JP2006270518A - Color data processing method, color data processing system, color data processing program, and recording medium with the same recorded thereon - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily process color data while reducing varying of a hue of color data. <P>SOLUTION: Equal hue curved surface data consists of a plurality of pieces of sample data on an equal hue curved surface crossing with an a*b* plane by a crossing curved line P and extending in the direction of an achromatic axis (L*). For example, one of pieces of sample data having a saturation (intermediate saturation) between sample data of the highest saturation of the equal hue curved surface data and color data on an a chromatic axis is selected from the equal hue curved surface data, and sample data corresponding to a part extending nearly linearly in the direction of high saturation from the a chromatic axis of the crossing curved line P is selected as selected data Q. A half plane including the selected sample data and the a chromatic axis is set to be a reference half plane for correction, and a hue angle of the sample data is corrected to the reference half plane and thereafter mapped. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a color data processing method for processing color data, a color data processing system, a color data processing program, and a recording medium recording the same.

  There is known a color gamut mapping apparatus that maps a color reproduced by one device to a color within the color gamut of the other device when the color is reproduced by a plurality of devices having different color gamuts. In this kind of color gamut mapping device, the color signal on the curved surface of the same hue including the achromatic color axis in the device-independent color space is corrected to the color signal on the half plane including the highest saturation color signal and the achromatic color axis. However, it is known to reduce the change in hue due to color gamut mapping (see Patent Document 1).

JP 2004-104777 A

  However, in the above-described conventional example, the color signal on the curved surface having the same hue is corrected to the color signal on the half plane including the highest saturation color signal and the achromatic color axis. There was a problem that perceptual uniformity could not be preserved sufficiently.

  Accordingly, the present invention provides a color data processing method, a color data processing system, a color data processing program, and a recording medium recording the same, which can easily process color data while reducing changes in the hue of the color data. The purpose is to provide.

  In order to achieve the above object, a first feature of the present invention is that color data having a lower saturation than color data of a predetermined saturation from among a plurality of color data having the same hue and at least a different saturation. The hue angle is set based on the selected color data and achromatic color data, the hue distortion of the plurality of color data is corrected with respect to the set hue angle, and the hue distortion is corrected. The color data processing method maps a plurality of color data to a plurality of color data belonging to a color gamut of a device having a predetermined color gamut. That is, since at least one color data having a lower saturation than the color data with the highest saturation is selected, hue distortion correction based on the color data with the highest saturation is not caused. In addition, since the hue distortion of a plurality of color data is corrected with respect to the hue angle, the color data belonging to the color gamut of a device having a predetermined color gamut can be reduced while reducing the hue of the color data. Can be easily mapped.

  The second feature of the present invention is that at least one color data having a saturation lower than the color data of a predetermined saturation is selected from a plurality of color data having the same hue and different saturations. A half plane is set based on the selected color data and the achromatic color axis, the hue distortion of the plurality of color data is corrected with respect to the set half plane, and the plurality of color data in which the hue distortion is corrected is obtained. The color data processing method maps to a plurality of color data belonging to the color gamut of a device having a predetermined color gamut. That is, since at least one color data having a lower saturation than the color data with the highest saturation is selected, hue distortion correction based on the color data with the highest saturation is not caused. In addition, the half plane based on the selected color data and the achromatic color axis is a half plane extending in the same hue direction from the achromatic color axis, and the hue distortion of the plurality of color data is corrected with respect to the same hue direction. It is possible to easily map the color data belonging to the color gamut of the device having the predetermined color gamut while reducing the change of the hue of the color data.

  Preferably, the half plane is set so that a correction amount for color data having a predetermined saturation or less is minimized. Preferably, the hue distortion of the plurality of color data is corrected while maintaining saturation and brightness. Preferably, the plurality of color data are data on a device-independent color space.

  Preferably, the plurality of color data are data on a uniform color space. Therefore, processing of a plurality of color data can be facilitated.

  Preferably, the plurality of color data corresponds to a color gamut of a predetermined device. Preferably, hue distortion of a plurality of color data is corrected for each of one or more identical hues.

  Preferably, a plurality of color data corrected for hue distortion is mapped onto a plurality of color data belonging to a color gamut of a device having a predetermined color gamut on a half line toward the achromatic color axis. Preferably, the color data mapped to a plurality of color data belonging to the color gamut of a device having a predetermined color gamut is color data having the same hue as the hue before hue distortion correction while maintaining at least the saturation. To. That is, mapping can be performed while maintaining the hue before the hue distortion correction.

  The third feature of the present invention is that at least one color data having a lower saturation than the color data having a predetermined saturation is selected from a plurality of color data having the same hue and different saturations. Selection means, hue angle setting means for setting a hue angle based on the color data selected by the selection means and achromatic color data, and a plurality of color data for the hue angle set by the hue angle setting means Correction means for correcting the hue distortion, and mapping means for mapping the plurality of color data corrected by the correction means to the plurality of color data belonging to the color gamut of the device having a predetermined color gamut. It has a color data processing system.

  The fourth feature of the present invention is that at least one color data having a lower saturation than the color data having a predetermined saturation is selected from a plurality of color data having the same hue and different saturations. Selection means, color data selected by the selection means, a half plane setting means for setting a half plane based on the achromatic color axis, and a plurality of color data for the half plane set by the half plane setting means Correction means for correcting the hue distortion, and mapping means for mapping the plurality of color data corrected by the correction means to the plurality of color data belonging to the color gamut of the device having a predetermined color gamut. It has a color data processing system.

  Preferably, the half plane setting unit sets the half plane so that the correction amount corrected by the correction unit is minimized with respect to color data having a predetermined saturation or less.

  Preferably, the correction unit corrects hue distortion of a plurality of color data while maintaining saturation and brightness. Preferably, the plurality of color data selected by the selection means is data in a device-independent color space. Preferably, the plurality of color data selected by the selection means is data in a uniform color space. Preferably, the plurality of color data selected by the selection unit corresponds to a color gamut of a predetermined device. Preferably, the correction unit corrects hue distortion of a plurality of color data for each of one or more same hues.

  Preferably, the mapping means maps the color data on a half line toward the achromatic color axis. Preferably, the apparatus further includes reverse correction means for converting the color data mapped by the mapping means into color data having the same hue as the hue before hue distortion correction while maintaining at least saturation.

  The fifth feature of the present invention is that at least one color data having a saturation lower than the color data of a predetermined saturation is selected from a plurality of color data having the same hue and different saturations. A step of setting a half plane based on the selected color data and the achromatic color axis, a step of correcting hue distortion of the plurality of color data with respect to the set half plane, and correcting hue distortion There is a color data processing program for causing a computer to execute a step of mapping the plurality of color data to a plurality of color data belonging to a color gamut of a device having a predetermined color gamut.

  The sixth feature of the present invention is that at least one color data having a saturation lower than that of a predetermined saturation is selected from a plurality of color data having the same hue and at least a different saturation. A step of setting a half plane based on the selected color data and the achromatic color axis, a step of correcting hue distortion of the plurality of color data with respect to the set half plane, and correcting hue distortion And a step of mapping the plurality of color data to a plurality of color data belonging to a color gamut of a device having a predetermined color gamut. .

  According to the present invention, it is possible to easily process color data while reducing changes in the hue of the color data.

Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows an outline of a color data processing system 1 according to an embodiment of the present invention. The color data processing system 1 is configured, for example, by connecting a control device 2 to an image output unit 4 via a network 3 and has, for example, full-color image processing and image forming functions. The image output unit 4 includes a plurality of image output devices, and includes, for example, printing devices 40-1 and 40-2 and a display device 42. The printing devices 40-1 and 40-2 and the display device 42 have different color gamuts (color gamuts), and output color images under the control of the control device 2.

In FIG. 2, the structure of the control apparatus 2 is shown.
The control device 2 is, for example, a PC (Personal Computer) or the like, and includes an input unit 20, a display unit 22, a storage unit 24, a communication unit 26, and a control device main body 28. For example, the control device 2 includes a recording medium 240 such as a CD-ROM. The image output unit 4 is controlled by operating the supplied software. The input unit 20 includes input devices such as a keyboard and a mouse, and accepts user instructions to the color data processing system 1. The display unit 22 is a CRT display device or an LCD display device, and displays the processing result in the control device 2 and a signal received from the image output unit 4. The display unit 22 and the display device 42 have different color gamuts.

  The storage unit 24 is a program for controlling each unit constituting the color data processing system 1, a database such as profiles of the display unit 22 and the image output unit 4, settings for the color data processing system 1, and data created by the control device 2. Memorize etc. The communication unit 26 connects the image output unit 4 and the control device main body 28 via the network 3. The control device main body 28 includes a CPU 280 and a memory 282, and controls each part constituting the control device 2.

Next, an example of a color data processing program executed by the control device 2 will be described.
FIG. 3 is a program configuration diagram showing the configuration of the hue angle correction data calculation program 5 executed by the control device 2.
FIG. 4 is an a ^* b ^* plane example of the L ^* a ^* b ^* color system (CIELAB) showing an example of color data processing by the hue angle correction data calculation program 5.
As shown in FIG. 3, the hue angle correction data calculation program 5 includes, for example, an equi-hue curved surface data acquisition unit 50, a medium saturation data selection unit 52, a reference half plane (hue angle) setting unit 54, and a discrete correction vector calculation unit 56. , A profile database 60 and a uniform hue database 62.
The profile database 60 is a database including profiles of the display unit 22, the printing devices 40-1 and 40-2, and the display device 42, and is stored in the storage unit 24, for example. The equal hue database 62 is a database including a plurality of equal hue data obtained by a perception experiment for each hue, for example, and is stored in the storage unit 24, for example.

The uniform hue curved surface data acquisition unit 50 accepts the profile of the device (first device) such as the display unit 22 from the profile database 60 and accepts the uniform hue data from the uniform hue database 62, for example, to the color gamut of the first device. A plurality of equi-hue curved surface data is acquired and output to the intermediate saturation data selection unit 52, the reference half plane setting unit 54, the discrete correction vector calculation unit 56, and the like. As shown in FIG. 4, the equi-hue curved surface data is composed of a plurality of sample data on the equi-hue curved surface that intersects the a ^* b ^* plane at the intersection curve P and extends in the achromatic axis direction (L ^* ). .

  The intermediate saturation data selection unit 52 has a saturation (intermediate saturation) between the sample data of the highest saturation of the equi-hue surface data and the color data on the achromatic color axis in accordance with, for example, designation by the user. One of the sample data is selected from the equi-hue curved surface data, for example, and is output to the reference half-plane setting unit 54. As illustrated in FIG. 4, when the equi-hue curved surface data is composed of four sample data, the intermediate chroma data selection unit 52 extends substantially linearly from the achromatic color axis of the intersecting curve P in the high chroma direction, for example. The sample data corresponding to the portion is selected as selection data Q. The selection data Q is, for example, sample data on the low saturation side on the uniform hue curved surface.

The reference half plane setting unit 54 sets a half plane including the sample data selected by the intermediate saturation data selection unit 52 and the achromatic color axis as a reference half plane R for correction, and the discrete correction vector calculation unit 56 Output. That is, the intersection line of the reference half plane R and the a ^* b ^* plane is a half line having the same hue angle as the hue angle θ of the selection data Q, and the selection data Q corrects the hue angle of the equi-hue curved surface data. Therefore, the equi-hue curved surface and the reference half-plane R are common to the reference lightness and reference saturation.

  The discrete correction vector calculation unit 56 is a discrete correction vector that is correction data for correcting each sample data constituting the equi-hue curved surface data so as to move on the reference half-plane R while maintaining the saturation and brightness. Is calculated and output as a correction vector group.

FIG. 5 shows a process (S10) in which the control device 2 uses the hue angle correction data calculation program 5 to map the color gamut of the first device to the color gamut of the second device. Here, for example, the first device is the display unit 22 of the control device 2, the second device is the printing device 40-1, and the device-independent color space for color gamut mapping is the L ^* a ^* b ^* color space. The color space of the display unit 22 is, for example, RGB, and the color space of the printing apparatus 40-1 is, for example, CMYK.

  As shown in FIG. 5, in step 100 (S <b> 100), the control device 2 sets the color gamut of the first device that is the source of the color gamut mapping, for example, as the color gamut of the display unit 22.

In step 102 (S102), the control device 2 accepts the profile of the display unit 22 from the profile database 60 and accepts the equal hue data from the equal hue database 62, whereby L ^* a ^* corresponding to the color gamut of the first device ^. b ^* Acquire a plurality of equi-hue curved surface data in the color space.

  In step 104 (S104), the control device 2 determines the saturation (medium saturation) between the sample data of the highest saturation of the equi-hue surface data and the color data on the achromatic color axis in accordance with, for example, designation by the user. Are selected one by one from each of the equi-hue curved surface data.

  In step 106 (S106), the control device 2 sets half planes including the sample data selected by the intermediate saturation data selection unit 52 and the achromatic color axis as reference half planes R for correction.

  In step 108 (S108), the control device 2 uses correction data for correcting the sample data constituting the equi-hue curved surface data so as to move on the reference half plane R while maintaining the saturation and brightness. A discrete correction vector is calculated and output as a correction vector group.

  In step 110 (S110), the control device 2 uses the equi-hue curved surface data and the correction vector group to maintain saturation and lightness so that each sample data on the equi-hue curved surface moves on the reference half plane R. However, correction is performed so that the hue angle of each sample data is substantially the same as the hue angle θ of the selection data Q (hue angle correction).

In step 112 (S112), the control device 2 maps the sample data whose hue angle is corrected to color data belonging to the color gamut of the second device.
As shown in FIG. 6, the control device 2 compresses (changes saturation) the sample data corrected for the hue angle outside the color gamut of the second device, for example, toward the achromatic color axis, and out of the color gamut of the second device. Map to Guo color data. Further, the control device 2 does not change the saturation, for example, with respect to the sample data whose hue angle is within the color gamut of the second device.

In step 114 (S114), the control device 2 performs reverse correction so that each of the sample data subjected to hue angle correction moves on the equi-hue curved surface while maintaining the saturation and brightness (hue angle reverse correction).
As shown in FIG. 7, for example, in the process of S <b> 112, sample data whose saturation has not been changed (sample data in the color gamut of the second device before mapping) is returned to color data before hue angle correction. In addition, the color data whose saturation is changed by mapping is changed to color data on an equi-hue curved surface while maintaining the saturation and brightness.
Here, the sample data returned to the color data before the hue angle correction uses an inverse vector (reverse correction vector) of the correction vector used for the hue angle correction in the hue angle reverse correction. For sample data whose saturation has been changed by mapping, for example, the control device 2 generates a uniform hue curved surface having substantially the same hue as that of the other sample data from the uniform hue database 62. The inverse correction vector for the color data on the equi-hue curved surface having substantially the same is calculated, and is changed to the color data on the equi-hue curved surface including other sample data.
In this way, the mapped color data corresponding to the sample data before the hue angle correction is configured as the hue angle reverse correction data.

In step 116 (S116), the control device 2 accepts the profile of the printing device 40-1 from the profile database 60, and converts the hue angle reverse correction data from the data in the L ^* a ^* b ^* color space to the data in the CMYK color space. Convert each one.

  As described above, when the color gamut (color reproduction gamut) of the first device is mapped to the color gamut of the second device, the reference half plane R for a plurality of hues is set, and each of the plurality of reference half planes R is set. By performing the hue angle correction, the hue of the color data of the first device can be substantially retained, the perceptual uniformity can be substantially retained, and the color gamut can be easily mapped.

Further, the hue angle correction is performed on the color data of the first device or the arbitrary color data and the color data of the second device, so that the color gamut of the first device is mapped to the color gamut of the second device. May be. The reference half plane R is set so that the sum of squares of the distances from a plurality of sample data on the low saturation side on the equi-hue curved surface is minimized in order to reduce the correction amount in the region where the hue distortion is small. May be. The hue angle correction and the hue angle reverse correction may be accompanied by a change in brightness. Furthermore, in the above embodiment, the device-independent color space is the L ^* a ^* b ^* color space (CIELAB). However, the present invention is not limited to this. For example, in the L ^* u ^* v ^* color space (CIELV) There may be.

1 is a configuration diagram illustrating an overview of a color data processing system according to an embodiment of the present invention. It is a block diagram which shows the structure of a control apparatus. 3 is a program configuration diagram showing a configuration of a hue angle correction data calculation program 5 executed by the control device 2. FIG. It is an a ^* b ^* plane example of the L ^* a ^* b ^* color system showing an example of color data processing by the hue angle correction data calculation program 5. It is a flowchart which shows the process (S10) by which the control apparatus 2 maps the color gamut of a 1st device to the color gamut of a 2nd device using the hue angle correction data calculation program 5. FIG. It is an a ^* b ^* plane example of the L ^* a ^* b ^* color system showing a mapping example in which sample data corrected for the hue angle outside the color gamut of the second device is mapped toward the achromatic color axis. L ^* a ^* b ^* a ^* b ^* plane of the color system showing a modified example in which the mapped sample data is changed to color data on a uniform hue curved surface before hue angle correction while maintaining saturation and lightness It is an example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Color data processing system 2 ... Control apparatus 20 ... Input part 22 ... Display part 24 ... Memory | storage part 240 ... Recording medium 26 ... Communication part 28 ... Control apparatus Body 280 ... CPU
282 ... Memory 3 ... Network 4 ... Image output unit 40-1, 40-2 ... Printing device 42 ... Display device 5 ... Hue angle correction data calculation program 50 ... etc. Hue curved surface data acquisition unit 52 ... medium saturation data selection unit 54 ... reference half plane setting unit 56 ... discrete correction vector calculation unit 60 ... profile database 62 ... equi-hue database

Claims (22)

  Select at least one color data whose saturation is lower than the color data of a predetermined saturation from a plurality of color data having the same hue and at least different saturation, and the hue based on the selected color data and achromatic color data A plurality of pieces of color data in which a hue is corrected by correcting a hue distortion of the plurality of color data with respect to the set hue angle, and the hue distortion is corrected; A color data processing method characterized by mapping to color data.   At least one color data having a lower saturation than the color data of a predetermined saturation is selected from a plurality of color data having the same hue and at least a different saturation, and half of the color data is selected based on the selected color data and the achromatic color axis. A plane is set, the hue distortion of the plurality of color data is corrected with respect to the set half plane, and the plurality of color data corrected for the hue distortion is a plurality of colors belonging to the color gamut of a device having a predetermined color gamut. A color data processing method characterized by mapping to color data.   3. The color data processing method according to claim 2, wherein the half plane is set so that a correction amount for color data having a predetermined saturation or less is minimized.   4. The color data processing method according to claim 1, wherein the hue distortion of the plurality of color data is corrected while maintaining saturation and brightness.   5. The color data processing method according to claim 1, wherein the plurality of color data are data on a device-independent color space.   6. The color data processing method according to claim 1, wherein the plurality of color data are data on a uniform color space.   The color data processing method according to claim 1, wherein the plurality of color data corresponds to a color gamut of a predetermined device.   The color data processing method according to any one of claims 1 to 7, wherein hue distortion of a plurality of color data is corrected for each of one or more same hues.   2. A plurality of color data corrected for hue distortion is mapped onto a plurality of color data belonging to a color gamut of a device having a predetermined color gamut on a half line toward an achromatic color axis. 8. The color data processing method according to any one of 8.   The color data mapped to a plurality of color data belonging to the color gamut of a device having a predetermined color gamut is made color data having the same hue as the hue before hue distortion correction while maintaining at least saturation. The color data processing method according to claim 1.   A selection means for selecting at least one color data having a saturation lower than the color data of a predetermined saturation from among a plurality of color data having the same hue and at least a different saturation; and the color data selected by the selection means; And a hue angle setting means for setting a hue angle based on the achromatic color data, a correction means for correcting the hue distortion of a plurality of color data with respect to the hue angle set by the hue angle setting means, and the correction means A color data processing system comprising: mapping means for mapping a plurality of color data corrected for hue distortion to a plurality of color data belonging to a color gamut of a device having a predetermined color gamut.   A selection means for selecting at least one color data having a saturation lower than the color data of a predetermined saturation from among a plurality of color data having the same hue and at least a different saturation; and the color data selected by the selection means; And a half plane setting means for setting a half plane based on the achromatic color axis, a correction means for correcting the distortion of hues of a plurality of color data with respect to the half plane set by the half plane setting means, and the correction means A color data processing system comprising: mapping means for mapping a plurality of color data corrected for hue distortion to a plurality of color data belonging to a color gamut of a device having a predetermined color gamut.   13. The color according to claim 12, wherein the half-plane setting unit sets the half-plane so that the correction amount corrected by the correction unit is minimized with respect to color data having a predetermined saturation or less. Data processing system.   14. The color data processing system according to claim 12, wherein the correction unit corrects hue distortion of a plurality of color data while maintaining saturation and brightness.   15. The color data processing system according to claim 12, wherein the plurality of color data selected by the selection means is data in a device-independent color space.   16. The color data processing system according to claim 12, wherein the plurality of color data selected by the selection unit is data in a uniform color space.   17. The color data processing system according to claim 12, wherein the plurality of color data selected by the selection unit corresponds to a color gamut of a predetermined device.   18. The color data processing system according to claim 12, wherein the correction unit corrects hue distortion of a plurality of color data for each of one or more same hues.   19. The color data processing system according to claim 11, wherein the mapping unit maps the color data on a half line toward the achromatic color axis.   The color data mapped by the mapping means further comprises reverse correction means for making the color data of the same hue as the hue before the hue distortion correction while maintaining at least the saturation. The described color data processing system.   A step of selecting at least one color data having a lower saturation than the color data of a predetermined saturation from a plurality of color data having the same hue and different saturations, and based on the selected color data and the achromatic color axis A device having a predetermined color gamut, a step of setting a half plane, a step of correcting hue distortion of the plurality of color data with respect to the set half plane, and a plurality of color data corrected of hue distortion A color data processing program for causing a computer to execute a step of mapping to a plurality of color data belonging to a color gamut of the computer.   A step of selecting at least one color data having a lower saturation than the color data of a predetermined saturation from a plurality of color data having the same hue and different saturations, and based on the selected color data and the achromatic color axis A device having a predetermined color gamut, a step of setting a half plane, a step of correcting hue distortion of the plurality of color data with respect to the set half plane, and a plurality of color data corrected of hue distortion A computer-readable recording medium having recorded thereon a color data processing program for causing a computer to execute a step of mapping to a plurality of color data belonging to the color gamut.

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