JPH06339016A - Automatic converting method and device for color reproduction area and automatic color converter - Google Patents

Abstract

PURPOSE:To realize faithful color reproduction by operating a color reproduction area conversion processing for absorbing the difference of the color reproduction areas of different color outputting devices when a color reproduction table are applied. CONSTITUTION:A color reproduction area converting means 4 inputs an original central chrominance signal 31 from a first color reproduction area table 1, and outputs a converted chromiance signal 32 by using a specific expression, and the signal is inputted to a color reproduction area discriminating means 5 which discriminate whether or not the output of an objective color outputting device is valid. A chrominance signal synthesizing means 7 outputs the signal 32 corresponding to the signal 31 or an attached chrominance signal 33 as a synthetic signal 34. A color difference calculating means 8 calculates a color difference between the signal 31 and the signal 34 in an equal color space, calculates the total of the color difference, and outputs a color difference total signal 35. A color reproduction area conversion selecting means 9 detects the minimum color difference total from the signal 35, selects the color reproduction are conversion at the time of obtaining the minimum color difference total as the optimal color reproduction conversion and outputs an optimal conversion chrominance signal 36.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to an automatic color gamut conversion method,
The present invention relates to an automatic color gamut conversion device and an automatic color conversion device, and more particularly to an automatic color gamut conversion method, an automatic color gamut conversion device and an automatic color conversion between different models or different color image output devices such as displays and printers. Regarding the device.

[0002]

2. Description of the Related Art A typical combination of different color image output devices is a display and a printer. What is required of these combinations is that the color image displayed on the display is output as a more natural color by the printer. The display is R
(Red), G (green) and B (blue) three color phosphors are used for color reproduction, and the printer uses C (cyan) and M (magenta).
Since color reproduction is performed with the three color inks of Y and Y (yellow) or the four color ink to which Bk (black) is added, complicated color conversion processing is required.

As a conventional color conversion method between the display and the printer, there are a color masking method and a method based on Neugebauer's equation. These techniques are
Since the color developing mechanism of the printer is modeled, an error occurs between the actual color developing mechanism of the printer and the modeling, and color misregistration due to this error is a problem.

As a method for solving the problems of the color masking method and Neugebauer's method, the color gamut of the printer is colorimetrically measured for a plurality of color patches output by the printer, and the colorimetric data is used for direct measurement. The mapping method can be mentioned.

In this conventional direct mapping method, for example, as shown in Japanese Patent Application No. 4-172246, a one-to-one correspondence of CMY-XYZ in a printer and a one-to-one correspondence of RGB-XYZ in a display are obtained. , The target RGB → CMY conversion is X
As long as the conversion from YZ to CMY is obtained, the CMY value to be output to the printer corresponding to the display color can be calculated.

The direct mapping method will be briefly described. It is assumed that a color gamut table that specifies the color gamut of the display and printer is given. These color gamut tables are obtained by measuring the color of representative color samples of a plurality of colors output from each color output device and recording the data. At this time, the colorimetric data described in the color gamut table is unified in one color space, and this color space is called a unified color space.
Here, it is assumed that the XYZ color system is used in the unified color space. The relationship between RGB-XYZ in the display is that the display white is set to the reference white, the chromaticity of each of the RGB phosphors is measured, and the chromaticity of the reference white is obtained, whereby the relational expression (1) of RGB-XYZ is obtained. can get.

[0007]

Regarding the color gamut table of the display, the representative color sample is the uniform color space (CI
CIE-L ^* a defined by E (International Certification Committee)
It is desirable to select colors that are almost evenly distributed in ( ^* b ^*, etc.).

Also in the case of a printer, representative color samples of a plurality of colors are output, and these are measured under a reference white light source having the same chromaticity set to display white, and the obtained tristimulus values XYZ are representative colors. Described in the color gamut table as the colorimetric data of. The representative color sample at this time is
For each C, M, Y ink density or halftone dot area ratio, set N pieces that are distributed at equal intervals in the uniform color space of each ink color, and use a combination of 3 colors and output a total of N ³ pieces. To do. FIG. 3A shows an example of a color gamut table of the display, and FIG. 3B shows an example of a color gamut table of the printer.

By creating a color gamut table,
The color gamuts of models with completely different display and printer color spaces can be integrated in a uniform color space. Generally, when comparing the color gamuts of the display and printer shown in this unified color space, these color gamuts do not completely match, and the color gamut of the display is larger than the color gamut of the printer. . Therefore,
Among the display colors, there are colors that cannot be output with the same printer. To solve this problem,
It is necessary to perform color gamut conversion to absorb the difference in color gamut between the display and the printer.

This color gamut conversion is equivalent to absorbing the difference in the color gamut between the display and the printer and making all the display colors of the display correspond to the colors within the color gamut of the printer. The processing steps of this conventional method for color gamut conversion are shown in FIG. 4 (reference “Color Gamut Mapping and the
Printing of Digital Color Image ”, MCStone et.
al., ACM Trans. Graphics, Vol.7, No.4 (1988)). Actual color gamut conversion is performed in a uniform color space, which is a three-dimensional space, but here the color gamut of both models is projected vertically on a two-dimensional plane to explain the effect of color gamut conversion. To do. In FIG. 4, among the color gamuts of the two color output devices, the inside of the square represents the color gamut of the display, and the inside of the shaded area represents the color gamut of the printer. Process translates the black color of the display to match the black color of the printer. Rotates the color gamut of the display so that the gray axis vectors of the display and printer match. Then, compresses the color gamut of the display. If this is expressed by a formula, it can be expressed as a formula (2).

R ′ = a × A × R + Bk (2) where R: tristimulus value vector (3 ×
1) A: Gray axis rotation matrix (3 × 3) a: Compression coefficient (scalar) Bk: Printer black tristimulus value vector (3 × 1) R ′: Display tristimulus value vector after color gamut conversion (3 × 1).

A, R and Bk on the right side of the equation (2) are constants uniquely determined from the color gamut table. The compression coefficient a is an indefinite scalar. The color gamut conversion processing of the formula (2) is applied to all the representative colors obtained from the color gamut table of the display.

Even if the above-described color gamut conversion is performed on the color gamut of the display, there are still some display colors that cannot be represented by the printer. For such a color, it is necessary to perform a process of sticking to the surface of the color reproduction area of the printer. This pasting processing includes a method of pasting the display color to the nearest point on the surface of the color gamut of the printer, or a point of the printer color gamut surface having the same lightness and hue. As a method of determining whether the display color after the color gamut conversion processing can be expressed by the printer, Japanese Patent Application No. 4-172246 is used.
There is a method such as utilizing the color conversion method described in claim 2 of the specification. Specifically, the three-dimensional space is divided by triangular pyramids whose vertices are color sample points representing the color gamut of the printer, a triangular pyramid including the display color is searched, and the corresponding triangular pyramid does not exist. You can check it at.
For example, as shown in FIG. 5, in order for the display representative color X ′ after color gamut conversion to exist inside one triangular pyramid that divides the color gamut of the printer in the uniform color space, the following expression (3 ) Must be met.

X ′ = A ₀ + x (A ₁ −A ₀ ) + y (A ₂ −A ₀ ) + z (A ₃ −A ₀ ) x ≧ 0, y ≧ 0, z ≧ 0 and x + y + z ≦ 1 (3) Here, X ′ is the position vector of the display representative color after color gamut conversion in the unified color space, and A ₀ , A ₁ , A ₂ and A ₃ are the four vertices A ₀ , A ₁ , A _{2 of the} triangular pyramid and It represents the position vector of A _{3 in} the uniform color space.

All the representative colors of the display can be converted into the colors within the color reproduction range of the printer by the above-mentioned color reproduction gamut conversion processing and pasting processing, and the printer corresponding to the display representative color is subjected to XYZ → CMY conversion. CM of
Get the Y value. This XYZ → CMY conversion method includes the color conversion method of claim 2 of Japanese Patent Application No. 4-172246. This method uses the three-dimensional relative position within the triangular pyramid of the display representative color from the CMY values corresponding to the four vertices of the triangular pyramid obtained by dividing the color gamut of the printer in which the display representative color exists. The CMY value of the printer corresponding to the display representative color is obtained using the interpolation method. Display representative color X'after color gamut conversion shown in FIG.
The CMY value corresponding to is calculated by equation (4) using x, y and z that satisfy equation (3).

X _cmy '= A _0cmy + x (A _1cmy -A _0cmy ) + y (A _2cmy -A _0cmy ) + z (A _3cmy -A _0cmy ) (4) where X _cmy ' is the representative color _X'of the display. The corresponding CMY value vector, A _{0cmy to} A _3cmy, is the vertex A _{0 to} A
It is a CMY value vector corresponding to ₃ .

Regarding other display colors,
The CMY value can be calculated from the CMY value of the display representative color using a three-dimensional interpolation method.

Regarding the method of determining the indefinite compression coefficient a of the expression (2) representing the color gamut conversion processing, the human being sets so that the color reproduction becomes good by changing the compression coefficient a and repeating the test printing. To do.

On the other hand, regarding the color reproduction problem between the same color output devices, when the displays of different models are taken as an example,
Since the chromaticity of the three-color phosphor, which is the color developing body of the display, differs depending on the model, the color reproduction range of the display also differs depending on the model. Therefore, although the color correction process is strictly required between displays of different models, the color correction process is not performed.

[0021]

In color reproduction between different models such as a display and a printer or between different devices of the same model such as a display and a display, the direct mapping method uses color samples of a plurality of colors output by a color output device. By using the data obtained by actually measuring the color, there is an advantage that the coloring mechanism of the color output device need not be modeled. However, since color output devices generally have their own color gamuts, different color output devices have different color gamuts. For example, the color gamut of a display is generally larger than the color gamut of a printer. Therefore, there is a problem that between the display and the printer, among the display colors, there are many colors that cannot be expressed as the same color by the printer. In order to achieve natural color reproduction between the display and printer, the color reproduction range of the printer should be used as effectively as possible, and all display colors including display colors that cannot be output as the same color by the printer should be used. It is necessary to perform color gamut conversion to convert to a color that can be output by a printer. Regarding this color gamut conversion, the method that has been conventionally performed is as described in the section of the prior art,
Do several proofs until a good color conversion is done,
Finally, the human must determine the compression coefficient a which is the color conversion parameter of the expression (2) expressing the color gamut conversion. Achieving good color reproduction consumes a great deal of time, resources such as paper and ink, and requires considerable experience.

An object of the present invention is to automate the color gamut conversion processing for absorbing the difference in the color gamut between different color output devices when the actual color gamut of the color output device is given as a table. However, it is another object of the present invention to provide a device that realizes faithful color reproduction between different color output devices without depending on human subjectivity.

[0023]

According to the automatic color gamut conversion method of the present invention, an original color output device or a first color gamut table that defines an original color gamut of a color image and a target color of the target color output device. A second color gamut table defining a gamut is given, and from the original color gamut and the second color gamut table represented by the original representative color obtained from the first gamut table. In the color gamut conversion processing for absorbing the difference between the target color gamuts obtained by the obtained target representative color, the conversion parameter is changed and applied to the original representative color, and the conversion after the color gamut conversion processing is performed. When the representative color exists outside the target color reproduction range, a pasting process is further performed on the surface of the target color reproduction range, and the original representative color and the color reproduction range conversion process or the pasting process of the original representative color. After The color difference between the serial conversion representative color is calculated,
The color gamut conversion process using the conversion parameter when the sum of the color differences is minimized is selected as an optimum color gamut conversion between the original color gamut and the target color gamut. .

The automatic color gamut conversion method of the present invention is
An adaptive uniform color space based on white of the target color output device is created, and in the automatic color gamut conversion method, the adaptive uniform color space is used for calculation of color difference.

Further, the automatic color gamut conversion device of the present invention defines the original color output device or the first color reproduction region table defining the original color reproduction region of the color image and the target color reproduction region of the target color output device. A second color gamut table, and an original color gamut represented by an original representative color signal obtained from the first color gamut table and an object representative obtained from the second color gamut table. Color gamut conversion means for changing the conversion parameter in the color gamut conversion processing for absorbing the difference from the target color gamut represented by the color signal and applying the original representative color signal, and the color gamut conversion means. When the converted color signal obtained by the method exists outside the target color reproduction area, a pasting processing means for converting the converted color signal into a color signal on the surface of the target color reproduction area, the original representative color signal and the color reproduction area Conversion means Or color difference calculation means for calculating the color difference with the output signal of the pasting means, and color reproduction gamut conversion using the conversion parameter with which the total sum of the color differences is minimized, the original color reproduction gamut and the target color reproduction. And a color gamut conversion selecting unit that selects the optimum color gamut conversion between the gamuts.

Further, the automatic color conversion apparatus of the present invention defines the first color reproduction area table defining the original color reproduction area of the original color output apparatus or the color image and the first color reproduction area of the target color output apparatus. And a target representative color signal obtained from the second color gamut table, and an automatic color input to the target representative color signal obtained from the first color gamut table. A reproduction range conversion device,
The optimum converted color signal corresponding to the original representative color signal obtained by the automatic color gamut conversion device is converted into the target color signal of the color system of the target color output device, and the target color signal is recorded in the color conversion table. Color conversion table creating means, and color signal conversion means for converting an arbitrary input color signal of the original color output device or the color image into an output color signal to the target color output device by referring to the color conversion table. With.

[0027]

The function of the present invention will be described. The case where the original color output device is a display and the target color output device is a printer will be described. Now, it is assumed that a color gamut table defining the color gamuts of the display and the printer is given. Here, it is assumed that the colorimetric data described in the color gamut table uses the XYZ color system as a unified color space.

Generally, the color gamut of the display is larger than the color gamut of the printer. As a method of matching the color gamut of the display with the color gamut of the printer, color gamut conversion based on equation (2) is applied to the color gamut of the display. At this time, it is possible to compress the color gamut of the display by setting the compression coefficient a to a positive real number of 1 or less. It is possible to convert the display color of the display into a color within the color reproduction range of the printer.

Here, the method of determining the compression coefficient a, which is the indefinite scalar of the expression (2) representing the color gamut conversion in the first aspect of the present invention, is as follows. Through the color gamut conversion processing and the sticking processing, all the representative colors of the display are converted into colors inside or on the surface of the color gamut of the printer. However, the compression coefficient a in the color gamut conversion processing is an indefinite scalar, and by changing this, the color gamut of the display can be freely reduced, and the faithful color reproducibility between the display and the printer can be reduced. There is an optimum compression coefficient a that realizes In the case of between the display and the printer, the range of possible values of the compression coefficient a is 0 <a ≦ 1, and the color gamut conversion and the paste processing based on the equation (2) are performed for a in this range. The color difference of the colors before and after the color gamut conversion and the sticking process of all the representative colors of the display is calculated in the uniform color space CIE-L ^* a.
Calculate with ^* b ^* . This uniform color space L ^* a ^* b ^* is defined as follows (JIS Z 8729-19).
80).

Regarding the lightness index L ^* , L ^* = 116 (Y / Yn) ¹ / 3-16 (Y / Yn> 0.008856) L ^* = 903.29 (Y / Yn) (Y / Yn≤0 0.008856) Obtained in (5).

The chromatinex indices a ^* and b ^* are X /
When Xn, Y / Yn, Z / Zn> 0.008856, a ^* = 500 [(X / Xn) ¹ / 3− (Y / Yn) ^1/3 ] b ^* = 200 [(Y / Yn) ^{1 / 3-} (Z / Zn) ^1/3 ] (6) However, when calculating a ^* and b ^* , X / Xn,
When Y / Yn and Z / Zn have values of 0.008856 or less, the corresponding cube root term of the formula (6) is calculated as 7.787 (X / Xn) +16/116 7.787 (Y / Yn) +16/116 7.787 (Z / Zn) +16/116 (7) is substituted for calculation. Here, in the equations (5), (6) and (7), X, Y and Z are three XYZ system corresponding to the tristimulus value R ′ after the color reproduction gamut conversion processing of the target display display color R. These are stimulus values, and Xn, Yn, and Zn are tristimulus values XYZ of the reference white light source.

L before color gamut conversion of display representative color
^* A ^* b ^* values and L _1, a ₁ and b _1, respectively, after the color gamut conversion and pasting process L ^* a ^* b ^* values L
_2, when a ₂ and b _2, the color difference E in this _{case, E = {(L 2 -L} 1) 2 + (a 2 -a 1) 2 + (b 2 -b 1) 2} 1/2 (8) The sum E _all of the color differences E is calculated for each compression coefficient a, and the compression coefficient a when the minimum E _all is obtained is selected as the optimum compression coefficient a.

The representative color of the display which has been subjected to the color gamut conversion processing and the sticking processing using the optimum compression coefficient a is converted into the XYZ values in the color gamut of the printer in the uniform color space or on the surface. The ink density or halftone dot area CMY value, which is the color system of the printer corresponding to these XYZ values, is converted. For the XYZ-CMY conversion, the color conversion method described in Japanese Patent Application No. 4-172246 can be used as it is, but other methods may be used.

Next, the calculation method of the adaptive uniform color space in the second aspect of the present invention will be described. When calculating the color difference in the first invention according to claim 1, the CIE-L ^* a ^* b ^* or CIE-L ^* u ^* v ^* can be used as a uniform color space that can be used ^.
However, the adaptation uniform color space is different from these. The adaptive uniform color space L ^* a ^* b ^* 'is given by equation (5),
Tristimulus value X of the reference white light source in (6) and (7)
Tristimulus values Xp, Y of the white (paper) XYZ system of the printer when n, Yn, and Zn are measured under a reference white light source.
Obtained by substituting p and Zp. This adaptive uniform color space is used for the color difference calculation before and after the color gamut conversion processing and the sticking processing performed when the optimum compression coefficient a according to the first aspect of the present invention is selected.

[0035]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described with reference to the drawings. Referring to FIG. 1 which is a block diagram of a first embodiment of the present invention, an automatic color gamut conversion device of this embodiment includes a first color gamut table 1 of an original color output device and a target color output device. A second color gamut table 2 is provided. With respect to all the original representative color signals 31 obtained from the first color gamut table 1, the color gamut conversion means 4 uses the formula (2).
And the compression coefficient a of the equation (2) is set to 0.
A plurality of colors are generated within the range of ≦ a ≦ 1, compression conversion processing is performed on each compression coefficient a, and the converted color signal 32 is output. Converted color signal 32 obtained by color gamut conversion means 4
Is input to the color gamut determining means 5 for determining whether output is possible with the target color output device. The color gamut determination method in the color gamut determination means 5 refers to the second color gamut table 2 and divides the color gamut of the target color output device into triangular pyramids having the colorimetric data of the representative color as the vertex. Then, the conventional method of searching the triangular pyramid including the converted color signal 32 according to the equation (3) is used. When the converted color signal 32 is determined by the color reproduction gamut determination means 5 to be incapable of being output by the target color output device, the pasting means 6 selects a color having the smallest color difference from the surface of the color reproduction area of the target color output device. , And outputs that color as the attached color signal 33. The color signal integration means 7 outputs the converted color signal 32 or the attached color signal 33 corresponding to the original representative color signal 31 as an integrated color signal 34. The color difference calculating means 8 calculates the color differences between all the original representative color signals 31 and the corresponding integrated color signals 34 according to the equation (8) in the uniform color space, calculates the sum of the color differences, and calculates the color difference sum signal 35. Is output. The color gamut conversion selection means 9 detects the minimum color difference sum from the color difference sum signal 35, and selects the color reproduction gamut conversion when the minimum color difference sum is obtained as the optimum color gamut conversion. The automatic color gamut conversion device 3
The optimum converted color signal 36 after the optimum color gamut conversion and the sticking process of the representative color signal 31 is output.

Next, referring to FIG. 2 which is a block diagram showing a second embodiment of the present invention, an automatic color conversion apparatus 1 of this embodiment is shown.
00 is given a first color gamut table 1 of the original color output device 13 and a second color gamut table 2 of the target color output device 14. The original representative color signal 31 obtained from the first color gamut table 1 becomes an input signal to the automatic color gamut conversion device 3 described in the first embodiment. The automatic color gamut conversion device 3 sets a plurality of compression coefficients a of the equation (2) for the original representative color signal 31 within the range of (0 ≦ a ≦ 1), and reproduces the color of each compression coefficient a. The gamut conversion and the paste processing are performed, the optimum color reproduction gamut conversion is selected from among them, and the color signal subjected to the optimum color reproduction gamut conversion and the paste processing is output as the optimum converted color signal 36. The optimum converted color signal 36 is
It is input to the color conversion table creating means 10. The color conversion table creating means 10 converts the optimum converted color signal 36 into the target color signal 37 of the color system of the target color output device by the formula (4) and records it in the color conversion table 11. The color conversion table creating means 10 can use the color conversion table creating method described in Japanese Patent Application No. 4-172246, but other methods can also be used. The color signal conversion means 12 converts an arbitrary input color signal 41 displayed on the original color output device 13 into an output color signal 42 to the target color output device 14 by referring to the color conversion table 11, and outputs the output color signal 42.

Here, the automatic color conversion device 100 can be easily expanded even when the number of color output devices is three or more. The automatic color conversion device 100 can be configured as software of an LSI or a computer.

[0038]

As described above, according to the present invention,
When the actual color gamut of the color output device is given as a table, the color gamut conversion process to absorb the difference in the color gamut between different color output devices is automated and completely dependent on human subjectivity. It is possible to realize faithful color reproduction between different color output devices.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of an automatic color gamut conversion device.

FIG. 2 is a block diagram showing an embodiment of an automatic color conversion device.

FIG. 3A is an explanatory diagram showing a configuration example of a color gamut table of the display. FIG. 9B is an explanatory diagram showing a configuration example of a color gamut table of the printer.

FIG. 4 is an explanatory diagram showing a process of color gamut conversion.

FIG. 5 is an explanatory diagram showing display representative colors existing inside a triangular pyramid in a unified uniform color space.

[Explanation of symbols]

 1 first color gamut table 2 second color gamut table 3 automatic color gamut conversion device 4 color gamut conversion means 5 color gamut determination means 6 pasting means 7 color signal integration means 8 color difference calculation means 9 color reproduction Color conversion selection means 10 Color conversion table creation means 11 Color conversion table 12 Color signal conversion means 30 Purpose representative color signal 31 Original representative color signal 32 Converted color signal 33 Paste color signal 34 Integrated color signal 35 Color difference sum signal 36 Optimal converted color signal 37 Target color signal 41 Input color signal 42 Output color signal 100 Automatic color converter

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location H04N 1/46 Z 9068-5C

Claims (4)

[Claims] 1. A first color gamut table that defines an original color gamut of an original color output device or a color image and a second color gamut table that specifies a target color gamut of an objective color output device are provided. Between the original color gamut represented by the original representative color obtained from the first gamut table and the target color gamut represented by the target representative color obtained from the second color gamut table. In the color gamut conversion processing for absorbing the difference between the original representative color and the conversion parameter is changed, the converted representative color after the color gamut conversion processing is outside the target color gamut. , Further applying a sticking process to the surface of the target color reproduction area, calculating a color difference between the original representative color and the color reproduction area conversion processing of the original representative color or the converted representative color after the sticking processing, and calculating the color difference. Is the sum of Automatic color gamut conversion, characterized in that the color gamut conversion process using the conversion parameter at the minimum is selected as the optimum color gamut conversion between the original color gamut and the target color gamut. Method. 2. An adaptive uniform color space based on white of a target color output device is created, and the adaptive uniform color space is used for color difference calculation in the automatic color gamut conversion method according to claim 1. Automatic color gamut conversion method. 3. An original color output device or a first color gamut table defining an original color gamut of a color image and a second color gamut table defining an objective color gamut of an objective color output device are provided. An original color gamut represented by the original representative color signal obtained from the first color gamut table and a target color gamut represented by the target representative color signal obtained from the second color gamut table. In the color gamut conversion process for absorbing the difference between the color gamut conversion means for applying the original representative color signal to the original representative color signal, and the converted color signal obtained by the color gamut conversion means for reproducing the target color. When existing outside the range, a pasting processing means for converting the converted color signal into a color signal on the surface of the target color reproduction area, and the original representative color signal and the output signal of the color reproduction area conversion means or the pasting means color A color difference calculation means for calculating a difference, and a color gamut conversion when the conversion parameter that minimizes the sum of the color differences is used as the optimum color gamut conversion between the original color gamut and the target color gamut. An automatic color gamut conversion device comprising: a color gamut conversion selection unit for selecting. 4. An original color output device or a first color gamut table defining an original color gamut of a color image and a second color gamut table defining an objective color gamut of an objective color output device are provided. 4. The automatic color gamut conversion device according to claim 3, wherein the original representative color signal obtained from the first color gamut table and the target representative color signal obtained from the second color gamut table are input. , An optimum converted color signal corresponding to the original representative color signal obtained by the automatic color gamut conversion device is converted into a target color signal of a color system of the target color output device, and the target color signal is recorded in a color conversion table. And a color for converting any input color signal of the original color output device or the color image into an output color signal to the target color output device by referring to the color conversion table. An automatic color conversion device, comprising: a signal conversion unit.