KR100245185B1 - Method for correcting contour and circuit therefor - Google Patents

Abstract

A contour correction method for correcting the contour of a displayed image by changing a level change degree of a luminance signal and a contour correction circuit for performing the same are disclosed. In response to the brightness change sensing step, the brightness change of the brightness signal continuously input is detected, and the brightness change detection signal corresponding to the brightness change degree of the brightness signal is generated, and in response to the brightness change detection signal by the contour correction step. The degree of change in luminance of the luminance signal input through the input terminal is varied and outputted, so that the degree of contour correction can be varied according to the degree of change in luminance of the input 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 a displayed image by changing a level change degree of a luminance signal, and contour correction for performing the same. It is about a circuit.

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 T time to the first adder 131 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 contour correction circuit, the high frequency portion of the luminance signal is simply emphasized, and there is a problem of over-correction or low-correction in the portion of the high or low level of the luminance signal.

Accordingly, the present invention has been made in view of the above-mentioned point, and an object of the present invention is to detect a change in luminance of an input luminance signal and to change the contour correction degree according to the luminance change level of the luminance signal. To provide a way.

Another object of the present invention is to provide a contour correction circuit for detecting a change in luminance of an input luminance signal and varying the degree of contour correction according to the luminance change level of the luminance signal.

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.

3A to 3F are signal waveform diagrams for respective parts of the circuit shown in FIG.

4 is an operation flowchart of the contour correction circuit shown in FIG. 2.

* Explanation of symbols for main parts of the drawings

100: secondary differential circuit 101, 201: input terminal

121, 122, 123, 210, 260: delay

131, 132: adder 141, 220: subtractor

151: 1/2 amplifier 230: absolute stroke

240: comparator 250, 270: switch

300: luminance change detection circuit 400: contour correction circuit

In order to realize the above object of the present invention, the contour correction method according to the present invention detects a change in the luminance of the luminance signal input through the input terminal, and generates a luminance change detection signal corresponding to the degree of change in the luminance signal Detecting a change in luminance; And an outline correction step for varying a degree of brightness change of the input brightness signal in response to the brightness change detection signal of the brightness change detection step.

According to the above-described method, the brightness change detection step detects the brightness change of the continuously input brightness signal and generates a brightness change detection signal corresponding to the brightness change degree of the brightness signal. In the contour correction step, the degree of change in brightness of the brightness signal input through the input terminal is varied in response to the brightness change detection signal.

In order to realize the above object of the present invention, the contour correction circuit according to the present invention detects a luminance change of a luminance signal input through an input terminal and generates a luminance change detection signal corresponding to the luminance change degree of the luminance signal. Brightness change detection means for performing; And contour correction means for varying the degree of change in brightness of the input brightness signal in response to the brightness change detection signal of the brightness change detection means.

The luminance change detection means detects a luminance change of the luminance signal continuously input and generates a luminance change detection signal corresponding to the luminance change degree of the luminance signal. Then, the contour correction means outputs the luminance change of the luminance signal input through the input terminal in response to the luminance change detection signal.

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 200 according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the contour correction circuit 200 detects a luminance change from the luminance signal Y input through the input terminal 201, and the luminance change detection signal SC corresponding to the luminance change degree of the luminance signal. Luminance change detection circuit unit 300 for generating a signal and a luminance signal Y input through the input terminal 201 in response to the luminance change detection signal SC by the luminance change detection circuit unit 300. The contour correction circuit unit 400 is configured to output the contour correction signal 2701 to the outside by varying the degree of change in luminance.

The luminance change detection circuit unit 300 includes a first retarder 210, a subtractor 220, an absolute stroke 230, and a comparator 240 to detect a luminance change from an input luminance signal Y. In addition, the contour correction circuit unit 400 includes a second delayer 260, a first switch 250, and a second switch 270 to correct the contour of the input luminance signal Y.

The first delay unit 210 generates a first delay signal DY1 by delaying the luminance signal Y input through the input terminal 201 for a predetermined time, and generates the first delay signal DY1. The subtractor 220 outputs the result. The subtractor 220 subtracts the luminance signal Y from the input terminal 201 from the first delay signal DY1 by the first delayer 210 to generate the subtracted signal SU as a result. Then, the generated subtraction signal SU is provided to the absolute stroke 230.

The absolute value 230 generates an absolute value AS by absoluteizing the subtracted signal SU input from the subtractor 220, and outputs the generated absolute value signal AS to the comparator 240. . The comparator 240 compares a predetermined reference signal α with an absolute value signal AS from the absolute value 230 and generates a luminance change detection signal SC according to the comparison result. The luminance change detection signal SC is a switch control signal for controlling the correction signals first and second switches 250 and 270 which will be described later.

On the other hand, the first switch 250 of the contour correction circuit 400 is connected to the input terminal 201, the first input terminal (S1) that the luminance signal (Y) is input through the input terminal 201, and And a second input terminal S2 connected to an output terminal of the second retarder 260, and controlled according to the luminance change detection signal SC of the comparator 240 to control the first or second input terminal ( The luminance signal input through S1 or S2 is output to the second delay unit 260. The second delay unit 260 delays the first switch signal 2501 input from the first switch 250 by a predetermined time to generate a second delay signal DY2, and generates the second delay signal DY2. ) Is provided to the second input terminal S2 of the first switch 250 and the fourth input terminal S4 of the second switch 270, respectively.

The second switch 270 includes a third input terminal S3 connected to the input terminal 201, and is controlled to be switched according to the luminance change detection signal SC of the comparator 240 to control the third or the third input terminal S3. The signal input through the fourth input terminal S3 or S4 is output to the outside. The signal output from the second switch 270 is a contour correction signal 2701 whose contour is corrected according to the present embodiment.

Hereinafter, the operation and outline correction method of the outline correction circuit 200 configured as described above will be described in more detail with reference to the accompanying drawings. 3A to 3F are signal waveform diagrams of respective parts of the circuit shown in FIG. 2, and FIG. 4 is an operation flowchart of FIG.

In FIG. 2, when a luminance signal having a waveform as shown in FIG. 3A separated by a luminance and color signal separation device (not shown) is input to the first retarder 210 through an input terminal 201, The first delay unit 210 delays the input luminance signal Y by a predetermined time to generate the first delay signal DY1 as shown in FIG. 3B, and the subtractor 222 to generate the first delay signal DY1. ) Is output (ST1).

The subtractor 221 subtracts the luminance signal Y currently input through the input terminal 201 from the first delay signal DY1 provided from the first delayer 210, as shown in FIG. 3C. Similarly, a subtraction signal SU is generated, and the generated subtraction signal SU is output to the absolute value 230 (ST2). The absolute value 230 generates an absolute value AS as an absolute value of the subtracted signal SU from the subtractor 220, as shown in FIG. 3D, and converts the generated absolute value signal AS into the comparator ( 240) (ST3). Then, the comparator 240 compares whether the absolute value signal AS is greater than a predetermined reference signal α (ST4).

In step 4, when the comparison result is that the absolute value signal AS is smaller than the reference signal α, the comparator 240 continuously performs the luminance change detection signal SC of the logic row as shown in FIG. 3E. (ST5). In contrast, at the time point T _0, T ₂ when the absolute value signal AS is greater than or equal to the reference signal α, the luminance change detection signal SC of the comparator 240 is logic high at a logic low. Transition to (ST6). The comparator 240 transitions from logic high to logic low at the time points T _{1 and} T ₃ when the absolute value signal AS becomes smaller than the reference signal α.

In addition, when the luminance change detection signal SC from the comparator 240 outputs a logic low signal, the first and second switches 250 and 270 of the contour correction circuit unit 400 may respectively have a first value. And third connection terminals S1 and S3. In addition, an input terminal is connected to the second retarder 260 by a switch connection to the first and third input terminals S1 and S3 of the first and second switches 250 and 270 of the contour correction circuit unit 400. A luminance signal Y input through 201 is input to output a second delay signal DY2 as illustrated in FIG. 3B, and the second switch 270 receives the luminance signal inputted through the input terminal 201. As shown in Fig. 3F, Y) is output to the output terminal 2701 as the contour correction signal PS (ST7).

The output of the luminance signal Y input through the input terminal 201 of the second switch 270 as the contour correction signal PS is that the luminance change detection signal SC of the comparator 240 is logic low. Until transition to logic high. In addition, when the luminance change detection signal SC of the comparator 240 transitions from a logic low to a logic high, the first and second switches 250 and 260 are connected to the second and fourth input terminals S2. And a switch connected to S4, and the second switch 270 converts the second delay signal DY2 from the second delay unit 260 input through the fourth input terminal S4 into an outline correction signal (S4). PS) is output as (ST8).

In this case, the second delay unit 260 is connected to the input terminal and the output terminal of each other by the switching operation of the first switch 250 to the second input terminal (S2), the first switch 250 of the first Simultaneously with the connection to the second input terminal S2, the final luminance signal Y input through the first input terminal S1 is output. The output of the second delay signal DY2 by the second delay unit 260 input through the fourth input terminal S4 of the second switch 270 as the contour correction signal PS is The brightness change detection signal SC of the comparator 240 continues until it transitions from logic high to logic low. The contour correction of the luminance signal by the above configuration is repeated as long as the luminance signal Y from the input terminal 201 is continuously input (ST9).

Thus, the logic transition of the brightness change detection signal SC of the comparator 240 depends on the amount of change in the brightness signal Y level, and the contour in response to this logic change of the brightness change detection signal SC. By the transition of the first and second switches 250 and 270 of the correction circuit unit 400 and the luminance signal Y level of the second retarder 260, the contour correction circuit unit 400 is shown in FIG. 3F. As described above, the contour correction signal PS whose slope is improved is outputted. In addition, the contour correction circuit corrects only its slope within the level of the luminance signal to which the contour correction of the luminance signal is input, thereby overcompensating the portion where the level of the luminance signal is high or low by emphasizing the high frequency portion of the luminance signal. Or a problem of low correction does not occur.

As described above, the present invention provides a contour correction method capable of detecting a change in luminance of an input luminance signal and varying the degree of contour correction according to the luminance change level of the luminance signal, and a circuit for performing the same.

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 (9)

(a) (a-1) generating a first delayed signal by delaying a luminance signal input through an input terminal by a predetermined time; (a-2) subtracting a current luminance signal input through the input terminal from the generated first delay signal to generate a subtracted signal; (a-3) absoluteizing the subtracted signal to generate an absolute value signal; And (a-4) comparing the absolute value signal with a predetermined reference signal to detect a change in luminance of the luminance signal input through an input terminal, and to detect a change in luminance corresponding to a degree of change in the luminance signal. Generating a signal; And (b) (b-1) generating a feedback signal by feeding back a luminance signal input through the input terminal in response to the luminance change detection signal generated by the step (a); And (b-2) when the feedback signal is generated by the step (b-1), the feedback signal is output as a luminance signal, and when the feedback by the step (b-1) is terminated, Comprising a step for outputting a brightness signal input through the input terminal, Contour correction step for varying the degree of brightness change of the input brightness signal in response to the brightness change detection signal according to the step a) Contour correction method characterized in that the. The contour correction method according to claim 1, wherein the comparison result signal from step (a-4) is output as the luminance change detection signal. The contour correction method according to claim 1, wherein the step (b-1) continuously outputs, by feedback, a luminance signal input through the input terminal when the luminance change detection signal is generated by the step (a). . The method of claim 1, wherein the step (b-2) selectively outputs the feedback signal and the brightness signal from the input terminal in response to the brightness change detection signal of the step (a). And a contour correction degree of the contour correction signal generated by the contour correction method. A first delay unit 210 for delaying a luminance signal input through an input terminal by a predetermined time; A subtractor (220) for subtracting a current luminance signal input through the input terminal from a first delay signal from the first delay unit (210); An absolute value 230 for absoluteizing the subtracted signal from the subtractor 220; And a comparator 240 for comparing the absolute value signal from the absolute device 230 with a predetermined reference signal, detecting a change in luminance of the luminance signal input through an input terminal, and a degree of change in luminance of the luminance signal. Brightness change detection means (300) for generating a brightness change detection signal corresponding to the? And Feedback means (250,260) for returning a luminance signal input through the input terminal in response to a luminance change detection signal of the luminance change detection means (300); And selection means 270 for outputting the feedback signal or the luminance signal input through the input terminal as a contour correction signal according to whether the feedback signal is generated by the feedback means in response to the brightness change detection signal. And contour correction means (400) for varying the degree of change in luminance of the input luminance signal in response to the luminance change detection signal of the luminance change detection means (300). 8. The contour correction circuit according to claim 7, wherein the comparison result signal generated by the comparator (240) is output as the brightness change detection signal. 6. The apparatus of claim 5, wherein the feedback means comprises: a second delayer (260) for delaying and outputting an input signal by a predetermined time; And The luminance signal from the input terminal or the second delay signal output from the second delay unit 260 is selectively selected to the second delay unit 260 in response to the luminance change detection signal of the luminance change detection unit 300. Contour correction circuit, characterized in that consisting of a first switch 250 for outputting. The second delay signal of the second delay unit 260 according to claim 7, wherein the feedback signal of the feedback unit is generated when the first switch 250 connects the input terminal and the output terminal of the second delay unit 260. Contour correction circuit, characterized in that. The method of claim 5, wherein the selecting means 270 selectively outputs a feedback signal from the feedback means or a luminance signal from the input terminal in response to the brightness change detection signal of the brightness change detecting means 300. And as a result, the degree of contour correction of the contour correction signal output from the selection means is responsive to the image change detection signal of the image change detection means (300).