KR20090020784A - Apparatus and method of display - Google Patents

Abstract

A display apparatus and a display method are provided to divide images into color images and black/white images according to the amount of a color difference signal to make a screen clearer through color correction and disable a block for a fresh white function to enjoy an original image of black/white images. When an image signal is inputted from the outside, an image signal inputted through input CSC is converted into brightness and color difference signals based on a color space converting algorithm(S10,S20). A controller checks the amount of color difference signals and a lasting time(S30). A controller determines whether the amount of color difference signals is smaller than a predetermined value for a predetermined time(S40). When the amount of color difference signals is smaller than the predetermined value for a predetermined time, the controller determines that the image signal is a black image(S50).

Description

Display device and display method {Apparatus and Method of display}

The present invention relates to a display device of the present invention. In particular, a display device and display for selectively applying a fresh white function used to enhance a white color of a color image according to a type of an input image signal It is about a method.

In general, a display device includes a TV. The TV is tuned / demodulated by a user according to a channel selected by a user from among broadcast signals transmitted from a broadcasting station, divided into voice and video, and processed through the corresponding audio and video processing. It is a video device that outputs through a speaker.

The display device is provided with a fresh white function for correcting a color temperature of the color difference signal of the gray area based on the luminance level in order to improve color of the white side of the color (gray area). have.

That is, the fresh white function determines a level of a luminance signal among input image signals, and a color difference signal corresponding to a gray region of the color difference signals of the input image signal according to the determined luminance signal level. By extracting only the bay, the color temperature is increased, making the color of white more vivid and clear.

Hereinafter, a color temperature correction method according to the prior art will be described with reference to the accompanying drawings.

In the prior art color temperature correction method, as shown in FIG. 1, first, when an image signal is input from the outside, the input image signal is converted into a YUV signal which is a digital signal (S1 to S2).

Subsequently, based on the converted luminance signal Y, the level of the luminance signal according to the intensity of light is detected (S3).

The color difference signal of the gray region is extracted from the converted color difference signal UV (S4).

Subsequently, when the level of the detected luminance signal is equal to or higher than a predetermined level, the color temperature of the color difference signal of the gray region is corrected according to the level of the detected luminance signal (S5).

As described above, the color temperature correction method according to the related art provides a clear and clear image by correcting the color temperature of the color difference signal in the gray region according to the luminance signal level.

However, in the color image correction, the color difference signal (White) of the gray region appears more clearly and clearly in the color image, but in the case of the black and white image, the white side color temperature and the black side color temperature are different, so that the image on the screen is unbalanced. There is a problem that is unbalanced.

That is, in the prior art, color temperatures are corrected in the same way as color images or black and white images, and thus, in the case of black and white images, the color temperature for each level of the screen composed of white and black is different, thereby making the screen look unnatural.

The present invention has been made to solve the above problems, to compensate for the problem of the fresh white (Fresh white) function used to increase the white color of the color image to make the white more clearly visible in the color image, black and white in the monochrome image The purpose is to be able to enjoy the original video of the.

In addition, by determining whether the input video signal is a color image or a black and white image, in the case of a color image, the display implements a fresh white function to make the screen vivid and clear, and in the case of a black and white image, disables a block for implementing a fresh white image. The purpose is to maintain the naturalness of the black and white image.

According to an aspect of the present invention, an image display device includes: an input CSC for converting an image signal input from the outside into a luminance (Y) and a color difference (UV) signal and outputting the converted signal; An image signal correction unit correcting a color temperature of the color difference signal based on the level of the luminance signal converted from the input CSC; An output CSC for converting the color difference signal corrected by the image signal correcting unit and the luminance signal into R, G, and B signals and outputting the converted R, G, and B signals; And a controller which checks the amount of the color difference signal converted from the input CSC to determine the type of the video signal, and optionally outputs a control signal to perform color temperature correction through the video signal correction unit. .

According to the present invention, the image display device distinguishes a color image from a black and white image according to the amount of color difference signals (UV) to make the screen more vivid and clear through color temperature correction in the case of a color image, and a fresh white function in the case of a monochrome image. By disabling the block for the (black and white) there is an effect that can enjoy the original image of the black and white image.

Hereinafter, a display apparatus and a display method according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a configuration of a display device according to the present invention, Figure 3 is an exemplary view showing a gray area in the UV (color difference signal) domain according to the present invention, Figure 4 is a view of the display device according to the present invention A flowchart for explaining the display method step by step.

As shown in FIG. 2, the display apparatus according to the present invention includes an input color space converter (CSC) 10 for converting an image signal input from the outside into a luminance Y and a color difference (UV) signal, and outputting the same; An image signal corrector 20 correcting a color temperature of the color difference signal based on the level of the luminance signal converted from the input CSC 10, a color difference signal corrected through the image signal corrector 20, and the An output CSC 30 for converting a luminance signal into an R, G, and B signal and outputting the output signal; a display unit 40 for displaying the R, G, and B image signals converted through the output CSC 30; A control unit which checks the amount of the color difference signal converted from the input CSC 10 to determine the type of the video signal, and optionally outputs a control signal such that color temperature correction is performed through the video signal correction unit 20. It consists of 50.

In addition, the image signal corrector 20 detects a level of the luminance signal according to the intensity of light based on the luminance signal converted from the input CSC 10, and the input CSC 10. A color signal extractor 24 which extracts a color difference signal of a gray region among the color difference signals converted from the gray region, and a gray region detected by the color signal detector 24 based on the luminance level detected by the luminance level detector 22. And a color temperature correction unit 26 for correcting the color temperature with respect to the color difference signal.

Referring to the operation of the display device according to the present invention configured as described above are as follows.

First, the input CSC 10 converts an image signal input from the outside into a luminance signal and a color difference signal, respectively, and outputs the converted signal.

That is, the color space converter (CSC) structure provided in the color modulator and the demodulator according to the present invention converts the input signals into RGB and luminance / color difference signals, respectively, and outputs the converted signals.

In other words, the input CSC 10 converts analog RGB data and the like input from the outside into YUV signals separated into luminance and chrominance signals based on Equation 1, and outputs the converted YUV signals. Is converted to an RGB signal and output.

The YUV is developed for analog video of the PAL method, but is also commercially available for the CCIR601, the European video standard in digital video. YUV is a color system in which the eye is most sensitive to light intensity. In this case, Y represents luminance and luminance, and U and V represent chromaticity. It has the following relationship with RGB color coordinates.

Y = (0.257 * R) + (0.504 * G) + (0.098 * B) + 16

Cr = V = (0.439 * R)-(0.368 * G)-(0.071 * B) + 128

Cb = U =-(0.148 * R)-(0.291 * G) + (0.439 * B) + 128

The color space conversion is already known in the art to which the present invention pertains, so a detailed description thereof will be omitted.

The controller 50 determines the type of the input video signal based on the amount of the color difference signal UV converted from the input CSC 10.

That is, the controller 50 determines that the video signal is a black and white image when the amount of the converted color difference signal UV is less than a reference level and lasts for a predetermined time or otherwise, the controller 50 determines the video signal as a color image. .

In other words, when the value of the maximum color difference signal (UV signal) is 255, the reference level may set a reference value of 5% (12.75) of the value, and the controller 50 may input the reference value. When the amount of the color difference signal UV is input for less than a predetermined duration of less than 5% (12.75), it is determined as a black and white image. In addition, the reference value is only an example for the practice of the present invention, the present invention is not limited to the above value may be variously implemented by those skilled in the art.

In addition, the controller 50 outputs a control signal to selectively perform color temperature correction on the input video signal according to the determination result.

That is, when the image signal is determined as a black and white image, the controller 50 disables the image signal correction unit 20 so that the image signal is output after signal processing so as to be displayed without performing color temperature correction on the image signal. When the image signal is determined as a color image, the image signal correction unit 20 is enabled to perform color temperature correction on the image signal.

The image signal correction unit 20 selectively corrects the color temperature of the input image signal according to the control signal of the controller 50.

That is, when a color temperature correction command for the video signal is input according to the control signal of the controller 50, the luminance level detector 22 detects the luminance signal Y value converted from the input CSC 10. Check the Y signal level according to the brightness.

The color signal detector 24 detects color difference signal (UV) data converted from the input CSC 10. In this case, the color signal detector 24 extracts a color difference signal of a gray region (white) having no color close to the UV domain origin.

That is, as shown in FIG. 3, the RGB color space is composed of red, green, and blue, which are three primary colors that can be added to each other. The spectroscopic elements of these colors are additionally combined to produce the resulting color. Therefore, all colors can be expressed in three colors, red, green, and blue, and their complementary relations are red-cyan, yellow-blue, and green-magenta. For example, when expressing colors in 8-bit digital system, R / G / B is divided into 256 levels (8 powers of 2) from 0 to 255, respectively, so that about 16.7 million colors can be expressed. At this time, if R / G / B is all 0, it becomes Black, and if it is all 255, it becomes White. If only one of the three primary colors is signaled and the R / G / B value is (255,0,0), then it becomes pure red.In the same way, (0,255,0) is Green, and (0,0,255) is Blue. Becomes

Therefore, the color signal detector 24 extracts a color difference signal of a gray area (white) having no color close to the UV domain origin.

The color temperature corrector 26 corrects the color temperature of the color difference signal of the gray region detected by the color signal detector 24 according to the brightness level detected by the brightness level detector 22.

In general, the color temperature of the light emitted from the light source as the temperature is referred to as the color temperature. It is expressed not by the temperature of the light source itself, but by the temperature of a virtual object called a black body. When the color of light from a light source and the color of light from a black body of a certain temperature are the same, the temperature of the black body is called the color temperature of the light source. It is expressed in absolute temperature ° K.

The color temperature correcting unit 26 corrects the color temperature by turning the entire color in the direction where the color temperature is high, and then selects an area so that it applies only to the extracted gray area.

The output CSC 30 converts the color difference signal and the luminance signal corrected by the image signal corrector 20 into R, G, and B signals, and outputs the converted R, G, and B signals. The display unit 40 is displayed.

As described above, the display apparatus according to the present invention may disable the image signal correcting unit 20 in the case of a black and white image according to the type of the input image signal, and display an original image of the black and white image. When the type of the video signal is a color image, the image signal corrector 20 is enabled to display the white of the color image more clearly and clearly.

In the display method of the display device according to the present invention configured as described above, as shown in FIG. 4, when an image signal is first input from the outside, a color space conversion algorithm (CSC) is applied to the input image signal through the input CSC 10. Is converted into luminance Y and color difference signal UV (S10 to S20).

The controller 50 checks the amount and duration of the converted color difference signal UV (S30).

Subsequently, it is determined whether the amount of the color difference signal UV continues to be input for a predetermined period of time below a predetermined range (S40). That is, when the value of the maximum color difference signal UV signal is 255, it is determined whether the amount of color difference signal UV is input for less than a predetermined duration of less than 5% (12.75).

In operation S50, when the amount of the color difference signal UV is input for less than a predetermined range for a predetermined time, the image signal is determined as a black and white image (S50).

Subsequently, when the image signal is determined as a black and white image, the image signal corrector 20, which is a block for implementing the fresh white function, is disabled (S60).

In addition, if the amount of the color difference signal UV is not input for a predetermined period of time below a predetermined range, the image signal is determined as a color image (S70).

When the image signal is determined as a color image, the image signal correction unit 20, which is a block for implementing the fresh white function, is enabled (S80).

As such, the display device and the display method according to the present invention do not unconditionally implement the fresh white function used to increase the white color of the color image, but are supplemented with the problem of the conventional fresh white function. In the case of a black and white image according to the type of the video signal, the fresh white function is turned off to display an original image of the black and white image. When the type of the video signal is a color image, the fresh white image is displayed. The white function is continuously performed so that the white of a color image can be displayed more clearly and clearly.

1 is a flow chart for explaining step by step the color temperature correction method according to the prior art.

Figure 2 is a block diagram showing the configuration of a display device according to the present invention.

3 is an exemplary view showing a gray area in a UV (color difference signal) domain according to the present invention.

4 is a flowchart for explaining a display method of the display device according to the present invention step by step.

Claims (8)

An input CSC for converting an image signal input from the outside into a luminance Y signal and a color difference UV signal and outputting the converted signal; An image signal correction unit correcting a color temperature of the color difference signal based on the level of the luminance signal converted from the input CSC; An output CSC for converting the color difference signal corrected by the image signal correcting unit and the luminance signal into R, G, and B signals and outputting the converted R, G, and B signals; And, And a controller for determining the type of the video signal by checking the amount of the color difference signal converted from the input CSC, and selectively outputting a control signal to perform color temperature correction through the video signal correction unit. Display device. The method of claim 1, The image signal correction unit A luminance level detector for detecting a level of the luminance signal according to the intensity of light based on the luminance signal converted from the input CSC; A color signal extraction unit configured to extract a color difference signal of a gray region among the color difference signals converted from the input CSC; And a color temperature corrector configured to correct a color temperature of a color difference signal of a gray region detected by the color signal detector based on the brightness level detected by the brightness level detector. The method of claim 1, And the controller checks the amount of the color difference signal and the duration of the color difference signal to determine whether the type of the input image signal is a color image or a black and white image. The method of claim 3, wherein And when the type of the input image signal is a black and white image, the controller disables the image correction to suppress the color correction. In the display method of the display device having a fresh white function, Converting an image signal input from the outside into a luminance and color difference signal; Determining the type of the video signal based on the amount and duration of the converted color difference signal; And, And selectively controlling on / off of the fresh white function according to the type of the determined video signal. The method of claim 5, The step of determining the type of the video signal Determining whether the amount of the converted color difference signal lasts for a predetermined time below a reference value; Determining the video signal as a black and white image when the amount of the color difference signal is lower than a reference value for a predetermined time; And determining the video signal as a color image when the amount of the chrominance signal lasts for a predetermined time or more. The method of claim 6, Selectively controlling on / off of the fresh white function according to the type of the determined video signal Enabling the fresh white function to continuously perform the fresh white function if the video signal is a color image; And disabling the processing block for performing the fresh white function when the video signal is a black and white image, thereby suppressing the fresh white function. The method of claim 7, wherein Continuously performing the fresh white function Detecting a level of a luminance signal according to intensity of light based on the converted luminance signal; Extracting a color difference signal of a gray region close to an origin of a UV domain among the color difference signals; And correcting a color temperature of the color difference signal of the gray region according to the brightness level.

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