KR100603061B1 - Color transient improvement apparatus - Google Patents

Abstract

The present invention relates to a color signal boundary contour enhancement device that makes a screen of a display device clear by compensating the contour of a color signal boundary in a display device using an image signal.

The color signal boundary contour improvement device of the present invention receives color information of an image signal, samples a current pixel, forms a window, detects a color boundary, and calculates an average value by averaging the current chrominance values. In order to form a window, sample the chrominance data used to find a range of values according to the current chrominance value, output the maximum and minimum values of the window, and receive the window size signal to receive the window size signal. Calculates a first color signal, which is a difference between the average value which is the output of the window size calculating section and the low-band filter and the average value calculating section that increases the window size from the minimum size of the window to the maximum size of the window, A window in which the first color signal is corrected and the modified first color signal is an output of the window size calculator. Wu is constituted by the maximum value and the chrominance output is outside the limits to detect whether, within the limits of the range of the minimum of the window size to retouching a modified first color signal for generating a new color signal.

Description

Color signal improvement contour contour device {Color transient improvement apparatus}

1 is a block diagram of a color signal boundary contour improving device of the present invention.

[Explanation of symbols on the main parts of the drawings]

10: average value calculation unit 20: window size calculation unit

30: chrominance calculation unit

 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color signal boundary contour improving apparatus, and more particularly, to a color signal boundary contour improving apparatus that makes a screen of a display device clear by compensating the contour of a color signal in a display apparatus using an image signal.

In the conventional case, the luminance signal is more important than the color signal due to the characteristics of the human eye, and some display apparatuses use the calculation coefficient of the luminance signal contour correction using the luminance signal in the color signal processing.

Therefore, the luminance signal and the input band (Band-Width) of the color signal are different from each other when applied to the color boundary processing by using the calculation coefficient of the luminance signal contour correction, so there is a problem of overlapping colors or distortion in the color boundary. This problem has a problem in that the screen is not particularly clear when the color television is enlarged or applied to a digital television.

SUMMARY OF THE INVENTION An object of the present invention is to provide a color signal boundary contour improvement device that creates a high value-added product by improving image quality by compensating the contour of a color signal on a large color television or a digital television, thereby making the screen of the television clear. .

In order to achieve the above objects, the color signal boundary contour improvement apparatus of the present invention receives color information of an image signal and samples the window by sampling the current pixel independently of the first chrominance data and the second chrominance data. A chrominance used to find a range of values according to the current chrominance value in order to form an average value calculating unit for detecting a color boundary unit and averaging the current chrominance values to calculate an average value. The window size calculating unit and the low-band filter for sampling the data and outputting the maximum and minimum values of the window, and receiving the window size signal and increasing the window size from the minimum size of the window to the maximum size of the window by the window size signal. Compute the first color signal that is the difference between the output and the average value that is the output of the average value calculator, and differentiate The first color signal is corrected by the gain signal, and the modified first color signal is detected when the modified first color signal is within the limit of the maximum and minimum window sizes, which are outputs of the window size calculator, and is out of the limited range. It is characterized in that it comprises a chrominance calculator for re-correcting to generate a new color signal.

Hereinafter, a color signal boundary contour improvement apparatus of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a color signal boundary contour improving device of the present invention. The color signal boundary contour improvement apparatus of this invention is comprised from the average value calculation part 10, the window size calculation part 20, and the chrominance calculation part 30. As shown in FIG.

식으로 계산하면 된다. 윈도우 사이즈 산출부(20)는 윈도우를 형성하기 위하여 현재의 크로미넌스 값에 따라 일정 범위의 값들을 찾기 위해 사용되는 크로미넌스 데이터를 샘플링하여 윈도우의 최대값(Winmax)과 최소값(Winmin)을 출력하고, 윈도우 사이즈신호(Wind)를 수신하여 윈도우 사이즈신호(Wind)에 의해 윈도우의 크기를 윈도우의 최소 크기에서 윈도우의 최대 크기로 증가시키게 되며, 여기서 윈도우는 5개 크로미넌스(U, V) 픽셀(Pixel)을 사용하고 최대(Winmax), 최소(Winmin)값은 U, V 각각 5개중의 최대, 최소값을 의미하는 것이어서 최대/최소값의 차이가 커지면 WinR(윈도우 크기)값이 커지는 결과가 되고, 이렇게 윈도우 크기 값이 커지면 나중에 색신호 윤곽을 개선하려고 할 때 최대/최소값의 차이가 큰 영역(즉 급격한 변화가 있는 영역)은 더욱 크게 가중치가 생겨서(큰 값이 곱해져서) 더욱 또렷한 윤곽을 만들 수 있게 된다. 크로미넌스 산출부(30)는 저대역필터(Low Pass Filter)의 출력과 평균값 산출부(10)의 출력인 평균값(AVDAT) 간의 차이인 제1색신호를 계산하고, 미분 이득 신호(DiffG)에 의해 제1색신호를 수정하고, 수정된 제1색신호가 윈도우 사이즈 산출부(20)의 출력인 윈도우의 최대값(Winmax)과 최소값(Winmin)인 윈도우 크기의 제한 범위 내 인지를 검출하여 제한 범위 밖에 있는 경우 수정된 제1색신호를 재수정하여 새로운 색신호(NewChr)를 발생시킨다. The average value calculator 10 includes luminance data representing a luminance signal, first chrominance data that is a difference signal between a blue signal and a luminance signal, and a second chromium that is a difference signal between a red signal and a luminance signal. Receives the color information of the image signal Vin composed of nonce data, samples the current pixel independently from the first chrominance data and the second chrominance data, configures a window to detect the color boundary, and The chrominance values of are averaged to calculate an average value AVDAT. The chrominance data refers to U and V. Usually, 4: 2: 2 sampling is used (two luminance, that is, U and V are used one by one for Y signal). ) Does not appear properly in the chrominance data, meaning that the luminance signal is used instead of the chroma signal to detect the boundary of the color signal, and the color signal ( The luminance signal (Y signal) is used instead of the chrominance. Thus, the boundary is first detected by the Y signal, and the maximum / minimum of the boundary is detected by U and V, and the window maximum value Winmax and the window minimum value Winmin are respectively output. Detecting the boundary at Y is not included in the present invention (hence not specifically mentioned and described only as using Y) and applies a U, V window corresponding to that position at the detected boundary and a new chromium. The part which makes nonce is a summary of this invention. The reason for obtaining edges separately is to use separate conventional methods because there are many ways to distinguish noise from edges. The use of the current chrominance values as an average means that the chrominance value of the current position and the current before / after position values used to average are used, for example, if 9 pixels are used to average, Means four, present, and four chrominance values, the average of which is

It can be calculated by the formula. The window size calculating unit 20 samples the chrominance data used to find a range of values according to the current chrominance value to form a window, and calculates the maximum value Winmax and the minimum value Winmin of the window. Outputs and receives the window size signal Wind to increase the size of the window from the minimum size of the window to the maximum size of the window by means of the window size signal Wind, where the window has five chrominance levels (U, V). ) Using Pixel and the Max and Min values are the maximum and minimum values among the five U and V values respectively.As the difference between the max and min values increases, the WinR (window size) value increases. If the window size value is increased, the area where the difference between the maximum / minimum value is large (that is, the area with the drastic change) is further weighted (large value is multiplied) when the color signal contour is later improved. In order to create a clearer outline. The chrominance calculator 30 calculates a first color signal that is a difference between the output of the low pass filter and the average value AVDAT, which is the output of the average value calculator 10, and calculates the differential color gain signal DiffG. And correcting the first color signal, and detecting whether the modified first color signal is within the limit of the window size which is the maximum value Winmax and the minimum value Winmin of the output of the window size calculator 20, and then outside the limit range. If present, the modified first color signal is re-corrected to generate a new color signal NewChr.

The operation of the color signal boundary contour improvement device of the present invention according to the above configuration is as follows.

공식을 사용하여 제1평균값을 구하고, 제1평균값에 26을 곱하고, 256을 나눈다. 여기서 Ux는 현재위치의 U값,

,

은 1 픽셀(pixel)이전, 이후의 값을 나타내며, 이것은 V신호에 대해서도 동일하게 적용된다. 상기 식은 평균값(AVDAT)의 결과이며 일종의 저대역필터나 통상적인 평균값을 계산하는 계수보다는 좀 더 고주파(high frequency)영역을 많이 통과시키는 특성을 가지고 있으며(저주파~중고주파 정도의 주파수를 통과시킨다고 가정하면 된다.) 간단한 저대역필터 계수는

등과 같은 식으로 계산할 수 있다.(여기서 저대역필터는 여러가지 방법으로 구현될 수 있으므로 굳이 계수를 지정하지 않았다). 따라서, 나중에 크로미넌스 산출부에서 평균값(AVDAT) 과 저대역필터 결과를 빼면 중고주파 정도의 주파수가 남게 되며, 본 발명은 이러한 중고주파에 게인(DiffG)을 곱해서 원신호에 더해주는 원리를 갖게 된다. 두 번째 단계에서는 상기의 결과치를 기준치(Ext)와 비교하고 윈도우 사이즈 산출부(20)의 출력인 윈도우의 범위를 나타내는 윈도우 범위신호(WinR)를 곱하여 평균값(AVDAT)을 산출한다. 여기서 기준치(Ext)는 일종의 한계값으로서 기준치를 넘어가는 평균치를 제한하도록 하는 것이며, 상기된

식 결과에 대해 이러한 한계값을 걸어 준다.In the first step of calculating the average value AVDAT, the average value calculating unit 10 of the color signal boundary contour improving apparatus of the present invention denotes U as the first chrominance data, which is the difference signal between the blue signal and the luminance signal. U signal:

Use the formula to find the first mean, multiply the first mean by 26, and divide by 256. Where Ux is the U value of the current position,

,

Denotes a value before and after 1 pixel, and the same applies to the V signal. The above equation is a result of AVDAT and has a characteristic of passing a high frequency region more than a kind of low-band filter or a coefficient for calculating an average value (assuming low to medium frequencies are passed). A simple low pass filter coefficient

(Low-band filter can be implemented in many ways, so I did not specify a coefficient). Therefore, by subtracting the average value (AVDAT) and the low band filter result from the chrominance calculation unit later, the frequency of the medium frequency remains, and the present invention has a principle of multiplying the high frequency by the gain (DiffG) and adding it to the original signal. . In the second step, the resultant value is compared with the reference value Ext, and the average value AVDAT is calculated by multiplying the window range signal WinR indicating the range of the window that is the output of the window size calculator 20. Here, the reference value Ext is a kind of limit value that limits the average value beyond the reference value.

Apply these limits to the results of the equation.

The window size calculator 20 samples five of the chrominance data used to find a range of values according to the current chrominance value to form a window, and then selects the maximum value Winmax and minimum value of the window ( Winmin) is output, and the window size signal Wind is received to increase the size of the window from the minimum size of the window to the maximum size of the window by the window size signal Wind. The window range signal WinR, which is the output of the window size calculating section 20, is obtained by the difference between the minimum value Winmin of the window and the maximum value Winmax of the window.

The chrominance calculator 30 is composed of two stages. The first stage is an output of a low pass filter through which a Vin (U, V input) input is passed through a low band filter and an average value calculator 10. The first color signal, which is the difference signal, is calculated by passing the average value AVDAT, which is the output of the multiplier, and the first color signal is multiplied by a differential gain signal DiffG through a multiplier and divided by 16 to correct the first color signal. Perform the first step. The second step detects whether or not the first color signal modified in the first step is within the limit of the window size which is the maximum value Winmax and the minimum value Winmin of the window size output unit 20. If present, the modified first color signal obtained in the first step is output as a new color signal (NewChr), and the overshoot and undershoot are reduced when the modified first color signal obtained in the first step is outside the limit. In order to generate a new color signal NewChr, the modified first color signal is modified again. In order to correct the first color signal, a peak limit signal PeakL for controlling an externally programmable window overshoot or undershoot is received and a new color signal NewChr is generated using the following quadratic equation. That ^{is, {2x / 2 peakL} -} {x 2/2 (peakL + 5)}, where X is a modified first color signal. That is, the chrominance detector 30 subtracts the low-band filter signal of the Vin input signal from the average value AVDAT in a subtractor and multiplies it by the differential gain signal DiffG in the multiplier, and the output of the multiplier is the maximum value of the window. (Winmax) and the minimum value (Winmin) is to determine if the size limit of the window, when within the limits and output as the output of the multiplier, the output of the multiplier when exceeding the limit range ^{{2x / 2 peakL} - {} x ^{2/2 (peakL + 5)} } using a retouching and then outputted.

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The present invention can create a high value-added product according to image quality improvement by making a screen of a television clear by compensating the outline of a color signal in a large color television or a digital television.

Claims (1)

An apparatus for processing and displaying a video signal comprising luminance data representing a luminance signal, first chrominance data that is a difference signal between a blue signal and a luminance signal, and second chrominance data that is a difference signal between a red signal and a luminance signal, Receives the color information of the video signal, samples the current pixel independently from the first chrominance data and the second chrominance data, configures a window to detect a color boundary, and detects a color boundary. Average value calculating means for averaging the nonce values to calculate an average value; In order to form a window, the chrominance data used to find a range of values according to the current chrominance value is sampled, the maximum and minimum values of the window are output, and the window size signal is received to receive the window. Window size calculating means for increasing the size of the window from the minimum size of the window to the maximum size of the window by the size signal; And A first color signal, which is a difference between the output of the low band filter and the average value that is the output of the average value calculating means, is calculated, the first color signal is corrected by a differential gain signal, and the modified first color signal is used to calculate the window size. And a chrominance calculating means for detecting whether the maximum value of the window which is the output of the means is within the limit of the window size which is the minimum value, and correcting the modified first color signal when generating the new color signal when outside the limit. A color signal boundary contour improvement device.

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