JPH07154623A - Color reproduction system - Google Patents

Abstract

PURPOSE:To provide a color reproduction system in which color picture data are easily corrected corresponding to various input output conditions so as to attain highly accurate color reproduction and revision or addition or the like of the input output condition is flexibly processed. CONSTITUTION:The input output condition of a color picture is selected by a basic profile comprising plural color space data conversion equations corresponding to the color reproduction processing system of a picture output device, plural parameters or plural relational equations are selected from a sub profile corresponding to variables of the color space data conversion equation selected from the basic profile and the setting of the input output condition is facilitated. In this case, the addition or revision or the like of the basic profile and the sub profile is facilitated. The processing to color picture data is implemented with high accuracy according to the input output condition set in this way and a color picture with high reproducibility is obtained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention has a structure in which a color space data conversion formula, which is a color reproduction processing system corresponding to various input / output conditions, its relational formula, parameters, etc. are hierarchically structured and set to obtain desired color space data. The present invention relates to a color reproduction system that enables easy and highly accurate color reproduction by selecting a conversion formula or the like according to input / output conditions.

[0002]

2. Description of the Related Art In recent years, a color image is read from an original such as a photograph or a painting, or desired processing is performed on color image data supplied from an arbitrary image input device, and C
2. Description of the Related Art A color reproduction system for displaying on RT, outputting from a printer as a hard copy, or creating a printed matter through a printing plate is widely used. In this case, it is eagerly desired to obtain a color image having a desired color tone without paying particular attention to the difference in the output medium and the processing steps.

Particularly, the printed matter is printed on the basis of color image data supplied from an image input device, for example, Y, M, C,
Each color separation film master plate of K is prepared, PS plate (Presensitized Plate) is baked using each color separation film master plate, developed, and then the PS plate is printed on a printing machine to perform printing. To be done. Moreover, the color of the final printed matter depends on the paper, ink,
It depends on printing conditions such as water, the type of printing machine, the number of screen lines when forming a halftone image, and the halftone shape. In the printing field that requires complicated processes and conditions like this, for example, color image data that has undergone desired image processing is temporarily displayed on a CRT or the like, and the image quality of the final printed matter can be confirmed with high accuracy on the CRT. A system that can do it is desired.

Then, as a first conventional technique proposed to solve the above problems, there is US Pat. No. 4,500,919. This color reproduction system of the prior art includes means for obtaining a tristimulus appearance signal that is a common color data format from a color original document, means for aesthetically modifying the tristimulus appearance signal, and a modified color image. A means for displaying and a means for selecting a hard copy color material in order to obtain a colorimetrically matched reproduced signal, and printing a combination of a large number of color material amounts based on the means for selecting the color material, It is measured with a colorimeter, and the reproduced signal is corrected based on the measurement result to match the printed color image with the displayed color image.

As a second conventional technique, there is an international patent publication WO92 / 17982. In this conventional color reproduction method based on visual adaptation, even if the above-mentioned conventional colorimetrically matches, the color perceived by the color of the support of the printed matter or the illumination conditions is not the same. Focusing on the fact, in addition to the first conventional technique, a more accurate color matching is achieved by matching the white point of the printed color image with the displayed white point.

[0006]

However, in the case of the above-mentioned prior art, accurate color reproduction is possible, for example, when only the color material is used as the matching condition, but it is complicated to create a printed matter. It is inappropriate when conditions are required.

That is, when a printed matter is produced, output conditions such as the type of the support of the printed matter, the number of colors to be used (the number of colors), the K (black) plate amount, and the screen ruling are set in addition to the color material. As well as the printing press conditions (print order,
Printing pressure, color material amount, printing speed, etc.) are also required. As described above, it is difficult for the first and second prior arts to deal with various printing conditions with high accuracy.

The present invention has been made in order to solve the above-mentioned inconvenience, and color-reproduces a color image corresponding to various input / output conditions and a color reproduction processing system with high accuracy on a CRT or a printer, and An object of the present invention is to provide a color reproduction system which enables confirmation and can flexibly respond to changes and additions of the input / output conditions and the color reproduction processing method.

[0009]

In order to achieve the above object, the present invention provides an input condition for the image input device and an output condition for the image output device for color image data supplied from the image input device. A color reproduction system that reproduces and outputs a color image from the image output device after performing processing according to the color reproduction processing method according to the input / output conditions such as the color reproduction processing method according to the input / output conditions. Conversion formula setting means for setting as at least one image data conversion formula,
Variable setting means for setting a variable conversion formula that can be selected as necessary and parameters according to the input / output conditions corresponding to each variable constituting the image data conversion formula, and the image according to the input / output conditions A data conversion formula, a selection unit for selecting the variable conversion formula and the parameter,
The image data conversion formula selected by the selection means,
A color reproduction process is performed on the color image data using the variable conversion formula and the parameter.

Further, the present invention provides a color reproduction processing method according to input / output conditions such as the input condition of the image input device and the output condition of the image output device for the color image data supplied from the image input device. A color reproduction system that reproduces and outputs a color image from the image output device after processing, and a conversion formula setting that sets the color reproduction processing system according to the input / output conditions as at least one image data conversion formula. Means, variable setting means for setting variables according to the input / output conditions, which can be selected as necessary, corresponding to each variable forming the image data conversion equation, and the input / output conditions A condition setting unit for selecting the input / output condition, the image data conversion formula according to the input / output condition, the variable conversion formula, and a selection unit for selecting the parameter. The output condition selected by the selecting means, the image data conversion formula, and performs color reproduction processing with respect to the color image data by using the variable conversion formulas and the parameters.

Further, the present invention provides a color reproduction processing method according to input / output conditions such as the input condition of the image input device and the output condition of the image output device for the color image data supplied from the image input device. A color reproduction system that reproduces and outputs a color image from the image output device after processing, wherein the color image data is stored in a common color space based on the color reproduction processing method set according to the input / output conditions. A common color space conversion unit for converting into color image data, and a color gamut conversion unit for converting the color image data in the common color space into color image data of a color reproduction region in an image output device set according to the input / output conditions. And converting the color image data in the common color space into the color image data in the unique color space in the image output device set according to the input / output conditions. That a specific color space converter includes a, characterized in that a color image is reproduced based on the color image data obtained by the conversion by said specific color space converter.

Furthermore, the present invention provides a color reproduction processing method according to input / output conditions such as the input condition of the image input device and the output condition of the image output device for the color image data supplied from the image input device. A color reproduction system that reproduces and outputs a color image from the image output device after processing, wherein the common color space conversion converts the color image data into color image data in a common color space based on the color reproduction processing method. A color gamut conversion unit that converts color image data in the common color space into color image data in a color reproduction range in the image output device; and color image data in the common color space in a unique color in the image output device. An intrinsic color space conversion unit for converting into space color image data, the common color space conversion unit, the color gamut conversion unit, and the intrinsic color space conversion unit. A conversion processing setting unit that sets the conversion processing in the unit according to the input / output conditions, and a processing combining unit that combines the conversion processes set by the conversion processing setting unit, and is combined in the processing combining unit. It is characterized in that color image data is processed by the above conversion processing to reproduce a color image.

[0013]

In the color reproduction system according to the present invention, the image data conversion formula, which is a color reproduction processing system according to the input / output conditions set by the conversion formula setting means, and the image data conversion formula set by the variable setting means. The variable conversion formula and the parameter corresponding to the variable are selected, and the color image data conversion process is performed based on them. In this case, the color space data conversion formula, the variable conversion formula, the parameters can be added and changed freely, and the color image corresponding to the input / output conditions can be reproduced with high accuracy on a desired image output device. be able to.

The input / output conditions can be arbitrarily set by the condition setting means according to the image input device, the image output device and the like.

Further, in the color reproduction system according to the present invention,
The color reproduction processing method is specified based on the set input / output conditions, the color image data is converted to color image data in the common color space in the common color space conversion unit, and then the color image is converted in the color reproduction range conversion unit. The data is converted into a color reproduction range corresponding to the image output device, and then the color image data is converted into color image data in an intrinsic color space corresponding to the output device. The color image reproduced based on the color image data converted in this way is
It corresponds to the input color image with high accuracy.

In this system, the processes in the common color space processing unit, the color gamut conversion unit and the unique color space conversion unit can be combined by the process combining unit and can be collectively processed.

[0017]

1 is a block diagram of the overall configuration of an embodiment of a color reproduction system according to the present invention.

This color reproduction system is composed of an image input device 10 for reading color image data from a color original document or an external device.
An image editing device 12 for aesthetically processing the read color image data, and an image output device 14A for displaying the processed color image data on a CRT or the like.
An image output device 14B for outputting the processed color image data as a hard copy of a color separation film original plate (Y, M, C, K plates) for obtaining a printed matter, and the color image data for the color image data. The aesthetic processing instructed by the image editing device 12 is performed, and the image output device 1 is also provided.
4A and 14B, image processing device 16 for converting to data in a proper color space, characteristics of image input device 10 and image output devices 14A, 14B, color reproduction processing method, color of color material, support, phosphor, etc. It basically comprises a device profile generator 18 that generates characteristics of the reproduction medium as a device profile group described later.

The image input device 10 is, for example, a device for reading the image density of a color original for each pixel by using three or more kinds of sensors having different spectral sensitivities. The color original is mounted on a drum and the drum is rotated. A drum type scanner that reads the image density in synchronization with the line scanner, a flatbed type scanner that reads the image density of a color original by a line sensor in which one or more rows of photoelectric conversion elements are arranged, or a two-dimensionally arranged two-dimensional sensor Can be used.
The image output device 14B is, for example, Y for color-separating the color image data processed by the image processing device 16 and outputting the color-separated data onto a film to provide a PS plate for creating a printed matter.
An original for each color separation film of M, C and K is prepared. It should be noted that the image output device 14B includes a printing machine for producing a PS plate from the color separation film original plate and obtaining a printed matter from the PS plate. The image output device 14A, for example, is a CR for displaying and outputting a color image having the same color expression and image quality as a hard copy created using the image output device 14B.
And a device such as a printer.

The image processing apparatus 16 includes a common color space conversion section 20 for creating a common color space conversion table for converting the color image data supplied from the image input apparatus 10 into color image data in the common color space, and the common color space. The color gamut of the image input device 10 in the desired image output device 14A or 14
A color reproduction area / appearance conversion unit 22 that creates a color reproduction area / appearance conversion table that compresses or converts the color reproduction area in B and adjusts the appearance corresponding to the difference in observation conditions, and an image. An image processing unit 23 that creates an aesthetic processing table that performs aesthetic processing on color image data based on an instruction from the editing apparatus 12, and color image data in the common color space of a desired image output apparatus 14A or 14B. A unique color space conversion unit 24 that creates a unique color space conversion table that converts color image data in a unique color space, a common color space conversion unit 20, a color reproduction area / appearance conversion unit 22, an image processing unit 23, and a unique color space Image for generating an image conversion table in which all or part of each conversion table created by the conversion unit 24 is combined Conversion table generation unit 26 (hereinafter, LU
T generation unit 26). The LUT generation unit 26 functions as a processing synthesis unit. In this case, the common color space conversion table, the color gamut / appearance conversion table, the aesthetic processing table, the unique color space conversion table and the image conversion table are data files 28, 30, 31, 32 and 34, respectively. Memorized in. An image data file 35 for temporarily storing the color image data processed by the image conversion table is connected to the LUT generation unit 26.

The common color space is the X defined by CIE.
The YZ color system, the L ^* a ^* b ^* color system, or the YCC color system in which mathematical conversion with these is performed uniquely, YIQ
A color space consisting of data that does not depend on the input / output device or the output medium, such as the RGB color system that defines the phosphors of the monitor such as the color system and CRT. Therefore, in this color space, desired image processing can be performed without being aware of the input / output device and the like. On the other hand, the unique color space is a color space composed of specific data handled by the image input device 10 and the image output devices 14A and 14B.

Therefore, the image processing device 16 converts the color image data of the unique color space determined by the image input device 10 into the color image data of the common color space by using the common color space conversion table, and further, The color gamut of the color image data in the common color space is converted into the image output devices 14A and 1A by using the color gamut / appearance conversion table.
The 4B color gamut is compressed, converted, etc., and if necessary, the desired appearance conversion corresponding to the observation conditions is performed. Then, the aesthetic processing is performed using the aesthetic processing table, and then the conversion is further performed. The processed color image data in the common color space is converted into color image data in the unique color space determined by the image output devices 14A and 14B using the unique color space conversion table.

On the other hand, the device profile generator 18
Has a measuring device for measuring each physical property as needed,
A color space data conversion formula, a variable conversion formula, and other parameters used for data processing in the image processing device 16 are set as a device profile group, and the common color space conversion unit 20 and the color gamut / appearance conversion unit 22 are set.
And a conversion processing unit that sets conversion processing in the intrinsic color space conversion unit 24, and a selection unit that selects the variable conversion formula and other parameters, and stores the device profile group in the data file 36.

Here, the device profile group is
A common data format of the color reproduction processing method, the use environment condition, the physical factors such as the color original and the material of the recording medium and the characteristics thereof, and the relational expressions connecting these, in the image input device 10 and the image output devices 14A and 14B. It is a set of profiles described in. Basically, as shown in FIG. 2, common color image data supplied from the image input device 10 is converted into data in a common color space such as an XYZ color system, an L ^* a ^* b ^* color system, or the like. An input device profile group for creating a color space conversion table, a desired color gamut for the data in the common color space, a color gamut for performing appearance conversion, and a color gamut for creating an appearance conversion table. It can be classified into an appearance conversion device profile group and an output device profile group for creating a unique color space conversion table that converts common color space data into unique color space data in the image output devices 14A and 14B. Then, each device profile group is further classified into a basic profile, a sub-profile and a condition profile.

FIG. 3 shows image output devices 14A and 14B.
5 shows an example of the structure of a basic profile and a sub-profile that constitute an output device profile group defined in relation to the color reproduction processing method of FIG. In this case, the basic profile is one in which a plurality of color reproduction processing methods are set in the data file 36 as conversion expression setting means, and the sub-profile is a conversion expression of variables of the color reproduction processing method and parameters. It is set in the data file 36 as a setting means.

First, corresponding to the color reproduction processing method of the image output devices 14A and 14B, (1) halftone dot modulation method using Neugebauer equation, (2) conversion method using lookup table, (3) other , A basic profile that can be selected from the common color space and the image output devices 14A and 14B.
It is set as a color space data conversion formula between the color space and the proper color space.

In this case, the Neugebauer equation is CIE
Is a basic color prediction function that defines the relationship between the XYZ color system and the YMCK color system in the common color space of, and is defined as in [Equation 1] below.

[0028]

[Equation 1]

In the equation 1, X, Y, and Z are
Tristimulus values in the XYZ color system, X _c, X_m, X_y, X
_kAre XYZ for Y, M, C and K single color inks.
Stimulus value (monochromatic stimulus value), X_wEtc. are 3 of the support of printed matter
Stimulus value, X_cm, X_cmy, X_{cm yk}Are, for example, X_cmPlace
XYZ of the overlapping area of C ink and M ink
Irritation value (higher-order color irritation value), c_X, M_X, Y_X, K_Xetc
Is when observed with colored light corresponding to the color matching function x (λ), etc.
Halftone value of C, M, Y, K ink, c_Xm, C_Xmy, C
_XmykEtc. are observed with colored light corresponding to the color matching function x (λ) etc.
Is the halftone value of C ink when_XmyIs
Corrected for the presence of M and Y inks (higher-order color dot
The half-tone dot value is calculated. The XYZ color system is
L^*a^*b^*Since it corresponds one-to-one with the color system,
Neugebauer formula is L^*a^*b^*Color system and YMCK color system
It can also be defined as a relational expression with.

Corresponding to the basic profile, a sub-profile in which a set value or the like according to a predetermined relational expression or output condition can be selected is set. For example, when (1) halftone dot modulation method (Neugebauer method) is selected as the basic profile, the variables are (1) dot gain conversion expressions (c _X , m _X , c _Xm , c _Xmy, etc.), (2 ) Monochromatic stimulus value (X
_c , X _m , X _y , X _k, etc.), (3) Higher-order color stimulus value (X _cm ,
X _cmy , X _cmyk, etc.), and a sub-profile is set for each. In this case, for the dot gain conversion formula (1), a desired sub-profile can be selected from (1) single conversion formula, (2) XYZ independent conversion formula, (3) and others. Further, for the (2) monochromatic stimulus value, a desired sub-profile can be selected from (1) monochromatic stimulus value table, (2) theoretical formula, (3) others. Furthermore, for (3) higher-order color stimulus values, a desired sub-profile can be selected from (1) higher-order color stimulus value table, (2) theoretical formula, (3) others. It should be noted that (1) single conversion equation means that c _X , c in [Equation 1]
A method of representing _Y , c _Z, etc. by the same value c _n, etc. that does not depend on X, Y, Z, and (2) XYZ independent conversion formula
_{In this system, X} , c _Y , c _Z, etc. are independently set for each X, Y, Z and processed.

Corresponding to each of the above sub-profiles, a sub-profile capable of selecting other relational expressions is set. For example, (1) single conversion formula sub-profile, (1) perimeter conversion formula, (2) quadratic conversion formula, (3)
In addition, a desired sub-profile can be selected from the above. Also, for (2) XYZ independent conversion sub-profile, (1) primary color dot gain conversion formula,
A desired sub-profile can be selected from among (2) higher-order color dot gain conversion formula and (3) others.

(1) Single conversion type sub-profile
(1) The perimeter conversion formula is the perimeter of the formed halftone dot.
Halftone dot value assuming that dot gain is proportional to length
c_X, C _Y, C_ZEtc. (= c_nEtc.)
In coefficient is α_p, Α_m, The screen frequency is L,

[0033]

[Equation 2]

It is set as follows. Gain coefficient α
_p is a parameter that depends on the paper to be printed, and the gain coefficient α _m is a parameter that depends on the printing machine and ink.

Further, (2) The quadratic transformation formula, the dot percentage c _n, etc. on the printed matter, baking of the PS plate, developing, printing, calculation of quadratic expression, including optical scattering effect etc. As a method,

[0036]

[Equation 3]

[0037]

[Equation 4]

Is set. The gain coefficient g ₁ is a parameter dependent on the printing machine, the gain coefficient g ₂ is a parameter dependent on the ink, the gain coefficient g ₃ is a parameter dependent on the paper which is the support of the printed matter, and the gain coefficient g ₄ is dependent on the screen ruling. Parameter, gain coefficient g
₅ is a parameter that depends on the mesh shape.

On the other hand, (2) The primary color dot gain conversion formula in the sub-profile of the XYZ independent conversion formula is as follows for the perimeter length conversion formula in the above-mentioned single conversion formula.
The gain coefficient α _p of [ _Equation 2] is set independently of α _pX , α _pY , and α _pZ for each stimulus value of X, Y, and Z, and, for example, the halftone _dot value c _X is

[0040]

[Equation 5]

For the quadratic conversion formula,
Based on [Equation 3], the halftone dot value c _X is

[0042]

[Equation 6]

[0043]

(2) The high-order color dot gain conversion formula is, for example, the halftone dot value c _Xy for halftone dot values equal to or greater than the secondary color terms in [Equation 1].

[0045]

[Equation 7]

[0046] Note that a _cXy and b
_cXy is a high-order color dot gain correction parameter.

FIG. 4 shows an example of the structure of the print output condition profile which constitutes the output device profile group. In this case, the print output condition profile is
The input / output conditions of the image input device 10 and the image output devices 14A and 14B are set in the data file 36 as a condition selection means. This condition profile is used when a printed matter is created, and the parameters (α _P , α _PX , α _PY , α _PZ , g) related to the paper, which is the support in the printed matter, are used.
₃ , a _cXy , b _cXy, etc.), a support body profile that defines the number of screen lines and a mesh shape (L,
g _4, etc.) screen ruling-network shape profile for defining parameters about the characteristics of the ink used for printing (g _2, alpha _m, monochromatic stimulus value table, higher color stimulus value table, theoretical formula parameters, etc.) Prescribed ink profile, parameters related to K plate amount described later (p, κ, etc.)
K version amount profile that defines the above, a lookup table that is quoted when a lookup table formula is selected from the basic profile shown in FIG. 3, and an average parameter is defined for parameters that are not set in each of the above profiles. Standard profile and others (including those related to printing machines).

Similarly, for the color gamut / appearance conversion device profile group, as shown in FIG. 5, a processing method can be selected from (1) LMN conversion method of Postscript tristimulus value and (2) others. Basic profile and
(1) LMN conversion method, (1) LMN conversion matrix, (2) nonlinear conversion table, (3) others,
And a sub-profile that can be selected from.
In this case, (2) Non-linear conversion table, (1) Input range, (2) Output range, (3) White Point, (4) Blac
Each variable of k Point is set.

The viewing condition profiles constituting the color gamut / appearance conversion device profile group are
For example, it is configured as shown in FIG. In this case, parameters related to the observation light source and others are set as the observation condition profile.

The input device profile group is similar to the output device profile group described above, and the image input device 1
It can be set in a hierarchical structure including the type of color original read by 0, the sensitivity characteristic of the sensor, the conversion formula to the common color space, and the like.

For example, as shown in FIG. 7, the basic profile forming the input device profile group is (1) 3
× 10 matrix method, (2) 3 × 3 matrix method,
A desired color space data conversion formula can be selected from among (3) three-dimensional lookup table method, (4) and others. Here, (1) 3 × 10 matrix method is [Equation 8]
And color image data B, G, R based on [Equation 9]
Is a processing method for converting X into Y, Z, and Z stimulus values.

[0052]

[Equation 8]

[0053]

[Equation 9]

The matrix [T _ij ] defined by [ _Equation 9] is defined by each correction matrix of the sub-profile.

On the other hand, the input device profile group is constructed.
The input condition profile to be configured is configured as shown in FIG.
Be done. That is, the input condition profile is the image input device.
Enter the parameters related to the machine difference of the standard equipment
Force-machine difference matrix [Δ₁t _ij] Input machine set as
Parameters related to difference profile and image input magnification
Magnification correction matrix [Δ₂t_ij] To set as
Original correction according to the power magnification profile and the type of scanned original
Matrix [t_ij] Three-dimensional lookup table, etc.
Set the document type profile, etc.
It

In the common color space conversion table, for example, the data obtained by reading the calibration chart corresponding to the measurement value in the common color space by the image input device 10 and the calibration chart are directly measured by a densitometer or the like. It is also possible to create it from the data obtained by reading.

The color reproduction system of this embodiment is basically constructed as described above. Next, the data processing in this system will be explained based on the flow chart shown in FIG.

First, the operator operates the image input device 10,
The image output devices 14A and 14B, the system such as the type of document on which the color image is recorded, the output medium, the type of ink used for recording, and the output form are determined (step S1).

The image input device 10, the image output device 14A,
When 14B and the like are determined, next, the device profile generator 18 is used to set the device profile shown in FIGS. 3 to 8 (step S2). Note that this device profile may be set in advance corresponding to a predetermined device before the configuration of the color reproduction system is determined.

When the configuration of the color reproduction system and the device profile are determined, the common color space conversion unit 20 creates a common color space conversion table for converting the color image data from the image input device 10 into the common color space data. Yes (step S3). In this case, the selection of the basic profile and the sub-profile described below depends on whether or not the parameters related to the profile are prepared in the condition profile, whether the profile can support the required processing speed, and the like. Therefore, not all of the profiles are arbitrarily selected by the operator and are naturally limited by the prepared profiles. Therefore, when the desired profile is not set, for example, the default value is selected.

Therefore, from the basic profile shown in FIG.
The desired processing method is selected and the selected
The sub-profile corresponding to the processing method is selected. This
In the case of, in the basic profile shown in FIG. 7, (1) 3
When the × 10 matrix method is selected, this processing method
(See [Equation 8]) is a matrix [T
_ij] (See [Numerical equation 9]) through FIG.
It is selected from the input condition profile shown in. For example,
Type of image input device 10 that constitutes the color reproduction system
According to the input device difference profile from the input device difference matrix.
Cousin [Δ₁t_ij], Depending on the processing magnification of the input image
Input magnification profile to magnification correction matrix [Δ
₂t_ij] And specify the original type according to the type of input original.
Original correction matrix [t_ij]]
It As a result, the common color space transformation consisting of the conversion formula of [Equation 8] is
The replacement table is determined. This table is
Stored in the file 28. In addition, in the input condition profile
Matrix [T_ij] The data that makes up the
If not, convert based on other data, for example
The basic profile that can determine the formula will be selected.
It

On the other hand, the common color space conversion table based on the characteristics of the color original can also be set by using the above-mentioned calibration chart or the like without using the input device profile group. In this case, in the image input device 10,
The calibration chart having the same characteristics as that of the color original whose measurement value in the desired common color space is known is read, and the common color space conversion unit 20 converts the color image data into the common color space based on the obtained color image data. A common color space conversion table for converting to data is created (step S3).

Similarly, in the color gamut / appearance conversion unit 22 of the image processing apparatus 16, a desired color reproduction processing method or the like is sequentially selected from the color gamut / appearance conversion device profile group shown in FIGS. On the basis of the selected color reproduction processing method or the like, match the color reproduction area of the image input device 10 in the common color space with the color reproduction area of the image output device 14A or 14B in the common color space,
Further, a color gamut / appearance conversion table for matching the appearances corresponding to the visual adaptability is created (step S4). When creating the color gamut / appearance conversion table, parameters corresponding to the observation light source are given from the observation condition profile of FIG.
Parameters of the input range and the output range are given from the input condition profile of FIG. 8 and the print output profile of FIG.

In this case, the color gamut / appearance conversion table is created as follows according to the processing method selected as described above. For example, the LMN conversion formula suitable for the observation condition of the color original as the original image and the type of color image data is selected from the basic profile, the non-linear conversion table is selected from the sub-profile, and L ^* a ^* b is selected.
^* Conversion from color system to LMN color system is performed. Then, the non-linear conversion table is corrected for differences in color reproduction range (input range, output range, etc.), observation conditions / color temperature, and conversion of LMN → L ^* M ^* N ^* is performed. Finally L ^*
Inverse conversion of M ^* N ^* → Lab is performed. And L ^* a ^* b
^{* A} conversion table for converting Lab is stored in the data file 30 as a color gamut / appearance conversion table. Next, the unique color space conversion unit 2 of the image processing device 16
4, a desired color reproduction processing method or the like is sequentially selected from the input device profile group shown in FIGS. 3 and 4, and an inherent color space conversion table is created based on the selected color reproduction processing method or the like (step S5). ).

Therefore, the case of creating the unique color space conversion table corresponding to the image output device 14B for obtaining a hard copy will be described in detail. In this case, the image output device 1
In order to obtain a desired color image from 4B, the color reproduction processing method of the image output device 14B is specified, and a basic expression according to desired accuracy and processing speed is selected.

For example, when the output system of the image output device 14B is the halftone dot modulation system, the basic formula of FIG. 3 is used as the basic formula of the color prediction, and from the basic profile of FIG. The Neugebauer formula that defines the relationship with the color system is selected. In the Neugebauer equation shown in [Equation 1], the variables are (1) dot gain conversion equations (c _X , m _X , c _Xm , c _Xmy, etc.), (2) monochromatic stimulus values (X _c , X _m , X _y , X _k, etc.), and (3) higher-order color stimulus values (X _cm , X _cmy , X _cmyk, etc.), and a desired sub-profile is selected for each.

When the single conversion formula and the perimeter conversion formula are selected from the sub-profile for the dot gain conversion formula, c _X , m _X , c _Xm , c _Xmy, etc. are _calculated by the correction formula of [Equation 2]. Replaced by its parameters α _p , α _m , L
Are given by the support profile and the ink profile of the print output condition profile shown in FIG.
Note that α _p is a variable that depends on the paper to be printed, and as typical values, for example, 13 can be set for art paper, 16 for coated paper, and 20 for fine paper. Further, α _m is a parameter that depends on the printing machine and ink, and can be set to 1 for average offset printing and 1 or less when selecting ink with a small dot gain or printing conditions. .

When a quadratic conversion formula is selected from the sub-profile for a single conversion formula, c _X , m _X , c
_Xm , c _Xmy, etc. are replaced by the correction equations of [Equation 3] and [Equation 4], and the gain coefficient g which is the parameter thereof is replaced.
_{1 to} g ₅ are given by the support profile, screen ruling / mesh shape profile, ink profile, etc. of the print output condition profile shown in FIG.

The above single conversion formula is a case where a common dot% value is used for the stimulus values of X, Y and Z.
When different dot% values are associated with the Y and Z stimulus values to improve accuracy, the dot gain conversion formula
Select the XYZ independent conversion formula from the sub-profile. In this case, c _X , m _X, etc. are replaced by the correction formula of [Equation 5] or [Equation 6], and c _Xm , c _Xmy, etc. are replaced by the correction formula of [Equation 7]. The parameters α _pX , α _pY , α _pZ , α _m , L, a _cXy , b _cXy , and gain coefficients g _{1 to} g ₅ are the support profile of the print output condition profile shown in FIG. Given by profile and ink profile.

On the other hand, when the single color stimulus value table and the higher order color stimulus value table are selected for the single color stimulus value and the higher order color stimulus value, the table for the predetermined ink set and the support is selected from the ink profile. In the above process, when the data of the ink set to be used is not registered in the print output condition profile, the default value can be selected from the standard profile.

As described above, the parameters of the Neugebauer equation shown in [Equation 1] are determined, and the tristimulus values X, Y and Z can be obtained from the output halftone value using this conversion equation. it can.

Here, what is actually required is the above-mentioned 3
In order to obtain a printed matter corresponding to the stimulus values X, Y, and Z, what kind of halftone value of the color-division film original plate should be prepared and printed. In this case, the following three problems arise. That is, (1) The conversion from XYZ or L ^* a ^* b ^* to YMCK is the conversion from three variables to four variables, and the solution is not uniquely determined.

(2) It is difficult to analytically solve between the two variables, such as conversion by a relational expression including high-order terms or a table.

(3) The color gamut is different, and YMCK
The value of may exceed the range of 0 to 100%. There is such a problem. Therefore, the inherent color space conversion table is obtained by solving these problems using the parameters of the printing conditions.

First, there is a restriction on the value k of the K plate as a function of the minimum values of y, m and c. For example,

[0076]

[Equation 10]

It is assumed that This is an example of linear conversion that rises from point p with slope κ, but the minimum value m of y, m, and c
It is also possible to set the relationship between in (y, m, c) and k in a table. How to obtain the value of k depends on printing conditions. In order to increase the ratio of k in the printed matter, the rising point p may be decreased and the inclination κ may be increased. The parameters p and κ are set by the K plate amount profile of the print output condition profile shown in FIG.

By setting the above, three variables
X, Y, Z or L^*, A^*, B^*To 3 variables y, m,
This can result in the problem of conversion to c. This problem,
It can be solved by the Jacobian method. X, Y, Z again
Is L^*, A^*, B^*Is a non-linear function of y, m, c
However, it is assumed that it is linear in the small area and repeated calculations are performed.
U For example, input a certain y, m, c value to the virtual device
And output L^*, A ^*, B^*Difference between the value of and the desired value
Data ΔL^*, Δa^*, Δb^*To calculate. The difference day
ΔL^*, Δa^*, Δb^*Within the specified accuracy range
If not, ΔL^*, Δa^*, Δb^*Of Jacobian
The product of the inverse matrix is the correction amounts Δy, Δm, and Δc of y, m, and c.
And calculate y + Δy, m + Δm, c + Δc again
Input to virtual device and L^*, A^*, B^*Find the value of
Repeat that.

Thus, X, Y, Z or L ^* ,
An intrinsic color space conversion table for obtaining y, m, c, k from a ^* , b ^* can be created. This unique color space conversion table is stored in the data file 32 shown in FIG.

On the other hand, the operator creates an aesthetic processing table by the image processing unit 23 using the image editing device 12, and stores it in the data file 31.

The common color space conversion table, color gamut / appearance conversion table, unique color space conversion table, and aesthetic processing table created as described above are L
They are combined in the UT generator 26 or stored in the data file 34 as individual image conversion tables (step S6).

Next, the operator reads the color image data of the color original corresponding to the conditions of the image conversion table created as described above from the image input device 10 (step S7). Next, the image processing device 16 performs conversion processing on the color image data supplied from the image input device 10 using a conversion table set corresponding to each of the image output devices 14A and 14B. in this case,
An image data file 35 that temporarily stores color image data is connected to the LUT generation unit 26. Therefore, the LUT generation unit 26 processes the color image data based on the common color space conversion table, the color gamut / appearance conversion table, and the aesthetic processing table, and the processed image data is temporarily stored in the image data file 35. Remember. Then, the processed image data is subjected to conversion processing by the unique color space conversion table set corresponding to each of the image output devices 14A and 14B (step S).
8), and supply them to the image output devices 14A and 14B, respectively.

The image output device 14A displays a color image on the CRT. The image output device 14B outputs the Y, M, C, and K color separation film original plates, and finally a printed matter is created from the color separation film original plates (step S9). Here, the CR of the image output device 14A
When the image displayed on T needs to be aesthetically modified (step S10), the aesthetic processing table stored in the data file 31 is modified in the image editing device 12, and the modified The image conversion table is corrected according to the aesthetic processing table, and the image processing is performed again.

The color image displayed on the CRT or the like as described above has various output conditions for the color image output as a printed matter, such as the type of printing machine, the characteristics of the ink used for printing, and the type of printing paper. Since it is processed in consideration of observation conditions and the like, it can be observed as a reproduced color having extremely high isochromaticity. Thus, the operator can evaluate the color image on the CRT before obtaining the final product print.

For the basic profile, sub-profile and condition profile, conversion formulas and correction formulas,
Furthermore, since the parameters can be arbitrarily added or changed, the range to which the color reproduction system is applied can be easily expanded, and the accuracy of color image reproducibility can be improved.

[0086]

As described above, according to the present invention, with respect to the image data conversion formula which is the color reproduction processing method set by the conversion formula setting means, the variable thereof is changed by the variable setting means. Color image data is processed by selecting from formulas and parameters according to input / output conditions, so color image data can be easily processed according to various input / output conditions, enabling highly accurate color reproduction. And change the input / output conditions and color reproduction processing method,
It is possible to flexibly deal with additions and the like, and thereby the applicable range of the color reproduction system can be expanded. Since the input / output conditions can be set arbitrarily according to the input / output device, more accurate color reproduction can be achieved.

For color image processing, a color reproduction processing method is specified on the basis of input / output conditions, and using the specified method, first, in the common color space conversion unit, the color space of the image input device is changed from the unique color space. Conversion to a common color space, then conversion in the color reproduction gamut conversion unit corresponding to the reproduction range of the image output device, and then conversion to data in the specific color space of the image output device in the specific color space conversion unit As a result, it is possible to obtain a reproduction output image according to desired input / output conditions.
In this case, by synthesizing the processing in each of the conversion units, speeding up of the processing can be easily achieved.

[Brief description of drawings]

FIG. 1 is an overall configuration block diagram showing an embodiment of a color reproduction system according to the present invention.

FIG. 2 is a diagram illustrating the configuration of device profile groups in the color reproduction system according to the present invention.

3 is an explanatory diagram of a hierarchical structure of a basic profile and sub-profiles in the output device profile group shown in FIG.

FIG. 4 is an explanatory diagram of a condition profile in the output device profile group shown in FIG.

5 is an explanatory diagram of a hierarchical structure of a basic profile and sub-profiles in the color gamut / appearance conversion device profile group shown in FIG.

FIG. 6 is an explanatory diagram of condition profiles in the color gamut / appearance conversion device profile group shown in FIG.

7 is an explanatory diagram of a hierarchical structure of a basic profile and sub-profiles in the input device profile group shown in FIG.

8 is an explanatory diagram of a condition profile in the input device profile group shown in FIG.

FIG. 9 is a flowchart showing a processing process of the color reproduction system according to the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Image input device 12 ... Image editing device 14A, 14B ... Image output device 16 ... Image processing device 18 ... Device profile generation device 20 ... Common color space conversion unit 22 ... Color reproduction area / appearance conversion unit 23 ... Image processing unit 24 ... Unique color space conversion unit 26 ... LU
T generation unit 28, 30, 31, 32, 34, 35, 36 ... Data file

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location G06T 5/00 H04N 1/46 8420-5L G06F 15/66 310 9191-5L 15/68 310 310 A 4226 -5C H04N 1/46 Z

Claims (14)

[Claims] 1. Color image data supplied from an image input device is processed by a color reproduction processing method according to input / output conditions such as the input condition of the image input device and the output condition of the image output device. A color reproduction system that reproduces and outputs a color image from the image output device, the conversion expression setting unit setting the color reproduction processing method according to the input / output conditions as at least one image data conversion expression; Variable setting means for setting a variable conversion formula selectable as necessary and parameters according to the input / output conditions corresponding to each variable constituting the image data conversion formula, and the image data according to the input / output conditions A conversion formula, the variable conversion formula, and a selection unit for selecting the parameter, and the image data conversion formula, the variable conversion formula, and the variable conversion formula selected by the selection unit. And a color reproduction process for the color image data using the parameters. 2. Color image data supplied from an image input device is processed by a color reproduction processing method according to input / output conditions such as the input condition of the image input device and the output condition of the image output device. A color reproduction system that reproduces and outputs a color image from the image output device, the conversion expression setting unit setting the color reproduction processing method according to the input / output conditions as at least one image data conversion expression, Variable setting means for setting variable conversion expressions selectable as necessary and parameters according to the input / output conditions corresponding to each variable constituting the image data conversion expression, and condition setting means for setting the input / output conditions And a selection unit that selects the input / output condition, the image data conversion formula, the variable conversion formula, and the parameter according to the input / output condition. Color reproduction system characterized by performing the color reproduction process on the color image data by using selected the input conditions, the image data conversion formula, the variable transformation formula and the parameter by. 3. The color reproduction system according to claim 1, wherein the conversion formula setting means sets the Neugebauer formula as a basic profile as the image data conversion formula. 4. The color reproduction system according to claim 1 or 2, wherein the variable setting means sets, as a variable conversion formula, at least a dot gain conversion formula corresponding to a recording medium for recording a color image as a sub-profile. A color reproduction system featuring. 5. The color reproduction system according to claim 1 or 2, wherein the variable setting means sets another variable conversion formula or parameter selectable corresponding to each variable forming the variable conversion formula. A color reproduction system comprising variable setting means. 6. The color reproduction system according to claim 2, wherein the condition setting means sets a machine difference of the image input device of the system with respect to a reference image input device as a condition profile. . 7. The color reproduction system according to claim 2, wherein the condition setting means sets the input magnification of the image input device of the system as a condition profile. 8. The color reproduction system according to claim 2, wherein the condition setting means sets the original type of the input image of the system as a condition profile. 9. The color reproduction system according to claim 2, wherein the condition setting means sets an observation light source for observing a color image reproduced by the system as a condition profile. 10. The color reproduction system according to claim 2, wherein the condition setting means sets the type of the recording medium of the color image reproduced by the system as a condition profile. 11. The color reproduction system according to claim 2, wherein the condition setting means sets an output condition such as a screen ruling and a screen shape in an image output device constituting the system as a condition profile. Color reproduction system. 12. The color reproduction system according to claim 2, wherein the condition setting means sets ink used for a color image reproduced by the system as a condition profile. 13. Color image data supplied from an image input device is processed by a color reproduction processing method according to input / output conditions such as an input condition of the image input device and an output condition of the image output device. A color reproduction system for reproducing and outputting a color image from the image output device, wherein the color image data is converted into color image data in a common color space based on the color reproduction processing method set according to the input / output conditions. A common color space conversion unit for converting; a color reproduction gamut conversion unit for converting color image data in the common color space into color image data of a color reproduction gamut in the image output device set according to the input / output conditions; A unique color space for converting color image data in a color space into color image data in a unique color space in the image output device set according to the input / output conditions. Color reproduction system characterized by comprising a conversion unit, and reproducing a color image based on color image data obtained by the conversion by said specific color space converter. 14. Color image data supplied from an image input device is processed by a color reproduction processing method according to input / output conditions such as the input condition of the image input device and the output condition of the image output device. A color reproduction system that reproduces and outputs a color image from the image output device, the common color space conversion unit converting the color image data into color image data in a common color space based on the color reproduction processing method; A color reproduction gamut conversion unit for converting color image data in a common color space into color image data in a color reproduction area in the image output device; and color image data in the common color space in a color image of an inherent color space in the image output device. An inherent color space conversion unit for converting into data, a conversion in the common color space conversion unit, the color gamut conversion unit, and the intrinsic color space conversion unit. A conversion process setting unit that sets a conversion process according to the input / output conditions; and a process combining unit that combines the conversion processes set by the conversion process setting unit. A color reproduction system that processes color image data to reproduce a color image.