KR100228663B1 - Device for correcting contour of an image signals - Google Patents

Abstract

The present invention relates to a contour correction device for adaptively correcting the contour of an image signal in accordance with the brightness of the image, the vertical contour correction means for extracting the contour contour by extracting the vertical contour signal in the vertical direction and the brightness of the image signal in units of frames The image brightness detection means for detecting the signal, the horizontal contour extraction means for extracting the horizontal contour signal corresponding to each filter having different frequency characteristics, the selection means for outputting the horizontal contour signal according to the selection signal, and the image already corrected for the vertical direction. Composed means for adding the extracted horizontal contour signal to emphasize the signal. According to the present invention, a plurality of filters having different frequency characteristics can be provided to extract the contour signal in the horizontal direction according to the brightness of the image signal, so that the contour correction can be more faithfully performed, especially when the low luminance image signal is corrected. There is an effect that can prevent deterioration of image quality.

Description

Contour Correction Device of Image Signal

1 is a block diagram of a contour correction apparatus for a video signal according to the prior art.

2 is a block diagram of a contour correction apparatus for an image signal according to the present invention.

3 shows the characteristics of the filter,

3 (a) is a characteristic diagram of the first high pass filter.

3 (b) is a characteristic diagram of the second high pass filter.

3 (c) is a characteristic diagram of a bandpass filter.

* Explanation of symbols for main parts of the drawings

11,110,120: 1H delay part 12,141,142: High pass filter (HPF)

13,130: vertical contour correction 140: horizontal contour extraction unit

15, 170: adder 150: image brightness detector

160: selection unit

The present invention relates to a contour correction device for correcting the contour of an image signal, and in particular, by adjusting the contour adaptively according to the brightness of the image. It relates to a contour correction device.

In general, image processing systems such as broadcast cameras, camcorders, and VTRs increase the resolution through contour correction operations that extract the contour signal expressing the shape of an object and add it to the image signal. Use to correct the contour for the vertical and horizontal directions.

1 is a block diagram of a contour correction apparatus for a video signal according to the prior art.

As shown in the drawing, the conventional contour correction apparatus includes 1H delay units 11 and 12 for delaying the input video signal by 1H period (1 horizontal regression period). The vertical contour correction unit 13 connected to the 1H delay units 11 and 12 respectively receives the input image signal and the image signal delayed by a predetermined time, and extracts the contour signal in the vertical direction through a predetermined calculation process. The contour correction is performed by adding the extracted contour signal to the video signal. The contour correction operation of the vertical contour correction unit 13 is performed through a known calculation process, and is described in detail in Patent Application No. 16615 (filed December 23, 1994) filed by the inventor. Description thereof will be omitted.

A high pass filter (HPF) 14 connected to the 1H delay unit 11 receives an image signal delayed for 1H period and extracts a contour signal in the horizontal direction. When the filter characteristic of the high pass filter 14 is shown, it has a predetermined cut off frequency f1 as shown in FIG. 3 (a). In FIG. 3 (b), frequency components smaller than the cutoff frequency f1 are filtered, and an image signal having a cutoff frequency f1 or more becomes a horizontal outline signal. The horizontal contour signal filtered by the high pass filter 14 is supplied to the adder 15. The adder 15 added the supplied horizontal contour signal and the image signal contour-corrected by the vertical contour correction unit 13, and finally output the contour-corrected image signal.

The conventional contour correction apparatus for a video signal extracts a horizontal contour signal through a single high pass filter to extract a horizontal contour signal suitable for a relatively high frequency video signal, but the brightness of the image is dark. Since the low luminance video signal includes a relatively low low frequency component, it may inevitably result in the extraction of an inappropriate horizontal contour signal, and thus there is a problem in that contour correction cannot be faithfully achieved due to deterioration of image quality.

SUMMARY OF THE INVENTION An object of the present invention is to provide a contour correction apparatus of an image signal which can prevent image quality deterioration even when contour correction is performed for a low luminance video signal of a low frequency band by extracting a horizontal contour signal according to the brightness of the image signal.

An object of the present invention as described above, in the contour correction apparatus of the image signal, the vertical contour correction means for correcting the vertical contour of the input image signal; Image brightness detection means for detecting the brightness of the video signal and outputting any one of a plurality of preset selection signals as a result of the detection; Horizontal contour extracting means having at least two filters passing through a predetermined frequency band and extracting a horizontal contour signal corresponding to each filter from the image signal; Selecting means for switching one of the filters of the horizontal contour extracting means into a combining means in accordance with a selection signal of the image brightness detecting means; And synthesizing means for adding the image signal contour corrected by the vertical contour correction means and the horizontal contour signal of the horizontal contour extraction means.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a contour correction apparatus for an image signal according to the present invention. As shown, the contour correction apparatus of the present invention includes a first 1H delay unit 110 for delaying the input video signal by 1H period (horizontal regression period) and a second 1H delay unit for delaying the 1H period delayed video signal again for 1H period. 120 and a vertical contour correction unit 130 for contour correction with respect to the vertical direction are provided as in the prior art. In addition, the contour correction apparatus of the present invention is a horizontal contour signal corresponding to the image brightness through the image brightness detector 150 and a plurality of filters to detect the brightness of the image signal delayed for 1H period by the first 1H delay unit 110 Further provided with a horizontal contour extraction unit 140 to extract. In addition, according to the selection signal of the image brightness detection unit 150, the selection unit 160 for selectively switching and outputting any filter of the horizontal contour extraction unit 140, the output of the selection unit 160 and the An adder 170 for synthesizing the output other than the vertical outline correction unit 180 is provided.

The operation of the contour correction device of the present invention configured as described above will be described in more detail.

First, the 1H delay unit 110 delays the input image signal by 1H period and applies them to the filters and the image brightness detector 150 of the vertical contour correction unit 130 and the horizontal contour extraction unit 140, respectively. In addition, the second 1H delay unit 120 delays the output of the first 1H delay unit 110 again by 1H period and outputs it to the vertical contour correction unit 130. The vertical contour correction unit 130 receives the video signal of the input side which is not delayed, the video signal delayed for 1H period and the video signal delayed for 2H period, extracts the contour signal in the vertical direction through a predetermined calculation process, and extracts the extracted contour signal. Is added to the undelayed video signal to correct the contour.

The horizontal contour extracting unit 140 includes a plurality of high pass filters to extract the contour signal in the horizontal direction. In the embodiment of the present invention, the contour signal is extracted using the first high pass filter 141 and the second high pass filter 142 for extracting the high frequency component, and the first high pass filter 141 is used for high luminance. The second high pass filter 142 is used for low luminance. In other words, the first high pass filter 141 has a filter characteristic as shown in FIG. On the contrary, since the second high pass filter 142 has a cutoff frequency f2 lower than the cutoff frequency f1 of the first highpass filter 141 with the same filter characteristic as that of FIG. Passed a lot. By this filtering, the contour signal in the horizontal direction is extracted, and the contour signals extracted outside the first high pass filter 141 and the second high pass filter 142 are different from each other. As such, the use of the second high pass filter 142 having a low cutoff frequency f2 for the low luminance video signal can remove a large number of noise signals in the high frequency region, thereby preventing the deterioration of overall image quality. This is because the characteristics are close to low frequencies.

On the other hand, the image brightness detector 150 determines the brightness of the input image signal in units of one frame or one field, which is determined by the characteristics of the image signal so that the designer can select a suitable one. do. The image brightness detector 150 compares each pixel value with a reference value with respect to an input image, and detects brightness according to the number of pixels exceeding the reference value. In addition, the image brightness detector 150 outputs a predetermined selection signal to the selector 160 according to the brightness of the image signal. For example, the image brightness detection unit 150 selects a selection signal for switching the first high pass filter 141 having a relatively high cutoff frequency f1 when a high brightness video signal having a high brightness of the current video signal is input. The output unit 160 outputs a selection signal to switch the second high pass filter 142 when the low luminance image signal is input thereto. In this way, the output of the selected filter of the horizontal contour extracting unit 140 is supplied to the adder 170 according to the selection signal of the selecting unit 160. The adder 170 adds the horizontal contour signal selected by the selector 160 and the image signal contour-corrected by the vertical contour correction unit 130 and outputs the finally corrected image signal.

In the above-described embodiment, the horizontal contour extracting unit 140 uses two high pass filters according to the high luminance and the low luminance. However, the horizontal contour extracting unit 140 uses a plurality of high pass filters by subdividing according to the brightness of the image. The detector 150 may also output the corresponding selection signal to obtain a highly accurate contour signal. In addition, it can be implemented using a band pass filter (BPF) that passes the band between the first frequency (f3) and the second frequency (f4) as shown in the third (c) instead of the high pass filter You can understand without it.

The present invention as described above is provided with a plurality of filters having different frequency characteristics to extract the contour signal in the horizontal direction in accordance with the brightness of the video signal can be more faithful to the contour correction, in particular low luminance video signal There is an effect that can prevent deterioration of image quality during contour correction.

Claims (7)

A contour correction apparatus for a video signal, comprising: vertical contour correction means for correcting a vertical contour of an input video signal; Image brightness detection means for detecting the brightness of the video signal and outputting any one of a plurality of preset selection signals as a result of the detection; Horizontal contour extracting means having at least two filters passing through a predetermined frequency band and extracting a horizontal contour signal corresponding to each filter from the image signal; Selecting means for switching one of the filters of the horizontal contour extracting means into a combining means in accordance with a selection signal of the image brightness detecting means; And synthesizing means for adding the image signal contour corrected by the vertical contour correction means and the horizontal contour signal of the horizontal contour extracting means. The contour correction apparatus according to claim 1, wherein the image brightness detecting means detects the brightness of the video signal in units of one frame (or one field). The contour correction apparatus of claim 1, wherein the horizontal contour extracting means uses high pass filters having different cutoff frequencies. The contour correction apparatus according to claim 1, wherein the horizontal contour extracting means uses band pass filters having different pass bands. 2. The contour correction apparatus according to claim 1, wherein the selecting means connects a high pass filter having a relatively low cutoff frequency when the image signal is a low luminance video signal. The method of claim 1, wherein the vertical contour correction unit extracts a vertical contour signal in a vertical direction from a video signal that is delayed for a predetermined period and a video signal that is not delayed, and adds the extracted vertical contour signal to the delayed video signal to correct the contour. Contour correction device for a video signal, characterized in that. The method of claim 1, wherein the image brightness detecting means compares each pixel value with respect to the video signal delayed for a predetermined period, detects the brightness of the video signal according to the number of pixels larger than a predetermined reference value, and outputs a selection signal according to the detection result. Contour correction device for a video signal, characterized in that.