KR100375867B1 - The method and appratus for controlling brightness and contrast for the optimal display of monitor - Google Patents

Abstract

The present invention relates to a brightness and contrast adjustment method for setting an optimal state of an image display device that accurately indicates levels of brightness and contrast in which color reproducibility of an image display device is optimal. The relationship between the image signals and the brightness level is calculated using the relationship between the image signals, the contrast level is set to a different value, and the relationship between the image signals and the brightness level is calculated again. By calculating the optimal brightness level using the relations, there is an effect that can provide the optimal brightness level of the image display device.

Description

Method and device for adjusting brightness and contrast for optimal setting of video display device {THE METHOD AND APPRATUS FOR CONTROLLING BRIGHTNESS AND CONTRAST FOR THE OPTIMAL DISPLAY OF MONITOR}

The present invention relates to a method of adjusting brightness and contrast so that the maximum color reproducibility of an image display device can be realized. In particular, the present invention is a method that can be controlled accurately by anyone without being influenced by a user's judgment or degree of operation.

In a video display device, a relationship between an input image signal and a brightness of a color displayed on a screen is represented as a gamma value. When the gamma value is constant for the entire input signal section, accurate color correction can be performed, resulting in maximum color reproduction.

However, it takes a lot of time to adjust the gamma value to all input signals when manufacturing the image display device, and the process is performed only for expensive products for special purposes. Therefore, in the commonly used image display device, since the gamma value cannot be represented as a single value because it is different for each input signal section, an approximate value in a certain section is used or a value considering an offset value is used as a gamma value. have.

Meanwhile, since the gamma value of each section is changed according to the brightness and contrast of the image display device, if the brightness and contrast are properly adjusted, the gamma value can be uniformly maintained for the entire section. Recently, most video display devices have a built-in digital control device (OSD), it is possible to adjust the brightness and contrast to a certain level. However, the values of the brightness and contrast levels, which represent the optimal state, are not only different for each image display device, but are not utilized well because there is no method for determining the exact level.

Applicant's previous patent application No. 98-26555 filed on July 2, 1998 (title of the invention: brightness and contrast control device and its control method of the image display device using the brightness / contrast adjustment pattern) and some color correction software In the present invention, the reference pattern is displayed on the screen, and the user judges and sets the pattern while watching the pattern change according to the change of the brightness and contrast levels. However, it is difficult to accurately adjust the eye because it is difficult to detect minute changes and the detection degree varies depending on the user.

Accordingly, an object of the present invention is to provide a method in which the adjustment of brightness and contrast for setting an optimal state of an image display device can be accurately adjusted without being influenced by a user's judgment or degree of operation.

When the method is used in the image display device manufacturing process, accurate adjustment can be performed quickly without relying on the judgment or skill of skilled workers, thereby providing the brightness, contrast level, and accurate gamma value that can be optimally adjusted for each product upon shipment. can do.

1 is a block diagram of a control and measurement system of the present invention.

2 is an internal configuration diagram of a measuring device unit of the present invention.

3 is a flow chart showing a signal processing algorithm of the present invention.

<Description of the symbols for the main parts of the drawings>

10: computer 20: video display device

20: sensor portion 40: electronic circuit portion

In order to achieve the above object, the brightness and contrast adjustment method for setting the optimal state of the image display device according to the present invention, (a) the contrast level and brightness level of the brightness control device and the brightness level of the image display device to a predetermined value; (B) sequentially displaying a plurality of achromatic screens on the image display device to measure the luminance of each of the displayed achromatic screens through a sensor unit to calculate a relationship between the measured luminance values and the image signal. Step, (c) repeating step (b) while varying the brightness level of the brightness control device, (d) the plurality of luminance values and the video signal calculated in the steps (b) and (c) Calculating a relationship between the image signals and the brightness level using the relationship; (e) setting a specified intensity level of the contrast control device to a different value, and then (b) to (d) Repeating and (f) calculating the optimal brightness level using the relationship between the image signals and the brightness level obtained in each of the steps (d) and (e), and adjust the brightness control device to the optimal brightness level. And adjusting the contrast level of the contrast adjustment device by the user. (H) displaying only the pure colors and the neutral colors of the three primary colors on the image display device, and thereby adjusting the brightness of the contrast colors of the primary colors. The method may further include calculating a gamma value γ _R , γ _G , γ _B.

The present invention is based on the method disclosed in the master's thesis "Development of color characteristic optimization technology for color CRT displays" published on January 12, 2000 by Dae-Jin Baek, Department of Physics, Daejin University.

First, the method of measuring the optimum level of brightness of the present invention will be described.

The relationship between the image signal representing the color characteristics of the CRT display and the intensity of emitted light is expressed by an offset, amplification factor, and γ according to the GOG model.

Equation 1

In the above, d is a digital value of the video signal, N is a bit depth, the maximum video signal is 255 when 8 bits of each of the three primary colors. b and a represent offset and amplification rate of each channel, and γ is a gamma coefficient representing CRT characteristics. In the CRT display, the brightness adjustment button can increase or decrease the offset amplification of three primary colors by the same ratio, and the brightness adjustment button can increase or decrease the amplification ratio of three primary colors by the same ratio. Therefore, the change of the image color according to the brightness and the contrast can be predicted using Equation 1 from the corresponding b and a.

If Equation 1 is normalized to the luminance at the maximum input signal 255, it may be expressed as Equation 2.

Equation 2

In Equation 2, an image signal value corresponding to an arbitrary luminance ratio may be obtained.

In the method of the present invention using the above equations, first, in step 1, the brightness and the contrast are fixed to a predetermined value, and then five achromatic colors (for example, R, G, B are 63, 63 where R, G, and B are the same) are fixed. , And display the relation function between the image signal and the measurement data by measuring the luminance accordingly, and calculate the image signal when the value of the relation function is a predetermined luminance ratio (for example, 0.07). Under the above conditions, the brightness is kept constant, and three image signal values according to the changed brightness are calculated by varying the brightness, and a quadratic polynomial (function of brightness) of the curve consisting of the three image signal values is obtained.

Next, a quadratic polynomial (function of brightness) that calculates three image signal values according to the changed brightness as in step 1 and maintains the contrast at a predetermined value different from step 1 and concatenates the three image signal values. To obtain the brightness value that the two quadratic polynomials coincide with, and the brightness value becomes the optimal brightness value.

Adjusting to the optimal brightness value makes the relationship between the input signal and the brightness of the light constant for all input signals.

When the adjustment of the brightness is completed, the user adjusts to the desired contrast. Contrast does not have to be excessively high, so display natural landscape images throughout the screen and adjust them to levels that are comfortable for the user to see.

After the adjustment of the optimal brightness and contrast is completed as described above, by displaying only the pure and intermediate colors of the three primary colors and measuring the luminance with the device, it is possible to obtain a gamma value indicating a constant relationship between the image signal of each of the three primary colors and the luminance of the image. .

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 1, 2, and 3.

1 is a block diagram of a control and measurement system of the invention,

Computer 10 to control the system, the test object image display device 20, and the hardware (30, 40) of the present invention. The operation of the apparatus configured as described above is as follows. When the video signal is sent to the video display device 20 from the VGA 11 embedded in the computer 10, light corresponding to the signal size is emitted to the screen. The brightness of the light is converted into an electrical signal by the sensor unit 30 attached to the screen, and is measured by the electronic circuit unit 40 as a digital signal and input to a computer. When a computer sends a series of achromatic signals to an image display device, the light intensity emitted by the computer is detected as a digital signal and processed by an algorithm developed and input into the computer sequentially, so that the optimal brightness and contrast of the image display device under test are Level is displayed on the screen. After the user sets the brightness and contrast to the displayed value, the computer sends a series of R, G, B video signals back to the video display device, and the correct gamma value of the R, G, B video signal is finally obtained from the measured digital signal. It is measured and displayed on the screen.

2 is an internal configuration diagram of a measuring device according to an embodiment of the present invention, in which light emitted from a screen is detected as an electric signal corresponding to a luminance of light detected by a person by a sensor 32 having a y _λ filter 31 attached thereto. do. The detected electrical signal is removed from the low pass filter stage 41, the intensity is amplified by the amplifier stage 42, and then converted into a digital signal by the A / D converter 43 to be converted into a digital signal by the microprocessor 44. It is input to the computer via the RS 232C port 45.

3 is a flowchart of the software of the present invention, and shows a method for measuring the optimal level and gamma value of brightness and contrast of the image display device according to the present invention.

First, the user is instructed to adjust the contrast (C) and brightness (B) to 60 and 20 in the OSD, respectively. In this state, luminance is measured and displayed in the center of the screen by sequentially displaying achromatic circles of five levels of brightness (input image signals R, G, and B, 63, 79, 95, 111, and 255, respectively), and are input to the computer. From these data, the relation function f _{B = 20} (d) between the video signal d and the measured data is obtained, and the video signal d _{B = 20} is calculated, where f _{B = 20} (d) = 0.07. The brightness is 60, and the brightness is changed to 40, 60 while d _{B = 40} and d _{B = 60} are obtained in the same way. Then, the quadratic polynomial g _{C = 60} (B) is obtained.

Next, after changing the contrast (C) to 80, g _{C = 80} (B) through the same process as above. The brightness B _optimal , which satisfies two equations, that is, g _{C = 60} (B) = g _C80 (B) is calculated and displayed on the screen. The user adjusts and fixes the brightness precisely to the indicated level. Adjusting the B _optimal brightness obtained in this way makes the brightness of black appearing on the screen when the input signal is 0 to be the lowest, and the relationship between the image signal and the brightness of light is constant for all signals.

When the adjustment of the brightness is completed, the reference image of the natural landscape is displayed on the entire screen, and the user can arbitrarily adjust the contrast (C). Contrast is independent of the relationship between the input signal and the brightness of the light, and the brightness of the entire screen is adjusted so that it can be adjusted to a comfortable screen without fatigue to the eyes according to the intensity of the ambient light or the user's preference. Therefore, the level of contrast varies for each user, but must be fixed after the adjustment is completed.

As above, once the adjustment of the optimum brightness and intensity comprises pure color screen 255 and neutral 127 of the three primary colors is classified into 256 classes of up to 0 to 255 appears in the center of the screen in order for this measurement data D _1, D ₂ is input to the computer. The gamma values γ _R , γ _G , and γ _B , which represent a constant relationship between the input signals of R, G, and B, and the brightness of an image, can be accurately calculated by the equation D ₁ / D ₂ = (127/255) ^γ .

According to the present invention of the above configuration, it is possible to precisely adjust the brightness and contrast for setting the optimal state of the image display device, and to provide an accurate gamma value. In addition, the eye fatigue of the user's eyes can be reduced and the life of the device can be extended to the maximum, and the color reproduction rate can be maximized.

Claims (4)

In the brightness and contrast adjustment method for setting the optimal state of the image display device having a brightness and brightness adjustment device, (a) setting the contrast level and the brightness level of the brightness and brightness control device of the image display device to a predetermined value; (b) displaying a plurality of achromatic screens sequentially on the image display device and measuring a luminance of each of the displayed achromatic screens through a sensor unit to calculate a relationship between the measured luminance values and an image signal; (c) repeating step (b) while varying the brightness level of the brightness control device; (d) calculating a relationship between the image signals and the brightness level by using the relationship between the plurality of luminance values calculated in the steps (b) and (c) and the image signal; (e) setting the designated intensity level of the contrast adjustment device to another value and repeating steps (b) to (d); And (f) calculating an optimal brightness level using the relationship between the image signals and the brightness level obtained in each of steps (d) and (e), and adjusting the brightness control device to the optimal brightness level. And adjusting the brightness level of the brightness adjusting device by the user. The method of claim 1, and (h) displaying only the pure and intermediate colors of the three primary colors on the image display device, and calculating the gamma values γ _R , γ _G , and γ _B by measuring the luminance of the intermediate colors relative to the primary colors. How to adjust the brightness and contrast for optimal settings of your computer. delete delete