KR100261491B1 - Method for peaking a video signal and a video signal peaking circuit for performing the same - Google Patents

Abstract

PURPOSE: A contour correction circuit and the contour correction method are to reduce artifacts due to an interlace characteristic by adjusting a contour correction rate according to a motion amount of a luminance signal. CONSTITUTION: A second-order differential circuit unit(200) extracts the first luminance signal from a luminance signal inputted through an input terminal and performs a second-order differential with respect to the luminance signal to generate a contour correction signal. A vertical motion detection unit(300) detects a vertical motion of the first luminance signal to generate a control signal. A contour correction unit(400) amplifies the contour correction signal in response to the control signal. An output unit(500) includes a delay circuit(510) and an adder(520). The delay circuit delays the luminance signal by a predetermined time. The adder adds a delayed luminance signal to the amplified contour correction signal to output a contour corrected luminance signal as a final luminance signal.

Description

Contour correction method and contour correction circuit for performing the same

The present invention relates to a contour correction method and a contour correction circuit for performing the same, and more particularly, to a contour correction method for correcting the contour of an image displayed on a television screen by applying a contour correction signal to a luminance signal and performing the same. It relates to a contour correction circuit for.

1 is a view showing a conventional contour correction circuit.

As shown in FIG. 1, the conventional contour correction circuit includes a first delayer 121, a first adder 131, and a second derivative circuit 100. The second differential circuit 100 performs second derivative of the luminance signal input from the luminance signal input terminal 101 to generate the contour correction signal 142. ), A second adder 132, a subtractor 141, and a half amplifier 151.

The first and second delayers 121 and 122 delay the luminance signal input through the input terminal 101 for a predetermined time T, respectively. The second delayer 122 outputs the luminance signal delayed by the T time to the third delayer 123 and the subtractor 141, respectively. The third delayer 123 further delays the luminance signal delayed by the second delayer 122 for T time by T time and outputs the luminance signal delayed by 2T time to the second adder 132. The second adder 132 adds the luminance signal delayed by 2T time by the third delayer 123 to the current luminance signal input through the input terminal 101 and outputs the luminance signal to the 1/2 amplifier 151. . The 1/2 amplifier 151 amplifies 1/2 the added luminance signal input from the second adder 132 and outputs the amplified signal to the subtractor 141. The subtractor 141 subtracts the 1/2 amplified signal from the 1/2 amplifier 151 from the T time delayed luminance signal from the second delayer 122 to generate a contour correction signal 142. The generated contour correction signal 142 is provided to the first adder 131. The first adder 131 generates the contour corrected luminance signal by adding the generated contour correction signal 142 from the subtractor 141 to the luminance time delayed from the first delayer 121. And outputs to a matrix circuit (not shown) through the output terminal 103.

Therefore, in the outline correction circuit, the high frequency portion of the luminance signal is simply emphasized, and there is a problem of over-correction or low-correction at the portion of the high or low level of the luminance signal.

Accordingly, the present invention has been made in view of the foregoing, and a first object of the present invention is to provide a contour correction method capable of detecting an amount of motion during contour correction of a luminance signal and adjusting the contour compensation ratio according to the detected amount of motion. will be.

It is a second object of the present invention to provide a contour correction circuit which is particularly suitable for performing the above described contour correction method.

1 is a block diagram showing a conventional contour correction circuit.

2 is a block diagram illustrating a contour correction circuit according to an exemplary embodiment of the present invention.

FIG. 3 is a flowchart for explaining an operation principle of the contour correction circuit shown in FIG. 2.

* Explanation of symbols for main parts of the drawings

121, 122, 123, 210, 220, 510: delay

131, 132, 230, 520: Adder 151, 240, 410: Amplifier

141, 250: subtractor 310: vertical motion detector

In order to realize the first object of the present invention, the present invention comprises the steps of: separating the first luminance signal from the luminance signal input through the input terminal, and generating a contour correction signal by second derivative of the luminance signal; Detecting a vertical motion of the first luminance signal detected during the contour correction signal generation step and outputting a control signal; Amplifying a correction signal according to the control signal; And generating a contour correction signal by adding the delayed signal and the amplified contour correction signal to the luminance signal inputted from the input terminal.

In order to realize the second object of the present invention described above, the present invention separates a first luminance signal from a luminance signal input through an input terminal, and quadratic differentiates the luminance signal to generate a contour correction signal. Differential circuit portion; A vertical motion detector for detecting a vertical motion of the first luminance signal separated from the second derivative circuit and outputting a control signal; An amplifier for amplifying the contour correction signal according to the control signal; And an output unit for adding and outputting a delayed signal of the luminance signal input from the input terminal and the amplified contour correction signal.

According to the present invention, a first luminance signal is separated from a luminance signal input through an input terminal, a second derivative of the input luminance signal is generated to generate a contour correction signal, and the vertical motion of the separated first luminance signal is detected. After adjusting the amplification factor of the contour correction signal according to the vertical motion amount of the detected first luminance signal, the luminance signal input from the input terminal is added to output the contour corrected luminance signal.

Therefore, by adjusting the contour compensation ratio according to the detected amount of motion of the first luminance signal, contours can be compensated while reducing artifacts caused by interlace characteristics.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

2 is a diagram illustrating a contour correction circuit according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the contour correction circuit 600 includes a second differential circuit unit 200, a vertical motion detector 300, a contour correction unit 400, and an output unit 500.

The second differential circuit unit 200 is a conventional second derivative circuit 100, the first delay unit 210, the second delay unit 220, the first adder 230, 1/2 amplifier 240, And a subtractor 250.

The luminance signal input from the input terminal is input to the first retarder 210, the first adder 230, and the output unit 500. The first retarder 210 is configured to delay the first luminance signal Y1 generated after delaying the luminance signal inputted from an input terminal by the T time, by the second retarder 220, the subtractor 250, and the vertical direction. Output to the motion detection unit 300, respectively.

The second delayer 220 further delays the luminance signal Y1 delayed for the T time by the first delayer 210 by T time, thereby adding the 2T time-delayed luminance signal 222 to the first adder 330. Will output

The first adder 230 adds the luminance signal 222 delayed for 2T time output from the second delayer 220 to the luminance signal input from the input terminal and outputs the luminance signal 222 to the 1/2 amplifier 240. do.

The half amplifier 240 amplifies the added luminance signal 232 input from the first adder 230 by a half and outputs the amplified signal to the subtractor 250.

The subtractor 250 subtracts the luminance signal 242 amplified from the 1/2 amplifier 240 by the first luminance signal Y1 output from the first delayer 210 to reduce the contour correction signal. 252 is generated, and the generated correction signal 252 is provided to the contour correction unit 400.

The vertical motion detector 300 includes a vertical motion detector 310. The vertical motion detector 310 receives the first luminance signal Y1 input from the first retarder 210, detects the vertical movement of the first luminance signal Y1, and then applies the detected value to the detected value. The control signal generated according to the output to the contour correction unit 400.

The contour correction unit 400 is configured of an α amplifier 410. The α amplifier 410 amplifies the correction signal output from the subtractor 250 by α according to the detection value detected by the vertical motion detector 310, and then outputs the α-amplified contour correction signal 412. It is provided to the unit 500.

The output unit 500 includes a third delayer 510 and a second adder 520.

The third delayer 510 delays the luminance signal input from the input terminal 201 for T time, and then outputs the luminance signal 512 delayed by the T time to the second adder 520.

The second adder 520 adds the contour correction signal 412 amplified by α from the amplifier 410 to the luminance signal 512 delayed by the T delay from the third delayer 610, and then performs luminance correction. Generates a signal and outputs it through the output terminal (Y ').

The operation of the contour correction circuit 600 configured as described above will be described in more detail with reference to the accompanying drawings.

FIG. 3 is a flowchart for explaining an operation principle of the contour correction circuit shown in FIG. 2.

The luminance signal Y input through the input terminal 201 may include a first retarder 210, a first adder 230, and a third retarder of the output unit 500. 510 is provided. The first retarder 210 receives the luminance signal input from the input terminal, and the second delayer 220, the subtractor 250, and the vertical motion of the first luminance signal Y1 delayed by a T time. Output to the vertical motion detector 310 of the detection unit 300 (step S1).

The second delayer 220 receives the first luminance signal Y1 delayed for the T time by the first delayer 310 and further delays the luminance signal 222 delayed by the 2T time after the delay by T time. It outputs to one adder 230. The first adder 230 adds the added luminance signal 232 by adding the luminance signal 222 delayed by the second delayer 220 by 2T to the luminance signal input from the input terminal 201. The half amplified signal 242 is outputted to the half amplifier 240, and the half amplifier 240 amplifies the luminance signal 232 added from the first adder 230 by a half. ) Is provided to the subtractor 250. The subtractor 250 subtracts the half amplified luminance signal 242 from the half amplifier 240 from the luminance signal Y1 delayed by the T delay time from the first delayer 210, thereby correcting the correction signal ( 252 is generated and provided to the α amplifier 410 of the contour correction unit 400 (step S2).

The vertical motion detector 310 receives the first luminance signal Y1 input from the first retarder 210, detects a vertical momentum of the first luminance signal, and generates a value according to the detected value of the vertical momentum. The control signal is output to the α amplifier 410 of the outline correction unit 400 (step S3).

The α amplifier 410 amplifies the correction signal input from the subtractor 250 by α according to the vertical movement amount detected by the vertical motion detector 310, and outputs the correction signal 412 amplified by α by the output unit. To the second adder 520 of step 500 (step S4).

The third delayer 510 delays the luminance signal input from the input terminal 201 for T time and outputs the luminance signal 512 delayed by the T time to the second adder 520, and then the second adder. Adds the correction signal 412 amplified by α from the amplifier 410 to generate the contour corrected luminance signal (step S5), and outputs the contour corrected luminance signal as the final luminance signal through the output terminal Y '. Output (step S6).

Therefore, according to the above configuration, the contour compensation is achieved while reducing the artifacts caused by the interlace characteristic by detecting the momentum of the luminance signal and adjusting the amplification factor α of the vertical contour compensating circuit according to the detected momentum.

Next, the operation principle of the contour correction circuit 600 having the above configuration will be described in connection with the amount of motion detected from the vertical motion detector 310, as shown in Table 1 below.

Contour compensation according to the detected momentum momentum Contour compensation Nil Full compensation 大 × 中 中 Small 大

The present invention controls the degree of contour compensation according to the amount of motion of the first luminance signal detected by the vertical motion detector 310. If no motion is detected from the vertical motion detector 310, the contour is completely compensated for. When the exercise is detected, the amount of contour compensation is determined according to the degree of exercise. If the amount of exercise is large, the contour is not compensated. If the amount of exercise is medium, the contour is slightly compensated. If the amount of exercise is small, the contour is compensated a lot. When the motion is detected, the contour compensation amount of odd and even areas is controlled according to the degree of motion.

Therefore, according to the above configuration, the contour compensation can be compensated while reducing the artifacts caused by the interlace characteristic by adjusting the contour compensation ratio according to the motion amount of the first luminance signal detected by the vertical motion detector 310.

As described above, the present invention can realize the contour correction circuit having reduced artifacts by adjusting the contour compensation ratio according to the degree of motion during contour correction of the luminance signal.

Although this invention was demonstrated concretely by the said Example, this invention is not restrict | limited by this, A deformation | transformation and improvement are possible within the normal knowledge of a person skilled in the art.

Claims (8)

(a) separating the first luminance signal from the luminance signal input through the input terminal, and generating a contour correction signal by secondly differenting the input luminance signal; (b) detecting a vertical motion from the first luminance signal and outputting a control signal; (c) amplifying a correction signal by α according to the control signal; And and (d) adding the delayed signal and the amplified correction signal to the luminance signal inputted from the input terminal and outputting the final corrected luminance signal. The method of claim 1, wherein step (a) (a-1) outputting a first luminance signal by delaying the luminance signal input from the input terminal by T time; (a-2) delaying the first luminance signal delayed by T time by step (a-1) by T time; (a-3) adding a luminance signal inputted from the input terminal of step (a-1) and a first luminance signal delayed by 2T time output by step (a-2); (a-4) amplifying the signal added by step (a-3) by half; And and (a-5) subtracting the signal amplified by step (a-4) from the signal delayed by step (a-1) and outputting a contour correction signal. The method of claim 1, wherein step (d) (d-1) delaying and outputting the luminance signal inputted from the input terminal by T time; And and (d-2) adding and outputting the luminance signal provided by step (d-1) to the contour correction signal output by step (c). A second differential circuit unit 200 for separating a first luminance signal from a luminance signal input through an input terminal, and secondly differenting the luminance signal to generate an outline correction signal; A vertical motion detector (300) for detecting a vertical motion of the first luminance signal separated from the second derivative circuit and outputting a control signal; An outline correction unit 400 for amplifying the outline correction signal according to the control signal; And And an output unit 500 for outputting the contour-corrected luminance signal as a final luminance signal by adding the delayed signal and the amplified contour correction signal to the luminance signal inputted from the input terminal. . The method of claim 4, wherein the second differential circuit unit 200 A first retarder 210 for delaying the luminance signal input through the input terminal by T time and outputting the first luminance signal; A second delayer (220) for delaying the first luminance signal delayed by T time output from the first delayer (210) by T time; A first adder (230) for adding the 2T delayed first luminance signal output from the second delayer (220) to the luminance signal input through the input terminal; A half amplifier (240) for amplifying half the signal output from the first adder (230); And And a subtractor 250 for outputting a contour correction signal by subtracting a 1/2 amplified signal from the 1/2 amplifier 240 from the first luminance signal delayed by the T delay time by the first delayer 210. Contour correction circuit, characterized in that. The contour of claim 4, wherein the vertical motion detector 300 comprises a vertical motion detector 310 for detecting vertical motion from the first luminance signal and outputting a control signal according to the detected motion amount. Correction circuit. The contour correction circuit of claim 4, wherein the contour correction unit 400 comprises an α amplifier 410 for amplifying the contour correction signal according to the amplification factor α determined by the vertical motion detection unit 300. . The method of claim 4, wherein the output unit 500 A third delayer 510 for delaying the luminance signal input through the input terminal by T time; And And a second adder 520 for adding the correction signal output from the contour correction unit 410 to the luminance signal output from the third delayer 510 and outputting the final luminance signal as contour correction. Contour correction circuit.

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