JP5900738B2 - Color calibration coefficient calculation device, color conversion device, color calibration coefficient calculation program, color conversion program - Google Patents

Description

  The present invention relates to a color calibration coefficient calculation device, a color conversion device, a color calibration coefficient calculation program, and a color conversion program.

  The color calibration technique is a technique for stably outputting a color in an output device. For example, a technique for calibrating an output of a color that has shifted due to a change over time or an environmental change to a target color output state. It is. When performing calibration, a color output state in a target output device is obtained in advance. Then, the color is output from the output device to be calibrated, and calibration is performed so that the output color becomes the output of the target output device.

  At the time of calibration, visibility of color reproduction is required in the highlight portion. For example, a color value from which a color value is changed from a white point and a color other than white is visually recognized is called a reproduction start value. This reproduction start value differs depending on the target output device. For example, if a target output device is assumed, a value corresponding to the output device is obtained. If the output device targeted for calibration is a target output device, the state at the past time It becomes a value according to.

  However, when it is stipulated that color reproduction is performed with a predetermined value at the time of design, or when the user desires to specify the reproduction start value, the specified value or the specified reproduction With the start value, the target output device may not start color reproduction. As an example, when the output device targeted for the past state of the output device to be calibrated as described above is used, the color reproduction does not start with the specified reproduction start value in the past state as the target output device. It may be in a state. Even if calibration is performed in such a state, calibration is not performed so that color reproduction is started at the designated reproduction start value.

  As for the correction process related to the reproduction start value, for example, in Patent Document 1, the color signal is shifted from the white point to the reproduction start value. In this correction process, color reproduction is started at the reproduction start value in the output device to be calibrated.

  Further, as a process at the time of calibration, there is a white point correction process. This is because, when the white point of the target output device is different from the white point of the output device to be calibrated, the white point is corrected to a white reference point (for example, the color of the D50 light source), and then calibration is performed. Is what you do. For example, there are a relative conversion technique and a medium / high density absolute technique (highlight relativization technique). In the relative conversion technique, a white point is corrected to a white reference point, and the correction amount is reduced as the color becomes darker or darker, and the entire color gamut is corrected. The medium / high density absolute technique is a method of performing correction within a predetermined range. The white point is set as a white reference point, and the correction amount is decreased as the color becomes darker or darker in a predetermined color range. In this method, white point correction is not performed outside the determined color range. This method is described in Patent Document 2, for example.

JP 2000-059628 A JP 2009-278264 A

  The present invention relates to a color conversion device and a color conversion program capable of performing an output subjected to calibration corresponding to color reproduction at a given reproduction start value, and a color capable of calculating a coefficient for the calibration. An object of the present invention is to provide a calibration coefficient calculation device and a color calibration coefficient calculation program.

  According to the first aspect of the present invention, the target output device is based on target absolute color value information in which a color value to be given to a target output device which is an output device targeted for calibration is associated with an output color value. An obtaining unit that obtains a color value that is output in correspondence with a reproduction start value that is a value at which color reproduction is visually recognized by changing a given color value from paper white, and corresponds to a preset reproduction start setting value A conversion unit that converts the target absolute color value information so that a color value corresponds to a reproduction start value obtained by the acquisition unit; and a target absolute color value information converted by the conversion unit. A target paper white correction unit that corrects paper white and obtains target paper white value information, and device absolute color value information in which a color value to be given to a calibration output device that is a calibration target output device is associated with an output color value. The color value given by the calibration output device is changed from paper white. A reproduction start value information acquisition unit that acquires a value at which color reproduction is visually recognized as an apparatus reproduction start value and acquires a correction value at the reproduction start setting value from target paper white value information obtained by the target paper white correction unit. A device that corrects paper white with respect to the device absolute color value information so that a value after correction at the device reproduction start value becomes a correction value at the reproduction start set value to obtain device paper white value information Paper white correction means; the target paper white value information obtained from the target absolute color value information by the target paper white correction means; and the apparatus paper obtained from the apparatus absolute color value information by the apparatus paper white correction means. It is a color calibration coefficient calculation apparatus characterized by having coefficient calculation means for calculating a coefficient for calibrating a color value given to the calibration output apparatus from white value information.

  According to the second aspect of the present invention, paper white is corrected with respect to target absolute color value information in which a color signal given to a target output device which is a calibration target output device is associated with an output color value. A target paper white correction unit that obtains target paper white value information, and a reproduction start value in which color reproduction is visually recognized by changing the color value given by the target output device from paper white based on the target absolute color value information And obtaining means for obtaining a color value corresponding to the reproduction start value from the target paper white value information, and a color value corresponding to a predetermined reproduction start setting value of the target output device. A conversion unit that converts the target paper white value information so as to be a color value corresponding to the reproduction start value obtained by the acquisition unit, and a color value to be given to a calibration output device that is a calibration target output device are output. For device absolute color value information that associates color values with The apparatus paper white correction means for correcting the paper white to obtain the apparatus paper white value information, the target paper white value information obtained by the target paper white correction means, and the apparatus paper white color obtained by the apparatus paper white correction means. A color calibration coefficient calculation apparatus comprising coefficient calculation means for calculating a coefficient for calibrating a color value given to the calibration output apparatus from value information.

  According to the third aspect of the present invention, in addition to the configuration of the second aspect of the present invention, the color value given by the calibration output device is changed from paper white based on the device absolute color value information. Reproduction start value information acquisition means for acquiring a value at which reproduction is visually recognized as an apparatus reproduction start value and acquiring a correction value at the reproduction start setting value from target paper white value information obtained by the target paper white correction means. The device paper white correction unit corrects paper white to the device absolute color value information so that a value after correction at the device reproduction start value becomes a correction value at the reproduction start setting value. The color calibration coefficient calculating apparatus is characterized in that the apparatus paper white value information is obtained.

  The invention according to claim 4 of the present application provides a color conversion model created based on a set of color value information obtained by pairing a color signal given to an output device and an output color as basic information. A color conversion unit that performs color conversion using the calibration coefficient calculated by the color calibration coefficient calculation apparatus according to any one of claims 1 to 3 using the output device as a calibration target. A color conversion device comprising correction means for correcting a color conversion result by the color conversion means.

  The invention according to claim 5 of the present application is characterized in that the color conversion model in the invention according to claim 4 is created by adding color value information of a highlight portion to the basic information. Color conversion device.

  In the invention according to claim 6 of the present application, the color conversion model in the invention according to claim 4 or 5 of the present invention is such that the highlight portion is made to follow the color value information more than other regions. The color conversion device characterized by the above.

  The invention according to claim 7 of the present application causes a computer to execute the function of the color calibration coefficient calculation device according to any one of claims 1 to 3. It is a program.

  The invention according to claim 8 of the present application is a color conversion program that causes a computer to execute the function of the color conversion apparatus according to any one of claims 4 to 6.

  According to the invention described in claim 1 of the present application, it is possible to perform calibration that corresponds to color reproduction at a given reproduction start setting value and corrects paper white in consideration of adjustment at the reproduction start value in the output device to be calibrated. There is an effect that a coefficient for performing can be calculated.

  According to the second aspect of the present invention, there is an effect that a coefficient for performing calibration with correction of paper white corresponding to color reproduction at a given reproduction start setting value can be calculated.

  According to the third aspect of the present invention, it is possible to calculate a coefficient for performing calibration with paper white being corrected in consideration of adjustment at the reproduction start value in the output device to be calibrated.

  According to the invention described in claim 4 of the present application, it is possible to perform an output subjected to calibration corresponding to color reproduction at a given reproduction start setting value.

  According to the invention described in claim 5 of the present application, it is possible to reduce the prediction error due to the color conversion model in the highlight portion including the reproduction start value as compared with the case where this configuration is not provided.

  According to the sixth aspect of the present invention, the prediction error due to the color conversion model in the highlight portion including the reproduction start value can be reduced as compared with the case where the present configuration is not provided.

  According to the invention of claim 7 of the present application, the effect of the invention of any one of claims 1 to 3 can be obtained.

  According to the invention described in claim 8 of the present application, the effect of the invention described in any one of claims 4 to 6 of the present application can be obtained.

It is a block diagram which shows 1st Embodiment of the color calibration coefficient calculation apparatus of this invention. It is explanatory drawing of an example of operation | movement in 1st Embodiment of the color calibration coefficient calculation apparatus of this invention. It is explanatory drawing of another example of operation | movement in 1st Embodiment of the color calibration coefficient calculation apparatus of this invention. It is a block diagram which shows the 1st modification in 1st Embodiment of the color calibration coefficient calculation apparatus of this invention. It is explanatory drawing of an example of a medium-high density | concentration absolute technique and an example of the calibration coefficient obtained. It is explanatory drawing of an example of the synthetic | combination ratio in the case of using a medium-high concentration absolute technique. It is explanatory drawing of an example of the paper white correction | amendment by a medium-high density absolute technique at the time of considering the reproduction start value in the 1st modification of 1st Embodiment of the color calibration coefficient calculation apparatus of this invention. It is a block diagram which shows the 2nd modification in 1st Embodiment of the color calibration coefficient calculation apparatus of this invention. It is explanatory drawing of an example of the relationship between an example of target paper white value information and apparatus absolute color value information, and a reproduction start value. It is explanatory drawing of an example of the paper white correction process in consideration of the apparatus reproduction start value. It is explanatory drawing of an example of the synthetic | combination ratio at the time of calculating | requiring apparatus paper white value information. It is a block diagram which shows 2nd Embodiment of the color calibration coefficient calculation apparatus of this invention. It is explanatory drawing of an example of operation | movement in 2nd Embodiment of the color calibration coefficient calculation apparatus of this invention. It is a block diagram which shows the modification in 2nd Embodiment of the color calibration coefficient calculation apparatus of this invention. It is explanatory drawing of an example of the operation | movement in the modification of 2nd Embodiment of the color calibration coefficient calculation apparatus of this invention. It is a block diagram which shows one Embodiment of the color conversion apparatus of this invention. It is explanatory drawing of an example of the basic information in an example of a color conversion model, and a conversion result. An example of a computer program, a storage medium storing the computer program, and an example of a computer when the functions described in the embodiments of the color calibration coefficient calculation device of the present invention and the embodiment of the color conversion device are realized by a computer program It is explanatory drawing.

  FIG. 1 is a block diagram showing a first embodiment of a color calibration coefficient calculating apparatus according to the present invention. In the figure, 1 is a target reproduction start value information acquisition unit, 2 is a target absolute color value information conversion unit, and 3 is a color calibration coefficient calculation unit. Here, the output device to be calibrated is set as the target output device, and the color value given to the target output device is associated with the color value outputted by giving the color value as the target absolute color value information. Further, the output device to be calibrated is a calibration output device, and the color value given to the current calibration output device and the color value output corresponding to the color value are associated with each other as device absolute color value information. It is assumed that the target absolute color value information and the apparatus absolute color value information are given.

  The target absolute color value information is obtained by, for example, giving a color value to the target output device, measuring the output color, pairing the supplied color value and the colorimetric value, and obtaining information consisting of a plurality of pairs as the target absolute color value. Value information may be used. The target output device may be another real output device or a virtual output device, or it may be a past state of the calibration output device. When the past state of the calibration output device is used as the target output device, a pair of color values acquired in the past may be used as the target absolute color value information. Of course, the color measurement value paired with the given color value may be prepared in advance, or it may be a color value obtained by intentionally changing the color measurement value. And the target absolute color value information in which the output color value is paired. The apparatus absolute color value information is, for example, information composed of a plurality of pairs in which a color signal is given to the output device to be calibrated, the output color is measured, and the given color signal and the colorimetric value are paired. Good.

  The target reproduction start value information acquisition unit 1 is a reproduction start value that is a value at which color reproduction is visually recognized when the color value given to the target output device is changed from paper white based on the target absolute color value information. The color value output corresponding to is acquired.

  The target absolute color value information conversion unit 2 makes the color value corresponding to the preset reproduction start setting value the color value corresponding to the reproduction start value obtained by the target reproduction start value information acquisition unit 1. The target absolute color value information is converted.

  The color calibration coefficient calculation unit 3 is a coefficient for calibrating the color value to be given to the calibration output device from the device absolute color value information of the calibration output device and the target absolute color value information converted by the target absolute color value information conversion unit 2 Is calculated. The coefficient calculation method may be a conventional method. For example, the coefficient may be calculated by matching the converted target absolute color value information and apparatus absolute color value information. Or you may obtain | require a coefficient, after performing the paper white correction mentioned later as a modification.

  FIG. 2 is an explanatory diagram illustrating an example of the operation of the color calibration coefficient calculation apparatus according to the first embodiment of the present invention. In FIG. 2A, the target absolute color value information is indicated by a solid line. It is assumed that the paper white is α, the color value is changed from the paper white α, the color difference ΔE is generated in the color output at the color value R, and the color is visually recognized. This color value R is the reproduction start value, and the color value output when the color value R is given to the target output device is the color value β. Here, it is assumed that the preset reproduction start setting value is a color value S closer to white than the color value R. At the color value S, the color difference from the paper white is smaller than the color difference ΔE, and the color difference is not visually recognized. Therefore, in the first embodiment of the color calibration coefficient calculation apparatus of the present invention, the color difference from the paper white becomes ΔE at the color value S that is the color reproduction start setting value, and the color difference from the paper white is visually recognized. Thus, the target absolute color value information is converted.

  The target reproduction start value information acquisition unit 1 acquires a color value output corresponding to the reproduction start value based on the target absolute color value information. In the example shown in FIG. 2A, the color value β that is output when the color value R that is the reproduction start value is given to the target output device is acquired.

  In the target absolute color value information conversion unit 2, the color value corresponding to the preset reproduction start setting value becomes a color value corresponding to the reproduction start value obtained by the target reproduction start value information acquisition unit 1. The target absolute color value information is converted. In this example, since the reproduction start setting value is the color value S and the color value corresponding to the reproduction start value R obtained by the target reproduction start value information acquisition unit 1 is the color value β, the color value S is set to the target output device. The target absolute color value information is converted so that the color value output when given is the color value β. Various known methods may be employed as the conversion method. As an example, conversion by a function shown in FIG.

  In the example of the function shown in FIG. 2B, paper white and a predetermined color value T are fixed, and the color values before conversion from paper white to color value R are converted from paper white to color value S. The color value R to the color value T are converted from the color value S to the color value T. By such conversion, the target absolute color value information indicated by a solid line in FIG. 2A shows a change indicated by a bold line. By such conversion, the output color value when the color value S is given to the target output device is converted into target absolute color value information that becomes the color value β.

  As a specific example of the target absolute color value information, if the color value given to the target output device is the color value in the CMYK color space and the output color value is the color value in the CIELAB color space, the color value R (CMYK) that is the reproduction start value ) And color value β (Lab) are paired, and color conversion is realized by changing the color value R (CMYK) to the color value S (CMYK). For other pairs of target absolute color value information, the color values (CMYK) to be given may be changed according to the function shown in FIG. Needless to say, each color space is an example, and other color spaces may be used.

  In the obtained target absolute color value information after conversion, a color difference ΔE is secured as a color difference between the color value β output at a preset reproduction start setting value and the paper white color value α, and the paper white That is, the information for visually recognizing the difference in color is obtained. From the converted target absolute color value information and the apparatus absolute color value information of the calibration output device, the color calibration coefficient calculation unit 3 may calculate a coefficient for calibration.

  FIG. 3 is an explanatory diagram of another example of the operation of the color calibration coefficient calculation apparatus according to the first embodiment of the present invention. The example shown in FIG. 2 shows an example in which the given color value of the target absolute color value information is changed. However, the present invention is not limited to this, and the output color value or the given color value and the output color value are not limited thereto. You can change both. In the example shown in FIG. 3, an example of changing the color value to which the target absolute color value information is output is shown.

  In FIG. 3A, the target absolute color value information is indicated by a solid line. Paper white is represented by α, the reproduction start value described in FIG. 2 is represented by color value R, the color value output by color value R is represented by β, and the color difference between color value α and color value β is represented by color difference ΔE. The target reproduction start value information acquisition unit 1 acquires a color value β that is output when a color value R that is a reproduction start value is given to the target output device based on the target absolute color value information.

  Assume that the color value S, which is a preset reproduction start setting value, is closer to white than the color value R. In this case, the target absolute color value information conversion unit 2 first performs relative conversion of the target absolute color value information so that the color value output in the color value S becomes the color value β. A change in the target absolute color value information after the relative conversion is indicated by a thin line.

  Then, the target absolute color value information and the target absolute color value information after the relative conversion become the target absolute color value after the paper white and the predetermined color value T, and the color value S is the target absolute color value after the relative conversion. What is necessary is just to perform the conversion which synthesize | combines both so that it may become information. As a synthesis method, for example, both may be synthesized at a synthesis ratio shown in FIG. The change after the synthesis conversion is indicated by a thick line in FIG.

  In the obtained target absolute color value information after the composite conversion, the color difference ΔE is secured as the color difference between the color value β output at the preset reproduction start setting value (color value S) and the paper white color value α. In other words, information for visually recognizing the difference in color from paper white is obtained. From the target absolute color value information after the synthesis conversion and the apparatus absolute color value information of the calibration output device, the color calibration coefficient calculation unit 3 may calculate a coefficient for calibration.

  FIG. 4 is a block diagram showing a first modification of the first embodiment of the color calibration coefficient calculation apparatus of the present invention. In the figure, 4 is a target paper white correction unit, and 5 is an apparatus paper white correction unit. As described above, the paper white in the target output device and the paper white in the calibration output device may be different during calibration. In such a case, the gradation of the highlight portion changes sharply or the gradation May not be reproduced. This first modification shows an example in which a paper white correction process is performed to eliminate a problem due to a difference in paper white.

  The target paper white correction unit 4 performs paper white correction on the target absolute color value information converted by the target absolute color value information conversion unit 2 to obtain target paper white value information. Further, the device paper white correction unit 5 performs paper white correction on the device absolute color value information to obtain device paper white value information. As for any paper white correction method, a known method may be used, and a relative conversion technique, a medium / high density absolute technique or the like may be used.

  An example of the operation in the first modification of the first embodiment of the color calibration coefficient calculation apparatus of the present invention will be described. Here, as a specific example, it is assumed that the medium / high density absolute technique is used for the paper white correction method. First, the case where the reproduction start value is not considered will be described, and then the case where the reproduction start value is considered. Note that the color space given by the target absolute color value information and the device absolute color value information and the color space of the output color value are not limited. However, when described as a specific example, the color space of the given color value is the CMYK color space. In the following description, it is assumed that the color space of the output color value is the CIELAB color space.

FIG. 5 is an explanatory diagram of an example of the medium / high concentration absolute technique and an example of the calibration coefficient obtained. FIG. 5A shows target absolute color value information, target absolute color value information subjected to paper white correction using a relative conversion technique, and changes in target absolute color value information after paper white correction performed using a medium-high density absolute technique. The change in the color value given with white as the origin and the change in the corresponding output color value are shown. The change in the target absolute color value information is indicated by a solid line. In the target absolute color value information, the color value output when white color value is given is the color value α indicating paper white. Paper white correction is performed so that the color value output when this white color value is given becomes a reference white value, for example, (L, a, b) becomes (100, 0, 0). The change when the paper white correction is performed using the relative conversion technique is indicated by a thin line. In the relative conversion technique, other color values are relatively corrected according to the amount of change when the paper white color value α is converted into the reference white value. Here, as a reference white point, the tristimulus value of _{D50 is} given as X _D50 Y _D50 Z _D50 , and the value obtained by converting α = (L _w , a _w , b _w ) into the tristimulus value is given as X _w Y _w Z _w Assuming that the tristimulus value of the calculated Lab value is X _i Y _i Z _i and the tristimulus value after paper white correction is X _rel Y _rel Z _rel , the conversion formula is
X _rel = (X _i / X _w ) · X _D50
Y _rel = (Y _i / Y _w ) · Y _D50
Z _rel = (Z _i / Z _w ) · Z _D50 (Formula 1)
It becomes. When the tristimulus value X _i Y _i Z _{i of the} given Lab value is the color value of paper white (α = (L _w , a _w , b _w ) tristimulus value X _w Y _w Z _w ) The tristimulus values after white correction are X _D50 Y _D50 Z _D50 .

  In medium and high density absolute technology, the color value given by the original target absolute color value information and the color change by the target absolute color value information after performing paper white correction using the relative conversion technology are changed from white to white. This is a technique for synthesizing in a predetermined range, here, from white to Dcov. In the composition, if the color value to be given is white, the target absolute color value information after the paper white correction is performed by the relative conversion technique is changed. In Dcov, the original target absolute color value information is changed. Then, it is set as target absolute color value information.

  FIG. 6 is an explanatory diagram of an example of the synthesis ratio in the case where the medium / high concentration absolute technique is used. As the composition when the color value to be given is in the range from white to Dcov, the color change based on the original target absolute color value information and the color change based on the target absolute color value information after the paper white correction is performed using the relative conversion technique. What is necessary is just to change the composition ratio at the time of composition, for example according to the distance from white in the color space of the color value to give. In the example shown in FIG. 6, when the color value to be given is white (distance = 0), the target after the paper white correction is performed using the color value (expressed as absolute) obtained from the target absolute color value information and the relative conversion technique. The composition ratio is set to 0: 100 with the color value (relative and notation) obtained from the absolute color value information, and the composition ratio is set to 100: 0 for the color value with the distance Dcov. doing. According to this composition ratio, the output color value obtained from the target absolute color value information and the output color value obtained from the target absolute color value information after performing paper white correction using the relative conversion technique are synthesized. What is necessary is just to obtain the output color value after paper white correction by the density absolute technique. For example, when the distance is Dcov / 4, the ratio is 25:75, and when Dcov / 2 is 50:50, the output color value obtained from the target absolute color value information at each distance and the relative conversion technique are used. What is necessary is just to synthesize | combine with the output color value obtained from the target absolute color value information after performing paper white correction | amendment.

  In this method, the color value obtained from the target absolute color value information is adopted for the medium and high density region whose distance is equal to or greater than Dcov, and thus is not affected by the paper white correction. In FIG. 6, the change in the target absolute color value information after the paper white correction by the medium / high density absolute technique is indicated by a bold line.

  FIG. 5B shows changes in apparatus absolute color value information, apparatus absolute color value information subjected to paper white correction using a relative conversion technique, and apparatus absolute color value information after paper white correction performed using a medium-high density absolute technique. The change in the color value given with white as the origin and the change in the corresponding output color value are indicated by a solid line, a thin line, and a thick line. For the paper white correction by the relative conversion technique and the paper white correction by the medium / high density absolute technique, the method described above in the paper white correction for the target absolute color value information is used as it is.

  In the apparatus absolute color value information, paper white has a color value γ and may be different from the paper white color value α in the target absolute color value information. The paper white correction process is a process of correcting the different paper white color values to the reference white value. The white value is adjusted to the reference white value by the relative conversion technique indicated by the thin line and the medium / high density absolute technique indicated by the thick line.

  The target absolute color value information subjected to the paper white correction by the medium / high density absolute technique shown by the thick line in FIG. 5A and the paper white correction by the medium / high density absolute technique shown by the thick line in FIG. 5B. FIG. 5C shows the calibration coefficient (function for calibration) obtained using the apparatus absolute color value information. For example, when the color value a is given, the color value output after paper white correction in the target output device is the color value b from the target paper white value information indicated by a thick line in FIG. In order to output the color value b by the calibration output device, it is only necessary to give the color value c from the curve of the device absolute color value information subjected to the paper white correction shown by the thick line in FIG. . That is, when the color value a is given, if it is corrected to the color value c and given to the calibration output device, an output equivalent to the target output device can be obtained. The function shown in FIG. 5C shows the correspondence between the given color value and the corrected color value, and in the above-described specific example, the correspondence between the color value a and the color value c. Information representing such a function is a coefficient for calibration.

  If correction is performed using the calibration coefficient obtained by correcting the paper white using the medium / high density absolute technology, the background color is determined when acquiring the target absolute color value information and when acquiring the device absolute color value information. Even if the white color (chromaticity) of the paper becomes different, the highlight portion is calibrated to remove the white difference. In addition, the calibration according to the actually measured value is performed except for the highlight portion.

  FIG. 7 is an explanatory diagram of an example of paper white correction by the medium / high density absolute technique in consideration of the reproduction start value in the first modification of the first embodiment of the color calibration coefficient calculation apparatus of the present invention. In FIG. 7A, a change in the target absolute color value information converted by the target absolute color value information conversion unit 2 shown in FIG. 2A is indicated by a solid line, and the converted target absolute color value information is expressed as a relative value. The change in the target absolute color value information corrected by the paper white by the conversion technique is indicated by a thin line, and the target absolute color value information (target paper white value information) corrected by the medium-high density absolute technique is indicated by a thick line.

  The target paper white correction unit 4 obtains target absolute color value information obtained by performing paper white correction on the target absolute color value information converted by the target absolute color value information conversion unit 2 using a relative conversion technique, and a solid line in FIG. The target absolute color value information converted by the target absolute color value information conversion unit 2 shown in FIG. 6 and the target absolute color value information corrected by the paper white by the relative conversion technique shown by a thin line, for example, are shown in FIG. The target absolute color value information obtained by correcting the paper white by the medium / high density absolute technique indicated by the bold line is obtained. The target absolute color value information obtained by correcting the paper white by the medium / high density absolute technique is used as the target paper white value information.

  On the other hand, the device paper white correction unit 5 may perform device white correction on the given device absolute color value information by using the medium-high density absolute technique by the method described above to obtain device paper white value information. FIG. 7B shows the change in the apparatus absolute color value information with a solid line, the change in the apparatus absolute color value information corrected with paper white by the relative conversion technique with a thin line, and the medium high density. The apparatus absolute color value information (apparatus paper white value information) subjected to paper white correction by the absolute technique is indicated by a thick line.

  In the color correction coefficient calculation unit 3, the target paper white value information obtained by the target paper white correction unit 4 shown by a thick line in FIG. 7A and the apparatus paper white correction unit 5 shown by a thick line in FIG. 7B. The coefficient for calibration (function for calibration) is obtained from the apparatus paper white value information obtained in (1). As an example, the abutting method described with reference to FIG. 5 may be used. For example, from the target paper white value information, a color value to be output after paper white correction corresponding to the color value to be given to the target output device is obtained, and the color value to be given to the calibration output device in order to output the color value Obtained from white value information. As a result, since the correspondence relationship between the color value given to the target output device and the color value given to the calibration output device can be known, information indicating this correspondence relationship may be used as a coefficient for calibration. For example, in this example, the relationship coefficient shown in FIG. 7C is obtained.

  FIG. 8 is a block diagram showing a second modification of the first embodiment of the color calibration coefficient calculation apparatus of the present invention. In the figure, 6 is an apparatus reproduction start value information acquisition unit. In the second modification, an apparatus reproduction start value information acquisition unit 6 is provided in the calibration of the first modification described above, and the reproduction start value in the output device to be calibrated is also considered.

  The apparatus reproduction start value information acquisition unit 6 acquires, as the apparatus reproduction start value, a value at which color reproduction is visually recognized by changing the color value given by the calibration output device from paper white based on the apparatus absolute color value information. Then, the correction value at the reproduction start set value is acquired from the target paper white value information obtained by the target paper white correction unit 4.

  The device color value paper white correction unit 3 basically performs paper white correction on the device absolute color value information to obtain device paper white value information. The device absolute color value information is corrected for paper white so that the value becomes the correction value at the reproduction start setting value, and device paper white value information is obtained.

  Hereinafter, an example of the operation in the second modification of the first embodiment of the color calibration coefficient calculation apparatus of the present invention will be described. Here, a specific example will be described on the assumption that the medium / high density absolute technique is used for the paper white correction method. FIG. 9 is an explanatory diagram of an example of a relationship between an example of target paper white value information and apparatus absolute color value information and a reproduction start value. FIG. 9A shows an example of a change in the target paper white value information indicated by a thick line and the target absolute color value information indicated by a solid line in FIG. FIG. 9B shows the curves shown in FIG. 7B.

  Although the above description shows an example in which the reproduction start value in the target output device is taken into account, the calibration output device also has a reproduction start value, which may be different from the reproduction start value in the target output device. When the target output device obtains the color difference ΔE from paper white to the reproduction start value by the calibration output device, the color value given to the calibration output device is the color value U, and the color value output by giving the color value U is the color value δ. And This color value U is set as a device reproduction start value.

  Here, the color value given to the calibration output device in order to obtain the color value ε output at the color value S, which is the reproduction start setting value given in the target output device, is obtained by using the medium-high density absolute technique to obtain the paper value. It is assumed that the color value V is closer to paper white than the color value U when calculated from the corrected apparatus absolute color value information. However, since the color change is not visually recognized from the paper white to the color value U which is the apparatus reproduction start value, the color output with the color value V is not visually recognized as being different from the paper white. In order to eliminate such inconvenience due to the difference in the reproduction start value, in the second modification example, the apparatus reproduction start value information acquisition unit 6 is provided, and the information acquired by the apparatus reproduction start value information acquisition unit 6 is used. Paper white correction is performed in the apparatus paper white correction unit 5. Hereinafter, an example of the process will be described.

  FIG. 10 is an explanatory diagram of an example of a paper white correction process in consideration of the apparatus reproduction start value. FIG. 10 (A) is shown in FIG. 7 (A) and FIG. 9 (A), and the change in the target absolute color value information is indicated by a solid line, and the change in the target paper white value information is indicated by a bold line. . 10B, the change in the apparatus absolute color value information indicated by the solid line and the change in the apparatus absolute color value information subjected to the paper white correction by the medium / high density absolute technique indicated by the broken line are illustrated in FIG. ) And FIG. 9B are indicated by a solid line and a thick line, respectively.

  When performing calibration in consideration of the device reproduction start value on the calibration output device side, basically, the color value output by giving the reproduction start setting value at the target output device is reproduced with the reproduction start value in the calibration output device. It suffices to calibrate so that For example, in FIG. 10, the color value ε output with the color value S that is the reproduction start setting value in the target output device cannot be the color value that is output by giving the color value U that is the device reproduction start value with the calibration output device. That's fine.

  For this process, the device reproduction start value information acquisition unit 6 acquires the color value ε output when the color value S that is the reproduction start setting value in the target output device is given, and the device in the calibration output device. A color value U that is a reproduction start value is acquired. The color value ε may be obtained from the color value S that is the reproduction start setting value using the target paper white value information.

  The device color value paper white correction unit 5 performs paper white correction on the device absolute color value information so that the color value after paper white correction at the device reproduction start value U becomes the color value ε, and the device paper white color is corrected. Get value information. Changes in the obtained device paper white value information are indicated by bold lines in FIG.

  As described above, in the medium / high density absolute technique, the color value information before the paper white correction in the highlight portion, and the color value information obtained by performing the paper white correction using the relative conversion technique on the color value information, for example, 6 was synthesized according to the synthesis ratio shown in FIG. Again, if the composition ratio is set so that the color value ε can be obtained with the apparatus reproduction start value U, the apparatus paper white value information can be obtained.

  FIG. 11 is an explanatory diagram of an example of a composition ratio when obtaining device paper white value information. In the example shown in FIG. 11, the paper white value (distance = 0) is obtained from the color value obtained from the apparatus absolute color value information (absolute) and the apparatus absolute color value information corrected using the relative conversion technique. The composition ratio with the color value (relative and notation) is set to 0: 100, and the color value with the distance Dcov is set to the composition ratio 100: 0. : Q is set. The composition ratio is set by linear conversion in the range where the distance is 0 or more and U or less, and the composition ratio is also set by linear conversion in the range where the distance is U or more and Dcov or less. A device paper white value obtained by combining the value obtained from the device absolute color value information according to this composition ratio and the value obtained from the device absolute color value information corrected using the relative conversion technique, and correcting the device absolute color value information by paper white. Find information.

  Using the target paper white value information indicated by the thick line in FIG. 10A and the apparatus paper white value information indicated by the thick line in FIG. 10B, the obtained coefficient for calibration (function for calibration) is obtained. This is shown in FIG. For example, when the color value S is given, the color value after paper white correction in the target output device is the color value ε from the target paper white value information indicated by a thick line in FIG. In order to output the color value ε by the calibration output device, the color value U may be given from the curve of the device paper white value information indicated by the thick line in FIG. That is, when the color value S is given, if it is corrected to the color value U and given to the calibration output device, the color value ε that is the output from the target output device can be obtained. In this case, in the target output device, the color change from the paper white is visually recognized with the color value S that is the reproduction start setting value, but also in the calibration output device, the corrected color value U is the device reproduction start value. The color change from paper white will be visually recognized. Information indicating the correspondence relationship between the given color signal and the corrected color signal shown in FIG. 10C may be obtained by the color calibration coefficient calculation unit 3 as a coefficient for calibration. For example, information obtained for calibration conventionally may be calculated, such as calculating a coefficient representing a function or a coefficient for calibration in the form of a correspondence table.

  In the above description of the first modification and the second modification, the case where the medium / high density absolute technique is used as the basic paper white correction method has been described. However, the present invention is not limited to this, and as a paper white correction method, for example, a relative conversion technique may be used as a basis. In that case, in the second modification, the corrected value at the apparatus reproduction start value in the calibration output device is set to the value after the correction at the reproduction start setting value in the target output device, and the conversion ratio before and after that is set. Change it. Of course, other paper white correction techniques may be corrected so as to match the correction values at the reproduction start point.

  FIG. 12 is a block diagram showing a second embodiment of the color calibration coefficient calculation apparatus of the present invention. In the figure, 11 is a target paper white correction unit, 12 is a target reproduction start value information acquisition unit, 13 is a target paper white value information conversion unit, 14 is an apparatus paper white correction unit, and 15 is a color calibration coefficient calculation unit. In the above-described first embodiment, correction for performing color reproduction at a preset reproduction start setting value is performed on the target absolute color value information. In the second embodiment, An example is shown in which target paper white value information, which is target absolute color value information after paper white correction, is performed. The given target absolute color value information and apparatus absolute color value information are as described in the first embodiment.

  The target paper white correction unit 11 performs paper white correction on the target absolute color value information to obtain target paper white value information. The paper white correction method may be selected from various techniques such as a relative conversion technique and a medium / high density absolute technique.

  The target reproduction start value information acquisition unit 12 obtains a reproduction start value that is a value at which color reproduction is visually recognized by changing the color value given by the target output device from paper white based on the target absolute color value information. In addition to the reproduction start value, the color value after paper white correction output corresponding to the target reproduction start value is acquired from the target paper white value information obtained by the target paper white correction unit 11.

  The target paper white value information conversion unit 13 has a color value corresponding to a predetermined reproduction start setting value of the target output device and a color value corresponding to the target reproduction start value acquired by the target reproduction start value information acquisition unit 12. In this way, the target paper white value information obtained by the target paper white correction unit 11 is converted.

  The device paper white correction unit 14 corrects paper white for the device absolute color value information to obtain device paper white value information. The paper white correction method may be a method used in the target paper white correction unit 11, and a relative conversion technique, a medium / high density absolute technique, or the like may be used.

  The color calibration coefficient calculation unit 15 calibrates the color value to be given to the calibration output device from the target paper white value information converted by the target paper white value information conversion unit 13 and the device paper white value information obtained by the device paper white correction unit 14. The coefficient to do is calculated. The coefficient calculation method may be a conventional method. For example, the coefficient may be calculated by matching the converted target paper white value information and apparatus paper white value information.

  FIG. 13 is an explanatory diagram showing an example of the operation in the second embodiment of the color calibration coefficient calculation apparatus of the present invention. Here, as a specific example, the description will be made assuming that the paper white correction is performed using the medium-high density absolute technique.

  In FIG. 13A, the change in the target absolute color value information is indicated by a solid line, the change in the target absolute color value information corrected by paper white using the relative conversion technique is indicated by a thin line, and the paper white using the medium-high density absolute technique. A change in the corrected target absolute color value information is indicated by a broken line. The paper white correction by the medium / high density absolute technique is as described above with reference to FIGS. 5 and 6. The target absolute color value information and the relative conversion technique are set within the range of the color value Dcov determined in advance from the paper white. The target absolute color value information that has been subjected to the paper white correction is synthesized by a predetermined synthesis ratio, for example, the synthesis ratio shown in FIG. The target paper white correction unit 11 performs paper white correction on such target absolute color value information to obtain target paper white value information.

  The target reproduction start value information acquisition unit 12 first obtains a target reproduction start value based on the target absolute color value information. In this example, it is assumed that a color value R is obtained. Further, the color value after paper white correction output corresponding to the color value R which is the target reproduction start value is acquired from the target paper white value information obtained by the target paper white correction unit 11. In this example, it is assumed that the color value ζ corresponding to the color value R is acquired from the target paper white value information indicated by the broken line.

  In the target paper white value information conversion unit 13, the color value corresponding to the preset reproduction start setting value of the target output device is the color value corresponding to the target reproduction start value acquired by the target reproduction start value information acquisition unit 12. In this way, the target paper white value information obtained by the target paper white correction unit 11 is converted. Here, the reproduction start setting value is the color value S, and the target paper white color is set so that the color value corresponding to the color value S becomes the color value ζ after paper white correction corresponding to the color value R that is the target reproduction start value. Value information will be converted. In the example shown in FIG. 13A, the color value η corresponding to the color value S obtained from the target paper white value information is converted into the color value ζ. In the range from paper white to color value S, the conversion amount is gradually reduced toward paper white, and in the range from color value S to color value Dcov, the conversion amount is decreased toward color value Dcov. Changes in the obtained target paper white value information after conversion are indicated by thick lines in FIG.

  If such conversion is performed, the color difference after paper white correction at the color value R that is the target reproduction start value, that is, the color difference between the reference paper white value and the color value ζ is the color value S that is the reproduction start setting value. Has been obtained. The color difference between the reference paper white value and the color value ζ is the color difference when the reproduction start color difference ΔE in the target absolute color value information is corrected for paper white. Since this color difference is obtained with the color value S, color value information in which the color difference with the paper white is visually recognized in the color value S is obtained.

  On the other hand, the device paper white correction unit 14 corrects paper white for the device absolute color value information to obtain device paper white value information. It is also assumed that the paper white correction is performed using the medium / high density absolute technology for the apparatus absolute color value information. In FIG. 13B, the change in the apparatus absolute color value information is indicated by a solid line, the change in the apparatus absolute color value information corrected by the relative conversion technique is indicated by a thin line, and the paper white correction is performed by using the medium / high density absolute technique. Changes in the device absolute color value information (device paper white value information) are indicated by bold lines.

  The color calibration coefficient calculation unit 15 calibrates the color value to be given to the calibration output device from the target paper white value information converted by the target paper white value information conversion unit 13 and the device paper white value information obtained by the device paper white correction unit 14. The coefficient to do is calculated. In this example, the target paper white value information after conversion indicated by a thick line in FIG. 13A and the apparatus paper white value information indicated by a thick line in FIG. ) As a coefficient for calibration.

  For example, for the color value S, as the color value after paper white correction that is output when the color value S is given to the target output device, from the converted target paper white value information indicated by a thick line in FIG. A color value ζ is obtained. Since the color value ζ is output from the calibration output device, the color value V is obtained when the color value to be given to the calibration output device is obtained from the device paper white value information indicated by the thick line in FIG. Become. If the relationship between the color value S and the color V is acquired for other color values, the correspondence between the color value given to the target output device and the color value given to the calibration output device can be understood. A coefficient for calibration may be used. This correspondence is shown in FIG.

  Although the above description has been made assuming that the medium / high density absolute technique is used as the paper white correction method, it goes without saying that other paper white correction techniques such as a relative conversion technique may be used.

  FIG. 14 is a block diagram showing a modification of the second embodiment of the color calibration coefficient calculation apparatus of the present invention. In the figure, reference numeral 16 denotes an apparatus reproduction start value information acquisition unit. This modification is an example that also considers the reproduction start value in the output device to be calibrated described in the second modification in the first embodiment.

  The apparatus reproduction start value information acquiring unit 16 acquires, as the apparatus reproduction start value, a value at which color reproduction is visually recognized by changing the color value given by the calibration output apparatus from paper white based on the apparatus absolute color value information. The correction value at the reproduction start setting value is acquired from the target paper white value information obtained by the target paper white correction unit 11.

  The device paper white correction unit 14 basically performs paper white correction on the device absolute color value information to obtain device paper white value information. The corrected value at the device reproduction start value is Paper white correction is performed on the apparatus absolute color value information so as to obtain a correction value at the reproduction start setting value, thereby obtaining apparatus paper white value information.

  FIG. 15 is an explanatory diagram showing an example of the operation in the modification of the second embodiment of the color calibration coefficient calculation apparatus of the present invention. Here, a specific example will be described on the assumption that the medium / high density absolute technique is used for the paper white correction method. FIG. 15A shows the change in the target absolute color value information by a solid line, and the change in the target paper white value information after the conversion by a bold line. In addition, regarding the change in the apparatus absolute color value information indicated by the solid line in FIG. 15B and the change in the apparatus absolute color value information subjected to the paper white correction by the medium / high density absolute technique indicated by the broken line, FIG. ) Are indicated by a solid line and a thick line, respectively.

  In FIG. 15B, when the target output device obtains the color difference ΔE from the paper white to the reproduction start value by the calibration output device, the color value (device reproduction start value) given to the calibration output device is the color value U and the color value. A color value output by giving U is shown as a color value δ.

  As described in the second modification of the first embodiment of the present invention, when performing calibration in consideration of the device reproduction start value on the calibration output device side, basically, the reproduction start setting value is set in the target output device. May be calibrated so that the color value output with the value is reproduced at the reproduction start value in the calibration output device. For example, in FIG. 15, the corrected color value ζ corresponding to the color value S, which is the reproduction start setting value in the target output device, is output by giving the color value U, which is the device reproduction start value, in the calibration output device. If it becomes.

  For this processing, the apparatus reproduction start value information acquisition unit 16 acquires the corrected color value ζ corresponding to the color value S that is the reproduction start setting value in the target output apparatus, and starts apparatus reproduction in the calibration output apparatus. The color value U which is a value is acquired. The color value ζ may be obtained from the color value S that is the reproduction start setting value using the target paper white value information. Alternatively, the color value ζ corresponding to the color value S may be obtained using the target paper white value information converted by the target relative paper white value information conversion unit 13.

  The device paper white correction unit 14 performs paper white correction on the device absolute color value information so that the color value after the paper white correction at the color value U, which is the device reproduction start value, becomes the color value ζ. Get paper white value information. Changes in the obtained device paper white value information are indicated by bold lines in FIG. When obtaining the device paper white value information, for example, the paper white correction is performed by the composition ratio shown in FIG. 11 by the device absolute color value information shown by the solid line in FIG. 15B and the relative conversion technique shown by the thin line. What is necessary is just to synthesize | combine apparatus absolute color value information.

  Using the converted target paper white value information indicated by a thick line in FIG. 15A and the apparatus paper white value information indicated by a thick line in FIG. 15B, a coefficient for calibration (for calibration) Function) is shown in FIG. For example, when the color value S is given, the color value after paper white correction in the target output device is the color value ζ from the converted target paper white value information indicated by a thick line in FIG. In order to output the color value ζ by the calibration output device, the color value U may be given from the curve of the device paper white value information indicated by the thick line in FIG. That is, when the color value S is given, if the color value U is corrected and given to the calibration output device, the color value ζ that is the output from the target output device is obtained. In this case, in the target output device, the color change from the paper white is visually recognized with the color value S that is the reproduction start setting value, but also in the calibration output device, the corrected color value U is the device reproduction start value. The color change from paper white will be visually recognized. Information indicating the correspondence between the given color signal and the corrected color signal shown in FIG. 15C may be obtained by the color calibration coefficient calculation unit 15 as a coefficient for calibration. For example, information obtained for calibration conventionally may be calculated, such as calculating a coefficient representing a function or a coefficient for calibration in the form of a correspondence table.

  In the description of the modification of the second embodiment, the case where the medium / high density absolute technique is used as the basic paper white correction method has been described. Not limited to this, it is needless to say that other paper white correction techniques such as a relative conversion technique may be used as the paper white correction method.

  FIG. 16 is a block diagram showing an embodiment of the color conversion apparatus of the present invention. In the figure, 21 is a color conversion unit, and 22 is a correction unit. The color conversion unit 21 uses, as basic information, a set of color value information obtained by pairing a color signal given to an output device and an output color, and using a color conversion model created based on the basic information, Perform conversion. As the color value information, for example, a color signal is given to the output device, and the color output from the output device is measured to obtain a pair of the given color signal and the colorimetric value. This pair may be color value information. The color signal may be various color signals in a color space depending on an output device such as CMY, CMYK, and RGB, and the colorimetric value is a color value in a color space independent of the device. Here, as an example, the CIELAB color space is used. However, the color value is not limited to this. From the color value information, a correspondence relationship from the color signal of the color space depending on the output device to the color value of the color space independent of the device is obtained. In the color conversion model, a model for obtaining the color signal of the color space depending on the output device from the color value of the color space independent of the device is created using the relationship of the color value information in reverse. The target absolute color value information used in the first and second embodiments of the color calibration coefficient calculation apparatus of the present invention described above may be used as basic information. Various methods have been proposed for creating a color conversion model from basic information, and any method may be used. As an example, a method using weighted regression calculation described in JP-A-10-262157 may be used.

  The correction unit 22 uses the output device that actually outputs the color as the calibration output device, and the coefficient for calibration calculated by the method described in the first and second embodiments of the color calibration coefficient calculation device of the present invention. Is used to correct the color conversion result by the color conversion unit 21.

  In the calibration described above, the color value in the device-independent color space is given to the color conversion unit 21 and converted into a color signal in a color space depending on the output device. The color signal is corrected by the correction unit 22 and passed to the output device to output a color. As described in the first and second embodiments of the color calibration coefficient calculation device of the present invention, the correction unit 22 corrects the output characteristics of the target output device and reproduces the color at the reproduction start set value. Is corrected, and a color output calibrated so that the target output device reproduces the color at the reproduction start setting value is obtained.

  As described above, the correction unit 22 corrects the color reproduction with the output characteristics of the target output device and the reproduction start setting value. However, depending on the conversion error when the color conversion unit 21 performs color conversion, the correction unit 22 In some cases, the intended correction may not be performed. Therefore, the color conversion model used in the color conversion unit 21 is preferably created so that the conversion error is smaller than usual in the highlight portion so that the intention of correction by the correction unit 22 is reflected.

  FIG. 17 is an explanatory diagram of an example of basic information and a conversion result in an example of a color conversion model. As an example of a method for obtaining a color conversion model, for example, a method based on weighted regression is used, the color value information of the basic information is indicated by a circle, the weight function to be used is indicated by a solid line, and the conversion result obtained by the obtained color conversion model is An example is indicated by a bold line.

  FIGS. 17A and 17B show an example of color value information and conversion results when the weight function is uniformly used, and the highlighted portion surrounded by a circle in FIG. 17A is shown in FIG. This is shown in (B). In the method based on the weighted regression calculation, variation in colorimetric values is suppressed by weighting each color value information. For this reason, as shown in FIG. 17B, even if the given color value information is correct, the change in the conversion result using the color conversion model does not pass through the color value information, and an error occurs.

  When correcting up to the color reproduction at the above reproduction start value, it is preferable to reduce the color conversion error at least for the highlight portion as compared with the case shown in FIGS. For example, a color conversion model may be created by adding color value information to a highlight portion. FIG. 17C shows a case where color value information is added, and the influence of the added color value information is also reflected in the weighted regression calculation. Therefore, the conversion result by the color conversion model improves the followability with respect to each color value information and reduces errors as compared with the case where the color value information is not added.

  As another method, it is conceivable to change the weight function so as to follow each color value information at least in the highlight portion. For example, by making the half-value width of the weight function narrower than other than the highlight part, the influence of other color value information is reduced compared to the case where the weight function is not changed, and the conversion result by the color conversion model shows the color of the highlight part. Follows the value information. An example of this case is shown in FIG.

  When the weight function is changed, the result of conversion by the color conversion model is not stable as shown in FIG. 17E in the case where it is affected by the error of the colorimetric value or in the region where the color value information is smaller than the other color regions. There is a case to be followed. In such a case, the above-described method for adding color value information may be used in combination. As a result, the conversion result of the color conversion model without backlash shown in FIG.

  In this way, when creating a color conversion model, if you add color value information to the basic information and change the weight function at least in the highlight area, the highlight will be higher than when you do not do that. Conversion error in the part is reduced. Therefore, the correction unit 22 reflects not only the correction to the output characteristics of the target output device but also the color reproduction correction at the reproduction start set value, and the target output device is calibrated so that the color is reproduced at the reproduction start set value. Color output can be obtained.

  Here, we explained the case where a color conversion model was created using a method based on weighted regression, but also when creating a color conversion model using other methods, color value information was added for the highlighted part, Alternatively, it is preferable to improve the followability to the color value information and raise the color conversion accuracy more than other portions. In the configuration shown in FIG. 16, the color conversion unit 21 and the correction unit 22 are separately shown. However, a color conversion model including correction by the correction unit 22 may be created and color conversion may be performed. Needless to say.

  FIG. 18 shows a computer program when the functions described in the embodiments of the color calibration coefficient calculation apparatus and the color conversion apparatus according to the present invention are implemented by a computer program, and a storage medium storing the computer program. It is explanatory drawing of an example of a computer. In the figure, 31 is a program, 32 is a computer, 41 is a magneto-optical disk, 42 is an optical disk, 43 is a magnetic disk, 44 is a memory, 51 is a CPU, 52 is an internal memory, 53 is a reading unit, 54 is a hard disk, and 55 is An interface 56 is a communication unit.

  You may implement | achieve all or a part of function of each part demonstrated as each embodiment of the color calibration coefficient calculation apparatus of the above-mentioned this invention and color conversion apparatus with the program 31 which a computer runs. In this case, the program 31 and data used by the program may be stored in a storage medium that can be read by a computer. A storage medium is a signal of a corresponding signal that causes a change state of energy such as magnetism, light, electricity, etc., depending on the description content of the program, to the reading unit 53 provided in the hardware resource of the computer. The program description is transmitted to the reading unit 53 in a format. For example, there are a magneto-optical disk 41, an optical disk 42 (including a CD and a DVD), a magnetic disk 43, a memory 44 (including an IC card, a memory card, a flash memory, and the like). Of course, these storage media are not limited to portable types.

  The program 31 is stored in these storage media. For example, the storage medium 53 is attached to the reading unit 53 or the interface 55 of the computer 32, the program 31 is read from the computer, and the internal memory 52 or the hard disk 54 (magnetic disk or the like) is read. The functions described in the embodiments of the color calibration coefficient calculation apparatus and the color conversion apparatus according to the present invention described above are all or a part of the program. Is realized. Alternatively, the program 31 is transferred to the computer 32 via the communication path, and the computer 32 receives the program 31 by the communication unit 56 and stores it in the internal memory 52 or the hard disk 54, and the program 31 is executed by the CPU 51. Also good.

  In addition, various devices may be connected to the computer 32 via the interface 55. For example, an output device may be connected via the interface 55, and color reproduction may be performed by the output device based on a color signal subjected to color conversion and correction. In addition, for example, a receiving unit that receives information may be connected. Note that each component does not have to operate on one computer, and the processing may be executed by another computer depending on the processing stage. Of course, the function described as each embodiment of the color calibration coefficient calculation apparatus of the present invention and the function described as one embodiment of the color conversion apparatus of the present invention may be processed by different computers. Needless to say.

  DESCRIPTION OF SYMBOLS 1 ... Target reproduction start value information acquisition part, 2 ... Target absolute color value information conversion part, 3 ... Color calibration coefficient calculation part, 4 ... Target paper white correction part, 5 ... Device paper white correction part, 6 ... Device reproduction start value Information acquisition unit, 11 ... target paper white correction unit, 12 ... target reproduction start value information acquisition unit, 13 ... target paper white value information conversion unit, 14 ... device paper white value correction unit, 15 ... color calibration coefficient calculation unit, 16 ... Device reproduction start value information acquisition unit, 21 ... color conversion unit, 22 ... correction unit, 31 ... program, 32 ... computer, 41 ... magneto-optical disc, 42 ... optical disc, 43 ... magnetic disc, 44 ... memory, 51 ... CPU, 52 ... Internal memory, 53 ... Reading unit, 54 ... Hard disk, 55 ... Interface, 56 ... Communication unit.

Claims (8)

  The color value to be given by the target output device is changed from paper white based on the target absolute color value information in which the color value to be given to the target output device which is the calibration target output device is associated with the output color value. An acquisition unit that acquires a color value that is output corresponding to a reproduction start value that is a value at which color reproduction is visually recognized, and a color value that corresponds to a preset reproduction start setting value is obtained by the acquisition unit. A conversion unit that converts the target absolute color value information so as to obtain a color value corresponding to a reproduction start value; Color given by the calibration output device based on the device absolute color value information in which the target paper white correction means for obtaining information and the color value given to the calibration output device as the calibration target output device are associated with the output color value Change the value from paper white to a value that allows color reproduction to be visually recognized. A reproduction start value information acquisition unit that acquires the correction value at the reproduction start setting value from the target paper white value information obtained by the target paper white correction unit and that is acquired as a reproduction start value, and correction at the device reproduction start value Device paper white correction means for correcting device white color to the device absolute color value information so as to obtain device paper white value information so that a later value becomes a correction value at the reproduction start setting value, and the target paper white The correction output unit provides the calibration output device with the target paper white value information obtained from the target absolute color value information and the device paper white value information obtained from the device absolute color value information with the device paper white correction unit. A color calibration coefficient calculation apparatus comprising coefficient calculation means for calculating a coefficient for calibrating a color value.   Target paper white to obtain target paper white value information by correcting paper white for target absolute color value information in which color signals to be output to a target output device, which is a calibration target output device, and output color values Based on the target absolute color value information, the color value given by the target output device is changed from paper white to obtain a reproduction start value that is a value at which color reproduction is visually recognized, and corresponds to the reproduction start value Acquisition means for acquiring the color value to be output from the target paper white value information, and the reproduction start obtained by the acquisition means with a color value corresponding to a predetermined reproduction start setting value of the target output device The absolute color of the device in which the conversion means for converting the target paper white value information so as to be the color value corresponding to the value, and the color value to be given to the calibration output device which is the output device to be calibrated are associated with the output color value Paper white correction is performed on the value information and the device paper white Color given to the calibration output device from the apparatus paper white correction means for obtaining value information, the target paper white value information obtained by the target paper white correction means, and the apparatus paper white value information obtained by the apparatus paper white correction means A color calibration coefficient calculation apparatus comprising coefficient calculation means for calculating a coefficient for calibrating a value.   Based on the device absolute color value information, the color value given by the calibration output device is changed from paper white to obtain a value at which color reproduction is visually recognized as the device reproduction start value and obtained by the target paper white correction means Reproduction start value information acquisition means for acquiring a correction value at the reproduction start setting value from target paper white value information, and the apparatus paper white correction means has a value after correction at the apparatus reproduction start value as the reproduction. 3. The color according to claim 2, wherein the device paper white value information is obtained by performing paper white correction on the device absolute color value information so as to obtain a correction value at a start setting value. Calibration coefficient calculation device.   Color conversion means for performing color conversion using a color conversion model created on the basis of a set of color value information obtained by pairing color signals provided to an output device and output colors as basic information; The color conversion result by the color conversion unit is corrected using the calibration coefficient calculated by the color calibration coefficient calculation device according to any one of claims 1 to 3 with the output device as a calibration target. A color conversion apparatus comprising correction means for performing the correction.   The color conversion apparatus according to claim 4, wherein the color conversion model is created by adding color value information of a highlight portion to the basic information.   6. The color conversion apparatus according to claim 4 or 5, wherein the color conversion model is such that the highlight portion is made to follow color value information more than other regions.   A color calibration coefficient calculation program for causing a computer to execute the function of the color calibration coefficient calculation apparatus according to any one of claims 1 to 3.   A color conversion program for causing a computer to execute the function of the color conversion apparatus according to any one of claims 4 to 6.

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