KR100720716B1 - Display apparatus for adjusting of image feature and method thereof - Google Patents

Abstract

Disclosed are a display apparatus and a method thereof, which are capable of adjusting image characteristics. The display device according to the present invention includes a signal input unit for receiving an image signal composed of a plurality of color signals, a calculation unit for calculating an image characteristic adjustment range by using a maximum value and a minimum value of color level values of each of the plurality of color signals, and image characteristics. The interface unit for receiving the adjustment value, the adjusting unit for adjusting the color level of each of the plurality of color signals according to the input image characteristic adjustment value, and if the image characteristic adjustment value exceeds the image characteristic adjustment range, the maximum value of the image characteristic adjustment range and And a control unit that provides one of the minimum values to the adjustment unit as the image characteristic adjustment value. Accordingly, in adjusting the image characteristic, it is possible to prevent the color change caused by the deviation of the RGB color signal level value constituting the video signal.

Image Characteristics, Contrast, Luminance

Description

Display apparatus for adjusting image characteristics and method thereof

1 is a block diagram illustrating a display device according to an embodiment of the present invention;

2 is a flowchart illustrating a contrast adjustment method according to an embodiment of the present invention;

3 is a flowchart illustrating a method of adjusting luminance according to an embodiment of the present invention.

Description of the main parts of the drawing

100: display device 110: signal input unit

120: calculating unit 130: interface unit

140: control unit 150: adjustment unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display apparatus capable of adjusting image characteristics and a display method thereof, and more particularly, by adjusting image characteristics such as contrast and luminance, thereby providing maximum and minimum values of RGB color signal level values constituting a video signal. The present invention relates to a display device and a method for preventing color change caused by deviation.

The display device is a device for processing an input video signal and displaying the same on a screen. A general display device may be a television or a computer monitor.

The image signal input to the display device is processed in a three-dimensional color space represented by R (Red), G (Green), and B (Blue), and is displayed using a light source of a color having a RGB color signal level value. . The RGB color signal level values may be used to adjust image characteristics, that is, contrast and brightness.

On the other hand, contrast refers to the difference in brightness from the darkest region to the brightest region of the image, and brightness refers to the overall brightness of the image. Such contrast and luminance can be adjusted using RGB color signal level values. Here, the contrast and luminance adjustment are calculated using the calculation process of Equations 1 and 2 below.

The contrast adjustment value (Cont _SET ) of the RGB color signal constituting the video signal is calculated by multiplying the level value (Input) of each of the RGB color signals constituting the video signal by the contrast adjustment value (CONT _USER ) set by the user. can do.

The luminance adjustment value (BRT _SET ) of the RGB color signal constituting the image signal may be calculated by adding the level value of each RGB color signal constituting the image signal and the luminance adjustment value (BRT _USER ) set by the user. .

In the display apparatus for adjusting contrast and luminance through the above calculation process, a contrast and luminance adjustment value of the RGB color signal may deviate from the level range of the RGB color signal. For example, in contrast adjustment of an 8-bit image signal, when the RGB color signal level value is (100, 50, 50) and the contrast adjustment value set by the user is 5, the RGB color signal is calculated through the calculation process of Equation 1. The contrast adjustment value of becomes (255, 250, 250). In this case, the color change occurs beyond the level range (0 to 255) that the RGB color signal of the 8-bit video signal can have.

As another example, in the luminance adjustment of an 8-bit image signal, if the RGB color signal level value is (100, 50, 50) and the luminance adjustment value set by the user is 200, the calculation process of Equation 2 is performed. By this, the luminance adjustment value of the RGB color signal becomes (255, 250, 250). In this case, a color change occurs beyond the level range (0 to 255) that an RGB color signal of an 8-bit video signal can have.

As described above, since the level value of the RGB color signal is saturated and the color change occurs, the user may not be able to watch visually stable picture quality.

SUMMARY OF THE INVENTION The present invention has been made to solve the above technical problem, and an object of the present invention is to provide a display apparatus and a method which can prevent the level value of an RGB color signal from being saturated when adjusting image characteristics.

The display apparatus according to the present invention for solving the above technical problem, after detecting the maximum value and the minimum value of the signal input unit for receiving an image signal consisting of a plurality of color signals, the color level value of each of the plurality of color signals A calculation unit for calculating an image characteristic adjustment range using the maximum value and the minimum value, an interface unit for receiving an image characteristic adjustment value for adjusting the image characteristic of the image signal, and an image characteristic adjustment value input through the interface unit. By adjusting the color level of each of the plurality of color signals accordingly, if the adjustment unit for adjusting the image characteristics and the image characteristic adjustment value exceeds the image characteristic adjustment range, one of the maximum value and the minimum value of the image characteristic adjustment range is determined. And a control unit that provides the image characteristic adjustment value to the adjustment unit.

Preferably, the calculation unit determines the image characteristic adjustment range using the formula Cont _max = Level _max / RGB _max , Cont _min = 0, and the adjustment unit adjusts the image characteristic to each color level of the plurality of color signals. By multiplying the value, the contrast of the video signal can be adjusted. In the formula, Cont _max is the maximum range value of the image characteristic adjustment range, Cont _min is the minimum range value of the image characteristic adjustment range, Level _max is the maximum color level value that each color signal can have, and RGB _max is It means the maximum value among the color level values of the plurality of color signals.

More preferably, the calculating unit determines the image characteristic adjustment range by using a formula BRIT _max = Level _max -RGB _max , BRIT _min = Level _min -RGB _min , and the adjusting unit determines the color level of each of the plurality of color signals. The luminance of the video signal can be adjusted by adding the image characteristic adjustment value to the. In the above formula, BRIT _max is the maximum range value of the image characteristic adjustment range, BRIT _min is the minimum range value of the image characteristic adjustment range, Level _max is the maximum color level value that the color signal can have, and Level _min is the color signal. Is the minimum color level value, RGB _max is the maximum value among the color level values of the plurality of color signals, and RGB _min means the minimum value among the color level values of the plurality of color signals.

According to another aspect of the present invention, there is provided a contrast adjustment method, comprising: receiving an image signal including a plurality of color signals, detecting a color level of each of the color signals, detecting a maximum value, and determining the maximum value Determining a contrast adjustment range, receiving a contrast adjustment value for the video signal, comparing the contrast adjustment value and the contrast adjustment range, and determining that the contrast adjustment value is out of the contrast adjustment range. And adjusting the contrast using one of the maximum and minimum values of the contrast adjustment range.

According to another aspect of the present invention, there is provided a method of adjusting a brightness, the method comprising: receiving an image signal composed of a plurality of color signals, checking a color level of each of the color signals, and detecting a maximum value and a minimum value; Determining a brightness adjustment range by using a value and a minimum value, receiving a brightness adjustment value for the image signal, comparing the brightness adjustment value and the brightness adjustment range, and the brightness adjustment value being the brightness adjustment range. If it is determined that the deviation from the, and adjusting the brightness using one of the maximum value and the minimum value of the brightness adjustment range.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the present invention. However, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is a block diagram illustrating a display apparatus 100 according to an exemplary embodiment of the present invention. Referring to FIG. 1, the display apparatus 100 includes a signal input unit 110, a calculator 120, an interface 130, a controller 140, and an adjuster 150.

The signal input unit 110 receives an image signal composed of a plurality of color signals from an input terminal of the display apparatus 100. The plurality of color signals means RGB color signals represented by R (Red), G (Green), and B (Blue).

The calculator 120 detects a maximum value and a minimum value among the color level values of each of the RGB color signals constituting the input image signal, and calculates a contrast adjustment range, which is one of image characteristics, using the detected maximum value and minimum value. . This calculation process will be described in detail using the following equation.

The contrast adjustment range refers to the maximum value through which the contrast can be adjusted from the color level value of each of the RGB color signals constituting the video signal. The maximum value (Cont _max ) of the contrast adjustment range in the equation can be calculated by dividing the maximum color level value (Level _max ) that each color signal can have by the maximum value (RGB _max ) of each color level value of the RGB signal. The minimum value Cont _min of the contrast adjustment range may be calculated by dividing the minimum color level value Level _min that each color signal may have by the minimum value RGB _min among the color level values of the RGB color signals. For example, in the 8-bit video signal, the maximum color level value of each color signal is 255, and the minimum color level value is 0. When the color level of each of the RGB color signals constituting the video signal is (100, 50, 50), the maximum value of each of the RGB color signals is 100, and the minimum value is 50. In this case, the maximum value of the contrast adjustment range (Cont _max ) becomes 2.55 through the calculation process of Cont _max = Level _max / RGB _max (2.55 = 255/100). On the other hand, the minimum value becomes 0 through the operation of Cont _MIN = 0. In this case, the contrast adjustment range is 0 to 2.55. On the other hand, the minimum value of the contrast adjustment range may be calculated using a formula such as Cont _min = Level _min / RGB _min .

In addition, the calculator 120 detects a maximum value and a minimum value among the color level values of each of the RGB color signals constituting the input image signal, and uses the detected maximum value and minimum value to determine a luminance adjustment range which is one of image characteristics. Calculate. This calculation process will be described in detail using the following equation.

The luminance adjustment range refers to the maximum value through which the luminance can be adjusted from the color level value of each of the RGB color signals constituting the video signal. The maximum value (Cont _max ) of the luminance adjustment range in the equation may be calculated by subtracting the maximum value RGB _max of each color level of the RGB signal from the maximum color level value (Level _max ) that each color signal may have. The minimum value Cont _min of the luminance adjustment range may be calculated by subtracting the minimum value RGB _min of each color level value of each of the RGB color signals from the minimum color level value Level _{min that} each color signal may have. . For example, in the 8-bit video signal, the maximum color level value of each color signal is 255, and the minimum color level value is 0. When the color level of each of the RGB color signals constituting the video signal is (100, 50, 50), the maximum value of each of the RGB color signals is 100, and the minimum value is 50. In this case, the maximum value of the brightness adjustment range (BRIT _max) is 155 through the operation process of _{BRIT max = Level max- RGB max (} 155 = 255-100), the minimum value _min = BRIT Level _min -RGB _min (- 50 = 50-50). In this case, the luminance adjustment range is -50 to 155.

The interface unit 130 connects the user with the display apparatus 100 to perform data communication with each other, and adjusts image characteristics for adjusting contrast and brightness of RGB color signals constituting an image signal from the user. Receive the input.

The adjusting unit 150 adjusts the contrast of the RGB color signal according to the contrast adjustment value received from the user through the interface unit 130, and will be described in detail using the following equation.

Contrast of the RGB color signal by the value (Cont _SET ) calculated by multiplying the RGB color signal level value (Input) constituting the image signal in the equation with the contrast adjustment value (Cont _USER ) input from the user through the interface unit 130. Adjust it. For example, when the color level value of each of the RGB color signals constituting the video signal is (100, 50, 50), and the contrast adjustment value input from the user through the interface unit 130 is 2, the contrast adjusted RGB The level value of each color signal can be (200, 100, 100) through the operation of Cont (R, G, B) _SET = Input (R, G, B) x Cont _USER . As such, the contrast adjustment of the RGB color signal level values constituting the video signal may vary according to the contrast adjustment value received from the user through the interface unit 130.

In addition, the adjustment unit 150 adjusts and adjusts the luminance of the RGB color signal according to the contrast adjustment value input from the user through the interface unit 130, and will be described in detail using the following equation.

Calculated by adding the formula RGB color signal level value (Input) and a brightness adjustment value (BRIT _USER) received from the user via the interface unit 130 constituting the image signal from the value (BRIT _SET) the brightness of the RGB color signal Adjust it. For example, when the color level value of each of the RGB color signals constituting the video signal is (100, 50, 50), and the luminance adjustment value input from the user through the interface unit 130 is 100, the luminance adjusted RGB The level value of each color signal may be (200, 150, 150) through the operation of BRIT (R, G, B) _SET = Input (R, G, B) + BRIT _USER . As such, the luminance adjustment of the RGB color signal level value constituting the image signal may vary according to the luminance adjustment value input from the user through the interface unit 130.

The controller 140 adjusts the RGB color signal to one of the maximum and minimum values of the contrast adjustment range when the contrast adjustment value input from the user through the interface unit 130 is out of the contrast adjustment range calculated by the calculator 120. The adjusting unit 150 is controlled to be. A detailed description will be made using the following formula.

In the case of increasing and adjusting the contrast of the RGB color signal, equation (7) is used. If the contrast adjustment value (Cont _USER ) input from the user through the interface unit 130 exceeds the maximum value (Cont _MAX ) of the contrast adjustment range, the maximum value (Cont _MAX ) of the contrast adjustment range may be used. The adjusting unit 150 is controlled to adjust the contrast.

On the other hand, in the case of reducing and adjusting the contrast of the RGB color signal, Equation 7 (b) is used. If the contrast adjustment value (Cont _USER ) input from the user is less than the minimum value (Cont _MIN ) of the contrast adjustment range, the adjustment unit 150 is controlled to adjust the contrast of the RGB color signal to the minimum value (Cont _MIN ) of the contrast adjustment range. do.

In addition, when the luminance adjustment value received from the user through the interface unit 130 is out of the luminance adjustment range calculated by the calculator 120, the controller 140 outputs an RGB color signal as one of the maximum and minimum values of the luminance adjustment range. Control the adjusting unit 150 to adjust. A detailed description will be made using the following formula.

In the case of increasing and adjusting the luminance of the RGB color signal, equation (8) is used. If, when the interface unit 130, the luminance adjustment value (BRIT _USER) inputted by the user through, exceeds the maximum value (BRIT _MAX) of the brightness adjustment range, RGB color signal to a maximum value (BRIT _MAX) of the brightness adjustment range The adjusting unit 150 is controlled to adjust the luminance of the light.

On the other hand, to decrease and adjust the luminance of the RGB color signal, Equation (8) is used. If the brightness adjustment value BRIT _USER received from the user is less than the minimum value BRIT _{MIN of the} brightness adjustment range, the control unit 150 is controlled to adjust the brightness of the RGB color signal to the minimum value Cont _MIN of the brightness adjustment range. do.

2 is a flowchart illustrating a contrast adjustment method according to an embodiment of the present invention. First, it is checked whether there is an image signal input to the display apparatus 100 (S210). As a result of the check, if there is an input video signal, the color level of each RGB color signal constituting the video signal is checked to detect the maximum value and the minimum value (S220), and then the contrast adjustment range is adjusted using the detected maximum value and minimum value. It calculates (S230). The contrast adjustment range refers to the maximum value through which the contrast can be adjusted from the color level value of each of the RGB color signals constituting the video signal.

Thereafter, a contrast adjustment value set by a user is input to adjust the contrast of the RGB color signal (S240).

The contrast of the RGB color signal is adjusted by multiplying the maximum and minimum values of the contrast adjustment range calculated in step S230 with the contrast adjustment value input from the user in step S240 (S250). Specifically, in the case of increasing and adjusting the contrast of the RGB color signal, the contrast adjustment value received from the user is compared with the maximum value of the contrast adjustment range, and the contrast of the RGB color signal is adjusted to a smaller value. On the other hand, when reducing and adjusting the contrast of the RGB color signal, the contrast adjustment value received from the user is compared with the minimum value of the contrast adjustment range, and the contrast of the RGB color signal is adjusted to a larger value. Thereafter, the adjusted RGB color signal is displayed on the screen (S260).

3 is a flowchart illustrating a method of adjusting luminance according to an embodiment of the present invention. First, it is checked whether there is an image signal input to the display apparatus 100 (S310). As a result of the check, if there is an input video signal, the color level of each RGB color signal constituting the video signal is checked to detect the maximum value and the minimum value (S320), and then the luminance adjustment range is adjusted using the detected maximum value and minimum value. It calculates (S330). The luminance adjustment range refers to the maximum value through which the luminance can be adjusted from the color level value of each of the RGB color signals constituting the video signal.

Thereafter, a contrast adjustment value set by a user is received to adjust the luminance of the RGB color signal (S340).

The luminance of the RGB color signal is adjusted by adding the maximum and minimum values of the luminance adjustment range calculated in step S330 and the luminance adjustment value received from the user in step S340 (S350). Specifically, when increasing and adjusting the luminance of the RGB color signal, the luminance adjustment value received from the user is compared with the maximum value of the luminance adjustment range, and the luminance of the RGB color signal is adjusted to a smaller value. On the other hand, when reducing and adjusting the luminance of the RGB color signal, the luminance adjustment value received from the user is compared with the minimum value of the luminance adjustment range, and the luminance of the RGB color signal is adjusted to a larger value. Thereafter, the adjusted RGB color signal is displayed on the screen (S360).

In the detailed description of the present invention, an 8-bit video signal has been described as an example. However, the present invention is not limited thereto and may be applied to other video signals such as 10-bit or 16-bit.

As described above, according to the present invention, when the RGB color signal is adjusted by calculating the maximum value and the minimum value of the image characteristic adjustment range, the image characteristic adjustment value is controlled so as not to deviate from the image characteristic adjustment range, thereby the data value of the RGB color signal. It is possible to prevent the color change caused by saturation can increase the user's visual convenience.

While the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims (5)

A signal input unit configured to receive an image signal including a plurality of color signals; A calculator for detecting a maximum value and a minimum value among color level values of each of the plurality of color signals, and calculating an image characteristic adjustment range using the maximum and minimum values; An interface unit for receiving an image characteristic adjustment value for adjusting image characteristics of the video signal; An adjusting unit that adjusts the image characteristics by adjusting color levels of each of the plurality of color signals in accordance with an image characteristic adjustment value input through the interface unit; And, And a control unit which provides one of the maximum and minimum values of the image characteristic adjustment range to the adjustment unit as the image characteristic adjustment value, when the image characteristic adjustment value exceeds the image characteristic adjustment range. . The method of claim 1, The calculator determines the image characteristic adjustment range by using the following equation, And the adjusting unit adjusts the contrast of the video signal by multiplying the image characteristic adjustment value by each color level of the plurality of color signals.

In the formula, Cont _max is the maximum range value of the image characteristic adjustment range, Cont _min is the minimum range value of the image characteristic adjustment range, Level _max is the maximum color level value that each color signal can have, and RGB _max is A maximum value of color level values of the plurality of color signals. The method of claim 1, The calculator determines the image characteristic adjustment range by using the following equation, And the adjusting unit adjusts the luminance of the video signal by adding the image characteristic adjustment value to each color level of the plurality of color signals.

In the above formula, BRIT _max is the maximum range value of the image characteristic adjustment range, BRIT _min is the minimum range value of the image characteristic adjustment range, Level _max is the maximum color level value that the color signal can have, and Level _min is the color signal. Has a minimum color level value, RGB _max is a maximum value of the color level values of the plurality of color signals, and RGB _min is a minimum value of the color level values of the plurality of color signals. Receiving an image signal consisting of a plurality of color signals; Checking a color level of each of the color signals to detect a maximum value and a minimum value; Determining a contrast adjustment range using the maximum and minimum values; Receiving a contrast adjustment value for the video signal; Comparing the contrast adjustment value and the contrast adjustment range; And And if the contrast adjustment value is determined to be out of the contrast adjustment range, adjusting the contrast using one of the maximum value and the minimum value of the contrast adjustment range. Receiving an image signal consisting of a plurality of color signals; Checking a color level of each of the color signals to detect a maximum value and a minimum value; Determining a brightness adjustment range using the maximum value and the minimum value; Receiving a brightness adjustment value for the video signal; Comparing the brightness adjustment value and the brightness adjustment range; And, And adjusting the brightness using one of a maximum value and a minimum value of the brightness adjustment range when it is determined that the brightness adjustment value is out of the brightness adjustment range.

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