KR100462596B1 - Apparatus and method for compensating false contour - Google Patents

Abstract

The present invention relates to a display apparatus and method, and more particularly, to a pseudo contour correction apparatus and method for correcting a pseudo contour caused by parallax integration error in a display representing time division gray scale. The pseudo contour correction apparatus may include a pseudo contour detector for detecting a pseudo contour prediction point from a gray level of an input current image signal, and improve a contrast ratio for a range N of a specific size around the gray level of the detected pseudo contour prediction point. And a contrast level enhancement unit, a gradation level correction unit for detecting a pseudo contour prediction point from the current gradation level and the previous gradation level with improved contrast ratio and correcting the gradation level at the detected pseudo contour prediction point. According to the present invention, it is possible to expect an improvement in contrast of an input image that cannot be obtained in the conventional method of correcting the pseudo contour by the original signal processing method, thereby creating an effect of effectively attenuating the pseudo contour.

Description

Apparatus and method for compensating false contour}

The present invention relates to a display apparatus and method, and more particularly, to a pseudo contour correction apparatus and method for correcting a pseudo contour caused by a parallax integration error in a display apparatus expressing time division gray scales.

Plasma Display Panel (PDP) uses a method of modulating the number of pulses in a field as a gray scale display method. This method displays gradations by this combination with several sub-fields having different emission periods, that is, several sub-fields having different number of emission pulses, within one field. The problem with the gray scale representation method using the sub-field is that the position of the light emitting block changes greatly when the gray scale level changes small in the field (for example, when it changes from 127 to 128), and these gray scales are adjacent to each other. When the light is in motion, the light emitting blocks overlap or move away, causing the brightness (color in the case of the color panel) to be integrated in the eye and to be distorted. This phenomenon appears in the form of unexpected contours, which is called pseudo contours.

Methods for reducing such pseudo contours include a structure change of a sub-field, a distribution of pseudo contours, and a method by original signal processing. FIG. 1 shows a pseudo contour correction apparatus by conventional original signal processing. .

1 includes a memory 100, a comparator 101, a look up table (LUT) 102, and an adder 103. The memory 100 stores the input gradation level of the previous screen. The comparator 101 compares the input gradation level of the current screen with the input gradation level of the previous screen stored in the memory 100, and finds a pseudo contour view. The LUT 102 stores an appropriate equalizing pulse to add to the pseudo contour prediction time point of the current screen. The adder 103 outputs and adds an equalization pulse from the LUT 102 to add to the current input gradation level and the contour view found in the comparator 101, thereby reducing the pseudo contour.

FIG. 2 (a) is a waveform diagram showing pseudo contours generated between two fields and three fields, and FIG. 2 (b) shows that pseudo contours are reduced by inserting an equalization pulse at a current input gray level by raw signal processing. This is a waveform diagram showing the principle.

In the conventional pseudo contour correction device using the original signal processing as described above, since it varies depending on the moving direction and speed of the pattern image of the pseudo contour, data comparison is performed for all directions in which motion may occur or a motion vector may be compared for accurate compensation. There is a problem that requires a complex algorithm to use.

The technical problem to be achieved by the present invention is to provide a pseudo contour correction apparatus for improving the contrast and reducing the pseudo contour of the input image by selecting the expression gray level according to the input image.

Another technical problem to be solved by the present invention is to provide a pseudo contour correction method for improving contrast and reducing pseudo contours of an input image by selecting an expression gray level according to the input image.

1 is a block diagram showing the configuration of a conventional pseudo contour correction apparatus.

FIG. 2 is a waveform diagram illustrating FIG. 1.

3 is a block diagram showing the configuration of a pseudo contour correction apparatus according to the present invention.

4 is a flowchart showing the operation of the pseudo contour correction method according to the present invention.

5 is a histogram for explaining FIGS. 3 and 4.

A pseudo contour correction apparatus for solving the technical problem to be achieved by the present invention comprises a pseudo contour detection unit for detecting a pseudo contour prediction point from the gradation level of the current image signal input; A contrast ratio enhancement unit for improving a contrast ratio by a range N of a specific size around the gray level of the detected pseudo contour prediction point; And a gradation level correction unit for detecting a pseudo contour prediction point from the current gradation level and the previous gradation level with improved contrast ratio and correcting the gradation level at the detected pseudo contour prediction point. In the present invention, The pseudo contour detection unit counts the number of gradation levels of the pseudo contour prediction points of the input image, detects the pseudo contour prediction points for a case of more than a reference value, and stores the gradation levels accordingly. The gradation level correcting unit deletes the gradation level of the detected pseudo contour prediction point and outputs a correction level substituted with the gradation level in the closest image having the increased contrast ratio. The pseudo contour correction method for (a) the current image signal input Detecting a pseudo contour prediction point from the jaw level; (b) improving the contrast ratio for a range N of a specific size around the gray level of the detected pseudo contour prediction point; And (c) a gradation level correction unit for detecting a pseudo contour prediction point from the current gradation level and the previous gradation level with improved contrast ratio and correcting the gradation level at the detected pseudo contour prediction point. In the step (a), the number of levels of the pseudo contour prediction points of the input image is counted to detect the pseudo contour prediction points for the case of more than a reference value, and the gray level is stored accordingly. In the step (c), the gradation level of the detected pseudo contour prediction point is deleted, and the correction level substituted with the gradation level in the contrast-closed nearest image is output. The present invention will be described in detail.

3 is a block diagram showing a configuration of a pseudo contour correction apparatus according to the present invention, in which an input pattern determination unit 300 detecting a gray level of a pseudo contour prediction point from an input gray level, and partially contrasts the contrast ratio of the detected gray level. Obtaining a pseudo contour prediction point from the partial contrast enhancement section 301 for improving, a memory 302 storing a previous gradation level with improved contrast ratio, a current gradation level with contrast ratio enhancement, and a previous gradation level stored in the memory 302, It consists of the expression gradation attenuation part 303 which corrects a pseudo outline from it.

4 is a flowchart illustrating an operation of a pseudo contour correction method according to an embodiment of the present invention, in which a gray level is calculated at a pseudo contour prediction point of an input image (400), and a contrast enhancement is performed on a vicinity value of the obtained level ( 401, pseudo contour point prediction step 402, and step 403 of deleting the gradation level of the pseudo contour prediction point and replacing it with the gradation in the nearest image.

5 is a histogram for explaining FIGS. 3 and 4.

Next, the pseudo contour correction apparatus and method will be described in detail with reference to FIGS. 3 to 5.

The gray level is obtained from the pseudo contour prediction point of the input image (step 400). The input pattern determiner 300 detects the pseudo contour prediction point from the input gray level, and is well illustrated in FIG. 5A. The input pattern determiner 300 counts the number of gradation levels of the pseudo contour prediction point, and stores the gradation level when the count of the counted gradation levels is equal to or greater than a set threshold value.

The contrast enhancement of the neighboring level of the gradation level obtained at the pseudo contour prediction point is increased (step 401). The partial contrast ratio improvement unit 301 receives the gray level information of the pseudo contour prediction point from the input pattern determination unit 300 and improves the contrast ratio near the gray level at the pseudo contour prediction point, and partially contrasts the ratio in FIG. 5B. An improved gradation level is shown. The partial contrast enhancement unit 301 partially improves the contrast ratio by a range N of a specific size around the pseudo contour generation level value.

A pseudo contour point is predicted from the gradation level with improved contrast ratio (step 402). The memory 302 stores the gradation level of which the previous contrast ratio is improved, and the expression gradation attenuator 303 determines the motion from the gradation level of the contrast ratio and the previous gradation level stored in the memory 302, and the pseudo contour prediction point. Is detected.

The gray level at the pseudo contour prediction point is deleted and replaced with the gray level in the nearest image (step 403). The expression gradation attenuator 303 deletes the gradation level at the detected pseudo contour prediction point and replaces the gradation level closest to the deleted gradation level. A portion indicated by a dotted line in FIG. 5C is a deleted gradation level, and a gradation level having a value greater than another gradation level becomes a closest gradation level of the deleted gradation level, so that the deleted gradation level is closest. It shows that the gradation level is replaced.

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, it is possible to expect an improvement in contrast of the input image that cannot be obtained by the conventional pseudo signal correction method by the original signal processing method, thereby creating an effect of effectively attenuating the pseudo contour.

Claims (6)

A pseudo contour detector detecting a pseudo contour prediction point from a gray level of an input current video signal; A contrast ratio enhancement unit for improving a contrast ratio by a range N of a specific size around the gray level of the detected pseudo contour prediction point; And And a gradation level correction unit for detecting a pseudo contour prediction point from the current gradation level and the previous gradation level with improved contrast ratio, and correcting the gradation level at the detected pseudo contour prediction point. The method of claim 1, wherein the pseudo contour detection unit And counting the number of gradation levels of the pseudo contour prediction points of the input image to detect the pseudo contour prediction points for a case of more than a reference value and storing the gradation levels accordingly. The method of claim 1, wherein the gray level correcting unit And a correction level which deletes the gradation level of the detected pseudo contour prediction point and replaces it with the gradation level in the contrast-advanced nearest image. (a) detecting a pseudo contour prediction point from a gray level of an input current video signal; (b) improving the contrast ratio for a range N of a specific size around the gray level of the detected pseudo contour prediction point; And and a gradation level correction unit for detecting a pseudo contour prediction point from the current gradation level and the previous gradation level with improved contrast ratio and correcting the gradation level at the detected pseudo contour prediction point. The method of claim 4, wherein step (a) And counting the number of levels of the pseudo contour prediction points of the input image to detect the pseudo contour prediction points in a case where the level of the pseudo contour prediction points is equal to or greater than a reference value, and storing the gray level accordingly. The method of claim 4, wherein step (c) And correcting the gradation level of the detected pseudo-contour prediction point and outputting a correction level substituted with the gradation level in the contrast-advanced nearest image.