KR0135808B1 - Color image display device - Google Patents

Abstract

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a color image reproduction apparatus, and more particularly, to a method for obtaining a more visually consistent color output printed output in a typical office workplace where a color image on a monitor is located under an illumination light source. Is a standard color signal forming unit that forms a standard color signal using a characterization model that applies a mathematical model to the input / output color signal relationship of the device, and the final standard from the color monitor, which is a signal obtained by adding a reflected color signal from the monitor by an illumination light source. An environmentally independent visual color signal forming unit formed by an environmentally independent visual color signal using a visual color model reflecting the color compliance state value of an observer using a linear combination of a color signal forming unit, a monitor white and a print white, Each color gamut in the environment-independent visual signal stage (gamut mapping) and color editing, and an output standard color signal unit for forming a standard color signal for printing by applying the visual color model in the environment independent color signal forming unit, and the output standard color signal is output. It consists of a color print unit that outputs the final output device color signal using the device characterization model, and has the advantage that the color image on the monitor can be more visually matched by reflecting the observer's color compliance state.

Description

Color image reproduction device

1 is a block diagram of a device independent color processing apparatus based on conventional device characterization.

2 is a block diagram of a color reproduction device based on conventional device characterization and visual color model.

3 shows independent viewing conditions for images and print images on a color monitor.

4 shows image observation conditions when the color monitor is under an illumination light source.

5 is an overall block diagram of a color image reproduction apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

510: monitor color signal unit

520: standard color signal forming unit

530: the final standard color signal forming unit

540,550: Environmental independent visual color signal forming unit

560: output standard color signal forming unit

570: printer color signal unit

FIELD OF THE INVENTION The present invention relates to a color image reproduction apparatus, and more particularly, to an apparatus for obtaining a more visually consistent color output print output in a typical office workplace where a color image on a monitor is placed under an illumination light source.

In general, a color image reproducing apparatus may be referred to as described in US Patent Application No. 4942038 as a device independent color processing method based on the characterization of color input / output devices, as shown in FIG. rgb) 110 is converted into a standard color signal (CIE XYZ) 120 using the device characterization model 111, and the white points 121, 141 and gamut mapping 131 Is converted into a uniform color signal (CIE LAB) 140 expressed according to the human visual characteristics, and a standard color signal (X'Y'Z ') 150 for an output device is used by using the device characterization model 151 as an output device. The output device color signal (R'G'B ') 160 is converted. This method is based on the device characterization models 111 and 151 which establish the relationship between the device color signals 110 and 160 and the standard color signals 120 and 150 of the color input / output device. When using this method, the numerical value representing color, that is, the color matching, can be achieved, but the visually matching print is not considered because the influence of the brightness of the image observation light source or the surrounding observation is not considered at all. There is a limit to getting. To solve the above problems, there is a method shown in FIG. 2 by SID Digest, which describes a method of applying a color processing technique using a visual color model, but this method is shown in FIG. As described above, the method can be applied only to independent observation conditions in which there is no mutual effect between the observation conditions of the color image 320 on the monitor 310 and the observation conditions of the color print output 340. Therefore, this method is limited in obtaining a visually consistent print in a typical office environment where color images on a monitor are observed under office illumination light. In particular, the above-described conventional technologies have a big problem as the chromaticity of the monitor and the chromaticity of the illumination light source become larger, which is not reflected in the observer's color adaptation state when the monitor image and the print image are observed. This is because a certain component of is not considered at all.

An object of the present invention is to provide a color image on a color monitor displayed on a color monitor using a color signal input device or a color image on a color monitor produced using color application software. It is to provide a device for obtaining a matching color output.

In the color image reproduction apparatus according to the present invention for achieving the above object, in the device for obtaining a color output visually matching the color image on the monitor,

A standard color signal forming unit 520 for forming an original color signal on the device as a standard signal by using a characterization model that applies a mathematical model to a device input / output color signal relationship;

A final standard color signal forming unit 530 in which the standard color signal forming unit 520 adds the reflected color signals to reflect a reflection component of the monitor by the illumination light source;

Output of the final standard color signal forming section 530 using a visual color model that reflects the observer's color compliance state values using a linear combination 532 of monitor white 533 and print white 553. An environmentally independent visual color signal forming unit 540 for forming a signal in which a change in the observer's color adaptation state is reflected;

The gamut mapping and color editing 541 are performed by the environment-independent visual color signal forming unit 540 to consider the color output relationship of the output device. An output standard color signal forming unit 560 for converting to a standard color by applying a visual model to be reflected on a print;

A color print unit 570 for outputting a final output device color signal using the output device characterization model 561 to the output standard color signal 560.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is an image observation condition when the color monitor is under an illumination light source in the block diagram shown in FIG.

5 is a block diagram of a color image reproduction technique according to the present invention. The apparatus shown in FIG. 5 includes a standard color signal generator 520 for forming an original color signal on a device as a standard color signal by using a characterization model that applies a mathematical model of the input / output color signal relationship of the device, and the illumination in the standard color signal generator. The observer's color compliance state using a linear combination of the monitor white and the print white, together with the final standard color signal forming unit 530 in which the reflected color signal is summed to reflect the reflection component of the monitor by the light source. An environmentally independent visual color signal forming unit 540 for forming a signal reflecting a change in the observer's color compliance state with respect to an output of the final standard color signal forming unit using a visual color model reflecting a value; In the forming unit, gamut mapping and color editing are performed to consider the color output relationship of the output device. An output standard color signal forming unit 560 for converting an observer's color compliance state into a standard color by applying a visual color model, and a final output using an output device characterization model to the output standard color signal. It consists of a color print section 570 for outputting a device color signal.

The process of converting the input device color signal from the input device color signal according to the present invention will be described in detail with reference to the block diagram shown in FIG. The color signal (monitor color signal RGB) of the original color image on the color monitor 510 is converted into a standard color signal (CIE XYZ) 520 using the monitor characterization model 511. As a method of characterizing a monitor, a mathematical model or a look-up table (LUT) for the input / output color signal relationship of the monitor may be used.

On the other hand, when the monitor is located under the illumination light for office lighting, as shown in FIG. 4, the light incident on the observer's eye from the monitor has a flare component 521 reflected from the monitor surface by the illumination light source. The final standard color signal 530 from the color monitor reflecting such a flare component is reflected to the monitor standard color signal CIE XYZ 520 by the reflected color signal XYZ _flare 521 by the illumination light source. The added color signal 530 is obtained. That is, XYZ + XYZ _flare . The flare component 521 reflected from the monitor surface by the illumination light source is a spectroradiometer at an angle at which the observer observes the monitor with the illumination light source set to the brightness of the viewing condition and the monitor is off. ) Can be measured. The final standard color signal (CIE XYZ + CIE XYZ _flare ) 530 from the color monitor is converted into an environment-independent visual color signal 540 using the visual color model 531. In this process of change, the parameters of the viewing environment for the monitor must be set for the application of the visual color model 531. In the case of the present invention, as the visual color model, the RLAB model proposed by M. Fairchild and others (M. Fairchild and RSBerns, Color Research and Application, Vol. 18, No. 3, p. 178,1993) may be used. In this case, as a variable for the monitor observation environment, monitor white, that is, chromaticity and brightness, that is, chromaticity and brightness of the monitor to reflect the observer's color compliance state, should be set. Using the visual color model RLAB to convert the color signal CIE XYZ from the monitor to the color signal XYZ _ref at the reference observation conditions, and converting it to the environmentally independent color signal L ^R a ^R b ^R , first, to CIE XYZ. From the fundamental tristimulus values LMS is calculated as

The conversion to L'M'S 'to reflect the color adaptation (having variables such as chromaticity, brightness and media type of the light source) according to the media type is as follows.

Calculations for M and S, such as a _M and a _S , are also the same as above, and n represents a value for compliance (or white). At this time, if the media is a hard copy such as a print, p _L = 1, which is a complete adaptation of the von Kris type, and a soft copy such as an image on the monitor. In the case of), the above equations are used, indicating incomplete adaptation.

Next, the transformation to XYZ _ref under reference observation conditions using Matrix M, A, and R is

The conversion from XYZ _ref to device independent visual color signal L ^R a ^R b ^R is as follows.

The value of σ is determined according to the surrounding conditions: 1 / 2.3 for average surround, 1 / 2.9 for dim surround and 1 / 3.5 for dark surround to be. In the case of the present invention, when the color image on the monitor is observed, the image of the surroundings of the monitor including the color printer is also present in the observer's field of view by using illumination light, so that the linear combination 532 of the monitor white and the printer white is used. The color compliance of the monitor should be reflected. The ratio of the linear combination depends on the brightness of the monitor and the illumination source, the viewing angle depending on the size of the color image, and the image viewing time. When the brightness of the monitor white 533 and the brightness of the printer white 553 are the same and the color image on the monitor and the print image are compared side by side, the ratio of the linear combination 532 to the monitor is equal to the monitor white ( 75% white and 25% print white are appropriate. Meanwhile, gamut mapping or editing 541 may be performed in order to consider the color output limit of the output device at the step of environment-independent visual color signals 540 and 550. After both region mapping and editing are completed, the environment-independent visual color signal 550 is converted into a standard color signal (CIE X'Y'Z ') 560 for a printer using the visual color model 551. In this case, in order to apply the visual color model 551, the chromaticity brightness and the surrounding conditions of the print white should be set. As in the case of the present invention, the average condition is set as the surrounding condition when the print image viewing condition is a general office atmosphere. In the case of comparing the printed print side by side with the color image on the monitor, the linear combination 532 of monitor white and printer white is generated because the color image on the monitor as well as the color printer is present in the observer's field of view. It should reflect the color adaptation status to the monitor. If the brightness of the monitor white and the print white are the same and the color image on the monitor and the print image are compared side by side, the linear combination (532) ratio for the print is 25% monitor white and 75% print white. Do. However, it is appropriate to reflect only the print white when the output color print is observed only under the illumination light without being compared in parallel with the image on the monitor. The standard color signal (CIE X'Y'Z ') 560 for printing calculated by the above method is converted into the printer color signal (printer CMYK) 570 by using the printer characterization model 561 which is an output device, and characterized by print characterization. Look-up-table (LUT) can be used as a method.

The following compares the printed output by applying the color image reproducing method according to the present invention and the printed output by the conventional method applying only a visual model, and forcibly prints a print image that is visually consistent with the color image on the monitor. A comparative experiment was made to select. In this comparative experiment, the color of the monitor has been set to a D65 luminance (luminance) is set to 56.8cd / m ² White monitor (white) is X = 55.3, Y = 56.8 ( cd / m 2), was Z = 69.53 . As a light source, a cool white F2, a fluorescent light source having a large chromaticity difference from that of the D65 and commonly used in a general office, was used, and its brightness was the luminance of the print white at the viewing position of the print image. ) Is set to 75.7 cd / m ² . Therefore, X = 75.1, Y = 75.7 (cd / m ² ), and Z = 51.1 were used as the print white. The luminance of the flare on the monitor by the illuminating light source was measured at 4.6 cd / m ² , where the XYZ of the flare was assumed to be the same as the chromaticity of the illuminating light source. 4.6, Y = 4.6 (cd / m ² ), Z = 3. 1 calculated. Therefore, X = 59.9, Y = 61.4 (cd / m) and Z = 72.6 with flare added to CRT white were used to calculate the color compliance state for CRT.

In this embodiment, the following linear combination of monitor white and print white was used to obtain a color signal representing the compliance state for the monitor and the printer. In the prior art, the color compliance state color signal for the monitor is set to 100% F2. In the case of the present invention, the color compliance state color signal for the monitor is set to 25% D65 + 75% F2, and the color compliance state color signal for the print is set to 25% D65 + 75% F2. flare) is added to the color image color signal on the monitor. Sixteen observers show the results of appearance color matching between the image on the monitor and the print image using a forced-choice pair-comparison method for all four images on the monitor. The total number of comparisons is 64. The number of cells represents the total frequency selected by the observer by achieving better appearance color matching.

Table 1. Appearance color match ing test results using the forced-choice pair-comparison method (number of selections: frequency)

The present invention Example of the prior art Selection count 62 2

Claims (6)

A device for obtaining a color output visually matching a color image on a monitor, comprising: a standard color signal formed by a signal forming an original color signal on a device as a standard signal by using a characterization model that applies a mathematical model of the input / output color signal relationship of the device Forming unit 520; A final standard color signal generator 530 in which the reflected color signals are summed to reflect the reflection component of the monitor by the illumination light source in the standard color signal generator 520; Output of the final standard color signal generator 530 using a visual color model that reflects the observer's color compliance state values using a linear combination 552 of monitor white 533 and print white 533. An environmentally independent visual color signal forming unit 540 for forming a signal in which a change in the observer's color adaptation state is reflected; The gamut mapping and color editing 541 are performed in the environment-independent visual color signal forming unit 540 to consider the color output relationship of the output device. An output standard color signal forming unit 560 for converting to a standard color by applying a visual model to be reflected in a print; And a color print unit (570) for outputting the final output device color signal using the output device characterization model (561) to the output standard color signal (560). The color image reproducing apparatus according to claim 1, wherein the environmentally independent visual color signal forming unit uses the RLAB model as the visual color model and L ^R a ^R b ^R as the environmental independent visual color signal. The method of claim 1, wherein the environment-independent visual color signal forming unit adds a flare color signal reflected on the color monitor by an illumination light source to an individual standard color signal for a color image on the monitor and uses it as an input color signal of the visual color model. Color image reproduction device characterized in that. The method of claim 1, wherein the environment-independent visual color signal forming unit is a color signal representing the observer's color compliance state using the linear combination of the color signal of the monitor white and the print white color signal is a chromaticity of the monitor and print white as a variable for the ratio of the linear combination A color image reproduction device comprising brightness, observation time of an observer, and the like. The method according to claim 4, wherein the color signal representing the color compliance state of the observer with respect to the monitor is equal to the monitor white when the brightness of the monitor white and the brightness of the print white are the same and the color image on the monitor and the output print are compared side by side. white is 70% to 80%, and print white is 20% to 30%, and the color signal representing the observer's color compliance to the print is 20% to 30% of the print white. Color image reproduction apparatus characterized by the above-mentioned. The monitor according to claim 4, wherein the color signal representing the color compliance state of the observer with respect to the monitor is a monitor when the brightness of the monitor white and the brightness of the print white are the same and the color image on the monitor and the output print are independently compared. 70% to 80% white and 20% to 30% print white, and the color signal representing the color compliance state of the observer to the print is characterized in that the print white (100%) Color image reproduction device.