KR20070074109A - Plasma display apparatus and image processing method thereof - Google Patents

Abstract

A plasma display device and an image processing method thereof are provided to clarify edges of a displayed image by reducing a false contour noise in the displayed image. A plasma display device includes an MPD(Moving Picture Distortion) detector(320), a first filter(330), and an image signal selector(340). The MPD detector calculates MPD of a first image signal from the outside and generates MPD information with respect to area of the image, which is displayed during one frame according to the magnitude of the MPD. The first filter generates a second image signal from the first image signal by using a mean filter. The image signal selector selects one of the first and second image signals based on the MPD information.

Description

Plasma Display Apparatus and Image Processing Method {Plasma Display Apparatus and Image Processing 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 view for explaining a MPD detection method according to an embodiment of the present invention.

5A and 5B are diagrams for describing an operating characteristic of the first filter unit according to an exemplary embodiment of the present invention.

6 is a view for explaining a MPD detection method of the plasma display device according to another embodiment of the present invention.

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

***** Explanation of symbols for main parts of drawing *****

310, 710; Inverse gamma correction units 320 and 720; MPD detector

330, 730; First filter units 340 and 750; Video signal selector

350, 760; Halftone portions 360 and 770; Subfield Mapping Section

740; 2nd filter part

The present invention relates to a plasma display device, and more particularly, to a plasma display device and an image processing method thereof, which can effectively improve image quality to be implemented.

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 discharge times, 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 uniformly generating a discharge, an address period for selecting a discharge cell, and a sustain period for implementing gray scale according to the number of discharges. For example, when the image is to be displayed with 256 gray levels, the 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 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 shown in FIG. 2, when a moving object in an image made up of 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 moving direction of the moving object, the gray scale value is displayed as 255 or 0 on the human eye trajectory. That is, when the gray value of the video signal of the previous frame n-1 is 127 and the gray value of the video signal of the current frame n is 128 in one pixel, the subfield for representing the 127 value of the previous frame Is turned on, and since the subfield for representing the 128 value of the current frame is turned on by a subfield corresponding to one frame, the value 0 is represented by a pseudo outline. In addition, when a gray value of the video signal of the previous frame n-1 is 128 and a gray value of the video signal of the current frame n is 127 in one pixel, a subfield for representing the 128 value of the previous frame Is turned on, and since the subfield for representing the 127 value of the current frame is turned on immediately, since the subfield corresponding to one frame is turned on without a time gap, the value 255 is represented as a pseudo outline. As such, the larger the motion, the more prominent pseudo contour noise appears.

SUMMARY OF THE INVENTION An object of the present invention is to provide a plasma display apparatus capable of reducing pseudo contour noise in an image implemented by improving the plasma display apparatus and an image processing method thereof.

In addition, another object of the present invention is to provide a plasma display apparatus and a plasma display apparatus capable of improving the image quality of an image implemented by improving the image processing method thereof.

In order to achieve the above object, the plasma display device according to an embodiment of the present invention calculates a moving picture distortion (MPD) value of the first image signal input from the outside, and one frame according to the size of the MPD value An MPD detector for generating MPD information on a spatial region of an image to be implemented during the process; A first filter unit filtering the first video signal to a second video signal using an average filter; And an image signal selector configured to select one of the first image signal and the second image signal according to the MPD information.

The MPD detector may preset a predetermined threshold value, compare the threshold value with the MPD value, and generate information on whether MPD is generated.

The image signal selector selects a second image signal in an area greater than or equal to the threshold.

The average filter is a Gaussian average filter.

The first filter unit may set a predetermined pixel as a center pixel, and filter the pixel in at least one of up, down, left, and right directions among adjacent pixels.

According to another embodiment of the present invention, a plasma display apparatus calculates a moving picture distortion (MPD) value of a first image signal input from an external source, and a spatial region of an image implemented for one frame according to the size of the MPD value. An MPD detector for generating MPD information for the; A first filter unit filtering the first video signal to a second video signal using an average filter; A second filter unit filtering the first image signal to a third image signal using an edge enhancement filter; And a video signal selector configured to select one of the first video signal, the second video signal, and the third video signal according to the MPD information.

The MPD detector may preset at least two predetermined threshold values, compare the threshold value with the MPD value, and generate MPD leveling information.

The image processing method of the plasma display apparatus according to an embodiment of the present invention (a) calculates a moving picture distortion (MPD) value of the first image signal input from the outside, and during one frame according to the size of the MPD value Generating MPD information for a spatial region of an image to be implemented; (b) filtering the first video signal to a second video signal using an average filter; And (c) selecting one of the first video signal and the second video signal according to the MPD information.

In the step (a), a predetermined threshold value is set in advance, and the threshold value is compared with the MPD value, and then information on whether the MPD is generated is generated.

In the step (c), the second image signal is selected for an area greater than or equal to the threshold value.

The average filter is a Gaussian average filter.

In the step (b), a predetermined pixel is set as a center pixel, and the filtering is performed in at least one of up, down, left, and right directions among adjacent pixels.

According to another exemplary embodiment of the present invention, an image processing method of a plasma display apparatus includes (a) calculating a moving picture distortion (MPD) value of a first image signal input from an external device, and during one frame according to the size of the MPD value. Generating MPD information for a spatial region of an image to be implemented; (b) filtering the first video signal to a second video signal using an average filter; (c) filtering the first image signal into a third image signal using an edge enhancement filter; And (d) selecting one of the first video signal, the second video signal, and the third video signal according to the MPD information.

In the step (a), at least two predetermined threshold values are set in advance, and the MPD leveling information is generated after comparing the threshold value with the MPD value.

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 plasma display apparatus according to an exemplary embodiment of the present invention may include an inverse gamma correction unit 310, an MPD detector 320, a first filter unit 330, an image signal selector 340, The halftone unit 350 and the subfield mapping unit 360 are included.

The inverse gamma correction unit 310 inversely gamma corrects an image signal input from the outside every frame. The plasma display device is characterized in that the luminance value actually displayed with respect to the gray value of the 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 310 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 gray scale value.

The MPD detector 320 calculates a moving picture distortion (MPD) value of the first image signal input from the inverse gamma correction unit 310, and spatial region of an image implemented for one frame according to the size of the MPD value. Generate MPD information for. To this end, the MPD detector 320 presets a predetermined threshold value, compares the threshold value with the MPD value, and generates information on whether MPD is generated. In an image implemented for one frame, the area where the MPD value is greater than or equal to the threshold is determined as the area where the MPD is generated, that is, the area where the pseudo contour is generated, and the area where the MPD value is less than the threshold is where the MPD is not generated, that is, the pseudo contour It is determined as an area where no occurrence occurs. The MPD information is input to the video signal selector 340. A more detailed description of the MPD detector 320 will be described later with reference to FIG. 4.

The first filter unit 330 filters the video signal input from the inverse gamma correction unit 310, that is, the first video signal into a second video signal using an average filter. As described above with reference to FIG. 2, a large number of pseudo contour noises are generated between grayscale values having a large number of subfields turned off when the maximum subfield turned on when the grayscale value is changed in the video, for example, between 127 and 128 grayscale values. The gray scale value is adjusted by using an average filter for the region of the pixels having such gray scale values. The average filter changes an average value with adjacent pixels about a predetermined center pixel to a gray value of the center pixel. As the gray scale value assigned to the pixel is adjusted, the gray scale values having the 127 and 128 are distributed to adjacent pixels. As a result, pseudo contour noise can be reduced. A more detailed description of the first filter unit will be described later with reference to FIGS. 5A and 5B.

The image signal selector 340 receives the image signal of the first image signal input from the inverse gamma correction unit 310 or the second image signal input from the first filter unit 330 from the MPD detector 320. Select according to the input MPD information. That is, the image signal selector 340 selects and outputs the second image signal in an area that is greater than or equal to a threshold, that is, an area in which a pseudo contour is generated. In addition, the first image signal is output to a region where the pseudo contour is not generated. As a result, different image processing is performed on the spatial domain according to the MPD information.

The halftone unit 350 halftons the video signal input from the video signal selector 340. The inverse gamma corrected video signal has a reduced gray scale expression in its signal processing. In order to compensate for this, in the embodiment of the present invention, the halftone unit 350 is provided to improve the reduced gray scale expression power and to secure the gray scale linearity. Such half-toning methods include dithering and error diffusion methods. Use a dithering method and error diffusion method, or a combination of both.

The subfield mapping unit 360 maps an image signal input from the halftone unit 350 according to a prestored subfield mapping table. The mapped image signal is called a subfield mapping code, and is used as information for driving a data driver (not shown) for supplying an address pulse to an address electrode (not shown).

4 is a view for explaining a MPD detection method according to an embodiment of the present invention.

As shown in FIG. 4, in the MPD detection method according to an embodiment of the present invention, an MPD value is first obtained by using subfield mapping codes of a previous frame n-1 and a current frame n for the same pixel. Calculate In this case, the MPD value is a value obtained by multiplying the subfield mapping codes of the previous frame (n-1) and the current frame (n) by the exclusive OR of each subfield by the weight of each subfield. to be.

For example, in FIG. 3, the result of the exclusive OR between the previous frame n-1 and the current frame n is '0,0,0,0,1,1,0,0,1,' for each subfield. 0 'and the weight of each subfield is' 1, 2, 4, 8, 16, 32, 64, 64, 64, 64', the MPD value becomes 102 according to the following equation (1).

MPD value: 1 * 16 + 1 * 32 + 1 * 64 = 102

Thereafter, the MPD value is calculated by comparing the calculated MPD value with a preset threshold value, and thus, the clothing contour compensation is performed.

5A and 5B are diagrams for describing an operating characteristic of the first filter unit according to an exemplary embodiment of the present invention. FIG. 5A is a graph showing a weight of a Gaussian average filter as a curve, and FIG. 5B illustrates a filtering process using a Gaussian average filter.

As shown in FIG. 5A, the Gaussian filter has a characteristic that a weight is changed according to a distance between adjacent pixels with respect to a center pixel. In an exemplary embodiment of the present invention, by using a Gaussian filter among the average value filters, the center pixel is affected by the gray scale value according to the distance of adjacent pixels. In other words, it is possible to prevent the gray value of the center pixel from being distorted. In addition, as the weight decreases as the distance increases with the highest weight in the center pixel, the gray scale value is smoothly transitioned between the pixels, thereby improving gray linearity.

As shown in Fig. 5B, first, a predetermined pixel is set as the center pixel. Thereafter, the gray value of the image signal allocated to each pixel is multiplied by the weight of FIG. In this case, the adjacent pixels are adjacent pixels in at least one of up, down, left, and right directions with respect to the center pixel. It is desirable to multiply the weights for the pixels. Then, the sum of the multiplied weighted values is divided and the number is divided by the number of pixels. The value calculated in this way is assigned to a new grayscale value of the center pixel.

Meanwhile, the MPD detector according to the present invention may generate various MPD information by modifying its configuration. For example, by setting a plurality of threshold values in advance, it is possible to level not only the presence of the MPD region but also the degree of MPD. Next, FIG. 6 illustrates at least two threshold values in advance, and thus shows MPD information detected in an image implemented during one frame.

6 is a view for explaining a MPD detection method of the plasma display device according to another embodiment of the present invention.

As shown in FIG. 6, the MPD detection method according to another embodiment of the present invention sets at least two or more threshold values and compares the MPD values calculated in each region. The MPD value is then leveled for each threshold.

6 is shown in color according to the MPD level. The area shown in red has a large MPD value and is the area where pseudo contours are most likely to occur. This area is especially detected in the skin color of a person, and there is less change in the gray value for adjacent pixels. The area displayed in black has a small MPD value and is a low possibility of generating a pseudo contour. In addition, blue and green have intermediate MPD values and correspond to edge regions such as boundary or contour of an object in an image to be implemented. In consideration of such an edge area, according to another exemplary embodiment of the present invention, image quality may be improved more effectively by using the plasma display apparatus as shown in FIG. 7.

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

As shown in FIG. 7, the plasma display apparatus according to another exemplary embodiment of the present invention may include an inverse gamma correction unit 710, an MPD detector 720, a first filter unit 730, a second filter unit 740, The image signal selector 750, the halftone unit 760, and the subfield mapping unit 770 are included.

Here, the inverse gamma correction unit 310 and the first filter unit according to an embodiment of the present invention described with reference to FIGS. 3 to 5b among the operating characteristics of each functional unit of the plasma display device according to another embodiment of the present invention. Details overlapping with operation characteristics of the 330, the halftone unit 350, and the subfield mapping unit 360 will be omitted.

As described above with reference to FIG. 6, the MPD detector 720 presets at least two predetermined threshold values, compares the threshold values with the MPD values, and then generates MPD leveling information. For example, information of a pseudo contour generating region, a pseudo contour non-generating region and an edge region is generated.

The first filter 740 filters the first image signal input from the inverse gamma correction unit 710 into a second image signal using an average filter.

The second filter 750 filters the first image signal input from the inverse gamma correction unit 710 into a third image signal using an edge enhancement filter. That is, by filtering the image signal such that the difference in the gray value between adjacent pixels increases, the image signal becomes more prominent when it corresponds to the boundary or contour of the object in the image to be implemented. As an edge enhancement filter, an unsharp masking filter is used.

The image signal selector 750 may include a first image signal input from the inverse gamma correction unit 710, a second image signal input from the first filter unit 740, or a second image signal input from the second filter unit 750. One of the three video signals is selected according to the MPD information input from the MPD detector 720. That is, the first image signal is output to the region where the pseudo contour is not generated, and the second image signal is selected and output to the region where the pseudo contour is generated. In addition, a third video signal is selected and output for the edge area. As a result, different image processing is performed on the spatial domain according to the MPD information.

In this manner, pseudo contour elimination filtering is performed on the region where pseudo contours are generated, and edge enhancement filtering is performed on the edge region, whereby more reliable image processing can be performed.

The image processing method of the plasma display apparatus according to an embodiment of the present invention (a) calculates a moving picture distortion (MPD) value of the first image signal input from the outside, and during one frame according to the size of the MPD value Generating MPD information for a spatial region of an image to be implemented, (b) filtering the first video signal into a second video signal using an average filter, and (c) the first video signal or And selecting one of the second image signals according to the MPD information. Here, a more detailed description of the image processing method of the plasma display device according to an embodiment of the present invention has been described fully through the operation characteristics of the plasma display device according to an embodiment of the present invention of FIGS. Shall be.

In addition, the image processing method of the plasma display apparatus according to another embodiment of the present invention (a) calculates a moving picture distortion (MPD) value of the first image signal input from the outside, and according to the size of the MPD value Generating MPD information for a spatial region of an image implemented during a frame, (b) filtering the first image signal into a second image signal using an average filter, and (c) the first image Filtering the signal into a third video signal using an edge enhancement filter; and (d) one of the first video signal, the second video signal, and the third video signal according to the MPD information. Selecting. Here, a more detailed description of the image processing method of the plasma display device according to another embodiment of the present invention has been described fully through the operation characteristics of the plasma display device according to another embodiment of FIGS. 6 and 7 will be omitted. Shall be.

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 exemplary embodiments described above are to be understood as illustrative and not restrictive in all aspects, 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 All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

As described above, the present invention has an effect of reducing pseudo contour noise in an image implemented in the plasma display apparatus.

In addition, the present invention has the effect of improving the edge in the image implemented in the plasma display device.

In addition, the present invention has the effect of improving the gray scale linearity in the image implemented in the plasma display device.

In addition, the present invention has the effect of improving the image quality of the image implemented in the plasma display device.

Claims (14)

An MPD detector configured to calculate a moving picture distortion (MPD) value of a first image signal input from the outside and generate MPD information on a spatial region of an image implemented during one frame according to the size of the MPD value; A first filter unit filtering the first video signal to a second video signal using an average filter; And An image signal selector configured to select one of the first image signal and the second image signal according to the MPD information Plasma display device comprising a. The method of claim 1, And the MPD detector presets a predetermined threshold value, compares the threshold value with the MPD value, and generates information on whether MPD is generated. The method of claim 2, And the image signal selector selects a second image signal in an area greater than or equal to the threshold. The method of claim 1, The average filter is a Gaussian average filter. The method of claim 1, And the first filter unit sets a predetermined pixel as a center pixel, and filters the pixel in at least one of up, down, left, and right directions among adjacent pixels. An MPD detector configured to calculate an MPD value of a first image signal input from the outside and generate MPD information on a spatial region of an image implemented during one frame according to the size of the MPD value; A first filter unit filtering the first video signal to a second video signal using an average filter; A second filter unit filtering the first image signal to a third image signal using an edge enhancement filter; And An image signal selector configured to select one of the first image signal, the second image signal, and the third image signal according to the MPD information Plasma display device comprising a. The method of claim 6, And the MPD detector sets at least two predetermined thresholds in advance, compares the threshold value with the MPD value, and generates MPD leveling information. (a) calculating a moving picture distortion (MPD) value of a first video signal input from the outside and generating MPD information for a spatial region of an image implemented during one frame according to the size of the MPD value; (b) filtering the first video signal to a second video signal using an average filter; And (c) selecting one of the first image signal and the second image signal according to the MPD information Image processing method of the plasma display device comprising a. The method of claim 8, In the step (a), a predetermined threshold value is set in advance, the threshold value is compared with the MPD value, and then information on whether MPD is generated is generated. The method of claim 9, In the step (c), the second image signal is selected for an area greater than or equal to the threshold value. The method of claim 8, And the average filter is a Gaussian average filter. The method of claim 8, In the step (b), the predetermined pixel is set as the center pixel, and the image processing method of the plasma display apparatus, characterized in that filtering in at least one of the vertical direction or the left and right direction of the adjacent pixels. (a) calculating a moving picture distortion (MPD) value of a first video signal input from the outside and generating MPD information for a spatial region of an image implemented during one frame according to the size of the MPD value; (b) filtering the first video signal to a second video signal using an average filter; (c) filtering the first image signal into a third image signal using an edge enhancement filter; And (d) selecting one of the first video signal, the second video signal, and the third video signal according to the MPD information Image processing method of the plasma display device comprising a. The method of claim 13, In the step (a), at least two predetermined threshold values are set in advance, and the MPD leveling information is generated after comparing the threshold value with the MPD value.

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