 3} ^'*) . As a result, the color gamut is reduced. These P ₁ ′, P ₂ ′, P ₃ ′, etc. are the color reproduction targets.

Position at this time W is intact, for example, a point between the W and P _1, the reduction ratio increases depending on the distance between W. As a result, the distance traveled also increases.
More specifically, the reduction ratio is the maximum reduction ratio R in the darkest part of the standard color reproduction characteristics, and the reduction ratio in the primary color or the secondary color is zero. The reduction ratios of other colors are monotonously changed in the range of [0, R] according to the distance from W.

Instead of using the standard color reproduction characteristics, the average of the color gamuts of a plurality of image forming apparatuses 10 existing in the same area may be used and used as a starting point. In this case, it is possible to perform color adjustment unified by a plurality of image forming apparatuses 10 existing in the same area, and the accuracy of calibration can be improved.
A more detailed form of the color reproduction target generation unit 216 will be described later.

  The color conversion table creation unit 218 is an example of a conversion relationship creation unit. The color conversion table creation unit 218 is used in the image forming apparatus 10 to perform color adjustment corresponding to the color reproduction target based on the color data acquired by the color data acquisition unit 214 and target color reproduction characteristic data described later. Create a color conversion table (conversion relation).

<Description of Color Reproduction Target Generation Unit>
Next, the color reproduction target generation unit 216 will be described in more detail.
FIG. 7 is a diagram for explaining an example functional configuration of the color reproduction target generation unit 216.
As illustrated, the color reproduction target generation unit 216 includes a reduction ratio calculation unit 216a, a level conversion table storage unit 216b, and a target color reproduction characteristic generation unit 216c.

The reduction ratio calculation unit 216a calculates a reduction ratio that is a ratio of reducing the color gamut from the request information in order to reduce the color gamut.
When the request information acquisition unit 215 acquires an allowable color difference as the request information, the reduction ratio calculation unit 216a extracts a sample point from the standard color reproduction characteristics acquired from the standard color reproduction characteristic storage unit 217. The sample points are, for example, P ₁ , P ₂ , P ₃ in FIG. Then, the sample point is moved in the paper white direction in accordance with an allowable color difference. The sample points after the movement are, for example, P ₁ ′, P ₂ ′, and P ₃ ′ in FIG. Then, the reduction ratio is calculated from the chromaticity values before and after the movement. Actually, an LUT in which the L ^* a ^* b ^* value is associated with the reduction ratio according to the color difference is prepared in the level conversion table storage unit 216b, and the reduction ratio is calculated using this LUT.

  When the request information acquisition unit 215 acquires the number of usable output pages as request information, the reduction rate calculation unit 216a calculates a reduction rate corresponding to this. Actually, an LUT that associates the number of output pages that can be used with the reduction ratio is prepared in the level conversion table storage unit 216b, and the reduction ratio is calculated using this LUT.

  Further, when the request information acquisition unit 215 acquires the request information at a level indicating how much importance is given to the color reproduction accuracy and the useful life, the reduction rate calculation unit 216a calculates the reduction rate calculated based on both. Calculate the reduction ratio to be used as a weighted average.

The target color reproduction characteristic generation unit 216c applies the reduction ratio calculated by the reduction ratio calculation unit 216a to the standard color reproduction characteristics. Thereby, a color reproduction target is calculated. The target color reproduction characteristic generation unit 216c outputs target color reproduction characteristic data in which the CMYK values are associated with the L ^* a ^* b ^* values after color gamut reduction. Specifically, in the example of FIG. 6, (C ₁ , M ₁ , Y ₁ , K ₁ ) → (L ₁ ′ ^* , a ₁ ′ ^* , b ₁ ′ ^* ), (C ₂ , M ₂ , Y _{2, K 2) → (L} 2 '*, a 2' *, b 2 '*), (C 3, M 3, Y 3, K 3) → (L 3' *, a 3 '*, b 3 ' ^* )

<Description of Operation of Color Conversion Table Generation Device>
FIG. 8 is a flowchart for explaining the operation of the color conversion table generating device 21.
Hereinafter, the operation of the color conversion table generation device 21 will be described with reference to FIGS. 4 and 8.
First, the image selection unit 211 selects a colorimetric image (step 101).
Next, the image selection unit 211 acquires the image data of the corresponding color measurement image from the image data storage unit 212 (step 102).

Next, the image data transmission unit 213 transmits the image data of the colorimetric image selected by the image selection unit 211 to the image forming apparatus 10 (step 103).
The image forming apparatus 10 forms an image on a sheet P based on the image data of the colorimetric image and outputs the image. Color data of the image formed on the paper P is acquired by the image reading device 22. Further, the acquired color data is transmitted to the color conversion table generation device 21.

  In the color conversion table generation device 21, the color data acquisition unit 214 acquires the transmitted color data (step 104).

  On the other hand, the request information acquisition unit 215 acquires request information including information on the color reproduction accuracy and the service life required for the image forming unit 12 of the image forming apparatus 10 (step 105).

  Then, the reduction rate calculation unit 216a of the color reproduction target generation unit 216 refers to the level conversion table storage unit 216b and calculates the reduction rate from the request information (step 106).

  Next, the target color reproduction characteristic generation unit 216c of the color reproduction target generation unit 216 acquires the standard color reproduction characteristic from the standard color reproduction characteristic storage unit 217 (step 107).

Further, the target color reproduction characteristic generation unit 216c applies the reduction ratio to the standard color reproduction characteristic and calculates a color reproduction target (step 108). Thereby, the color gamut reduction as described in FIGS. 5 and 6 is performed, and the L ^* a ^* b ^* value after the color gamut reduction with respect to the CMYK value can be calculated.

Further, the target color reproduction characteristic generation unit 216c outputs target color reproduction characteristic data in which the CMYK value and the L ^* a ^* b ^* value after color gamut reduction are associated with each other (step 109).

  Then, the color conversion table creation unit 218 creates a color conversion table based on the color data acquired by the color data acquisition unit 214 and the target color reproduction characteristic data (step 110).

According to the color conversion table generation device 21 described in detail above, by adopting a configuration for acquiring information relating to color reproduction accuracy and lifetime as request information, it is possible to create a color conversion table that meets the user's request, The image forming apparatus 10 can perform color conversion according to the user's request. In addition, by specifying the request information as information regarding the color reproduction accuracy and the service life, the user can specify more easily.
Further, according to the above-described embodiment, the color gamut is reduced for the color using K or the tertiary color or more that uses all CMY colors without K, but there are two types of CMY colors. No reduction is performed for the primary color or secondary color area that will be reproduced in the following. As a result, a color target can be generated in accordance with the reduction of the color gamut that occurs according to deterioration with time and the like, and processing can be performed at higher speed.
According to the above-described embodiment, the reduction ratio corresponding to the color reproduction accuracy and the service life is obtained for the reduction of the color gamut, thereby generating the color target. This makes it possible to perform unified processing regardless of whether the required information is set for either color reproduction accuracy or lifetime.

<Functional Configuration Example of Control Unit of Image Forming Apparatus>
FIG. 9 is a block diagram illustrating a signal processing system in the control unit 11 of the image forming apparatus 10.
The control unit 11 receives an image data acquisition unit 111 that acquires image data (print data) created to output an image by the image forming unit 12, and receives a print data. Page Description Language (PDL) PDL generation unit 112 for converting to CDL, rasterize unit 113 for generating a raster image from the PDL generated by PDL generation unit 112, and CMYK data C′M ′ for correcting color variation due to deterioration over time A color conversion processing unit 114 for converting to Y′K ′ data, a color conversion table storage unit 115 for storing a color conversion table, a raster image adjustment unit 116 for adjusting a raster image converted by the color conversion processing unit 114, The halftone processing unit 117 that performs halftone processing and the print data that has undergone color conversion processing are output to the image forming unit 12 And an image data output unit 118.

In the present embodiment, first, the image data acquisition unit 111 receives print data from an external PC or the like. This print data is image data that the user using the PC wants to print using the image forming apparatus 10.
The print data is sent to the PDL generation unit 112, which converts the print data into code data described in PDL and outputs the code data.

  The rasterizing unit 113 converts the code data described in PDL output from the PDL generating unit 112 into raster data for each pixel, and forms a raster image. Then, the rasterizing unit 113 outputs the converted raster data as CMYK (cyan, magenta, yellow, black) video data (CMYK video data). At this time, the rasterizing unit 113 outputs CMYK data for each page.

  The color conversion processing unit 114 converts the CMYK data input from the rasterization unit 113 into C′M′Y′K ′ for output in a color defined as a color reproduction target, and outputs the C′M′Y′K ′. In addition, the color conversion processing unit 114 performs color conversion processing using the color conversion table read from the color conversion table storage unit 115 that stores the color conversion table sent from the color conversion table generation device 21 at this time.

  The raster image adjustment unit 116 performs γ conversion, definition processing, halftone processing, and the like on the CMYK data input from the color conversion processing unit 114 so that a better image quality can be obtained by the image forming unit 32. Make various adjustments.

  The halftone processing unit 117 performs halftone processing on the print data by dither mask processing using a dither mask having a predetermined threshold arrangement in the main scanning direction and the sub-scanning direction. As a result, the print data is represented, for example, from binary data to binary data.

  The image data output unit 118 outputs image data subjected to image processing such as color conversion processing to the image forming unit 12.

  In the example described in detail above, the case where the color adjustment of the image forming apparatus 10 is performed has been described. However, the present invention is not limited to this, and the present invention can be used even when the color adjustment of another color device is performed. For example, it can also be used when creating a color conversion table for color adjustment of an image display device such as a monitor. In this case, a color device such as an image display device is the color adjustment device.

  In the example described in detail above, the image forming apparatus 10 and the color conversion table generating apparatus 21 are described as separate apparatuses. However, the function of the color conversion table generating apparatus 21 is incorporated in, for example, the control unit 11 of the image forming apparatus 10. You may put together as the same apparatus. Therefore, the control unit 11 and the color conversion table generating device 21 can also be regarded as a color adjustment system.

<Example of Hardware Configuration of Color Conversion Table Generation Device>
Next, the hardware configuration of the color conversion table generation device 21 will be described.
FIG. 10 is a diagram illustrating a hardware configuration of the color conversion table generation device 21.
The color conversion table generating device 21 can be realized by a personal computer or the like as described above. As shown in the figure, the color conversion table generating apparatus 21 includes a CPU (Central Processing Unit) 41 that is a calculation means, a main memory 42 that is a storage means, and an HDD (Hard Disk Drive) 43. Here, the CPU 41 executes various programs such as an OS (Operating System) and application software. The main memory 42 is a storage area for storing various programs and data used for execution thereof, and the HDD 43 is a storage area for storing input data for various programs, output data from various programs, and the like.

  Further, the color conversion table generating apparatus 21 includes a communication interface (hereinafter referred to as “communication I / F”) 44 for performing communication with the outside, a video memory, a display, and the like, and a monitor 45 that displays an image. And an input device 46 such as a keyboard and a mouse.

<Description of the program>
The processing performed by the color conversion table generation device 21 in the present embodiment described above is performed by a program that implements each function of the color conversion table generation device 21, for example. That is, the CPU 41 of the color conversion table generating device 21 shown in FIG. 10 loads the application software stored in the HDD 43 to the main memory 42 and executes the application software. The functions of the information acquisition unit 215, the color reproduction target generation unit 216, and the color conversion table creation unit 218 are realized. In addition, the functions of the image data storage unit 212 and the standard color reproduction characteristic storage unit 217 can be realized by the HDD 43, and the functions of the image data transmission unit 213 and the color data acquisition unit 214 can be realized by the communication I / F 44. it can.

  Therefore, the processing performed by the color conversion table generating device 21 is based on the function of acquiring request information including information on the color reproduction accuracy and the service life required for the color adjustment device and the acquired request information. As a program that realizes a function for generating a color reproduction target of the color adjustment device and a function for creating a conversion relationship used in the color adjustment device in order to perform color adjustment corresponding to the generated color reproduction target It can also be captured.

  The program for realizing the present embodiment can be provided not only by communication means but also by storing it in a recording medium such as a CD-ROM.

  Although the present embodiment has been described above, the technical scope of the present invention is not limited to the scope described in the above embodiment. It is clear from the description of the scope of the claims that various modifications or improvements added to the above embodiment are also included in the technical scope of the present invention.

DESCRIPTION OF SYMBOLS 10 ... Image forming apparatus, 11 ... Control part, 12 ... Image forming part, 20 ... Color setting system, 21 ... Color conversion table production | generation apparatus, 22 ... Image reading apparatus, 211 ... Image selection part, 212 ... Image data storage part, 213: Image data transmission unit, 214: Color data acquisition unit, 215 ... Request information acquisition unit, 216 ... Color reproduction target generation unit, 216a ... Reduction rate calculation unit, 216b ... Level conversion table storage unit, 216c ... Target color reproduction characteristics Generation unit, 217 ... standard color reproduction characteristic storage unit, 218 ... color conversion table creation unit

Claims (6)

A request information acquisition unit that acquires request information including information on color reproduction accuracy and lifetime required for the color adjustment device;
Based on the request information acquired by the request information acquisition unit, a color reproduction target generation unit that generates a color reproduction target of the color adjustment device;
A conversion relationship creating unit that creates a conversion relationship used in the color adjustment device to perform color adjustment corresponding to the color reproduction target generated by the color reproduction target generation unit;
A color processing apparatus comprising:   The color reproduction target generation unit generates a color reproduction target that reduces the color gamut of an image output from the color adjustment device, and the color gamut is a color used in the color adjustment device. Areas that are reproduced using three or more types of materials are reduced, but areas that are reproduced using two or less types of color materials used in the color adjustment device are not reduced. The color processing apparatus according to claim 1.   The said color reproduction target production | generation part is provided with the reduction rate calculation part which calculates the reduction rate which is a ratio which reduces the color gamut from the said request information, in order to reduce a color gamut. Color processing device.   The color processing apparatus according to claim 2, wherein the color reproduction target generation unit generates the color reproduction target with an average of color gamuts of the plurality of color adjustment devices as a starting point. Color conversion means for performing color conversion processing on a color signal created for outputting an image by the color adjustment device using a predetermined conversion relationship and outputting the color signal to the color adjustment device;
Conversion relation creating means for creating the conversion relation used in the color conversion means for performing color adjustment of an image output by the color adjustment device;
With
The conversion relationship creating means includes:
A request information acquisition unit for acquiring request information including information on color reproduction accuracy and lifetime required for the color adjustment device;
Based on the request information acquired by the request information acquisition unit, a color reproduction target generation unit that generates a color reproduction target of the color adjustment device;
A conversion relationship creating unit that creates a conversion relationship used in the color adjustment device to perform color adjustment corresponding to the color reproduction target generated by the color reproduction target generation unit;
A color adjustment system comprising: On the computer,
A function for obtaining request information including information on color reproduction accuracy and lifetime required for the color adjustment device;
A function of generating a color reproduction target of the color adjustment device based on the acquired request information;
A function of creating a conversion relationship used in the color adjustment device to perform color adjustment corresponding to the generated color reproduction target;
A program that realizes

Images