KR100428913B1 - The apparatus and method for ICC profile making of CRT color monitor - Google Patents

Abstract

The present invention relates to a device for generating an ICC profile by directly measuring the color characteristics of an image display device, the color sensor unit for detecting the intensity and color of the light output to the screen and the signal processing unit for making a digital signal to send it to a computer It consists of hardware consisting of hardware and measured signals, setting the optimal brightness and contrast levels, measuring tristimulus and gamma values of three primary and white colors, and software to generate ICC profiles. By using this device, an ICC profile is generated by measuring color characteristic variables at the optimum state of the monitor, and when applied to a color management program, accurate color matching can be achieved.

Description

The apparatus and method for ICC profile making of CRT color monitor}

The present invention relates to a method and an apparatus for generating an ICC profile of an image display apparatus in which brightness and contrast are optimally adjusted. More particularly, after the brightness and contrast of the image display apparatus are optimally adjusted, the three primary colors, white and neutral colors The present invention relates to a method and an apparatus for generating an ICC profile corresponding to each characteristic of an image display apparatus by generating a ICC profile using calculated color characteristic variables by calculating a tristimulus value and a gamma value thereof on a screen.

In recent years, almost all materials are transmitted as digital images. However, even if the same image is different depending on the type of output device such as color monitors and printers, the color of the image is greatly different, causing great confusion. Even with the same type of output device, since the color varies depending on the manufacturer or model, various attempts for color matching between devices have been made.

Recently, color matching software has been introduced to solve this problem. The color matching software corrects the image data in consideration of the color characteristics of each image output device to perform the function of displaying the same color even if the output type is different. do.

Therefore, the accuracy of this color matching software depends on how accurately you know the color characteristics of the current state of the printer.In the International Color Consortium (ICC) formed by Microsoft or HP, Standardized profile format to store the color characteristics of the output device, and the ICC profile is composed of a header containing the general information of the device and tags storing the color characteristic variables of the device necessary for color correction, The color characteristic variables consist of three primary and maximum tristimulus values of the device's maximum brightness, and gamma values representing the change in brightness of the light on the screen for the three primary input signals.

Accordingly, in recent years, color monitors provide ICC profiles for each model, but most of the profiles are useless because they contain data different from those of actual devices. Even if a profile is made by measuring color characteristics of a video display device of a certain model, not only the color characteristics of each product are different, but also the color characteristics are remarkably different as the usage time increases and the adjustment state. Since the uniformly provided profile for each model does not allow for actual color management.

Therefore, foreign countries have developed and marketed ICC profile generators that allow users to directly measure the color characteristics of their current state to create ICC profiles. However, the import price is high, and only a few research institutes or certain companies are purchasing them in Korea.

In addition, the color conversion algorithm of the color matching software in the market is configured assuming the color characteristics of the ideal video display device, so that the profile must be generated with the video display device adjusted to achieve the best performance. Accordingly, foreign products provide the user with a reference pattern to properly adjust the brightness and contrast of the video display device before profile generation. However, the foreign product may be adjusted according to the judgment of the user.

Patent Application No. 2000-22293, filed on April 26, 2000, filed "Method and Apparatus for Adjusting Brightness and Contrast for Optimal Setting of Image Display Device". However, the optimum condition can be precisely adjusted with this device, but the tristimulus value of light cannot be measured, making it impossible to generate an ICC profile.

Accordingly, an object of the present invention is to provide a method and apparatus capable of automatically adjusting the brightness and contrast of an optimal state and measuring the tristimulus value to generate an ICC profile of an optimal state of an image display device.

1 is a view showing an ICC profile generating apparatus according to the present invention

FIG. 2 is a block diagram illustrating a configuration of a color sensor unit and an electronic circuit unit in FIG. 1.

Figure 3a is a graph showing the transmission spectrum of the blue filter

Figure 3b is a graph showing the transmission spectrum of the green filter

Figure 3c is a graph showing the transmission spectrum of the red filter

4 is a flowchart illustrating a method of generating an ICC profile according to the present invention.

An embodiment of the present invention for achieving the above object will be described with reference to the accompanying drawings.

1 is a block diagram showing an ICC profile generating apparatus according to the present invention, Figure 2 is a block diagram showing the configuration of the color sensor and the electronic circuit in Figure 1, Figure 3a is a graph showing the transmission spectrum of the blue filter, FIG. 3B is a graph showing the transmission spectrum of the green filter, and FIG. 3C is a graph showing the transmission spectrum of the red filter.

As shown in FIG. 1, an apparatus for generating an ICC profile in an optimal state of an image display apparatus according to the present invention measures a computer to control the operation of the apparatus according to the present invention, an image object to be tested, and color characteristics of the image display apparatus. It is composed of a color sensor unit and an electronic circuit unit.

On the other hand, in the above configuration, the color sensor unit is composed of three types of color filters, blue, green, and red, three pairs of photodiodes, an amplifier, and a multiplexer as shown in FIG. The three photodiodes are arranged in a triangle as shown in FIG. 1 and placed in front of each other are red, green, and blue filters. The red, green, and blue filters used herein are not general filters, but are designed so that the transmission spectrum of each filter is similar to xλ, yλ, and zλ, which are color matching functions of the CIE standard observer, as shown in FIGS. 3A to 3C. The light transmitted through the filter configured as described above is converted into an electrical signal proportional to its intensity by the corresponding photodiode, and the signal is amplified by the pre-amp installed immediately behind the photodiode. The three amplified signals are sequentially transmitted to the electronic circuit part by the multiplexer.

The electronic circuit part is composed of an electronic filter, an amplifier, and an A / D converter as shown in FIG. 2, and a noise signal is generated while a signal measured by the color sensor part is sent to the electronic circuit part. Signal is amplified again by amplifier and digital signal converted by A / D converter is controlled by computer through RS-232C port. The blue, green, and red tricolor signals are sequentially input to the computer through the same circuit.

Although not shown in the computer, a brightness and contrast control device for setting an optimal state of the image display apparatus of the present patent application No. 2000-22293, which is the applicant's prior application, is included in the computer, and the image display apparatus has three primary colors of maximum brightness. And an ICC profile generating means for outputting the pure colors of white, the three primary colors of medium brightness and white, and receiving the data transmitted from the signal processor to generate an ICC profile, and recording the ICC profile generated from the ICC profile generating means. The recording means is included to generate an optimal ICC profile in the computer.

4 is a flowchart illustrating a method of generating an ICC profile according to the present invention.

In the method for generating an ICC profile according to the present invention, first, after calculating a brightness and contrast level of the image display device and setting the image display device with the calculated brightness and contrast levels, the primary colors of the three primary colors and the white color And calculating the color characteristics of the image display device by calculating the tristimulus values and the gamma values of the intermediate colors on the screen, and generating the ICC profile using the calculated color characteristic variables. The calibration process to find a constant that can be converted into tristimulus values is performed at the time of manufacturing the device, which will be described in more detail below.

First, an optimal state adjustment step of the image display device is performed, and the operation method is the same as the "Applicability of Brightness and Contrast for Setting Optimal State of Image Display Device", which is the present patent application No. 2000-22293.

After adjusting the brightness and contrast of the video display device to the optimum level, the three primary colors and the white primary (R, G, B) input signals (255,0,0), (0,255,0), ( 0, 0, 255) and (255, 255, 255) are shown in order, and the output values R _meas , G _meas , and B _meas of the present invention are output for each. This value is converted into the CIE tristimulus values X ', Y', Z '(a person's color perception determined by the International Illumination Commission for standardization of color measurements) measured by an existing spectrophotometer by Equation 1. . The constants C _0x , C _1x , C _2x , C _3x , C _0y , C _1y , C _2y , C _3y , C _0z , C _1z , C _2z and C _3z shown in Equation 1 are determined during the device calibration process.

Next, the three primary colors and white intermediate colors ((127,0,0), (0,127,0), (0,0,127), (127,127,127)) are displayed on the screen, and the tristimulus values X, Y, and Z is measured. When the image display device is optimally adjusted, the luminance characteristic is simplified, and the intensity I of the light emitted from the screen may be expressed simply as the number of input signals d, that is, I = d ^r . Therefore, a red primary color of the gamma value is to be the relation of equation (2) below from the converted X _(255,0,0) and X _(127,0,0) for pure color and gray level is satisfied Can be obtained. Similarly, gamma value of green primary Is the gamma value of the blue primary color from Y _{(0,255,0 )} and Y _(0,127,0) Can be obtained from Z _(0,0,255) and Z _(0,0,127) calculated for the _primary and intermediate colors.

On the other hand, in the present invention, the calibration process is a step of determining the constant to convert the measured signals R _meas , G _meas , B _meas to CIE tristimulus values X, Y, Z measured by a spectrophotometer, which is made during device fabrication. The transmission spectrum of the three filters inserted into the device of the present invention is not only different from the color matching functions xλ, yλ and zλ of the CIE standard observer, but also the light sensing ability according to the wavelength of the photodiode is different from that of the human eye. Therefore, the output signals R _meas , G _meas , and B _meas do not match the CIE tristimulus values X, Y, and Z. However, since the response ratio with respect to the light intensity is linear, the measured value may be converted by Equation 3 based on the measured value of the spectrophotometer.

To this end, the intensity of each of the three primary colors is displayed on the image display screen in eight steps, and the light intensity is measured using both the apparatus of the present invention and a spectrophotometer. In Equation 3, R _meas , G _meas , and B _meas are measured values of the apparatus of the present invention, and X, Y, and Z are measured values of a spectroradiometer. Matrix constants representing the correlation between two outputs for a total of 24 colors C _0x , C _1x , C _2x , C _3x , C _0y , C _1y , C _2y , C _3y , C _0z , C _1z , C _2z , C _3z Is computed by multiple regression. In multiple regression, the more colors are applied, the more constant terms can be found.

In the apparatus of the present invention, the constants of Equation 1 are determined by such a calibration process. Since the output signal can be changed as a whole due to a change in voltage supplied to the device, a regular calibration process is required.The three stimulus values (X _(255,0,0) Y _{(255 )} of the three primary colors and the white pure colors converted through the above processes are required. _{, 0,0)} Z _(255,0,0) , X _(0,255,0) Y _(0,255,0) Z _(0,255,0) , X _(0,0,255) Y _(0,0,255) Z _{(0,0,255 )} , X _{(255,255,255)} Y _{(255,255,255)} Z _{(255,255,255)} ) and the gamma values of the three primary colors ( ) To match the ICC format. In this case, the video display device profile generation program used is manufactured by using a source program provided by ICC.

According to the present invention configured as described above, even a low-cost video display device can not only be adjusted to an optimal state that can produce an optimal color, but also generate an ICC profile of an optimal state, thereby generating an ICC profile generated by the device. When applied to color matching software, accurate color matching between devices can be achieved.

Claims (5)

Setting the image display device to an optimal contrast and brightness; A calibration step of determining a matrix constant to convert R _meas , G _meas , B _meas measured from the image display device to tristimulus values X, Y, Z based on the tristimulus values X, Y, Z measured by a verified spectrophotometer. Wow, Displaying primary colors and intermediate colors of three primary colors and white, and measuring R _meas , G _meas and B _meas ; Calculating a color characteristic variable consisting of tristimulus values of three primary colors and white pure colors and gamma values of three primary colors by multiplying the matrix constants of R _meas , G _meas , and B _meas measured for the primary and intermediate colors of the three primary and white colors; And generating an ICC profile by storing the color characteristic variables calculated in the above processes. The method of claim 1, wherein the matrix constant is determined by a multiple regression method. In the video display device having an optimum contrast and brightness adjustment device, A color sensor unit detecting luminance of light emitted from the video display device; A signal processor for processing R _meas , G _meas , and B _meas detected by the color sensor unit, converting the data into computer-operable data, and transmitting the same to a computer; ICC profile generating means for outputting three primary colors and white of maximum brightness and three primary colors and white of medium brightness, receiving data transmitted from the signal processor, calculating color characteristic variables, and storing them according to the ICC format. ICC profile generating device of the optimal state of the video display device characterized in that the. 4. The color sensor of claim 3, wherein the color sensor unit comprises three types of color filters, red, green, and blue arranged in a triangle, three photodiodes positioned at a rear end of the color filter, and a rear end of the photodiode. A video display device optimally generated ICC profile generating device comprising a pre-amp connected to each of the amplifier and a multiplexer connected to the rear end of the amplifier to sequentially output three-color signals output from the amplifier. . The apparatus of claim 4, wherein the color filter has a transmission spectrum similar to xλ, yλ, and zλ, which are color matching functions of a CIE standard observer.