KR100846907B1 - Method and apparatus for controlling video quality of an image display device - Google Patents

Abstract

The present invention relates to an apparatus and a method for adjusting image quality of an image display device that can maintain color reproduction more naturally by simultaneously performing color correction due to luminance variation.

That is, according to the present invention, when the dynamic contrast enhancement function is set, the contrast gain is checked at regular intervals according to the brightness of each frame, and the color parameters can be adjusted accordingly.

Therefore, the present invention can maintain the natural color reproducibility by interlocking the color correction when the brightness is changed, there is an effect that can improve the user satisfaction according to the image quality improvement.

Contrast / Color

Description

Method and apparatus for controlling video quality of (an) image display device}

1 is a block diagram showing a schematic configuration of an apparatus for adjusting image quality of a video display device according to the prior art;

2 is a graph showing the output luminance according to the input luminance.

3 is a flowchart illustrating a method of adjusting image quality of an image display apparatus according to the related art.

4 is a block diagram showing an image quality adjusting device of an image display apparatus according to the present invention;

5 is a flowchart illustrating a method of adjusting image quality of an image display device according to the present invention.

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

100: video signal input unit 200: image quality control unit

210: contrast adjustment unit 220: color adjustment unit

300: control unit 400: video signal output unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image display device, and more particularly, to an apparatus and method for adjusting image quality of an image display device to maintain more natural color reproducibility by simultaneously performing color correction due to luminance variation.

In an environment where the dynamic range of video images output to the display device is limited, the level of the input video images is controlled or converted by a nonlinear function in order to improve the contrast of the video images output to the display device. . In this case, the nonlinear function may be made variable based on the histogram of the fixed or input video images.

When the level of the video images input by the nonlinear function is simply transformed, the contrast of the specific level region of the video images may be limitedly improved, but the white component is added to the portion where the level is increased, resulting in saturation of the image. There is a problem that occurs that the phenomenon is lowered.

Hereinafter, an apparatus and method for controlling image quality of a video display device according to the related art will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a driving principle of dynamic contrast enhancement in a video decoder of a video display device according to the prior art, and FIG. 2 is a graph showing a change curve of dynamic contrast.

In the image display apparatus according to the related art, when the image is input, the histogram is measured through the histogram measuring unit, and then the image is improved through the dynamic contrast enhancement unit. In addition, the dual segment transfer function is applied. .

Here, the change of the dynamic contrast of the dual segment is influenced by the dual segment transfer function from the time when the average value of the input luminance passes on the X axis indicating the input luminance and the Y indicating the output luminance as shown in FIG. 2. It can be seen that the slope of the graph changes.

In this case, the dual segment transfer function has a contrast transfer curve in a frame that is not a straight line and has an inflection point. The inflection point becomes an average luminance value per frame, which is expressed as a pivot point. In other words, by setting the contrast slope differently for the brighter and darker pixels based on the pivot point value, the transfer curve between input and output has an inflection point rather than a straight line, which is called a dual segment transfer curve. Expressed as a segment transfer function.

Referring to FIG. 3, a method for controlling an image quality of an image display apparatus according to the related art, as described above, first displays a received image when a user inputs a power-on command (S11 to S12).

In operation S13, it is determined whether the received image is a new frame.

As a result of the determination (S13), if it is a new frame, it is determined whether the dynamic contrast enhancement function is turned on (S14).

Subsequently, the histogram is measured when the dynamic contrast enhancement function is turned on (S14).

Then, the pivot point to be applied is determined according to the measured histogram (S16).

Subsequently, it is determined whether the determined pivot point exists within a preset range (S17).

As a result of the determination (S17), if present within the predetermined range, the gain values of dark and white distribution are applied (S18).

And it limits to the predetermined high / low limit value (S19).

Finally, if the user inputs the power off command, the process ends. If the power off command is not input, the process returns to the step S13 (S20).

However, in the image display apparatus according to the related art, when the dynamic contrast function is operated, the color parameter is maintained as the preset setting value, so that when the luminance increases, the color becomes thinner than the original color, and when the luminance decreases, the color becomes darker. There was a problem that the unnatural than the image color and the continuity of the natural color is reduced.

Accordingly, an object of the present invention is to solve such a problem, and to provide color correction at the same time when the brightness of an image signal changes.

In order to achieve the above object, the image quality control apparatus of an image display device includes an image signal input unit for receiving R, G, and B image signals and outputting them as YUV signals, and a luminance change for receiving an output of the image signal input unit. A quality control unit for performing color correction according to the control unit, a control unit for detecting a change in a contrast gain value through the image quality control unit at a predetermined period, and outputting a control signal to the image quality control unit so that color adjustment is performed in association with the corresponding contrast; It comprises a video signal output unit for receiving the YUV signal, the contrast and color adjustment is made according to the control signal of the output signal as R, G, B video signal.
Preferably, the image quality control unit outputs a contrast gain value according to a frame change of the image signal input through the image signal input unit to the controller, and receives a control signal from the controller accordingly and inputs the image through the image signal input unit. It includes a contrast adjustment unit for adjusting the contrast of the signal, and a color adjustment unit for adjusting the color in conjunction with the contrast gain value in accordance with the control signal of the control unit.
According to an aspect of the present invention, a method of adjusting an image quality of an image display apparatus includes determining whether a new frame is input when an image signal is input, and whether the dynamic contrast enhancement function is previously set if the image signal is a new frame. And determining a brightness change if the dynamic contrast enhancement function is preset, and controlling a global or local color parameter to be applied according to the changed brightness when the brightness change is detected. It has its features.
Preferably, the detecting of the luminance change includes measuring a histogram of an input image signal when the dynamic contrast enhancement function is set, determining a pivot point according to the measured histogram, and determining the pivot point. And controlling the brightness enhancement, and checking the contrast gain value according to the brightness enhancement to detect the brightness change.

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Hereinafter, an apparatus and method for adjusting image quality of an image display device according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a block diagram illustrating an image quality adjusting apparatus of an image display apparatus according to the present invention, and FIG. 5 is a flowchart illustrating a method of adjusting image quality of an image display apparatus according to the present invention.

As shown in FIG. 4, an apparatus for adjusting image quality of an image display apparatus according to the present invention includes an image signal input unit 100 that receives R, G, and B image signals and outputs them as YUV signals, and the image signal input unit 100. The image quality adjusting unit 200 which receives the output and performs color correction according to the luminance change, and the image quality adjusting unit 200 detects a change in the contrast gain value at a predetermined period and interlocks with the corresponding contrast to adjust the color. A control unit 300 for outputting a control signal to the adjusting unit 200, and a video signal output to receive the YUV signal of contrast and color adjustment according to the control signal of the control unit 300 and to output the R, G, B image signal It is configured to include a portion (400).

Referring to the operation of the image quality adjusting device of the video display device configured as described above is as follows.

First, the video signal input unit 100 receives R, G, and B video signals and outputs them as Y, U, and V, so that the image quality adjusting unit 200 receives Y, U, and V signals to adjust contrast. Contrast adjustment unit 210, and the color adjustment unit 220 for adjusting the color in conjunction with the contrast is adjusted through the contrast adjustment unit 210 is configured.

The image quality adjusting unit 200 transmits a contrast gain value to the control unit 300 through communication with the control unit 300, and the control unit 300 receives a contrast gain value input through the contrast adjusting unit 210 at a predetermined period. The control signal is output to the color adjusting unit 220 in order to adjust the predefined color parameters.

Therefore, an optimal value is calculated and stored so that natural color adjustment is performed, that is, color saturation does not occur.

That is, in the contrast and color to be dynamically changed according to the brightness of the frame, the color parameter adjusted by the color adjusting unit 220 means a color component except luminance, so that contrast is a variable variable brightness, monochrome signal Affects.

Therefore, as a principle in which the contrast and the color are linked, when the luminance is dynamically changed, the color density is adaptively changed according to the amount of the luminance change, thereby realizing natural colors. In other words, according to the change of contrast, the color interlocking adjustment is performed by saturation, skin tone, blue stretch, and green stretch in order to realize natural colors.

Referring to FIG. 5, a method for adjusting image quality of an image display device according to the present invention configured as described above will first display a received image when a user inputs a power-on command (S101 to S102).

Next, it is determined whether the displayed image is a new frame (S103).

As a result of the determination (S103), if it is a new frame, it is determined whether the dynamic contrast enhancement is driven (S104).

Subsequently, when the dynamic contrast enhancement is driven, the determination result (S104) determines the pivot point to be applied after measuring the histogram (S105 to S106).

In operation S107, it is determined whether the determined pivot point exists within a preset setting range.

Subsequently, when the determined pivot point exists within a predetermined setting range (S107), a dark and bright distribution gain value is applied (S108).

The contrast gain value is measured at regular intervals (S109).

Accordingly, the color adjustment parameter is controlled according to the measured contrast gain value (S110).

In addition, by applying a limit to adjust the color accordingly accordingly to adjust the contrast and color (S111).

Subsequently, if the user inputs a power off command, the process ends. Otherwise, the above steps S103 to S111 are repeated.

The apparatus and method for adjusting image quality of an image display device according to the present invention configured as described above is to check the contrast gain at regular intervals according to the brightness of each frame when the dynamic contrast enhancement function is set so that the color parameters can be interlocked and adjusted accordingly. .

As described above, the apparatus and method for adjusting image quality of an image display device according to the present invention can maintain natural color reproducibility by interlocking color correction when luminance changes, and thus can improve user satisfaction due to image quality improvement. There is.

Claims (5)

A video signal input unit which receives the R, G, and B video signals and outputs them as YUV signals; A contrast adjusting unit that adjusts contrast by applying a corresponding contrast gain value based on a pivot point according to the histogram of the video signal input through the video signal input unit; A color adjuster for adjusting a color in conjunction with a contrast gain value applied by the contrast adjuster; A video signal output unit which receives the YUV signal having the contrast and color adjustment and outputs the R, G, and B video signals; And, A control point for controlling the contrast adjustment by determining a pivot point based on the histogram of the input video signal, and detecting a change in the contrast gain value according to the contrast adjustment and controlling the color adjustment in conjunction with it. Quality control device of a video display device, characterized in that configured by. delete Determining whether a new frame is input when an image signal is input; Determining whether the dynamic contrast enhancement function is preset if the frame is a new frame; Measuring a histogram of an input video signal when the dynamic contrast enhancement function is set; Determining a pivot point according to the measured histogram; Controlling brightness enhancement based on a contrast gain value according to the determined pivot point; And, And detecting a change in brightness based on the contrast gain value according to the brightness improvement and applying a global or local color parameter according to the brightness gain. delete delete

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