KR0132820B1 - Method of color compensation - Google Patents

Abstract

The method is for compensating the colors by searching for a number of a color directory appropriate for a clor viewer without using a colorimeter in the conventional method. The method comprises steps of producing the color directory; determining a color compensation coefficient by a lookup table; searching for a color among the color among the color directory; updating the color coefficient by searching for a value of CIE/L*a*b from a database according to a patch number and interpolating the value of the CIE/L*a*b if the searched patch number is not identical to the patch number in the center; compenstaing the color by using the color compensation coefficient

Description

Color correction method

1 is a flowchart illustrating a color correction method according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color correction method, and more particularly, to a color correction method for outputting an original image with a minimum color difference without using a colorimeter in a color reproduction apparatus. In general, when a digital input image is applied to a color reproduction apparatus such as a printer, a desired output color cannot be obtained due to the color reproduction characteristics and distortion characteristics of the color output apparatus. Therefore, in order to obtain an output color close to the original image, it is necessary to appropriately convert the input color. In general color correction method, the color signal (generally RGB and CMY) applied to the color reproduction device by modeling the color value of the original image and the color value of the output color using the colorimeter as the input color value of the original image. Techniques for converting to another color signal for reproduction are mainly used. These modeling methods include analytical modeling method through output pixel analysis of color reproduction device, lookup table method by black box modeling between input and output colors, modeling method using transformation matrix obtained by polynomial regression, and recently, neural network method. Modeling method using a.

However, these modeling methods must use a colorimeter because they use the device-independent color space CIE / XYZ or CIE / L * a * b * color space as reference color spaces. Localized.

In the case of output color using a computer, the input / output characteristics of each color input / output device have recently been modeled around a reference color space, and then a profile of the specialized device is created. The concept of a color management system for color calibration between color input / output devices has been introduced. In this case, the device profile of the characterization file for the device may be supplied by the supplier of the color management system, the manufacturer of each color input / output device, or may be generated by the user by the method provided by the color management system. However, in the case of the color reproducing apparatus, even if a device of the same model has different output characteristics, and the output characteristics change with the characteristics of ink and the passage of time, the provided profile cannot sufficiently reflect the characteristics of the apparatus.

An object of the present invention is to provide a color correction method for obtaining a desired output by reflecting the output characteristics of the color reproduction apparatus without using a colorimeter to solve the above problems. In order to achieve the above object, the color correction method according to the present invention provides a color sampling process for producing a color collection including a full gamut reproduced by the color reproduction device in order to grasp the input and output characteristics of the color reproduction device. A color correction coefficient determination process for determining a color correction coefficient by a lookup table or polynomial regression using the color sampler produced in the process, and the output from the color reproduction device and the color collection produced in the color sampler production process. In the patch search process to find the nearest patch, if the number of patches found in the patch search process does not match the number of the patch in the center, the CIE / L * a * b * value corresponding to the patch number is pre-arranged. A color correction factor that updates the color correction coefficient determined in the process of determining the color correction coefficient by storing the found CIE / L * a * b * values in the database. Process and is characterized in that it comprises a color correction process for performing color correction by using the color correction coefficient from the color correction coefficient determination process of determining a color correction factor, or the color correction coefficient determination process in the.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 is a flowchart illustrating a color correction method according to the present invention, in which step 100 is a process of manufacturing a color sample including a full gamut reproduced by a color reproduction apparatus, and step 110 is a process of using a produced color sample. Determining the color correction coefficient by the look-up table or polynomial regression, step 120 is a process of finding the nearest patch visually from the color output and the output output by the color reproduction apparatus, steps 130 to 150 If the number of the found patch does not match the number of the patch in the center, the process of updating the color correction coefficient is performed. The operation 160 is a process of performing color correction using the color correction coefficient. The operation of the present invention will now be described with reference to FIG. In order to perform color correction, first, it is necessary to accurately grasp the characteristics of the output image corresponding to the input image. To understand the input / output characteristics using the colorimeter, apply the color of the desired input image (device-independent color such as CLE / XYZ or CIE / L * a * b *) to the color reproduction device, and measure the output image. The modeling process is necessary by comparing with the measured color.

In the present invention, a color patch (hereinafter referred to as a color sample) including a color gamut reproduced by a corresponding color reproduction apparatus is manufactured to grasp input and output characteristics (100 step). The process of creating this color sample is as follows.

A) The process of equally dividing RGB or CMY. In the case of RGB, since R, G, and B each have a value from 0 to 225, when divided into 0, 128, 255, and the like, 27 RGB spaces may be divided.

B) The process of forming a patch by adding or subtracting RGB values at specific intervals around the divided color values. In this case, the interval to be added or decreased depends on the size and configuration of a halftone cell in the case of a binary printer such as an inkjet printer, and in the case of a full color printer such as a sublimation type. The ΔE _cmc value calculated based on the color difference formula as claimed in the color measurement committee) is determined at intervals of at least one.

Here, t means trial and s means standard, L, a, and b are CIE / L * a * b * values, C is Chroma and H is Hue. In this case, if CM (2: 1) is calculated, 1 = 2, c = 1

If the value calculated by the above color difference equation is 1 or more, you will feel the color difference, so you need to make a patch with at least 1 step by color measurement.

C) After applying the above patch to the output device and output, measure with CIE / L * a * b * value which is device independent color space using colorimeter.

D) In the case of the color sampler made in this way, the color reproduction characteristics are different according to the printing paper. Therefore, it is necessary to produce each type of printing paper used by the corresponding color reproduction device. For example, in the case of an ink jet printer, there may be various types such as general paper, dedicated paper, glossy paper, and transparent paper.

E) Database the measured values in order on the computer.

F) Create more than one step, for example 9 * 9 * 9 (729) or 17 * 17 * 17 (4913) patches.

E) Print the patch made by f) and color it with CIE / L * a * b *.

On the other hand, the device-independent color value (CIE / L * a * b *) to output using CIE / L * a * b * value for RGB or CMY applied to the color reproduction device to grasp the characteristics of the printer. Obtain the RGB or CMY value to be applied to the color reproducing device by using interpolation. At this time, for simplicity of color correction, CIE / L * a * b * values are uniformly set and RGB or CMY values to be applied to a corresponding device are configured as a lookup table. However, there is a limit to the range of colors that can be output by the color reproduction device.If you want to output a color out of the range that the color reproduction device can output, change the color reproduction device to the closest color that can be reproduced. There is a need for a gamut mapping process.

Conventional gamut mapping is mainly used to replace CIE / L * a * b * with the value that can be output by the color reproduction device that is closest to the LCH coordinate through the LCH coordinate. Since the distance in the L * a * b * coordinate system is different from that of the human visual perception, the present invention applies the gamma mapping to the value having the smallest color difference by applying the ΔE _{CMC (2: 1)} color difference formula of the aforementioned color measurement committee. In operation 110, a lookup table is configured or a color correction coefficient is obtained using polynomial regression. In the step 120, when the color sample is produced, the RGB or CMY is divided evenly in the same manner as the RGB or CMY is divided evenly, and the patch is produced and applied to the color reproduction apparatus.

In step 130, the nearest output is found in the color output produced by the color reproduction apparatus and the color sample produced in step 100. In step 140, the number of patches in which the number of patches found in step 130 is in the center is found. If it is not matched and it is not matched, the CIE / L * a * b * value corresponding to the patch number is found in the pre-produced database, and the found CIE / L * a * b * value is interpolated. The color correction coefficient determined in the correction coefficient determination process is updated (step 150).

On the other hand, if the number of patches found in step 130 is consistent with the number of patches in the center, it indicates that the characteristics of the corresponding color reproduction device are consistent with the time of making the color sample, so the lookup table or profile created in step 110 is There is no need to update. In step 160, color correction is performed using the color correction coefficient determined in step 110 or the color correction coefficient updated in step 150. As described above, the color correction method according to the present invention uses color sampling for each color reproduction apparatus to perform color correction by inputting the output patch of the printer without a colorimeter by visually searching for the number in the color collection closest to the user. There is an advantage in that accurate color correction can be performed according to the characteristics of the color reproduction apparatus.

In addition, the color correction method according to the present invention can be used as a module for performing color correction and characterization of devices such as DTP software or graphics software color management system used for outputting color images.

Claims (5)

In order to grasp the input and output characteristics of the color reproduction apparatus, a color collection process for producing a color collection including the entire gamut reproduced by the color reproduction apparatus, a lookup table or a polynomial regression using the color collection produced in the color collection process A color correction coefficient determination process for determining a color correction coefficient by a patch search process for finding a patch visually closest to the color output produced by the color reproduction apparatus and the color collection produced in the color collection process, and the patch search If the number of patches found in the process does not match the number of the patch in the middle, find the CIE / L * a * b * value corresponding to the number of the patch in the previously prepared database, and find the CIE / L * a *. A color correction coefficient update process for updating the color correction coefficient determined in the color correction coefficient determination process by interpolating a b * value and a color correction coefficient determined in the color correction coefficient determination process And a color correction process for performing color correction using the color correction coefficient updated in the color correction coefficient determination process. The patch forming process of claim 1, wherein the color sampling process comprises: a color division process for equally dividing RGB or CMY, a patch formation process for forming a patch by subtracting RGB values at specific intervals based on the divided color values, and the patch. CIE / L * a * b * value measurement process for measuring with CIE / L * a * b * value, which is an instrument-independent color space, using a colorimeter after applying the patch formed in the shape process to the output device and outputting the same. A color correction method comprising: a database process for databaseting the measured CIE / L * a * b * values in a computer. 3. The method of claim 2, wherein the interval to be added or subtracted in the patch forming process depends on the size and configuration of a halftone cell in the case of a binary printer, and in the case of a full-color printer, ΔE calculated based on the color difference formula of the color measurement committee. Correcting method characterized in that the _CMC value is determined at intervals of at least one or more. 3. The color correction method of claim 2, wherein the color sampler is manufactured separately for each type of printing paper used by a corresponding color reproduction apparatus. The method of claim 1, wherein the gamma mapping is performed by applying the ΔE _{CMC (2: 1)} color difference formula of the color measurement committee when mapping the gait required for determining the color correction coefficient in the process of determining the color correction coefficient. A color correction method comprising constructing a table or obtaining a color correction coefficient using polynomial regression.