JPH08242382A - Color converter - Google Patents

Abstract

PURPOSE: To improve the utilization factor of a three-dimensional look-up table without complicating configuration. CONSTITUTION: Hexahedrons A1 , A2 , A3 , A4 , A5 , A6 , A7 and A8 smaller than the spaces Z1 , Z2 , Z3 , Z4 , Z5 , Z6 , Z7 , and Z8 of a look-up table and including the color reproducible range of a printer are comprised, and they are formed in the ones as shown in figure so as to form rectangles by applying affine transformation. The utilization factor of the look-up table is remarkably improved by providing a rectangular look-up table including the spaces shown in figure by applying the affine transmformation.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color conversion device capable of improving the utilization rate of a color space of a look-up table.

[0002]

2. Description of the Related Art In a digital copying machine, an image input / output device, a digital image processing device, etc., color signal conversion (color conversion) is often performed because the types of color signals handled differ between input and output. For color conversion, many devices have been developed that use a lookup table.

By the way, conventionally, when performing color conversion of three-dimensional input, the input value or representative value of each axis is used as it is as the address of the table. For example, if the XYZ signal is CIE
When converting to an L ^* a ^* b ^* signal, first, a representative value is determined for each axis of the XYZ signal, that is, for each of X, Y, and Z, and a three-dimensional lookup table is drawn using the representative value as an address and then interpolation is performed. It was Similarly, an example of converting a CIE L ^* a ^* b ^* signal into a CMYK signal suitable for a printing apparatus is disclosed in Japanese Patent Application No. 6-144268.

[0004]

By the way, when a three-dimensional look-up table is constructed by a digital device, it is general to set a rectangular parallelepiped color space in order not to complicate its structure.

On the other hand, the color reproduction range of the printing apparatus has various shapes and is not normally a rectangular parallelepiped. in this case,
The three-dimensional look-up table must include the color gamut of the printing apparatus. However, when the three-dimensional look-up table is formed into a rectangular parallelepiped having a complicated shape, the ratio of the color gamut to the color space of the three-dimensional look-up table , The utilization rate) was extremely low, and was generally about 1/6.

For example, in a printing method such as gravure printing or electrophotography, there is a color reproduction range that protrudes in the b ^* axis direction due to the characteristics of the coloring material. It does not contribute to color conversion, not the color reproduction range. In addition, the utilization rate is low in the XYZ space and the RGB space.

Therefore, as an example of improving the utilization rate of the three-dimensional lookup table, Japanese Patent Application No. Hei 6-144268.
It has been proposed to use grid points outside the color reproduction range for color conversion of a specific color, as described in No. However, this method has an effect only on a specific color, and thus has not been a drastic measure for improving the utilization rate of the entire lookup table.

The present invention has been made in view of the above-mentioned circumstances, and an object thereof is to provide a color conversion device having a simple structure and capable of greatly improving the utilization rate of a three-dimensional lookup table. I am trying.

[0009]

In order to solve the above problems, in the invention described in claim 1, the input color information having three-dimensional color coordinates is converted into a three-dimensional lookup table having a rectangular coordinate space. In the color conversion device for converting the color information into another format by referring to, the input color information is converted according to a predetermined conversion formula so that the coordinate value of the input color information is stored in the coordinate space of the three-dimensional lookup table. Affine transforming means for affine transforming the coordinate values of the affine transforming means, and the three-dimensional look-up table converts the input color information converted by the affine transforming means into color information of another format corresponding to the coordinate values before conversion. The content is set so as to be output.

According to the second aspect of the invention,
In a color conversion device for converting input color information having three-dimensional color coordinates into color information of another format by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space, the coordinate value of the input color information is 3 The three-dimensional lookup table has an affine transformation unit that affine-transforms two coordinate values of the input color information according to a predetermined transformation formula so that the three-dimensional lookup table is stored in the coordinate space of the three-dimensional lookup table. The contents are set so as to output the color information in another format corresponding to the coordinate values of the two coordinates of the input color information converted by the means before conversion and the other coordinates of the input color information not converted by the affine conversion means. It is characterized by being.

Further, in the invention described in claim 3,
In a color conversion device for converting input color information having three-dimensional color coordinates into color information of another format by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space, a representative value and an interpolation value for the input color information. Computing means for obtaining
Affine transforming means for affine transforming the input color information according to a predetermined transforming expression, so that the representative value obtained by the computing means fits in the coordinate space of the three-dimensional lookup table, the interpolation value and the 3 Interpolating means for performing an interpolating process on the basis of color information of another format output from the three-dimensional look-up table, the three-dimensional look-up table converting the representative value converted by the affine converting means, Another feature is that color information in another format corresponding to the previous coordinate value is output.

Further, in the invention according to claim 4,
In a color conversion device for converting input color information having three-dimensional color coordinates into color information of another format by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space, a representative value and an interpolation value for the input color information. Computing means for obtaining
Affine transforming means for affine transforming according to a transformation formula predetermined for two of the representative values so that the representative value obtained by the computing means fits in the coordinate space of the three-dimensional lookup table; Interpolation means for performing interpolation processing based on color information of another format output from the three-dimensional look-up table, the three-dimensional look-up table before conversion of the representative value converted by the affine conversion means. The color information of another format corresponding to the coordinate value of and the other representative value which is not converted by the affine conversion means is output.

According to the fifth aspect of the invention, the input color information having three-dimensional color coordinates is converted into another type of color information by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space. In the color conversion device, the calculating means for obtaining the representative value and the interpolation value for the two coordinates of the input color information, and the representative value obtained by the calculating means are 3
So that it fits in the coordinate space of the dimensional lookup table,
The affine transformation means for affine-transforming the input color information according to a predetermined transformation formula, and the interpolation means for performing an interpolation process based on the interpolation value and the color information output from the affine transformation means. The dimension lookup table outputs the color information in another format corresponding to the coordinate value of the representative value before conversion and the other coordinate value of the input color information that is not the target of the calculation of the calculating means. To do.

According to a sixth aspect of the invention, in the color conversion apparatus according to any one of the first to fifth aspects, the input device for obtaining the input color information and the color information converted to another format are printed. The various constants of the conversion equation in the affine conversion means are determined according to the color reproduction characteristics of the output device.

According to a seventh aspect of the present invention, in the color conversion device according to any of the first to fifth aspects, the input color information is L ^* a ^* b ^* information, and the three-dimensional look-up is performed. The up table is characterized by outputting color information according to the color material amount of one-dimensional to four-dimensional subtractive color mixing.

According to an eighth aspect of the invention, in the color conversion device according to the first to fifth aspects, the input color information is L ^* a ^* b ^* information, and further, L ^{* in} this information ^. information,
L'information corresponding to each of a ^* information and b ^* information, a '
Information and b'information are created, and the result of the affine transformation of the affine transformation means is L '+ (1/2) a' + C1 L '-(1/2) a' + C2 and L'-b '+ C3 ( However, C1, C2, and C3 are characterized by being proportional to at least one operation result of (constant).

[0017]

As a result of the affine transformation of the input color information by the affine transformation means, the shape of the color reproduction range approaches a rectangular parallelepiped. On the other hand, since the coordinate space of the three-dimensional lookup table has a rectangular parallelepiped shape, the utilization rate of the three-dimensional lookup table is improved (claims 1 to 8).

[0018]

【Example】

A: First Embodiment An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the first embodiment of the present invention. In the figure, reference numeral 1 is a representative value / interpolation value calculating means, which obtains a representative value and an interpolation value of an input L ^* a ^* b ^* signal. In this way, the typical value and the interpolated value are obtained by a general three-dimensional lookup table that outputs data corresponding to the typical value, and when the output data is interpolated. This is because a value is needed.

Next, reference numeral 2 is a representative value affine transformation means, which transforms the coordinates of the representative value output from the representative value / interpolation value transformation means. The representative value after coordinate conversion output from the representative value affine transformation means 2 becomes an address signal of the three-dimensional lookup table 3.

Here, the affine transformation in the representative value affine transformation means 2 will be described. 2 and 3 are color reproduction ranges of the printing apparatus used in the present embodiment, FIG. 2 shows a state seen from the a ^* b ^* plane, and FIG. 3 shows a state seen from the L ^* b ^* plane. ing. As can be seen from these figures, if the three-dimensional lookup table of the rectangular parallelepiped is configured so as to include the color reproduction range (hatched portion) of the printing apparatus, the utilization rate is inevitably low.

When the state shown in FIG. 2 is carefully observed, as shown in FIG. 4A, the area is larger than the rectangles Z ₁ , Z ₂ , Z ₃ , Z ₄ which are the contours of the three-dimensional lookup table. It can be seen that the small rectangles B ₁ , B ₂ , A ₃ , A ₄ can be constructed. When this quadrangle is converted into a rectangle by affine transformation, it becomes as shown in FIG. Here, FIG.
Looking at the ratio of the color reproduction range shown in the rectangle shown in (b), the ratio is obviously larger than that in FIG.
It can be seen that the utilization rate is improving.

Similarly, for the state shown in FIG.
As shown in FIG. 5A, it can be seen that quadrangles C ₁ , C ₂ , C ₃ and C ₄ smaller than the contour of the three-dimensional lookup table can be constructed. Converting this quadrilateral into a rectangle
As shown in (b), it can be seen that the utilization rate is improved as in the case described above.

It is also possible to combine the affine transformations shown in FIG. 4 and FIG. 5 to perform three-dimensional affine transformation. FIG. 6 shows an example of three-dimensional affine transformation.
That is, in FIG. 6A, the hexahedron A ₁ that is smaller than the lookup table spaces Z ₁ , Z ₂ , Z ₃ , Z ₄ , Z ₅ , Z ₆ , Z ₇ , and Z ₈ and includes the color re-range. , A ₂ , A ₃ , A ₄ , A
₅ , ₅ , A ₆ , A ₇ , and A ₈ can be constructed, and when these are affine transformed into a rectangular parallelepiped, the result becomes as shown in FIG. By performing such conversion, the utilization rate of the lookup table can be greatly increased.

The representative value affine transformation means shown in FIG. 1 performs the three-dimensional affine transformation as shown in FIG.
Here, the mathematical expression used for the affine transformation is preset from the shape of the color reproduction range of the printing apparatus used. That is, since the color reproduction range of the printing apparatus is known, a mathematical expression for performing the affine transformation as shown in FIG. 6 is obtained and set in advance.

Next, the three-dimensional lookup table 3 shown in FIG. 1 has grid points corresponding to the affine-transformed representative values, and each grid point corresponds to the coordinates of the representative value before affine transformation. Output the CMYK signals. That is,
The three-dimensional lookup table 3 outputs C'M'Y'K 'signals corresponding to the representative values of the L ^* a ^* b ^* signals. Then, the C'M'Y'K 'signal is supplied to the interpolating means 4, where the interpolating process is performed based on the interpolating value output by the representative value / interpolating value calculating means 1 and output as a CMYK signal. . In this case, the affine transformation is not applied to the interpolated value. This is because the C'M'Y'K 'signal output from the three-dimensional lookup table 3 is L ^* a ^* before affine transformation ^.
This is because it is a signal corresponding to the representative value of the b ^* signal, and therefore it is not necessary to perform affine transformation on the interpolation value when performing the interpolation.

According to the above-mentioned structure, the utilization rate of the three-dimensional lookup table 3 can be improved to about three times that of the conventional one. Although the conversion formula in the representative value affine conversion unit 2 is set according to the color reproduction range of the printing apparatus used in the present embodiment, instead of this, a standard color reproduction range is assumed and It may be configured to set the corresponding conversion formula.

B: Second Embodiment FIG. 7 is a block diagram showing the configuration of the second embodiment of the present invention. In this embodiment, an RGB signal that is an input signal is
An example of conversion into CMYK signals is shown. The affine transformation means 12 shown in this figure performs affine transformation on the R signal and the B signal and outputs the result to the three-dimensional lookup table 13.

The three-dimensional lookup table 13 has grid points corresponding to the G signal and the R and B signals after the affine transformation, and CMYK corresponding to the input RGB signal.
Output a signal.

In this embodiment, the affine transformation is performed on two signals out of the three-dimensional input signals. However, the G signal and the affine-transformed R signal and B signal form a substantially rectangular parallelepiped color reproduction space. Formed, so 3
The utilization rate of the dimension lookup table 13 is improved as in the first embodiment. For example, the affine transformation means 12
If the conversion formula in is changed to a formula suitable for the printing device used, the conventional device has a utilization rate of about 30%.
It rises to about 50%.

Although this embodiment is an example in which no interpolation is performed, a configuration for performing interpolation may be provided as in the above-described first embodiment.

C: Third Embodiment FIG. 8 is a block diagram showing the configuration of the third embodiment of the present invention. In this embodiment, an RGB signal which is an input signal is set to L
^This is an example of converting into an ^* a ^* b ^* signal. The configuration is almost the same as that of the first embodiment described above, except that the representative value and the interpolation value are calculated after the affine transformation of the input signal.

That is, the RGB signal is first affine-transformed by the affine transformation means 22 and then,
It is converted into an almost rectangular parallelepiped color reproduction area. Next, the representative value / interpolation value of the affine-transformed RGB signal is calculated by the representative value / interpolation value calculation means, and the representative value is supplied to the lookup table 23 and the interpolation value is supplied to the interpolation means 24. In this embodiment, since the representative value and the interpolated value are calculated after the affine transformation, the interpolated value also corresponds to the space after the affine transformation. Also in the above configuration, the utilization rate of the three-dimensional lookup table 23 is improved as in the above-described embodiments.

D: Fourth Embodiment Next, FIG. 9 is a block diagram showing the structure of a fourth embodiment of the present invention. In this embodiment, the L ^* a ^* b ^* signals are sent to CMY.
This is an embodiment for converting into a K signal, and the upper bits of the L ^* a ^* b ^* signal are supplied to the representative value affine conversion means 32, and the lower bits are supplied to the interpolation means 34 as an interpolation value.

The representative value affine transforming means 32 includes adders 32a, 32b and 32c and a bit shifter 3 as shown in the figure.
2d and the sign inverter 32e.
Then, the calculation performed by the representative value affine transformation means 32 is as follows. L '+ (1/2) a' + C1 L '-(1/2) a' + C2 L'-b '+ C3 In the above equation, the L'signal, the a'signal, and the b'signal are L ^* signals, respectively ^. , Upper bits of the a ^* signal and the b ^* signal (the number of bits may be set as appropriate), C1, C2,
C3 is an appropriate constant.

When the affine transformation is performed according to the above-described mathematical expression, the color reproduction space becomes substantially rectangular parallelepiped, and since the three-dimensional lookup table 33 only needs to store 4096 values, its utilization efficiency is greatly increased. To do. For example, in the printing method of gravure photographs and electrophotography, the utilization rate of the three-dimensional lookup table increases from 17% to about 50%. Also, the number of additions in the affine transformation in this embodiment is three. Therefore, in terms of hardware, it is realized by providing three adders, one bit shifter or appropriate wiring, and one sign inverter. Generally, the affine transformation requires a large number of product-sum operations and tends to complicate the configuration. However, in this embodiment, the affine transformation can be realized with an extremely simple configuration.

In the fourth embodiment described above,
Although all of the expressions (1) to (5) are used, the effect of improving the utilization rate can be obtained even if any one of them is used. Also,
It is also possible to use a proportional value by multiplying by a predetermined coefficient without directly using the calculation results of the expressions (1) to (5).

(Modification) Of the above-described embodiments, some or all of the functions may be realized by software processing.

[0038]

As described above, according to the present invention, the utilization factor of the three-dimensional lookup table can be greatly improved with a simple structure.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of a first embodiment of the present invention.

FIG. 2 is a diagram showing a color reproduction range of a general printing apparatus in a CIE L ^* a ^* b ^* space on an a ^* b ^* plane.

FIG. 3 is a diagram showing a color reproduction range of a general printing apparatus in a CIE L ^* a ^* b ^* space on an L ^* b ^* plane.

FIG. 4 is a diagram showing a case where the color reproduction range shown in FIG. 2 is affine-transformed.

FIG. 5 is a diagram showing a case where the color reproduction range shown in FIG. 3 is affine-transformed.

FIG. 6 is a diagram for explaining the effect of the present application when three-dimensional affine transformation is performed in the CIE L ^* a ^* b ^* space.

FIG. 7 is a diagram showing a configuration of a second exemplary embodiment of the present invention.

FIG. 8 is a diagram showing a configuration of a third exemplary embodiment of the present invention.

FIG. 9 is a diagram showing a configuration of a fourth exemplary embodiment of the present invention.

[Explanation of symbols]

 1 representative value / interpolated value calculation means 2 representative value affine transformation means 3 3D lookup table 4 interpolation means 12 affine transformation means 13 3D lookup table 21 representative value / interpolated value computation means 22 affine transformation means 23 3D lookup Table 24 interpolation means 32 affine transformation means 33 three-dimensional lookup table 34 interpolation means

Claims (8)

[Claims] 1. Input color information having three-dimensional color coordinates,
In a color conversion device for converting color information of another format by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space, the coordinate value of the input color information is stored in the coordinate space of the three-dimensional lookup table, The three-dimensional lookup table has an affine transformation unit that affine-transforms the coordinate values of the input color information according to a predetermined transformation formula, and the three-dimensional lookup table converts the input color information transformed by the affine transformation unit before conversion. A color conversion device, the contents of which are set so as to output color information in another format corresponding to coordinate values. 2. Input color information having three-dimensional color coordinates,
In a color conversion device for converting color information of another format by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space, the coordinate value of the input color information is stored in the coordinate space of the three-dimensional lookup table, The three-dimensional lookup table has affine transformation means for affine-transforming two coordinate values of the input color information according to a predetermined transformation formula, and the three-dimensional lookup table has two coordinates of the input color information transformed by the affine transformation means. The color conversion device is characterized in that its contents are set so as to output color information in a different format corresponding to the coordinate values before conversion and the other coordinates of the input color information not converted by the affine conversion means. 3. Input color information having three-dimensional color coordinates,
In a color conversion device for converting color information of another format by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space, a calculation unit for calculating a representative value and an interpolation value for the input color information, and a calculation unit for calculating the representative value and the interpolation value. An affine transformation unit that affine-transforms the input color information according to a predetermined transformation formula so that the representative value is stored in the coordinate space of the three-dimensional lookup table; and outputs from the interpolation value and the three-dimensional lookup table. The three-dimensional lookup table corresponds to the coordinate value before the conversion with respect to the representative value converted by the affine conversion unit. A color conversion device, which outputs color information in another format. 4. Input color information having three-dimensional color coordinates,
In a color conversion device for converting color information of another format by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space, a calculation unit for calculating a representative value and an interpolation value for the input color information, and a calculation unit for calculating the representative value and the interpolation value. Affine transforming means for affine transforming two representative values according to a transformation formula predetermined so that the representative values are stored in the coordinate space of the three-dimensional lookup table; the interpolated value and the three-dimensional lookup table. Interpolating means for performing an interpolating process on the basis of the color information of another format output from the three-dimensional lookup table, the three-dimensional lookup table is a coordinate value before conversion of the representative value converted by the affine converting means and the affine. Color characterized by outputting color information in another format corresponding to another representative value that is not converted by the conversion means Conversion device. 5. Input color information having three-dimensional color coordinates,
In a color conversion device for converting color information of another format by referring to a three-dimensional lookup table having a rectangular parallelepiped coordinate space, a calculation unit that calculates a representative value and an interpolation value for two coordinates of the input color information, and the calculation. Affine transformation means for affine-transforming the input color information according to a predetermined transformation formula so that the representative value obtained by the means is stored in the coordinate space of the three-dimensional lookup table; the interpolation value and the affine transformation means. An interpolating unit that performs an interpolating process based on the color information output from the three-dimensional lookup table, the three-dimensional lookup table having coordinate values before conversion of the representative value and an input that is not a target of the arithmetic operation of the arithmetic unit. A color conversion device, which outputs color information in another format corresponding to other coordinate values of color information. 6. The constants of the conversion formula in the affine conversion means are determined according to the color reproduction characteristics of an input device for obtaining the input color information and an output device for printing the color information converted into another format. The color conversion device according to claim 1, wherein the color conversion device is a color conversion device. 7. The input color information is L ^* a ^* b ^* information, and the three-dimensional lookup table is one-dimensional to four-dimensional.
6. The color conversion device according to claim 1, wherein the color conversion device outputs color information according to the amount of color material for three-dimensional subtractive color mixing. 8. The input color information is L ^* a ^* b ^* information, and further, L ^* information, a ^* information and b ^{* in} this information ^.
L'information, a'information, and b'information corresponding to each of the information are created, and the result of the affine transformation of the affine transformation means is L '+ (1/2) a' + C1 L '-(1/2 ) A '+ C2 and L'-b' + C3 (where C1, C2 and C3 are constants) are proportional to at least one operation result, and color conversion according to any one of claims 1 to 5 apparatus.