KR20090040676A - Image display device and method for compensation video quality - Google Patents

Abstract

An image display device and an image-quality compensating method are provided to perform the black stretch by applying an offset value of only a block which has lower brightness level, thereby increasing the contrast ratio without the loss of the maximum brightness level. A memory unit(10) stores an offset value corresponding to the mean value of a DC element. A scaler scales a video signal inputted from the outside. A DC calculator(20) calculates the ratio values of DC components of each block in the scaled video signal of a frame unit. A controller(30) sets up the offset value of a corresponding frame based on the mean value of ratio values calculated through the DC calculator, and then determines a block to which the set offset value will be applied based on the ratio values of each block. A black stretch performing unit(40) applies the set offset value to the determined block and then performs the black stretch.

Description

Image display device and method for compensation video quality}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly, to a video display device and a quality compensation method for performing a black stretch on the basis of coefficient values of DC components of blocks with respect to an input image of a frame unit.

In general, various methods for improving contrast ratio are disclosed in display devices.

By converting the higher level signal part higher, the white stertch, which is a method of increasing the contrast with the lower level signal, and the lower level signal part is converted lower, in contrast to the vaccine field. There is a black stretch that enhances the contrast with high level signals.

The vaccine and black kidney techniques analyze histograms of image signals input from the outside and generate black kidney functions differently according to the analyzed distribution and apply them to the input signal.

That is, as shown in FIG. 1, the histogram of the currently input video signal is analyzed based on the histogram divided into 16 areas, and accordingly, the position of the detected 1% point is detected by detecting the position of the top 1% of the histogram. By applying a gain value according to H_Position, a vaccine field of the input video signal is performed to increase contrast.

In addition, as shown in FIG. 2, a position within the histogram of the lower 2% is detected in the analyzed histogram, and a black height of the input image signal is applied by applying an offset value according to the detected lower 2% point L_Position. To lower the brightness.

Accordingly, the brighter level of the image is brighter according to the level of the input image signal, and the lower level of the image is darker, thereby increasing the contrast ratio of the image, thereby improving the image quality.

However, since the black height technique according to the prior art increases the slope of the contrast and lowers the brightness to perform the black height, the maximum luminance level that can be expressed in one frame is lowered, so that the contrast ratio is lowered. There is a problem of being lowered.

The present invention has been made to solve such a problem, and an object thereof is to increase the contrast ratio by performing black height without loss of the maximum luminance level based on one frame.

Another purpose is to determine a block for applying a preset offset value based on the DC information of DCT, which is information for each block, and to perform black height based on different offset values for each block.

According to an aspect of the present invention, there is provided an image display device comprising: a memory unit configured to store an offset value according to an average value APL of a DC component; A DC calculator which calculates coefficient values of DC components of blocks of an image signal input from the outside; The offset value of the corresponding frame is set based on the average value of the coefficient values of the DC component of each block calculated by the DC calculator, and the block to which the set offset value is applied is determined based on the coefficient value of the DC component of each block. A control unit; And a black kidney performing unit for performing black stretch by applying the set offset value to the determined block according to the control signal of the controller.

In addition, the image quality compensation method of the image display device to achieve the above object comprises the steps of calculating the coefficient value of the DC component for each block for the video signal input from the outside; Setting an offset value of a corresponding frame based on an average value of coefficient values of the calculated DC component of each block; Determining a block for applying the set offset value based on the coefficient value of each block DC component; And performing black extension by applying the set offset value to the determined block.

According to the present invention, the image display device and the image quality compensation method of the image display device do not apply an offset value for performing black extension on a block having a high luminance level according to the coefficient value of the DC component of each block of the input image signal. By performing the black stretching by applying the offset value according to only the low level block (below the standard threshold), the contrast ratio can be increased without losing the maximum luminance level.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the spirit of the present invention is not limited to the embodiments presented, and other embodiments included within the scope of other inventive inventions or the scope of the present invention can be easily made by adding, changing, or deleting other elements. I can suggest.

As shown in FIG. 3, the image display device according to the present invention includes a memory unit 10 that stores an offset value according to an average value APL of a DC component, and an image signal input from an external device. A DC calculation unit 20 that calculates coefficient values of DC components by blocks, and an offset value of a corresponding frame is set based on an average value of coefficient values of DC components by blocks calculated by the DC calculator, The controller 30 determines a block to which the set offset value is applied based on the coefficient value of each DC component, and applies the set offset value to the determined block according to a control signal of the controller 30 to increase the black height ( And a display unit 50 for displaying a video signal of which brightness is changed through the black kidney execution unit 40.

The operation of the image display device according to the present invention configured as described above is as follows.

First, when an image signal is input from the outside, the input image signal is subjected to signal processing such as deinterlacing and scaling through an image signal processor (not shown).

The DC calculator 20 calculates coefficient values of DC components for each block in the deinterlaced and scaled image signal.

That is, as shown in FIG. 4, the video signal is generally compressed by DCT (Discrete Cosine Transfiom) in 8 * 8 block units, and the first pixel (0,0) out of 64 pixels (8 * 8) in total is compressed. Pixels of position) are divided by DC coefficients, and the remaining pixels by AC coefficients. The DC coefficient represents the overall energy distribution of the 8 * 8 block, and the AC coefficient represents the change of the image level value in a specific direction and at a specific ratio.

Since the DC coefficient represents the overall energy distribution of the block means that the DC coefficient represents the block, it is possible to grasp the overall meaning of the image for each block even using only the DC coefficient.

In other words, the video signal is compressed using DCT, and the compressed file is converted to the frequency domain and compressed using the video on the video. At this time, the DC component is the most important part of the image, and only the data for this part is compressed through DPCM (Differential Pulse Code Modulation).

Accordingly, an average picture level (APL) of the frame is calculated by calculating the DC component of each block of the DCT frame for each of the 8 * 8 blocks.

As described in Equation 1, the DC calculator calculates coefficient values of the corresponding DC components for each block based on the equation. Here, u and v denote rows and columns within a corresponding 8 * 8 block, and i and j denote rows and columns by 8 * 8 blocks.

In addition, since DCT is 8 * 8, N = M = 8, and as shown in FIG. 4 and Equation 1, F (0,0) is a DC component of an 8 * 8 block, that is, an Everage component. Can be.

In addition, the method for obtaining the coefficient value of the DC component for each block based on Equation 1 is a well-known technology in the art to which the present invention pertains, and a detailed description thereof will be omitted.

After calculating all coefficient values of DC components of 8 * 8 blocks (total 63 blocks) through one frame, the controller 30 calculates coefficient values of DC components of blocks calculated by the DC calculator 20. An average value (APL) for is calculated and an offset value of the corresponding frame is set based on the calculated average value.

That is, as shown in FIG. 5, the memory unit 10 stores an offset value for performing black height for each average value APL, and the controller 30 controls the offset according to the calculated average value. The value is extracted from the memory unit 10 to set an offset value according to the average image level of the current frame.

At this time, the controller 30 determines a block for applying the offset value for performing the set black height.

That is, the brightness level of the corresponding block is determined based on the coefficient values of the DC components of the blocks calculated by the DC calculator 20, and the offset is set according to whether the determined brightness level exceeds a preset standard threshold. Optionally determine the block for setting the value.

In other words, when the coefficient value of the DC component is a large block, since the corresponding luminance component is a large block, the set offset value is not applied to express the maximum luminance level of the block at the time of black extension. The offset value is described as 0, and in the case of a block having a small coefficient value of the DC component, the black extension is performed by applying the set offset value during the black extension.

Herein, the standard threshold is 200level (90IRE), and if the coefficient value of the calculated DC component of the block exceeds 200Level, the offset value is set to 0 without applying the set offset value to the block. Allow black kidneys to be performed.

In addition, the standard threshold is an arbitrary value for an embodiment of the present invention, which may vary depending on the operator at the time of implementation.

Accordingly, the black kidney performing unit 40 performs black kidney of the input image signal based on the offset value set through the control unit 30.

That is, as described in Equation 2, a block whose coefficient value for a DC component of an 8 * 8 block exceeds a standard threshold is not applied to a corresponding offset value for performing the black extension, and is less than or equal to the standard threshold. Only the blocks are subjected to black stretching by applying the offset value set according to the average value.

Accordingly, an offset value for performing black extension is not applied to a block having a high luminance level based on a coefficient value of a DC component for each block of the input video signal, and accordingly only for a block having a low luminance level (below a standard threshold). By performing the black extension by applying the offset value, the contrast ratio can be increased without losing the maximum luminance level.

In the image quality compensation method of the image display device according to the present invention configured as described above, as shown in FIG. 6, first, a coefficient value of 8 * 8 block DC components is calculated for an image signal in a frame unit input from the outside (S10). . That is, based on Equation 1, the coefficient value of the DC component corresponding to the F (0,0) block of the DCT image in 8 * 8 block units is calculated.

Subsequently, an average value of the calculated coefficient values of the DC component for each block is calculated to calculate an average image level APL of the corresponding frame (S20).

Then, an offset value according to the calculated average image level is set based on the table shown in FIG. 4 (S30).

Next, a block for applying the set offset value is determined.

That is, it is determined whether there exists a block whose coefficient value of the calculated DC component for each block exceeds the standard threshold (S40).

The determination result (S40) determines that the block does not apply the set offset value for the block in which the coefficient value of the DC component exceeds the standard threshold (S50). That is, the offset value for the block exceeding the standard threshold is set to zero.

In addition, the determination result (S40) for the block in which the coefficient value of the DC component does not exceed the standard threshold, that is, the block having a value less than the standard threshold value is determined as a block applying the set offset value (S60). That is, an offset value set according to the APL is applied to a block below a standard threshold.

Subsequently, based on the determined offset value for each block, the image signal is subjected to black height (S70).

 As described above, the image display device and the image quality compensation method of the image display device according to the present invention are for performing black height on a block having a high luminance level according to coefficient values of DC components of 8 * 8 blocks of an image signal input from the outside. It is possible to increase the contrast ratio without losing the maximum luminance level by applying a black extension by applying the offset value only for a block having a low luminance level (below the standard threshold) without applying the offset value.

1 is a diagram illustrating a vaccine field technique applied according to the prior art.

2 is a view for explaining a black kidney technique applied in accordance with the prior art.

3 is a block diagram showing the configuration of a video display device according to the present invention;

4 is a view for explaining the principle of 8 * 8 DCT for calculating the coefficient value of the DC component in accordance with the present invention.

5 is a table showing an offset value applied to each APL according to the present invention.

6 is a diagram for explaining a method of compensating for image quality of an image display device according to an exemplary embodiment of the present invention.

Claims (9)

A memory unit for storing an offset value according to an average value APL of a DC component; A scaler for scaling an image signal input from the outside; A DC calculator which calculates coefficient values of DC components of blocks for an image signal of a frame unit scaled by the scaler; The offset value of the corresponding frame is set based on an average value (APL) of the coefficient values of the DC components of the blocks calculated by the DC calculator, and the applied block of the set offset values is based on the coefficient values of the DC components of each block. A control unit for determining; And, And a black kidney performing unit for performing a black stretch by applying the set offset value to the determined block according to the control signal of the controller. The method of claim 1, And the DC calculator calculates a coefficient value of a DC component for each 8 * 8 block of an image signal in a frame unit input through the scaler. The method of claim 1, And the control unit compares the DC coefficient value of each block calculated by the DC calculating unit with a preset standard threshold value, and determines whether to apply the set offset value according to the comparison result. The method of claim 3, wherein The control unit An image display comprising setting an offset value of a block having a coefficient value equal to or less than the standard threshold value based on the set offset value, and setting an offset value of a block having a coefficient value exceeding the standard threshold value to 0 device. The method according to claim 3 or 4, And the standard threshold is 200 Level (90 IRE). Calculating coefficient values of DC components of blocks for video signals input from the outside; Calculating an average image level (APL) of a frame based on the calculated coefficient value of the DC component for each block; Setting an offset value of a corresponding frame based on the calculated average image level; And, And determining a block for applying the set offset value based on the calculated coefficient value of each block DC component. The method of claim 6, Determining a block for applying the set offset value is Comparing the coefficient value of the detected DC component of each block with a preset standard threshold value; And determining a block having a coefficient value equal to or less than the preset standard threshold as a block for applying the set offset value according to the comparison result. The method of claim 7, wherein Determining a block having a coefficient value less than or equal to the predetermined standard threshold as a block for applying the set offset value Setting an offset value of a block having a coefficient value equal to or less than the standard threshold based on the set offset value; And setting the offset value of the block for which the calculated DC component coefficient per block exceeds the preset standard threshold to 0. The method according to any one of claims 7 or 8, And the standard threshold value is 200 Level (90 IRE).

Images