KR20070089012A - Plasma display apparatus and driving method thereof - Google Patents

Abstract

A plasma display apparatus and a driving method thereof are provided to reduce a dynamic false contour noise in moving images by using a group error diffusion scheme. A plasma display apparatus includes an A/D converter(300), an inverse gamma compensating unit(310), a group error diffusion unit(320), and a sub-field mapping unit(330). The A/D converter converts an image signal from outside into a digital signal. The inverse gamma compensating unit compensates for the image signal from the A/D converter using an inverse compensation scheme. When a false contour noise is generated from the compensated image signal, the group error diffusion unit diffuses grayscale of the compensated image signal to a 2X2 group so as to reduce the false contour noise. The sub-field mapping unit maps the diffused grayscale on a mapping table.

Description

Plasma Display Apparatus and Driving Method

1 is a view showing a method for implementing an image of a conventional plasma display device.

2 is a diagram for explaining a moving image pseudo outline in a conventional plasma display device.

3 is a view for explaining a plasma display device according to an embodiment of the present invention.

4 is a diagram for describing a gray scale conversion unit included in a group error diffusion unit of the present invention.

5 is a flowchart illustrating a method of driving a plasma display device according to an embodiment of the present invention.

2 그룹 오차확산을 설명하기 위한 도이다.6 is 2 of the present invention

It is a figure for demonstrating two-group error diffusion.

<Explanation of symbols for main parts of the drawings>

300: A / D conversion unit. 310: Inverse gamma correction unit.

320: group error diffusion unit. 330: subfield mapping unit.

340: plasma display panel.

The present invention relates to a plasma display device and a method of driving the plasma display device.

In general, the plasma display apparatus includes a plasma display panel in which a partition wall formed between the front substrate and the rear substrate forms one unit cell. Each cell is filled with a main discharge gas such as neon (Ne), helium (He) or a mixture of neon and helium (Ne + He) and an inert gas containing a small amount of xenon. When discharged by a high frequency voltage, the inert gas generates vacuum ultraviolet rays and emits phosphors formed between the partition walls to realize an image. Such a plasma display device has a spotlight as a next generation display device because of its thin and light configuration.

1 is a view showing a method for implementing an image of a conventional plasma display device.

As shown in FIG. 1, the plasma display apparatus divides one frame period into a plurality of subfields having different numbers of discharges, and emits a plasma display panel in a subfield period corresponding to a gray value of an input image signal. An image is implemented.

Each subfield is divided into a reset period for generating a discharge uniformly, an address period for selecting a discharge cell, and a sustain period for implementing gray levels according to the number of discharges. For example, when the image is to be displayed in 256 gray levels, a frame period (16.67 ms) corresponding to 1/60 second is divided into eight subfields.

In addition, each of the eight subfields is divided into a reset period, an address period, and a sustain period. Here, the sustain period is increased at the ratio of 2 ⁿ (n = 0,1,2,3,4,5,6,7) in each subfield. As described above, since the sustain period is changed in each subfield, gray levels of an image can be realized.

As described above, using a large number of subfields enables a larger number of gray scale expressions. However, since the time allocated for one frame is limited, the number of subfields that can be used is substantially 12 or less. The number of gradations obtained by using all 12 subfields is 2 ¹² , which is quite large, but not all of them can be used. This is because a dynamic false contour noise appears in the moving image as shown in FIG. 2 due to the subfield driving method of the plasma display apparatus.

2 is a diagram for explaining a moving image pseudo outline in a conventional plasma display device.

As illustrated in FIG. 2, when a moving object in an image implemented with eight subfields has a gray value 128 and a gray value 127, the gray value difference is substantially 1 between both pixels. However, depending on the direction of movement of the moving object, the grayscale value appears as 255 or 0 on the human eye trajectory. That is, when a gray value of the video signal of the previous frame n-1 is 127 and a gray value of the video signal of the current frame n is 128 in one pixel, a subfield for representing the 127 value of the previous frame Is turned on, and since a subfield corresponding to one frame is turned off between the times when the subfield for representing the 128 value of the current frame is turned on, a value of 0 appears as a pseudo outline. In addition, when a gray value of the image signal of the previous frame n-1 is 128 and a gray value of the image signal of the current frame n is 127 in one pixel, a subfield for representing 128 values of the previous frame Is turned on, and since the subfield for representing the 127 value of the current frame is turned on immediately, the value 255 is represented as a pseudo outline because the subfield corresponding to one frame is turned on without time gap.

As described above, when a pseudo contour occurs in a video, the pseudo contour is reduced by using an error diffusion or dither method. In this case, when the pseudo contour is reduced by an error diffusion or dither method, a gray level may appear rough.

 The present invention is to solve such a problem, and to provide a plasma display device and a method of driving the plasma display device that can reduce the possibility of pseudo contours.

2 그룹으로 오차 확산하는 그룹 오차확산부; 및 상기 영상 신호의 계조 값을 서브필드 맵핑 테이블에 맵핑하는 서브필드 맵핑부를 포함한다.In order to achieve the above object, the plasma display device of the present invention includes an A / D conversion unit for converting an image signal input from the outside into a digital signal; An inverse gamma correction unit configured to inverse gamma correct the image signal converted into the digital signal; When a pseudo contour is generated in the video signal, the gray level of the video signal is reduced to reduce the pseudo contour.

A group error diffusion unit for error diffusion into two groups; And a subfield mapping unit for mapping the gray level of the video signal to a subfield mapping table.

In addition, the group error diffusion unit includes a gradation converter for converting the gradation value of the image signal in order to reduce the pseudo contour when a pseudo contour is generated in the externally input image signal.

In addition, an error value is generated between the gray level of the video signal input to the gray level converter and the gray level of the video signal output from the gray level converter.

Also, the error value generated by the gray scale converter is calculated as an average value.

Further, the mean value of the error values generated by the gray scale converter is error-diffused to the peripheral group.

2 그룹으로 오차 확산한다.Also, the group error spread is 2

Error spread to two groups.

2 그룹에서 발생한 오차 값을 평균값으로 계산한다.2

Calculate the mean value of error in 2 groups.

2 그룹에서 발생한 상기 오차 값에 대한 평균값을 주변 그룹으로 확산한다.2

The average value of the error values generated in the two groups is spread to the surrounding groups.

2 그룹의 특정 픽셀의 오차 값이 상기 평균값보다 클 경우 상기 오차 값을 상기 평균값으로 제한한다.2

If the error value of a specific pixel of two groups is larger than the average value, the error value is limited to the average value.

2 그룹으로 오차 확산하는 그룹 오차확산 단계; 및 상기 영상 신호의 계조 값을 서브필드 맵핑 테이블에 맵핑하는 서브필드 맵핑 단계를 포함한다.In addition, the A / D conversion step of converting the image signal input from the outside into a digital signal; An inverse gamma correction step of performing inverse gamma correction on the video signal converted into the digital signal; When a pseudo contour is generated in the video signal, the gray level of the video signal is reduced to 2 to reduce the pseudo contour.

A group error diffusion step of error spreading into two groups; And a subfield mapping step of mapping the gray value of the video signal to a subfield mapping table.

In addition, the group error diffusion step includes a gray level conversion step of converting a gray level value of the image signal in order to reduce the pseudo contour when a pseudo contour is generated in an externally input image signal.

In addition, an error value is generated between the gray level of the video signal input in the gray level converting step and the gray level of the video signal output in the gray level converting step.

In addition, the error value generated in the gray level conversion step is calculated as an average value.

In addition, the average value of the error values generated in the gray level conversion step is error-diffused to the peripheral group.

2 그룹으로 오차 확산한다.Also, the group error diffusion step is 2

Error spread to two groups.

Hereinafter, with reference to the accompanying drawings, a specific embodiment according to the present invention will be described.

3 is a view for explaining a plasma display device according to an embodiment of the present invention.

As shown in FIG. 3, the A / D converter 300, the inverse gamma correction unit 310, the group error diffusion unit 320, and the subfield mapping unit may be used. 330 and the plasma display panel 340.

The A / D converter 300 converts an externally input video signal into a digital signal.

The inverse gamma correction unit 310 inversely gamma corrects an image signal converted into a digital signal by the A / D converter 300 every frame. The plasma display device has a feature in that a luminance value actually displayed with respect to a gray value of an image signal forms a linear curve. On the other hand, since the luminance value of the image signal input from the outside has a gamma characteristic, in the exemplary embodiment of the present invention, an inverse gamma correction unit 320 is provided to inversely gamma correct an external image signal, thereby displaying a plasma display. The screen actually implemented in the device has a linear luminance value with respect to the grayscale value.

2 그룹으로 오차 확산을 한다. 2

2 그룹의 각각의 픽셀에서 발생한 계조의 오차 값을 합하여 평균값을 계산한다. 또한, 2

2 그룹에서 발생한 오차 값의 평균값을 2

2 그룹의 주변 그룹으로 오차 확산한다. 또한, 그룹 오차확산부(320)는 외부에서 입력된 영상 신호에 의사 윤곽이 발생하면 의사 윤곽을 줄이기 위해서 영상 신호의 계조 값을 변환한다. 영상 신호의 계조 값을 변환하기 위해서 계조 변환부를 포함한다. 계조 변환부에 관한 상세한 설명은 도 4에서 한다.When a pseudo contour is generated in the inverse gamma corrected image signal, the group error spreader 320 selects each pixel having the pseudo contour 2.

Error spread in two groups. 2

The average value is calculated by summing error values of gray levels generated at each pixel of the two groups. 2

The mean value of the error values

Error spread to the surrounding groups of 2 groups. In addition, when a pseudo contour occurs in the image signal input from the outside, the group error diffusion unit 320 converts the gray value of the image signal to reduce the pseudo contour. A gray level conversion unit is included to convert gray level values of an image signal. Detailed description of the gray scale conversion unit will be given with reference to FIG. 4.

The subfield mapping unit 330 maps the gray level of the group error spread image signal to the subfield mapping table.

The plasma display panel 340 is driven according to the subfields mapped by the subfield mapping unit 330.

4 is a diagram for describing a gray scale conversion unit included in a group error diffusion unit of the present invention. As shown in FIG. 4, the group error diffusion unit 320 of the present invention includes a gray level converter 400 and an averager / maximum value designator 410.

The gray level converter 400 converts the gray level value of the image signal to reduce the pseudo contour when a pseudo contour is generated in the image signal input from the outside. The gradation value of the image signal input to the gradation converter 400 and the gradation value of the image signal output from the gradation converter 400 are different from each other. A gray error value is generated from a gray value of an image signal input to the gray converter 400 and a gray value of an image signal output from the gray converter 400. In addition, the cell-line is delayed. By delaying the cell lines, each pixel is also delayed. The error caused by delaying a pixel is multiplied by a constant coefficient. An error generated by multiplying each delayed pixel by a predetermined coefficient is input to the gray scale converter 400.

The error averager / maximum value designator 410 calculates the error value generated by the gray scale converter 400 as an average value. In addition, if the error value is more than the average value, the maximum value is specified so that the error value does not exceed the average value.

5 is a flowchart illustrating a method of driving a plasma display device according to an embodiment of the present invention. As shown in FIG. 5, the method of driving the plasma display device according to the embodiment of the present invention includes an A / D conversion step 400, an inverse gamma correction step 410, a group error diffusion step 420, and a subfield mapping. Step 430 is made.

The A / D conversion step 400 converts an externally input video signal into a digital signal.

The inverse gamma correction step 410 inversely gamma corrects an image signal converted into a digital signal every frame. The plasma display device has a feature in that a luminance value actually displayed with respect to a gray value of an image signal forms a linear curve. On the other hand, since the luminance value of the image signal input from the outside has a gamma characteristic, in the exemplary embodiment of the present invention, an inverse gamma correction step 410 is provided to reverse the gamma correction of the external image signal, thereby providing a plasma display device. The screen actually implemented at has a linear luminance value with respect to the grayscale value.

2 그룹으로 오차 확산을 한다. 2

2 그룹의 각각의 픽셀에서 발생한 계조의 오차 값을 합하여 평균값을 계산한다. 또한, 2

2 그룹에서 발생한 오차 값의 평균값을 2

2 그룹의 주변 그룹으로 오차 확산한다. Group Error Diffusion Step 420 When a pseudo contour is generated in the inverse gamma corrected image signal, each pixel where the pseudo contour is generated is 2

Error spread in two groups. 2

The average value is calculated by summing error values of gray levels generated at each pixel of the two groups. 2

The mean value of the error values

Error spread to the surrounding groups of 2 groups.

2 그룹 오차 확산된 영상 신호의 계조 값을 서브필드 맵핑 테이블에 맵핑한다. Subfield mapping step 430 is 2 in the group error diffusion step 420

The gray level values of the two group error spread image signals are mapped to the subfield mapping table.

2 그룹 오차확산을 설명하기 위한 도이다.6 is 2 of the present invention

It is a figure for demonstrating two-group error diffusion.

2 그룹 오차확산은 각각의 픽셀을 2

2 그룹으로 묶어서 오차 확산하는 방법이다. 각각의 픽셀에서 발생하는 오차를 더한 후 평균값을 낸다. 평균 오차 값은 평균 오차 값=(픽셀 오차 1＋픽셀 오차 2＋픽셀 오차 3＋픽셀 오차 4)/4 와 같은 방법으로 평균 오차 값을 구한다. 이와 같이 평균 오차 값이 구해지면 평균 오차 값을 주변 그룹으로 오차 확산한다. 또한, 일반적인 동영상에서는 2

2 크기의 작은 영역에서는 아주 유사한 정보를 포함하고 있다고 생각할 수 있으므로 오차의 평균값을 이용해서 전파해도 계조의 표현에는 이상이 없다. 또한, 각각의 픽셀에서 발생한 오차 값이 평균 오차 값보다 클 경우에는 오히려 노이즈(noise)량이 증가할 수 도 있으므로 픽셀의 오차 값을 평균 오차 값으로 제한한다.As shown in FIG. 6, 2

2 groups of error spreads for each pixel

It is a method of spreading errors by grouping them into two groups. The error occurring in each pixel is added together and averaged. The mean error value is obtained in the same manner as the mean error value = (pixel error 1 + pixel error 2 + pixel error 3 + pixel error 4) / 4. When the mean error value is obtained as described above, the mean error value is spread to the surrounding group. Also, in a typical video, 2

It can be considered that very small information of two sizes contains very similar information, so even when propagating using the average value of the error, there is no problem in the expression of gradation. In addition, when the error value generated in each pixel is larger than the average error value, the amount of noise may increase, so the error value of the pixel is limited to the average error value.

As described above, the present invention has an effect of reducing pseudo contours generated in a video by spreading an error diffusion into a group error.

As such, the technical configuration of the present invention described above can be understood by those skilled in the art that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and their All changes or modifications derived from equivalent concepts should be construed as being included in the scope of the present invention.

The plasma display device and the driving method of the present invention have an effect of reducing pseudo contours appearing in a moving image by using a group error diffusion method.

In addition, the present invention has the effect of reducing the noise or pattern appearing in the video.

Claims (15)

An A / D converter converting an externally input video signal into a digital signal; An inverse gamma correction unit configured to inverse gamma correct the video signal converted into the digital signal by the A / D converter; When a pseudo contour is generated in the inverse gamma corrected image signal, the gray level of the image signal is reduced to reduce the pseudo contour.

A group error diffusion unit for error diffusion into two groups; And A subfield mapping unit for mapping the gray level value of the image signal, which is the group error spread, to a subfield mapping table Plasma display device comprising a. The method of claim 1, The group error diffusion unit And a gray level converter for converting a gray value of the video signal to reduce the pseudo contour when a pseudo contour is generated in the externally input image signal. The method of claim 2, And a value of an error occurs in the gray level of the image signal input to the gray level converter and the gray level of the image signal output from the gray level converter. The method of claim 3, wherein And calculating the error value generated by the gray level converter as an average value. The method of claim 4, wherein And spreading the average value of the error value generated by the gray level converter into a peripheral group. The method of claim 1, The group error spread is 2

Plasma display device characterized in that the error diffusion to two groups. The method of claim 6, 2 above

Plasma display device, characterized in that for calculating the error value generated in the two groups as an average value. The method of claim 7, wherein 2 above

And spreading the average value of the error values generated in the two groups into a peripheral group. The method of claim 7, wherein 2 above

And the error value is limited to the average value when an error value of two specific pixels is larger than the average value. An A / D conversion step of converting an externally input video signal into a digital signal; An inverse gamma correction step of performing inverse gamma correction on the video signal converted into the digital signal in the A / D conversion step; If a pseudo contour is generated in the image signal in the inverse gamma correction step, the gray level of the image signal is reduced to 2 to reduce the pseudo contour.

A group error diffusion step of error spreading into two groups; And A subfield mapping step of mapping the gray level value of the group error-corrected image signal to a subfield mapping table Method of driving a plasma display device comprising a. The method of claim 10, The group error diffusion step And a gray level conversion step of converting a gray level value of the image signal in order to reduce the pseudo contour when a pseudo contour is generated in the externally input image signal. The method of claim 11, And an error value is generated between the gray level of the image signal input in the gray level converting step and the gray level of the image signal output in the gray level converting step. The method of claim 12, And driving the error value generated in the gray level conversion step as an average value. The method of claim 13, And error diffusing an average value of the error values generated in the gray level conversion step into a peripheral group. The method of claim 10, The group error diffusion step is 2

A method of driving a plasma display device, comprising error diffusion into two groups.

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