JP2001036762A - Device and method for preparing color correction definition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain color correction definition preparing method and device capable of preparing color correction definition for reproducing color correction based on the know-how of operator's or maker's. SOLUTION: Whether the coordinate values Lab (RV) of an uncorrected color are coordinate values in a specific region or not is decided, and at the time of obtaining a decided result indicating that the coordinate values are in the specific region, the coordinate values of a stored color is used instead of the coordinate values La(print) of the corrected color expressed by know-how 50 extracted through estimation. Consequently color correction definition for reproducing color correction based on operator's know-how or the like can be prepared.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a color correction definition creating method and a color correction definition creating apparatus for creating a color correction definition for defining a color correction of an image.

[0002]

2. Description of the Related Art In the field of printing and photography, when an image of a reversal film on which an image is recorded is transferred to printing paper or photographic paper to create a printed matter or photograph, an operator performs color correction to make a print. Often, high-quality images having a pleasing hue are produced as printed matter or photographs.

Conventionally, such high-quality images are created by specifying a system for creating printed matter and photographs and optimizing the system based on the experience of the operator of the system.

For example, in the case of printing, an image on a reversal film is read by a scanner, image data from the scanner is corrected, and the image is printed on printing paper with printing ink in accordance with the corrected image data. An image with the preferred shade has been created. At this time,
The correction parameters for correcting the image data from the scanner are optimized based on the know-how obtained from the experience of the scanner operator while taking into account the properties of the entire system including printing paper and printing ink. In other words, the scanner operator has the know-how for making an image having a preferable color tone from the image of the reversal film. Here, even if the scanner operator obtains an image having a preferable hue by optimizing the correction parameters for a combination of a certain film and a certain printing ink, the film or the printing ink may be changed to another film or another printing ink. When the printing ink is replaced with the above, the correction parameter becomes inappropriate, and the correction parameter needs to be optimized again.

In the case of a photograph, a reversal film is loaded into a lab system, and the loaded reversal film is irradiated with light adjusted for exposure, so that an image whose color is corrected is obtained. The printed image is printed on photographic paper to create an image having a preferable color tone. At this time, the R light G light B of the exposure light
The light balance, exposure time, and the like are optimized by the operator of the laboratory system or the automatic adjustment mechanism of the laboratory system, while taking into consideration the properties of the entire system including the film, the light source, and the photographic paper. Also, as for the combination of the film type and the photographic paper type, an optimal combination is selected so as to obtain an image having a preferable color tone. That is,
The know-how of picture making for producing an image having a preferable hue is owned by the lab system operator, the lab system maker, the film maker, and the like. Here, even if the exposure time and the like are optimized for a combination of a certain film and a certain photographic paper, for example, when a newly developed film or the like is used, the combination of the film and the photographic paper, the exposure time, etc. are inappropriate. And it is necessary to optimize the exposure time and the like again.

As described above, in both the case of printing and the case of photography, when a film or the like is replaced by the development of a new product or the like, there is a problem that optimization must be performed again in order to produce an image having a preferable color tone.

[0007] Further, with the advance of digital technology in recent years, the exchange of images between different industries and media is increasing. For example, in the case where an image of a printed matter is put on a homepage or the like of the Internet instead of distributing the printed matter, the image of the printed matter is converted into a television image which was not so related to the printing industry. . In addition, for example, one shot of an image captured by a video of the process is being output to a printer of a personal computer or photographic printing paper. When such exchange of images is performed, it is desirable that a high-quality image having the above-described preferable color tone be obtained at a destination where the image is transferred, but conventionally, the know-how as described above is However, it can be used only in each industry such as the printing industry and the photography industry, and there is a problem that know-how cannot be utilized in another industry.

[0008]

As a method of extracting color correction know-how from a lab system or a printing system in order to solve the above-mentioned problems, a color chart composed of a series of single-color patches is read into a system having the know-how. Or input digital chart data consisting of a series of patch data representing a series of colors, and obtain color charts and digital chart data after the color charts and digital chart data have been corrected based on know-how to correct colors. A method of extracting the correspondence between the front and rear colors can be considered. Then, when actually extracting know-how by such a method, it is necessary to limit the number of patches of the color chart and the number of patch data constituting the digital chart data to a certain number as described above. . For this reason, for colors not included in the color chart, it is necessary to estimate color correction know-how by interpolation or the like.

However, in general, color correction based on the know-how of an operator or a maker is a complicated correction based on an extremely large number of correction parameters. Is not expected to be able to reproduce color correction to a desirable hue.

In view of the above circumstances, it is an object of the present invention to provide a color correction definition creating method and a color correction definition creating apparatus capable of creating a color correction definition for reproducing color correction based on know-how of an operator or a manufacturer. I do.

[0011]

According to the present invention, there is provided a color correction definition creating method for achieving the above object, which is performed before and after color correction between an original image and a corrected image obtained by performing color correction on the original image. In the color correction definition creation method of creating a color correction definition that defines the correspondence between coordinate values in the color space corresponding to the color of the original image, the original coordinate value of the color space corresponding to the color of the original image and the color of the corrected image An acquisition process of acquiring the corrected coordinate values of the corresponding color space, and, for one of the original coordinate values or the modified coordinate values acquired in the acquisition process, coordinates of the original coordinate values or the modified coordinate values in a specific area on the color space A determination process of determining whether or not the original coordinate value or the corrected coordinate value to be determined is a coordinate value within a specific area in the determination process. The coordinate values are associated with predetermined coordinate values, and If it is determined in the process that the original coordinate value or the corrected coordinate value to be determined is a coordinate value outside the specific area, the original coordinate value obtained in the above-described process and the corrected coordinate value obtained in the obtaining process are used. And an associating process.

In the color correction definition creating method according to the present invention, the specific area may be a flesh color area in a color space, or the specific area may be an achromatic color area in a color space.

For a specific area represented by a flesh color area or an achromatic color area in a color space, know-how of color correction to a preferable color represented by a "beautiful" flesh color or a "pure" achromatic color. Is difficult to extract using a color chart. However, on the other hand, the coordinate values corresponding to the preferred colors are known by experience, theory, and the like.

In the color correction definition creating method according to the present invention, the coordinate values in the specific area are associated with predetermined coordinate values corresponding to a preferred color. As a result, a color correction definition that reproduces a color correction to a preferable color can be created.

In the color correction definition creating method according to the present invention, the associating step may use a predetermined coordinate value as the predetermined coordinate value when associating the original coordinate value with the predetermined coordinate value. For example, for a skin color area, the stored coordinate values of “beautiful” skin color may be used as predetermined coordinate values.

Further, in the color correction definition creating method according to the present invention, in the associating step, when the original coordinate value is associated with the predetermined coordinate value, the corrected coordinate value obtained in the obtaining step is corrected by a predetermined algorithm. May be used as a predetermined coordinate value. For example, in the case of an achromatic region, a correction is performed by correcting the saturation component of the corrected coordinate value to “0”. The coordinate value may be used as a predetermined coordinate value.

In the color correction definition creating method according to the present invention, the associating step uses the original coordinate values themselves as the predetermined coordinate values when associating the original coordinate values with the predetermined coordinate values. For example, as for the color of the product in the catalog photograph, the original coordinate value itself corresponding to the color of the product shown in the document may be used as the predetermined coordinate value.

Further, the color correction definition creating method of the present invention
The obtaining step obtains an initial color correction definition that defines a correspondence between coordinate values in a color space corresponding to colors before and after color correction between the original image and the corrected image, and the initial color correction definition. The original coordinate value and the corrected coordinate value may be obtained from the above.

Thus, the color correction definition once created by another color correction definition creating method can be corrected.

Still further, in the color correction definition creating method according to the present invention, the obtaining step includes a step of:
A predetermined number is acquired as equivalent to the actual color before and after the color correction actually performed, and includes an estimation step of estimating one or more sets by using the sets acquired in the acquisition step. For the set estimated in the estimating step, whether the original coordinate value or the corrected coordinate value is a coordinate value in a specific area on the color space for one of the original coordinate value or the corrected coordinate value of the set. The association step is to associate the original coordinate values and the corrected coordinate values of each set acquired in the acquisition step with each other, and are estimated in the estimation step. If the original coordinate value or the modified coordinate value to be determined is determined to be a coordinate value in the specific area in the determination process for the set of coordinate values, the original coordinate value estimated in the estimation process and the predetermined coordinate Value and When it is determined that the original coordinate value or the corrected coordinate value of the determination target is a coordinate value outside the specific area, the original coordinate value estimated in the estimation process and the corrected coordinate value estimated in the estimation process are determined. It may be associated,
Alternatively, the acquiring step is to acquire a predetermined number of sets of the original coordinate values and the corrected coordinate values as equivalent to the actual colors before and after the actually performed color correction. An estimating step of estimating one or more sets by using the set obtained by the above-mentioned set, and the above-mentioned determination step is also performed on the set estimated in the estimating process, by using the original coordinate values for one of the original coordinate values or the corrected coordinate values of the set. Alternatively, it is determined whether or not the corrected coordinate value is a coordinate value in a specific area in the color space, and the associating step determines in the determining step the set of coordinate values estimated in the estimating step. When it is determined that the target original coordinate value or the corrected coordinate value is a coordinate value in a specific area, the original coordinate value estimated in the estimation process is associated with a predetermined coordinate value, and the determination target is determined in the determination process. Original coordinate value or modified coordinate value of If it is determined that the coordinate value is out of the range, the original coordinate value estimated in the estimation process is associated with the corrected coordinate value estimated in the estimation process, and the coordinate value acquired in the acquisition process is For a set, the original coordinate value or the corrected coordinate value to be determined is determined to be a coordinate value in a specific area in the determination process, and the set estimated using the coordinate values of the set is also determined in the determination process. When it is determined that the target original coordinate value or the corrected coordinate value is a coordinate value in the specific area, the original coordinate value obtained in the obtaining process may be associated with a predetermined coordinate value.

The set of the original coordinate values and the corrected coordinate values corresponding to the actual colors as described above faithfully represents the know-how possessed by the above-described operator and the like. Therefore, for the color correction represented by such a pair of the original coordinate value and the corrected coordinate value,
It is better not to make corrections as much as possible.

A color correction definition creating apparatus according to the present invention that achieves the above object, corresponds to colors before and after color correction between an original image and a corrected image obtained by performing color correction on the original image. In a color correction definition creating apparatus for creating a color correction definition that defines a correspondence between coordinate values in a color space, an original coordinate value of a color space corresponding to a color of an original image and a color space corresponding to a color of a corrected image Acquiring means for acquiring coordinate values, and for one of the original coordinate values or the modified coordinate values acquired by the acquiring means, whether or not the original coordinate values or the modified coordinate values are coordinate values in a specific area in a color space; Determining means for determining whether the original coordinate value or the corrected coordinate value to be determined is a coordinate value in the specific area, and determining the original coordinate value obtained by the obtaining means and a predetermined coordinate Associating with a value When it is determined that the original coordinate value or the corrected coordinate value is a coordinate value outside the specific area, an associating unit that associates the original coordinate value obtained by the obtaining unit with the corrected coordinate value obtained by the obtaining unit. It is characterized by including.

The color correction definition creating apparatus of the present invention shows only the basic form here.
This is merely to avoid duplication, and the color correction definition creating apparatus of the present invention includes not only the color correction definition creating apparatus of the above-described basic form but also various types of color correction definition creating methods corresponding to the respective forms of the above-described color correction definition creating method. A form color correction definition creation device is included.

[0024]

Embodiments of the present invention will be described below.

FIG. 1 is a diagram showing a color correction method on which the embodiment of the color correction definition creating method of the present invention is applied.

This color correction method is a method of extracting the know-how for making a picture possessed by the operator of the scanner 10 and correcting the color using the extracted know-how.

In this color correction method, first, the scanner 10
Thus, the general image 21 and the color chart 22 appearing on the reversal film 20 of the type “RV film A” are scanned, and RGB data is output from the scanner 10. Then, the operator of the scanner 10
Based on the hue of the general image 21 shown in the reversal film 20, the RGB data is manipulated with know-how acquired through experience, and the printing halftone% CMY corresponding to the preferable hue is obtained.
Generate K. At this time, the RGB data corresponding to each patch 22a constituting the color chart 22 is also operated by know-how, and the printing halftone CM corresponding to each patch 22a is operated.
YK is generated. Then, the print half% CMYK corresponding to each patch 22a is acquired.

The printing halftone% CMYK generated by manipulating the RGB data representing the color of the image with know-how is input to the printing machine 30 and printed, so that the printed matter 31 is printed.
An image in which the color of the general image 21 is corrected to a preferable color is printed.

Next, the color of each patch 22a constituting the color chart 22 shown in the reversal film 20 is measured to obtain a CIELAB value L ^* a ^* b ^* . This C
The IELAB value L ^* a ^* b ^* is simply abbreviated as Lab below. The CIELAB value L ^* a ^* b ^* is C
This corresponds to a coordinate value in the IELAB color space.

Thereafter, the coordinate value Lab (RV) obtained for each patch 22a constituting the color chart 22 and the printing dot% C
Based on the combination with MYK, the coordinate value Lab (RV) corresponding to the color on the reversal film 20 is converted to the printing net% CMYK.
Is obtained. This know-how 40
This corresponds to the extraction of the know-how of picture creation by the operator of the scanner 10, but is a know-how in a form depending on the printing conditions. Therefore, know-how 40 for converting the coordinate value Lab (RV) corresponding to the color on the reversal film 20 into the printing dot% CMYK, and the coordinate value Lab (printing) corresponding to the printing dot% CMYK corresponding to the color of the image on the print. Is converted into a coordinate value Lab corresponding to the color on the reversal film 20.
(RV) is converted into a coordinate value Lab (printing) corresponding to a color on a printed matter, know-how 5 in a form independent of printing conditions.
Get 0. Here, the printing device characteristic conversion 41 converts the printing net% into 0%, 10%, 20%,
.., The printing machine 30 changed to 100%
And prints a color corresponding to each printing dot% on the printed matter 31 and measures the colors on the printed matter 31 to obtain the color.

The know-how 50 obtained in a manner independent of printing conditions converts coordinate values Lab (RV) in the color gamut of the reversal film 20 into coordinate values Lab (print) in the color gamut of the printing machine 30. Is what you do. For this reason, using this know-how 50 to correct the color of an image taken by a digital still camera or an image created on a CRT display, for example, the color gamut of the CRT display or the like and the reversal film 20 or the like Due to the difference between the color gamut and the color gamut, there is a possibility that inconvenience such that the know-how of color correction is not reproduced.

Therefore, here, gamut mapping conversion for converting coordinate values in one color gamut (gamut) to coordinate values in another color gamut (gamut) while maintaining the color impression of the image. Is combined with the know-how 50 to avoid inconvenience due to the difference in color gamut. The gamut mapping conversion is a reversible conversion and a conversion for associating the entire two color reproduction ranges with each other. This gamut mapping conversion can be defined by a gamut conversion definition in the LUT format.

As described above, the know-how 50 obtained in a form independent of printing conditions converts coordinate values Lab (PCS) in the standard color reproduction area PCS to coordinate values Lab (RV) in the color reproduction area of the reversal film. The gamut mapping conversion 51 and the coordinate values Lab (print) in the color gamut of printing are converted to the coordinate values Lab (PC) in the standard color gamut PCS.
S) is combined with the gamut mapping conversion 52 for conversion to S). Accordingly, a color correction conversion for converting the coordinate values before the color correction into the coordinate values after the color correction in the standard color gamut PCS, which does not depend on the color gamut of the reversal film 20 or the printing press 30, is provided. The know-how 60 can be obtained. Then, a lookup table (Lo) composed of a set of sets of coordinate values before and after the color correction conversion corresponding to the obtained know-how 60 is obtained.
ok Up Table (LUT) 60 is created and incorporated into the computer system 70. This LUT 60 is
This is an example of the color correction definition according to the present invention, and corresponds to the one in which the know-how of the operator of the scanner 10 is extracted in a manner that does not depend on the color development characteristics or the color reproduction range of the reversal film 20 or the printing press 30. The color correction definition according to the present invention is not limited to a format as long as it defines a conversion corresponding to know-how, and may be, for example, a function expression or a matrix in addition to the LUT. Hereinafter, a description will be given assuming that know-how is extracted in the form of an LUT.

After the LUT 60 is installed in the computer system 70, input media data obtained by reading an image on an input medium such as a reversal film or a reflection print (for example, a photograph) by a scanner 81, or a digital still camera 82, input media data representing the color of the image captured by
Input media data and the like representing the color of the image created and edited on the RT display 83 are input to the computer system. Here, the format of the input media data is C
Although MY data and RGB data are conceivable, it is assumed here that RGB data is input.

After that, first, based on the input characteristics indicating the relationship between the color of the image on the input medium and the RGB data for the input device according to the input devices 81, 82, 83 corresponding to the input RGB data. The RGB data defined by the input media characteristic conversion definition 61 is
An input media characteristic conversion for converting into a coordinate value Lab (Input) in the CIELAB color space corresponding to the color of the image on the input medium is performed. Then, the gamut mapping conversion for converting the coordinate values Lab (Input) in the color gamut of the input devices 81, 82, 83 defined by the gamut conversion definition 62 into the coordinate values Lab (PCS) in the standard color gamut PCS. I do.

Next, the coordinate value Lab in the standard color gamut PCS is obtained by the color correction conversion represented by the LUT 60 described above.
(PCS) is converted into a coordinate value Lab (PCS) corresponding to a preferable color tone in the standard color reproduction area PCS.

Thereafter, the coordinate value Lab (P) in the standard color gamut PCS defined by the gamut conversion definition 63.
CS), for example, coordinate values Lab (Output) in the color reproduction range of an output device 90 such as a digital printer that outputs an image to an output medium 91 such as photographic paper.
Perform gamut mapping conversion to convert to. Then, finally, the coordinate values Lab (Output) obtained by the gamut mapping conversion defined by the gamut conversion definition 63.
t) is defined as an output media characteristic conversion definition 64 based on output characteristics representing the relationship between the RGB data for the output device 90 and the color output by the output device 90 on the output medium 91.
Is converted into RGB data for the output device 90 and output. Here, as the output medium 91, in addition to photographic paper, a printed matter, a CRT display, a reversal film, or the like can be considered.

When the RGB data thus output is input to the output device 90, an image having a preferable color tone is created on the output medium 91. The color correction for obtaining an image having such a preferable hue is reproduced regardless of the input characteristics of the input devices 81, 82, and 83 and the output characteristics of the output device 90. That is, a general-purpose color correction system that does not depend on an input device or an output device can be realized.

When extracting the know-how 40 for converting the coordinate value Lab (RV) corresponding to the color on the reversal film 20 into the printing halftone% CMYK, the color chart 22 is used as described above. The realistic number of the patches 22a constituting the chart 22 is about several hundreds. On the other hand, the LUT 60 incorporated in the computer system 70 and used for color correction
, About tens of thousands of sets of coordinate values before and after the color correction conversion are required. Therefore, when the know-how 40 is extracted, the coordinate values Lab (RV) corresponding to the colors not included in the color chart 22 and the printing dot% C
MYK is estimated by interpolation from coordinate values or the like corresponding to the color of the patch 22a to extract the know-how 40,
Alternatively, an LUT incorporated in the computer system 70
At the time of creating the LUT 60, a set of coordinate values corresponding to colors not included in the color chart 22 is estimated by interpolation using a set of coordinate values corresponding to colors before and after the color correction of the patch 22 a, and the LUT 60 is created. It is necessary to create Hereinafter, a description will be given assuming that estimation is performed at the time of extracting the know-how 40.

Since the color correction based on the know-how of the operator is a complicated color correction using several tens to several hundreds of parameters, it is created based on the know-how 40 extracted using the estimated coordinate values and the like. The LUT 60 incorporated in the system 70 may not be able to sufficiently reproduce the color correction based on the know-how of the operator. For example, for a flesh color or an achromatic color (gray), the operator corrects a color in a flesh color region to a “beautiful” flesh color, and maintains an achromatic color for a color in an achromatic region. Although the image should have been subjected to color correction, the skin color and achromatic color have a subtle hue, so the color correction is also a subtle correction.
In the case of 60, there is a high possibility that the color correction based on the know-how of the operator cannot be reproduced.

Therefore, as described below, the color correction definition creating method of the present invention is applied.

FIG. 2 is a diagram showing a first embodiment of a color correction definition creating method according to the present invention.

The first embodiment is applied in place of the process of creating the LUT 60 shown in FIG. 1 in the above-described color correction method, and a person in a color space generally recognizes that the color is a flesh color. A color region or a region that is empirically known as a color region generally recognized by humans as an achromatic color is set as a specific region, and know-how is corrected in the specific region.

In the first embodiment, first, the know-how 40 for converting the coordinate value Lab (RV) corresponding to the color on the reversal film into the print dot% CMYK is extracted by estimating the coordinate value and the like as described above. I do. Then, the extracted know-how 40 is combined with the printing device characteristic conversion 41 for converting the printing halftone CMYK into a coordinate value Lab (printing) corresponding to the color of the image on the print. As a result, know-how 50 that does not depend on printing conditions is obtained, in which coordinate values Lab (RV) corresponding to colors on the reversal film are converted into coordinate values Lab (printing) corresponding to colors on the printed matter. The know-how 50 includes a coordinate value Lab (RV), which is an example of the original coordinate value according to the present invention, which corresponds to the color before the color correction, and a corrected coordinate value, which corresponds to the color after the color correction, according to the present invention. It is conceived as a set of sets with coordinate values Lab (printing) as an example.

Next, for each set of coordinate values constituting the obtained know-how, the coordinate values Lab (R
A determination 100 is made as to whether or not V) is a coordinate value in the specific area. According to the color correction definition creating method of the present invention, instead of the determination 100, the coordinate value Lab (print) of the color after color correction is used.
May be determined as to whether or not is a coordinate value in the specific area. In the following, the coordinate value Lab of the color before the color correction is considered.
The description will be made assuming that the determination regarding (RV) is performed.

In the determination 100, the coordinate value Lab (RV)
Is a coordinate value in the specific area, the coordinate value Lab (printing) of the color-corrected color of the set is obtained.
Is changed to a coordinate value corresponding to a memory color such as “beautiful” skin color or “pure” gray. Here, the coordinate value corresponding to the “beautiful” skin color can be obtained by, for example, measuring the color of an image having a preferable tint created based on the know-how of the operator,
Coordinate values corresponding to “pure” achromatic colors can be obtained theoretically, for example.

On the other hand, in the above judgment 100, the coordinate value La
If the determination result that b (RV) is a coordinate value outside the specific area is obtained, know-how 5 obtained through estimation of the coordinate value and the like is obtained.
A set of coordinate values constituting 0 is maintained.

Thus, the know-how 50 obtained through the estimation is obtained.
Of the sets of coordinate values constituting the set, the coordinate values representing the colors after the color correction are changed from the coordinate values Lab (printing) of the set to the coordinate values corresponding to the storage colors, for the set in which the coordinate values exist in the specific area. By changing, the know-how 50 obtained through estimation is
The color correction based on the know-how of the operator or the like can be corrected to know-how for reproducing.

The procedure for creating the LUT representing the color correction conversion from the corrected know-how is the same as the procedure for creating the LUT 60 from the extracted know-how described with reference to FIG. I do.

Incidentally, the above-described judgment 100 and correction 11
0 is the coordinate value Lab (RV) of the color before color correction and the coordinate value Lab of the color after color correction when the know-how 40 and 50 are extracted.
Each time a set of (print) is obtained, the processing may be performed on each set. After the know-how 40 and 50 are once extracted in the form of an LUT, the processing is performed on a set of coordinate values constituting the LUT. Alternatively, after the LUT 60 to be incorporated into the computer system 70 is once created by the procedure shown in FIG. 1, the coordinate value Lab of the color before the color correction is obtained from the LUT 60.
A set of (RV) and the coordinate value Lab (printing) of the color after color correction may be derived, and the processing may be performed for each of the derived sets.

In the correction 110, one coordinate value may be used as the coordinate value corresponding to the memory color, or a coordinate value according to the coordinate value Lab (print) before correction may be used. In the following, it is assumed that a coordinate value corresponding to the coordinate value Lab (print) before correction is used as the coordinate value corresponding to the memory color.

Hereinafter, another embodiment of the color correction definition creating method of the present invention will be described.

FIG. 3 is a diagram showing a second embodiment of the color correction definition creating method according to the present invention.

In the first embodiment described above, the coordinate values Lab
For a set in which (RV) is the coordinate value in the specific area, the color correction outside the specific area is considered in the correction for changing the color coordinate value Lab (printing) of the color after color correction to the coordinate value corresponding to the memory color. I haven't. For this reason, there is a high possibility that the colors after color correction will be discontinuous at boundaries inside and outside the specific area. Therefore, in the second embodiment, as described below, the continuity of colors at boundaries inside and outside the specific region is considered.

In the second embodiment, first, as in the first embodiment, the know-how 40 for converting the coordinate value Lab (RV) corresponding to the color on the reversal film into the printing halftone% CMYK is obtained by using the above estimation. To extract. Then, the extracted know-how 40 and the above-described print device characteristic conversion 4
1 is combined with the coordinate value Lab (RV) corresponding to the color before the color correction and the coordinate value Lab (printing) corresponding to the color after the color correction as described above. And know-how 50 in a form independent of printing conditions.

Next, a coordinate value Lab (RV) corresponding to a color before color correction of a set of coordinate values constituting the obtained know-how 50 is obtained.
And a specific position with respect to the specific area, and a coordinate value Lab corresponding to the color after the color correction with a weight corresponding to the calculated relative position.
A weighted average 130 of (printing) and the coordinate value 120 corresponding to the memory color is performed. That is, in executing the weighted average 130, the determination process according to the present invention is performed. Then, the coordinate values obtained by the weighted average 130 are used as the coordinate values of the color after the color correction. Here, as the weight, when the coordinate value of the color before the color correction is a coordinate value outside the specific area, the ratio of the coordinate value 120 corresponding to the memory color is “0”, and the color before the color correction is The weight is used such that the closer the coordinate value is to the center of the specific area, the closer the ratio of the coordinate value 120 corresponding to the memory color is to “1”. Here, a coordinate value obtained by using a weight such that the ratio of the coordinate value 120 corresponding to the memory color is not “0” is an example of a corrected coordinate value according to the present invention. The weighted average using such weights ensures the continuity of the color after the color correction at the boundary inside and outside the specific area.

The procedure for creating the LUT thereafter is the same as the procedure described with reference to FIG.

FIG. 4 is a diagram showing a third embodiment of the color correction definition creating method according to the present invention.

In the above-described first embodiment, of the set of coordinate values corresponding to the colors before and after the color correction, the set whose coordinate values exist in the specific area is stored as the coordinate value corresponding to the color after the color correction. While the correction using the coordinate values corresponding to the colors is performed, in the third embodiment, such a set is
The third embodiment is different from the first embodiment in that the correction is performed using the coordinate value Lab (RV) corresponding to the color before the color correction as it is as the coordinate value corresponding to the color after the color correction.
This is a color correction definition creation method similar to the embodiment.

The third embodiment is effective, for example, when it is desired to reproduce the color of a product on a reversal film as it is on a catalog.

FIG. 5 is a diagram showing a fourth embodiment of the color correction definition creating method according to the present invention.

In the fourth embodiment, as in the third embodiment described above, of the set of coordinate values corresponding to the colors before and after the color correction, the set whose coordinate values exist in the specific area is subjected to the color correction. Correction is performed using the coordinate value Lab (RV) corresponding to the color before the color correction as it is as the coordinate value corresponding to the color, and furthermore, as in the second embodiment, by using the weighted average, the color inside and outside the specific area is corrected. Considers continuity.

Next, the fifth embodiment of the color correction definition creating method according to the present invention will be described.
An embodiment will be described.

As described above, the know-how 4 shown in FIG.
0 is estimated by the coordinate value obtained by measuring the color of each patch 22a of the color chart 22, the printing dot% YMCK output from the scanner 10 for each patch 22a, and the interpolation using such coordinate values and the like. It is extracted by using the obtained coordinate values and the like.
When the know-how 40 is extracted in this manner, the patch 22a
And the coordinate value Lab (RV) obtained by measuring the color of
With regard to a set of coordinate values Lab (printing) corresponding to the color printed according to the printing halftone% YMCK for each 2a, it may be considered that the color correction based on the know-how of the operator is reproduced. Therefore, in the fifth embodiment, the first embodiment described with reference to FIG.
Similarly to the embodiment, the coordinate value Lab (RV) and the coordinate value Lab
The know-how 50 that is conceived as a set of (print) pairs is corrected, but correction is avoided for a set of coordinate values obtained for each patch 22a among the sets that constitute the know-how 50.

Hereinafter, differences between the first embodiment and the fifth embodiment will be described.

FIG. 6 is a diagram showing a difference between the first embodiment and the fifth embodiment.

In the fifth embodiment, two determinations 100 and 140 shown in FIG. 6 are performed instead of one determination 100 in the first embodiment described with reference to FIG. That is, the first
As in the embodiment, it is determined whether or not the coordinate value is a coordinate value in a specific area, and if a determination result that the coordinate value is a coordinate value in the specific area is obtained, the coordinate value is measured. Judgment 140 as to whether or not the coordinate value is obtained by a color or the like
I do. The coordinates corresponding to the color after the color correction are obtained only when the two determinations 100 and 140 determine that the coordinate values are within the specific area and are the coordinate values obtained by the estimation. The coordinate value of the memory color is used as the value.

Next, the sixth embodiment of the color correction definition creating method according to the present invention will be described.
An embodiment will be described.

As described above, a set of coordinate values obtained by measuring the color of a patch may be considered to reproduce color correction based on know-how of an operator or the like. Such a set is obtained for each patch. Even if a set of coordinate values obtained through interpolation using coordinate values and printing dot% is corrected, if correction is avoided, discontinuity may occur in colors after color correction. Therefore, in the sixth embodiment, when there is a possibility that such discontinuity may occur, correction is also performed on a set of coordinate values obtained by measuring the color of a patch or the like.

FIG. 7 is a diagram showing a difference between the first embodiment and the sixth embodiment.

In the fifth embodiment, three determinations 100, 140, and 150 shown in FIG. 7 are performed instead of one determination 100 in the first embodiment described with reference to FIG. That is, in the sixth embodiment, as in the fifth embodiment described with reference to FIG. 6, a determination 100 as to whether or not the coordinate value is a coordinate value in a specific area, and the coordinate value is obtained by colorimetry or the like. Determination 140 as to whether or not the obtained coordinate value is obtained, and when a determination result indicating that the obtained coordinate value is a coordinate value obtained by colorimetry or the like is obtained, it is estimated by interpolation using the coordinate value. A determination 150 is made as to whether the coordinate value obtained is a coordinate value in the specific area. Then, these three determinations 100, 140, 150
By the case where both the coordinate value obtained by colorimetry and the like and the coordinate value estimated by interpolation using the coordinate value are obtained as a result of determination that the coordinate value is within the specific area,
Regarding a set of coordinate values obtained by colorimetry or the like, the coordinate values of the memory color are used as coordinate values corresponding to the colors after color correction.

FIG. 8 is a diagram showing an embodiment of the color correction definition creating apparatus of the present invention.

The color correction definition creating apparatus 200 shown in FIG.
Is color-measuring data before color correction, which represents coordinate values of colors before color correction, obtained by measuring the color of each patch 22a constituting the color chart 22 shown in the reversal film 20 shown in FIG. Lab (RV) data group and color-corrected colorimetry representing the coordinate values of the color-corrected colors obtained by measuring the colors of the patches constituting the color chart printed on the printed matter 31 An acquisition unit 210 for acquiring a data group of data Lab (printing) is provided. Also,
The color correction definition creating device 200 determines whether or not the coordinate value represented by the color measurement data before color correction Lab (RV) is the coordinate in the specific area described above, According to the result, the colorimetric data Lab (RV) before color correction acquired by the acquiring unit 210 and the colorimetric data Lab (print) after color correction are associated with each other, or the colorimetric data Lab (RV) before color correction is associated with the colorimetric data Lab (RV) before color correction. There is provided a creating unit 230 that creates a color correction definition by associating the data with a data representing a memory color, and the creating unit 230 is an example of an associating unit according to the present invention.

The color correction definition created by this color correction definition creating device is used in a color conversion device 300 for converting the color of an image.
Of the color correction unit 310 of FIG. When an image before color correction is input to the image input unit 320 of the color conversion device 300, the input image is subjected to color correction by the color correction unit 310, and the image after the color correction is output from the image output unit 330. You.

The color conversion apparatus 300 is constituted by, for example, the computer system 70 shown in FIG. 1, and the image input section 320 incorporates the above-described input media characteristic conversion definition 61 and the like. The output media characteristic conversion definition 64 described above and the like are incorporated in 330.

[0076]

As described above, according to the present invention,
A color correction definition that reproduces the color correction based on the know-how of the operator or the like can be created.

[Brief description of the drawings]

FIG. 1 is a diagram showing a color correction method on which a color correction definition creating method according to an embodiment of the present invention is applied.

FIG. 2 is a diagram showing a first embodiment of a color correction definition creating method according to the present invention.

FIG. 3 is a diagram showing a second embodiment of the color correction definition creating method of the present invention.

FIG. 4 is a diagram showing a third embodiment of the color correction definition creating method of the present invention.

FIG. 5 is a diagram showing a fourth embodiment of the color correction definition creating method of the present invention.

FIG. 6 is a diagram showing a difference between the first embodiment and the fifth embodiment of the color correction definition creating method of the present invention.

FIG. 7 is a diagram showing a difference between the first embodiment and the sixth embodiment of the color correction definition creating method of the present invention.

FIG. 8 is a diagram showing an embodiment of a color correction definition creating device of the present invention.

[Explanation of symbols]

 Reference Signs List 10 scanner 20 reversal film 21 general image 22 color chart 22a patch 30 printing machine 31 printed matter 40, 50, 60 know-how (LUT) 51, 52 gamut mapping conversion 61 input media characteristic conversion definition 62, 63 gamut conversion definition 64 output media characteristic conversion Definition 70 Computer system 81 Scanner (input device) 82 Digital still camera (input device) 83 CRT display (input device) 90 Output device 91 Output media 100, 140, 150 Judgment 110 Correction 120 Coordinate value 130 Weighted average 200 Color correction definition creation Apparatus 210 Acquisition unit 220 Judgment unit 230 Creation unit 300 Color conversion device 310 Color correction unit 320 Image input unit 330 Image output unit

 ──────────────────────────────────────────────────続 き Continued on the front page F-term (reference)

Claims (10)

[Claims] 1. A color defining a correspondence between coordinate values in a color space corresponding to colors before and after color correction between an original image and a corrected image obtained by performing color correction on the original image. A color correction definition creating method for creating a correction definition, comprising: obtaining an original coordinate value of a color space corresponding to the color of the original image and a corrected coordinate value of a color space corresponding to the color of the corrected image; A determination step of determining whether the original coordinate value or the corrected coordinate value obtained in the obtaining step is a coordinate value in a specific area on a color space, When it is determined in the determination process that the original coordinate value or the corrected coordinate value to be determined is a coordinate value in the specific area, the original coordinate value acquired in the acquisition process is associated with a predetermined coordinate value. The original coordinate values or When the corrected coordinate value is determined to be a coordinate value outside the specific area, an associating step of associating the original coordinate value obtained in the obtaining step with the corrected coordinate value obtained in the obtaining step. A color correction definition creating method, comprising: 2. The method according to claim 1, wherein the specific area is a skin color area in a color space. 3. The method according to claim 1, wherein the specific area is an achromatic color area in a color space. 4. The method according to claim 1, wherein the associating step uses a predetermined coordinate value as the predetermined coordinate value when associating the original coordinate value with a predetermined coordinate value. How to create the described color correction definition. 5. The associating step, in associating the original coordinate value with a predetermined coordinate value, generates a corrected coordinate value by correcting the corrected coordinate value obtained in the obtaining step by a predetermined algorithm, 2. The color correction definition creating method according to claim 1, wherein the generated correction coordinate values are used as the predetermined coordinate values. 6. The method according to claim 1, wherein the associating step uses the original coordinate value itself as the predetermined coordinate value when associating the original coordinate value with a predetermined coordinate value. How to create color correction definitions. 7. The obtaining step obtains an initial color correction definition that defines a correspondence between coordinate values in a color space corresponding to colors before and after color correction between the original image and the corrected image. 2. The color correction definition creating method according to claim 1, wherein the original coordinate values and the corrected coordinate values are acquired from the initial color correction definition. 8. The obtaining step includes obtaining a predetermined number of sets of the original coordinate values and the corrected coordinate values as equivalent to actual colors before and after color correction actually performed, An estimating step of estimating one or more sets using the sets obtained in the obtaining step, wherein the determining step also includes, for the sets estimated in the estimating step, original coordinate values or corrected coordinate values of the set. And determining whether the original coordinate value or the corrected coordinate value is a coordinate value in a specific area on a color space, wherein the associating step is obtained in the obtaining step. For each set, the original coordinate value and the corrected coordinate value of each set are associated with each other, and for the set of coordinate values estimated in the estimation process, the original coordinate value or the corrected coordinates to be determined in the determination process The value is within the specific area When it is determined that the coordinate value is the coordinate value, the original coordinate value estimated in the estimation step is associated with a predetermined coordinate value, and the original coordinate value or the corrected coordinate value to be determined in the determination step is the specific area. 2. The method according to claim 1, wherein when it is determined that the coordinate value is outside the original coordinate value, the original coordinate value estimated in the estimation process is associated with the corrected coordinate value estimated in the estimation process. How to create color correction definitions. 9. The method according to claim 9, wherein the acquiring step acquires a predetermined number of sets of the original coordinate values and the corrected coordinate values as equivalent to actual colors before and after color correction actually performed. An estimating step of estimating one or more sets using the sets obtained in the obtaining step, wherein the determining step also includes, for the sets estimated in the estimating step, original coordinate values or corrected coordinate values of the set. And determining whether the original coordinate value or the corrected coordinate value is a coordinate value in a specific area on a color space, wherein the associating step is estimated in the estimating step. For the set of coordinate values, when it is determined in the determination step that the original coordinate value or the corrected coordinate value to be determined is a coordinate value in the specific area, the original coordinate value estimated in the estimation step and a predetermined In the determination step. When it is determined that the original coordinate value or the corrected coordinate value to be determined is a coordinate value outside the specific area, the original coordinate value estimated in the estimation process and the corrected coordinate value estimated in the estimation process And, for the set of coordinate values acquired in the acquiring step, it is determined in the determining step that the original coordinate value or the corrected coordinate value of the determination target is a coordinate value in the specific area, Also, if the original coordinate value or the corrected coordinate value of the determination target is determined to be a coordinate value in the specific area in the determination process for the pair estimated using the coordinate values of the pair, the acquisition step is performed. 2. The color correction definition creating method according to claim 1, wherein the original coordinate values acquired in step (c) correspond to predetermined coordinate values. 10. A color defining a mutual correspondence between coordinate values in a color space corresponding to colors before and after color correction between an original image and a corrected image obtained by performing color correction on the original image. In a color correction definition creating apparatus for creating a correction definition, acquiring means for acquiring original coordinate values in a color space corresponding to the color of the original image and corrected coordinate values in a color space corresponding to the color of the corrected image, Determining means for determining, for one of the original coordinate value or the corrected coordinate value obtained by the obtaining means, whether the original coordinate value or the corrected coordinate value is a coordinate value in a specific area on a color space; When the determination unit determines that the original coordinate value or the corrected coordinate value to be determined is a coordinate value in the specific area, the original coordinate value acquired by the acquisition unit is associated with a predetermined coordinate value. The original coordinate values to be determined by the determination means Or if the corrected coordinate value is determined to be a coordinate value outside the specific area, the associating unit that associates the original coordinate value obtained by the obtaining unit with the corrected coordinate value obtained by the obtaining unit. And a color correction definition creating device.