JP4618152B2 - Color conversion apparatus, image forming system, and color conversion method - Google Patents

Description

  The present invention relates to a color conversion device, an image forming system, and a color conversion method for converting color data in order to reduce the amount of color material necessary for color reproduction.

  When a mode for reducing the amount of toner used is specified and an image is formed from RGB image data using CMYK toner, the lightness component or luminance component of the intermediate color space is made brighter than in the normal mode, or the saturation. A color image processing apparatus that realizes a reduction in the amount of toner used by correcting so as to lower the toner image is known (see Patent Document 1).

JP 2005-86289 A

  It is an object of the present invention to provide a color conversion device, an image forming system, and a color conversion method that can reduce the amount of color material necessary for color reproduction without narrowing the color reproduction range.

In order to achieve the above object, a first feature of the present invention is that a receiving unit that receives image data in the RGB color space, and the image data in the RGB color space that is received by the receiving unit are represented in the YMCK color space. When the conversion means for converting to image data and the image data in the YMCK color space converted by the conversion means are expressed by the same hue angle as the mixed color obtained by mixing two of Y, M and C, the YMCK color In the image data of the space, the tone value reducing means for reducing the gradation value of black together with the color complementary to the mixed color, the image data of the YMCK color space converted by the converting means, and the Inversion means for converting image data in the YMCK color space whose gradation value has been reduced by the gradation value reduction means into image data in a device-independent color space; and the inverse conversion means The device-independent color space image data converted from the YMCK color space image data and the device-independent color space image data converted from the YMCK color space image data whose gradation values are reduced by the inverse conversion means. A determination unit that determines whether or not a color difference from image data is less than a predetermined color difference threshold, and the gradation value reduction unit when the determination unit determines that the color difference is less than a predetermined color difference threshold Output means for outputting image data in the YMCK color space in which the gradation value is reduced by the color conversion device. Therefore, even if the reduced gradation value reduction means the color and black tone value having a complementary relationship to the mixed color, Runode can color difference less than a predetermined color difference threshold, the color gamut The amount of color material necessary for color reproduction can be reduced without narrowing.

Preferably, the gradation value reduction unit is configured to express the image data in the YMCK color space converted by the conversion unit with the same hue angle as a mixed color obtained by mixing two colors of Y, M, and C. In this case, in the image data in the YMCK color space, the black gradation value is reduced to 0 together with the color complementary to the mixed color . Therefore, it is possible to reduce the amount of color material necessary for color reproduction of a color complementary to the mixed color and black .

  Preferably, the determination means has a color difference threshold value of 3. Therefore, it is possible to reduce the amount of color material necessary for color reproduction without allowing a general user to identify a color difference.

According to a second aspect of the present invention, image data in the RGB color space is received, the received image data in the RGB color space is converted into image data in the YMCK color space, and the converted YMCK is converted. When the image data in the color space is expressed with the same hue angle as the mixed color obtained by mixing two of Y, M, and C, the image data in the YMCK color space has a complementary color relationship with the mixed color. Along with the color, the gradation value of black is reduced, and the converted image data in the YMCK color space and the image data in the YMCK color space with the reduced gradation value are converted into image data in a device-independent color space. , Device-independent color space image data converted from the YMCK color space image data, and device-independent color converted from the YMCK color space image data with reduced gradation values It is determined whether or not the color difference between the image data and the image data is less than a predetermined color difference threshold, and if it is determined that the color difference is less than the predetermined color difference threshold, the tone value is reduced in the YMCK color space. A color conversion method for outputting image data.

  According to the present invention, the amount of color material necessary for color reproduction can be reduced without narrowing the color gamut.

Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows an outline of an image forming system 1 according to an embodiment of the present invention. The image forming system 1 is configured, for example, by connecting a processing device 2 to a printing device 4 via a network 3. Under the control of the processing device 2, the printing device 4 uses, for example, an 8-bit floor on a recording medium such as paper using color materials such as toners of Y (yellow), M (magenta), C (cyan), and K (black). Prints a toned color image.
In the image forming system 1, the processing device 2 and the printing device 4 may be integrated.

In FIG. 2, the structure of the processing apparatus 2 is shown.
The processing 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 processing device body 28. The input unit 20 includes input devices such as a keyboard and a mouse, and accepts user instructions to the image forming system 1. The display unit 22 is a CRT display device or an LCD display device, and displays R (red), G (green), and B (blue-purple) image data for processing results in the processing device 2 and display of data received from the printing device 4. Depending on

  The storage unit 24 receives and stores, for example, a program for controlling each unit constituting the image forming system 1 and image data via the storage medium 240 or the communication unit 26. The communication unit 26 connects the printing apparatus 4 and the processing apparatus main body 28 via the network 3. The processing apparatus main body 28 has a CPU 280 and a memory 282 and controls each unit constituting the processing apparatus 2.

In FIG. 3, the configuration of the color conversion program 5 is shown.
The color conversion program 5 includes a first color space conversion unit 50, a second color space conversion unit 51, a first color space reverse conversion unit 52, a gradation value reduction processing unit 53, and a second color space reverse conversion unit. 54, a determination unit 55, a selector unit 56, and an output data creation unit 58, which are executed by the processing device 2 shown in FIGS.

The first color space conversion unit 50 receives the same image data as the RGB color space image data input to the display unit 22 (FIG. 2), and receives the CIELAB color space (CIE L ^*) which is a device-independent color space ^. a ^* b ^* color system) image data and output to the second color space conversion unit 51.
The second color space conversion unit 51 converts the image data of the L ^* a ^* b ^* color system input from the first color space conversion unit 50 into image data of the YMCK color space, and the first color space. The data is output to the inverse conversion unit 52, the gradation value reduction processing unit 53, and the selector unit 56.

The first color space inverse conversion unit 52 inversely converts the image data of the YMCK color space input from the second color space conversion unit 51 into image data of the L ^* a ^* b ^* color system, and the determination unit 55. Output for.

  The gradation value reduction processing unit 53 has a color with a small gradation value of a complementary color and a color other than black with respect to the image data in the YMCK color space input from the second color space conversion unit 51. The gradation value is reduced to, for example, 0, and the processed YMCK image data with the gradation value reduced is output to the second color space inverse conversion unit 54 and the selector unit 56. Further, when K (black) is included in image data with low lightness, the gradation value reduction processing unit 53 includes a color having a small gradation value of a complementary color included in the image data. The black gradation value may be reduced to 0, for example.

The second color space inverse transform unit 54 inversely transforms the image data of the YMCK color space input from the gradation value reduction processing unit 53 into image data of the L ^* a ^* b ^* color system, and sends it to the determination unit 55. Output.

The determination unit 55 performs reverse conversion on YMCK image data obtained by inversely converting YMCK image data in which the gradation values of colors having a complementary color relationship included in the image data are small and the gradation values of colors other than black are reduced to 0, for example. ^{* A *} b ^* L ^* a ^* b ^* obtained by inversely converting image data and unreduced YMCK image data. It is determined whether or not the color difference between the image data is less than 3 (color difference threshold value), for example.

  The selector unit 56 receives the output of the second color space conversion unit 51 and the gradation value reduction processing unit 53 and the determination result of the determination unit 55, and the original image data that has not been reduced if the color difference is 3 or more. If the color difference is less than 3, the reduced image data is switched and output. The reason why the value of the color difference threshold value is 3 is based on the fact that the color difference value is 3 so that a general user can identify the color difference.

  In addition, when K (black) is included in image data with low lightness, the determination unit 55 displays a black scale together with a color having a small gradation value of a complementary color included in the image data. For example, it may be determined whether the color difference that occurs when the tone value is reduced to 0, for example, is less than 3 (color difference threshold value).

  The output data creation unit 58 arranges the image data input from the selector unit 56 and creates output image data.

FIG. 4 is an L ^* -C ^* plane showing a color whose hue angle is the same as red (R).
FIG. 5 is an L ^* -a ^* plane to which an equal color material amount line illustrating a color gamut that can be reproduced with the same color material amount by the printing apparatus 4 is added.
As shown in FIG. 4, a color having the same hue angle as red (R) has a relationship between R and complementary colors compared to red (R), which is a mixed color of M (magenta) and Y (yellow). It is expressed by mixing a certain C (cyan) or C and K (black) according to the saturation and lightness. For example, C and K are mixed according to the saturation and lightness in a color having lightness lower than the cusp point (maximum saturation point for each hue).
Further, as shown in FIG. 5, the color gamut that can be reproduced by the printing apparatus 4 with the same color material amount is the same color material amount line (the total color material amount of Y, M, C, and K is constant) from the color with high saturation. It extends toward the achromatic color axis (gray axis) while reducing the brightness.

FIG. 6 is an L ^* -C ^* plane showing changes in color brightness and saturation when the tone value reduction processing unit 53 reduces the color tone value according to the determination result of the determination unit 55.
In the region P shown in FIG. 6, according to the determination result of the determination unit 55, the gradation value reduction processing unit 53 displays the gradation value of a color (tertiary color) having a small gradation value of a complementary color. This is an area indicating a color to be set to 0 (including those that reduce the gradation value of black together).
Therefore, for the colors included in the region P, the gradation value reduction processing unit 53 sets the black gradation value to 0 together with the color having the small complementary gradation value according to the determination result of the determination unit 55. If the tone value is reduced to 1, the lightness and saturation of the color with the reduced gradation value increase.

In addition, a region Q illustrated in FIG. 6 is a region indicating a color in which the gradation value reduction processing unit 53 sets the gradation value of colors other than black to 0 according to the determination result of the determination unit 55.
Therefore, for the colors included in the region Q, when the gradation value reduction processing unit 53 reduces the gradation value of a color other than black to 0 according to the determination result of the determination unit 55, the gradation value is reduced. The color is an achromatic color axis.

  Since the region R shown in FIG. 6 is included in each of the region P and the region Q, the gradation value reduction processing unit 53 may process the colors included in the region P, or the region Q The gradation value reduction processing unit 53 may perform processing as colors included in the color.

  The output data creation unit 58 (FIG. 3) prepares output image data by arranging the arrangement of the image data input from each of the determination unit 55 and the gradation value reduction processing unit 53, and creates the output image data from the processing device body 28 in the processing device 2. Output to.

Next, processing in which the processing device 2 converts the color of the color image data will be described.
FIG. 7 is an activity diagram showing processing (S10) in which the processing device 2 converts the color of the color image data.
As shown in FIG. 7, in step 100 (S100), the first color space conversion unit 50 receives the same image data as the RGB color space image data input to the display unit 22 (FIG. 2). Conversion to image data in the CIELAB color space, which is a device-independent color space.

In step 102 (S102), the second color space conversion unit 51 converts the image data of the L ^* a ^* b ^* color system input from the first color space conversion unit 50 into image data of the YMCK color space. To do.

In step 104 (S104), the first color space inverse conversion unit 52 converts the image data of the YMCK color space input from the second color space conversion unit 51 into image data of the L ^* a ^* b ^* color system. Reverse conversion.

In step 106 (S106), the gradation value reduction processing unit 53 has a color with a small gradation value of a complementary color with respect to the image data in the YMCK color space input from the second color space conversion unit 51. , And the gradation values of colors other than black are reduced to 0, for example.
Note that the process of S106 is performed in parallel with the process of S104.

In step 108 (S108), the second color space inverse conversion unit 54 converts the image data of the YMCK color space input from the gradation value reduction processing unit 53 into image data of the L ^* a ^* b ^* color system. Convert.

  In step 110 (S110), the determination unit 55 determines, for each color, whether or not the gradation value of the color included in the image data is less than the gradation value threshold, whereby the relationship between the complementary colors included in the image data. It is determined whether or not the color difference that occurs when the gradation value of the color other than the color and the gradation value of the color other than black is reduced to 0 is less than 3 (color difference threshold value). If the color difference is less than 3, the image data processed in S106 is merged. If the color difference is 3 or more, the image data processed in S102 is merged.

  In step 112 (S112), the output data creation unit 58 arranges the arrangement of the image data input from the selector unit 56 and creates output image data.

  Next, a specific example of processing for determining a color difference that occurs when the processing device 2 reduces the gradation value of the color included in the image data and reducing the gradation value according to the determination result will be described.

FIG. 8 is a conceptual diagram showing a result of determination of a color difference that occurs when the determination unit 55 reduces the gradation value of a color having a small complementary gradation value included in the image data to 0. , (A) shows a color whose gradation value can be reduced, and (B) is a conceptual diagram showing a color whose gradation value cannot be reduced.
For the colors shown in FIG. 8A, even if the determination unit 55 truncates the gradation value of C (tertiary color component), which is complementary to R (= Y + M) included in the image data, from 3 to 0. , The color difference generated by truncating the gradation value of C is 1.5. The determination unit 55 determines the C gradation value (= 3) included in the image data to be less than a predetermined gradation value threshold by using, for example, the above-described lookup table. It is determined that the color difference caused by truncating is less than 3. Then, the gradation value reduction processing unit 53 reduces (cuts down) the C gradation value according to the determination result of the determination unit 55.

  It should be noted that the determination unit 55 can reduce the gradation even if the gradation values of C and K, which are complementary to R, are reduced, respectively, when K is included in a color having a lightness lower than the cusp point. It may be determined that the color difference caused by reducing the value is less than 3 (see FIGS. 4 and 6). In this case, the gradation value reduction processing unit 53 reduces the C and K gradation values according to the determination result of the determination unit 55.

For the colors shown in FIG. 8B, when the determination unit 55 rounds down the gradation value of C (tertiary color component) that is complementary to R (= Y + M) included in the image data from 20 to 0, The color difference generated by truncating the C gradation value is 3.4. The determination unit 55 determines that the color difference generated by truncating the C gradation value is 3 or more by determining that the color difference obtained by the inverse conversion from YMCK to L ^* a ^* b ^* is greater than or equal to the threshold value. To do. That is, the gradation value reduction processing unit 53 does not process the color shown in FIG.

FIG. 9 is a conceptual diagram illustrating a result of determination of a color difference that occurs when the determination unit 55 reduces the gradation value of a color other than black included in the image data to 0. FIG. 9A illustrates the gradation value. Colors that can be reduced are shown, and (B) is a conceptual diagram showing colors that cannot be reduced in gradation value.
For the colors shown in FIG. 9A, even if the determination unit 55 truncates the tone values of colors other than black (even if it is 0), the tone values of colors other than black are discarded. Is less than 3 and the brightness difference is 2. The determination unit 55 determines that the saturation is less than the threshold value (near the gray axis) by inverse conversion from YMCK to L ^* a ^* b ^* , thereby causing a color difference caused by truncating the gradation values of colors other than black. Is less than 3. Then, the gradation value reduction processing unit 53 reduces (cuts down) gradation values of colors other than black according to the determination result of the determination unit 55.

The color shown in FIG. 9B has a color difference of 3 or more caused by discarding gradation values of colors other than black included in the image data when the determination unit 55 discards gradation values of colors other than black included in the image data. Yes, the brightness difference is 5. The determination unit 55 is generated by discarding the gradation values of colors other than black by determining that the saturation is equal to or greater than the threshold (not near the gray axis) by inverse conversion from YMCK to L ^* a ^* b ^* . It is determined that the color difference is 3 or more. That is, the gradation value reduction processing unit 53 does not process the color shown in FIG.

1 is a configuration diagram showing an outline of an image forming system according to an embodiment of the present invention. It is a block diagram which shows the structure of a processing apparatus. It is a program block diagram which shows the structure of a color conversion program. It is an L ^* -C ^* plane showing a color whose hue angle is the same as red (R). It is an L ^* -a ^* plane to which an equal color material amount line is added that exemplifies a color gamut that the printing apparatus can reproduce with the same color material amount. It is an L ^* -C ^* plane showing changes in color brightness and saturation when the tone value reduction processing unit reduces the tone value of the color according to the determination result of the determination unit. FIG. 10 is an activity diagram illustrating processing (S10) in which the processing device converts the color of the color image data. FIG. 7A is a conceptual diagram illustrating a result of determining a color difference that occurs when a determination unit reduces a gradation value of a color having a small complementary gradation value included in image data to 0, and FIG. Colors for which gradation values can be reduced are shown, and (B) is a conceptual diagram showing colors for which gradation values cannot be reduced. It is a conceptual diagram which shows the result of having determined about the color difference produced when the determination part reduces the gradation value of colors other than black contained in image data to 0, Comprising: (A) can reduce a gradation value. FIG. 5B is a conceptual diagram illustrating colors in which gradation values cannot be reduced.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Image forming system 2 ... Processing apparatus 20 ... Input part 22 ... Display part 24 ... Storage part 240 ... Storage medium 26 ... Communication part 28 ... Processing apparatus main body 280 ... CPU
DESCRIPTION OF SYMBOLS 3 ... Network 4 ... Printing apparatus 5 ... Color conversion program 50 ... 1st color space conversion part 51 ... 2nd color space conversion part 52 ... 1st color space reverse Conversion unit 53 ... gradation value reduction processing unit 54 ... second color space inverse conversion unit 55 ... determination unit 56 ... selector unit 58 ... output data creation unit

Claims (4)

Receiving means for receiving image data in the RGB color space;
Conversion means for converting image data in the RGB color space received by the receiving means into image data in the YMCK color space;
When the image data in the YMCK color space converted by the conversion means is expressed by the same hue angle as the mixed color obtained by mixing two colors of Y, M, and C, the mixed color in the image data in the YMCK color space A gradation value reducing means for reducing the gradation value of black together with a color complementary to
Inverse conversion means for converting the image data in the YMCK color space converted by the conversion means and the image data in the YMCK color space whose gradation values are reduced by the gradation value reduction means into image data in a device-independent color space. When,
Device-independent color space image data converted from image data in the YMCK color space by the inverse conversion means, and device-independence converted from image data in the YMCK color space in which the gradation value is reduced by the inverse conversion means. Determination means for determining whether a color difference from image data in a color space is less than a predetermined color difference threshold;
A color conversion comprising: output means for outputting image data in the YMCK color space in which the gradation value is reduced by the gradation value reduction means when the determination means determines that the color difference is less than a predetermined color difference threshold value; apparatus. The gradation value reducing unit is configured to display the YMCK color space when the image data of the YMCK color space converted by the converting unit is expressed by the same hue angle as a mixed color obtained by mixing two of Y, M, and C. The color conversion apparatus according to claim 1 , wherein, in the image data, the black gradation value is reduced to 0 together with a color complementary to the mixed color . The determination means, the color conversion apparatus of claim 1 or 2 color difference threshold is three. Accept image data in RGB color space,
Converting the received RGB color space image data into YMCK color space image data;
When the converted image data of the YMCK color space is expressed by the same hue angle as the mixed color obtained by mixing two of Y, M, and C, the image data of the YMCK color space Along with the complementary colors, the black gradation value is reduced,
Converting the converted image data of the YMCK color space and the image data of the YMCK color space with the reduced gradation values into image data of a device-independent color space;
Color difference between device-independent color space image data converted from the YMCK color space image data and device-independent color space image data converted from the YMCK color space image data with reduced gradation values Is less than a predetermined color difference threshold,
A color conversion method for outputting image data in a YMCK color space in which the gradation value is reduced when it is determined that a color difference is less than a predetermined color difference threshold.

Images