KR101665132B1 - Apparatus and mehtod for image qualtiy improving in image display device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to an apparatus and a method for improving image quality in an image display device. The present invention relates to a frame memory for receiving image data from outside and storing the same; A dynamic range converter connected between the memory and the panel for converting the dynamic range of the image data according to the minimum distribution lower and upper luminance level information; A minimum distribution lower and upper luminance level detecting unit for detecting the minimum distribution lower and upper luminance levels; An inverse gamma correcting unit for inversely gamma-correcting the dynamic range-converted moving image data and changing a luminance value according to a gray level value of an image signal; A dynamic range adjuster for converting a contrast curve according to a gamma corrected input value from the inverse gamma correction unit; And a screen driver for applying the contrast curve adjusted by the dynamic range adjuster to the image and outputting the contrast curve.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image display device,

The present invention relates to an image display device, and more particularly, to an apparatus and method for improving image quality of an image display device.

A typical image display device is used for displaying images on a TV or a monitor, and since light can not be generated by itself, light from a separate light source should be used. Accordingly, such an image display apparatus is provided with a backlight unit for forming a light source on the rear surface of the liquid crystal panel, and is configured to display an image by adjusting the transmittance of light emitted from the backlight unit according to the movement of the liquid crystal.

In recent years, the backlight has been implemented so that the brightness of each partial area of the backlight can be adjusted in order to express an image requiring a partially high luminance. For example, in the case of an image having a part requiring a high brightness such as a fireworks display or an explosion scene, the image displayed on the LCD panel is displayed more effectively by adjusting the corresponding part area of the backlight.

However, as the brightness of the backlight is adjusted for each partial area, a difference in brightness occurs between the partial areas, and the brightness of each partial area is increased or decreased due to the difference in brightness between the adjacent partial areas. In particular, when the entire image is a dark and partially bright image, the luminance of the bright region of the backlight is also reduced due to the influence of the dark regions of the backlight, and the overall image is darkened, so that it is difficult to expect an effective contrast ratio.

Also, in order to adjust the brightness of the partial area of the backlight, the brightness value according to each partial area is applied. The brightness value per partial area is calculated by using the average value, the weighted average value, and the maximum value of the brightness of the corresponding partial area image Value is applied as a representative value indicating the brightness of the partial area. However, when the average value is used as the representative value of the partial area, the brightness characteristic of the partial area is reflected on average, but when the input image is entirely dark and partially bright, the peak brightness of the image is lowered And when the maximum value is used as a representative value, there may be a disadvantage that it is sensitive to noise.

It is an object of the present invention to provide an apparatus and method for enhancing an image quality of an image display device that adjusts an image quality adjustment value in consideration of a state of an image when adjusting image quality of the image.

According to an aspect of the present invention, there is provided an image processing apparatus including a frame memory for receiving image data from outside and storing the same; A dynamic range adjustment unit connected between the memory and the panel to enlarge a dynamic range of the image data according to the lowest distribution lower and upper luminance level information; A minimum distribution lower and upper luminance level detecting unit for detecting the minimum distribution lower and upper luminance levels; An inverse gamma correcting unit for inversely gamma-correcting the dynamic range-converted moving image data and changing a luminance value according to a gray level value of an image signal; And a screen driver for applying the contrast curve adjusted by the dynamic range adjuster to the image and outputting the contrast curve.

The present invention also provides a method of detecting an input image, comprising: detecting a minimum distribution lower and an upper luminance level of an input image; Converting the dynamic range according to the information of the detected luminance level; Modifying a contrast value of an image according to the converted dynamic range value; And outputting the input image by applying the modified contrast value.

The image display device according to the present invention is capable of providing a high-quality image similar to the original image to the user by checking the state of the image and adjusting the contrast value accordingly.

1 is a block diagram of a panel driving block of a video display device using a dynamic range enlargement method.
FIG. 2 is a block diagram of the screen driving unit shown in FIG. 1. FIG.
3 is a flowchart illustrating an image quality improvement operation according to an embodiment of the present invention;
4 is an exemplary histogram distribution of an image according to an embodiment of the present invention;
5 is a diagram illustrating an example of a dynamic range adjustment curve according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 is a block diagram illustrating a panel driving method of an image display apparatus using a dynamic range enlargement method according to an embodiment of the present invention.

1, the image display device includes a frame memory 14, lower and upper level histogram detectors 22a and 22b, minimum distribution lower and upper luminance level determiners 24a and 24b, a dynamic range adjuster 16, And a screen driver 18.

The frame memory 14 j-arrays the data from the input line 12 in units of one frame and supplies it to the dynamic range adjustment unit 16. [

The lower and upper level histogram detectors 22a and 22b detect the histogram of the lower and upper levels for each level of data from the input line 12 in units of frames. This first obtains the overall distribution of the level for the input screen of one frame. Based on the overall distribution, a histogram, which is a distribution value of the luminance level of the input data, is detected as shown in FIG.

The minimum distribution lower and upper brightness level value determiners 24a and 24b determine the arbitrarily set reference ratios and determine the lower and upper brightness levels with a lower brightness level distribution through the detected lower and upper level histograms.

The minimum distribution lower and upper level value determiners 24a and 24b determine an arbitrarily set reference ratio and determine the lower and upper levels with a low brightness level distribution through the detected lower and upper level histograms.

The dynamic range adjustment unit 16 enlarges the dynamic range of the input data using the data input from the frame memory 14, the minimum distribution lower and upper luminance level values. The dynamic range adjustment unit 16 supplies input data having an enlarged dynamic range to the screen driving unit 18. [

The screen driver 18 corrects the digital signal input from the dynamic range adjuster 16 and supplies the corrected digital signal to the screen driver 18. 2, the screen driving unit 18 includes a first inverse gamma correction unit 32, a gain control unit 24, an error diffusion unit 36, a subfield mapping unit 38, and a data alignment unit 40, A second inverse gamma correction unit 33, an APL (Anerage Picture Level) unit 44, a waveform generating unit 46, and a panel 48.

  The first and second inverse gamma correction units 32 and 33 perform inverse gamma correction on the video signal input from the dynamic range adjustment unit 16 to linearly convert the luminance value according to the gray level value of the video signal.

The APL unit 44 receives the video data corrected by the second inverse gamma correction unit 33 and generates an N-level signal for adjusting the number of sustain pulses. The gain control unit 34 amplifies the corrected video signal by the first inverse gamma correction unit 32 by an effective gain.

The error diffusion unit 36 finely adjusts the luminance value by diffusing the error component of the cell into adjacent cells. The subfield mapping unit 38 reassigns the corrected video data from the error diffusion unit 36 for each subfield.

The data sorting unit 40 arranges the video signals so as to be supplied to the panel 48, and supplies the video signals to the address driving integrated circuit.

The waveform generating unit 46 generates a timing control signal based on the N-level signal input from the APL unit 44 and supplies the generated timing control signal to the address driving IC, the scan driving IC, and the sustain driving IC of the panel 48 do.

3 is a flowchart illustrating an image quality improvement operation according to an embodiment of the present invention. Referring to FIG. 3, the controller senses input of image data received from an external source in step 305, and calculates a representative luminance value for adjusting the brightness of each partial area with respect to the input image signal in step 310. In step 310, The calculated luminance value obtains the overall distribution of the luminance level with respect to the input screen of one frame. It is possible to know the ratio of the histogram, which is the distribution number of 1 to 255 luminance levels, based on the overall luminance level distribution. (Step 315)

The minimum distribution lower and upper luminance levels are determined on the basis of the histogram distribution ratio, and the threshold value is set accordingly. In step 325, a curve for adjusting the contrast is determined according to the distribution ratio of the histogram in the luminance, and the curve curve is determined according to the determined curve magnitude. The contrast of the image is adjusted. As a result, the contrast of the image is improved, so that the bright portion is displayed brighter and the dark portion is displayed more dark.

Claims (6)

A frame memory for receiving and storing image data from outside;
A minimum distribution lower and upper luminance level detector for detecting a minimum distribution lower and an upper luminance level of the image data;
A dynamic range adjustment unit for enlarging a dynamic range of the image using the minimum distribution lower and upper luminance levels; And
And a screen driver for correcting and outputting image data input from the dynamic range adjusting unit, the first and second inverse gamma correction units and the panel,
The image corrected by the first inverse gamma correction unit is amplified by the effective gain, the luminance value is adjusted, the video data is reassigned for each subfield, supplied to the panel by the address drive integrated circuit,
An N stage signal is generated through an image corrected by the second inverse gamma correction unit, and a timing control signal generated by the N stage signal is supplied to the panel by an address driving integrated circuit, a scan driving integrated circuit, and a sustain driving integrated circuit An image quality improvement device of a video display device to be supplied. The apparatus of claim 1, wherein the frame memory stores the received image in units of frames. The apparatus of claim 1, wherein the dynamic range adjustment unit determines the contrast curve of the image using the minimum distribution lower and upper luminance levels according to the histogram distribution of the image. Receiving image data;
Detecting a minimum distribution lower level and an upper luminance level of the image data, respectively;
Enlarging a dynamic range of the image using the minimum distribution lower and upper luminance levels; And
And correcting the dynamic range-converted image through a first and second inverse gamma correction unit and a screen driving unit including a panel,
The image corrected by the first inverse gamma correction unit is amplified by the effective gain, the luminance value is adjusted, the video data is reassigned for each subfield, supplied to the panel by the address drive integrated circuit,
An N stage signal is generated through an image corrected by the second inverse gamma correction unit, and a timing control signal generated by the N stage signal is supplied to the panel by an address driving integrated circuit, a scan driving integrated circuit, and a sustain driving integrated circuit A method for improving image quality in a video display device. 5. The method of claim 4, wherein the received image is a histogram of a brightness level for one frame. The method as claimed in claim 5, wherein the contrast curve is adjusted using the minimum distribution lower and upper luminance levels according to the histogram for the received image.

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