JP2002330447A - Luminance chrominance signal separation and noise reduction circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To conduct luminance/chrominance signal separation and noise reduction by using a memory in common. SOLUTION: A composite video input signal supplied to an input terminal 1 is fed to adders 3, 4 through a (1-K) multiple weighting circuit 2. Furthermore, a memory 6 stores a signal from the weighting circuit 2 through a selector 5 and gives e.g. a preceding frame signal to the adder 3 through an inverter circuit 7 and also directly to the adder 4. Then signals from the adders 3, 4 are extracted respectively at output terminals 8, 9. Furthermore, an adder 12 sums signals from the adders 3, 4 respectively through K-multiple weighting circuits 10, 11 and gives its output to the memory 6 via the selector 5, whose switching is controlled by a motion detection signal supplied to a terminal 13. For example, a signal from the weighting circuit 2 is selected for a pixel from which a motion of the composite video input signal is detected.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a luminance / color signal separation and noise reduction circuit suitable for use in, for example, a television receiver. Specifically, by integrating a luminance / color signal separation circuit from a composite video signal and a noise reduction circuit, the circuit scale is reduced so that a good television image can be received.

[0002]

2. Description of the Related Art For example, in a television receiver,
Noise reduction processing on the received composite video signal;
Processing for separating a luminance signal and a chrominance signal from the composite video signal is performed. As means for performing such noise reduction processing on the received composite video signal and processing for separating the luminance signal and the chrominance signal from the composite video signal, configurations such as those shown in FIGS. ing.

FIG. 4 shows a configuration of a cyclic noise reduction circuit used in, for example, a television receiver.
In FIG. 4, the composite video signal supplied to the input terminal 41 is supplied to the adder 43 through the (1-K) times weighting circuit 42. Further, the signal from the adder 43 is stored in the memory 44, and the signal of, for example, one frame before stored in the memory 44 is supplied to the adder 43 through the K-times weighting circuit 45. Then, the output signal of the adder 43 is taken out to the output terminal 46.

According to this circuit, for example, when a video signal is a still image, an irregular noise component is reduced by adding a signal one frame before. By increasing the value of K of the weighting circuit 45, the noise reduction effect can be enhanced. However, when the video signal is a moving image in this circuit, increasing the value of K has a disadvantage that an afterimage occurs when the image moves, and is actually limited to a noise improvement effect of about 3 dB.

[0005] A noise reduction circuit using a non-recursive filter has also been proposed, but requires an image memory as in the case of the recursive noise reduction circuit, and in principle, the noise improvement effect is limited to about 3 dB. . Furthermore, cost performance is poor, such as the need for motion adaptation processing and the like, and it has not been practically used in the past. That is, the noise reduction circuit using the conventional dedicated image memory has a noise improvement effect limited to about 3 dB, has a poor cost performance, and cannot be put to practical use.

FIG. 5 shows a configuration of a three-dimensional comb filter circuit used for separating a luminance signal and a chrominance signal, for example. In FIG. 5, a composite video signal supplied to an input terminal 51 is supplied to adders 52 and 53. Also,
The composite video signal supplied to the input terminal 51 is stored in the memory 54.
The signal stored in the memory 54 is supplied to the adder 52 through the inverting circuit 55, for example, and the signal stored in the memory 54 is directly supplied to the adder 53.

As a result, a color signal whose phase is inverted for each frame is taken out from the adder 52 to an output terminal 56. The adder 53 outputs an in-phase luminance signal to an output terminal 57. In this way,
Processing for separating a luminance signal and a chrominance signal from the composite video signal is performed.

[0008]

However, when such a recursive noise reduction circuit (FIG. 4) and a three-dimensional comb filter circuit (FIG. 5) are to be provided together, in a conventional configuration, each of them has to be provided separately. Since the image memories 44 and 54 are required, the cost for the memories becomes extremely large, and the space occupied by the circuit becomes extremely large.

The present invention has been made in view of such a point, and a problem to be solved is that in the conventional apparatus, a cyclic noise reduction circuit and a three-dimensional comb filter circuit are provided together. In such a case, an image memory is required for each, and the cost for the memory becomes extremely large, and the cost cannot be reduced.

[0010]

Therefore, according to the present invention, a luminance / color signal separation circuit and a noise reduction circuit are integrated so that they can be used also as a memory. With the configuration, an S / N improvement effect of about 3.3 dB can be obtained, and the cost for the memory can be reduced by also using the memory, so that the cost can be significantly reduced and the space occupied by the circuit can be reduced. Can also be reduced.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS That is, the present invention has a storage means for storing a composite video input signal, and separates a luminance signal by adding the composite video signal and the composite video input signal stored by the storage means. And a luminance / color signal separation circuit for separating and outputting a color signal by inverting the composite video signal stored by the storage means and adding the inverted signal to the composite video input signal, and a luminance / color signal separation circuit. Weighting means for performing predetermined weighting on each of the luminance signal and the color signal; addition means for adding the luminance signal and the color signal each weighted by the weighting means to output an addition signal; and a composite video input signal. Motion detection means for performing motion detection based on the motion detection signal and outputting a motion detection signal, and an addition signal output by the addition means in response to the motion detection signal output by the motion detection means And a switching means for switching between composite video input signal is made by storing a signal which is switched by the switching means in the storage means.

The present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an embodiment of a luminance / color signal separation / noise reduction circuit to which the present invention is applied.

In FIG. 1, a composite video input signal supplied to an input terminal 1 is supplied to adders 3 and 4 through a weighting circuit 2 of (1-K) times. The signal from the weighting circuit 2 is stored in the memory 6 through the selector 5, and the signal, for example, one frame before stored in the memory 6 is supplied to the adder 3 through the inversion circuit 7 and stored in the memory 6. The supplied signal is directly supplied to the adder 4. The signals from the adders 3 and 4 are taken out to output terminals 8 and 9, respectively.

The signals from the adders 3 and 4 are K
It is supplied to the adder 12 through the double weighting circuits 10 and 11. The signal from the adder 12 is stored in the memory 6 through the selector 5, and the switching of the selector 5 is controlled by the motion detection signal supplied to the terminal 13. That is, for example, a motion detection signal of each pixel of the composite video input signal supplied to the input terminal 1 is supplied to the terminal 13, and a signal from the weighting circuit 2 is selected for the pixel whose motion has been detected.

Thus, in this circuit, for a pixel whose motion has been detected, for example, 1 pixel stored in the memory 6 is stored.
The signal before the frame is supplied to the adder 3 through the inverting circuit 7, and the signal stored in the memory 6 is directly supplied to the adder 4. As a result, a color signal whose phase is inverted for each frame is extracted from the adder 3 to the output terminal 8. The in-phase luminance signal is output from the adder 4 to an output terminal 9.

For a pixel for which no motion is detected, a signal from the adder 12 is selected by the selector 5 and stored in the memory 6. As a result, in the adders 3 and 4, the signal of one frame before is added, thereby reducing the irregular noise component.
, A color signal whose phase is inverted every frame is taken out to an output terminal 8, and an in-phase luminance signal is taken out from an adder 4 to an output terminal 9.

In this manner, for pixels for which no motion has been detected, irregular noise components are reduced, and processing for separating the luminance signal and the chrominance signal from the composite video signal is performed. And in this case, the weighting circuit 10,
The noise reduction effect can be enhanced by increasing the value of K of No. 11. That is, in this case, since the pixels in which the noise component is reduced are limited to the pixels in which no motion is detected, the value of K can be increased to enhance the noise reduction effect.

In this embodiment, the selector 5
Is a transfer function when the adder 12 is selected, H (Z) = (1−K) / (1−K · Z ⁻¹ ) = 1. (1−K) ² ｝ × (1 + K ² + K ⁴ + K ⁶ +...) =
(1−K) / (1 + K).

Since the average value of the noise level is obtained by the power sum, the average value of the noise level can be obtained by S / N = 1 / {(1-K) / (1 + K)}. This leads to an S / N improvement of about 2.2 dB at a value K = 0.25, for example. That is, for a pixel (still image) for which no motion is detected, for example, the S / N of the luminance signal is improved by about 2.2 dB at the output of the adder 4.

This embodiment can be schematically illustrated as shown in FIG. In FIG. 2, a composite video input signal supplied to an input terminal 1 is supplied to a three-dimensional comb filter circuit 20, and a luminance signal and a chrominance signal separated by the filter circuit 20 are extracted to output terminals 9 and 8. Further, the signal from the filter circuit 20 is fed back to the filter circuit 20 through the cyclic noise reduction circuit 30 and the operation of the filter circuit 20 is controlled by the terminal 13.
Is controlled by the motion detection signal from.

This operation is performed, for example, as shown in the flowchart of FIG. In FIG. 3, when the operation is started, first, in step [1], a process of separating a luminance signal and a color signal from an input video signal by a three-dimensional comb filter circuit is performed. Next, in step [2], the presence or absence of the motion detection signal is determined. Is controlled.

If there is no motion detection signal in step [2], it is determined that the image is a still image, and in step [4] the value "K ≠" is obtained.
For example, the switching of the selector 5 is controlled so as to be 0 ". In step [5], the cyclic noise reduction circuit performs noise reduction processing at a desired level. In step [6], the luminance signal is processed. Then, the separated signal of the color signal is output and the process returns to step [1] Note that this process is repeated until the operation of the device is separately stopped.

As described above, in the case of a still image, noise reduction processing at a desired level is performed by the cyclic noise reduction circuit, and the luminance signal and the color signal are separated from the input video signal by the three-dimensional comb filter circuit. Processing is performed,
The separated luminance signal and color signal are output. In the case of a moving image, the processing of the recursive noise reduction circuit is stopped, and only the processing of separating the luminance signal and the color signal from the input video signal by the three-dimensional comb filter circuit is performed. A signal is output.

Therefore, in this embodiment, the luminance / color signal separation circuit and the noise reduction circuit are integrated so that the memory can also be used, so that the S / N improvement effect of about 3.3 dB can be achieved with a simple configuration. In addition, by using the memory, the cost of the memory can be reduced, the cost can be significantly reduced, and the space occupied by the circuit can be reduced.

Thus, in the conventional configuration, when the recursive noise reduction circuit and the dimensional comb filter circuit are provided together, an image memory is required for each circuit, and the cost of the memory becomes extremely large. However, according to the present invention, these problems can be easily solved, although there is a problem that the space occupied by the circuit becomes extremely large.

The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.

[0027]

According to the first aspect of the present invention, the luminance / color signal separation circuit and the noise reduction circuit are integrated so that the memory can also be used. S / N improvement effect can be obtained,
In addition, the cost for the memory can be reduced by also using the memory, so that the cost can be significantly reduced and the space occupied by the circuit can also be reduced.

As a result, in the conventional configuration, when the recursive noise reduction circuit and the dimensional comb filter circuit are provided together, an image memory is required for each circuit, and the cost for the memory becomes extremely large. However, according to the present invention, these problems can be easily solved, which has the problem that the space occupied by the circuit becomes extremely large.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of a luminance / color signal separation / noise reduction circuit to which the present invention is applied.

FIG. 2 is a configuration diagram for the explanation.

FIG. 3 is a flowchart for explaining the operation.

FIG. 4 is a diagram for explaining a conventional device.

FIG. 5 is a diagram for explaining a conventional device.

[Explanation of symbols]

1 ... input terminal, 2 ... (1-K) times weighting circuit, 3,
4, 12 adder, 5 selector, 6 memory, 7
... inverting circuit, 8, 9 ... output terminal, 10, 11 ... weighting circuit of K times, 13 ... terminal to which a motion detection signal is supplied

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5C021 PA66 PA67 PA78 RB06 YA01 5C066 CA07 DC02 GB01 KE02 KE03 KE07 KG01

Claims (1)

[Claims] A storage unit for storing a composite video input signal, wherein a luminance signal is separated and output by adding the composite video signal stored by the storage unit and the composite video input signal; A luminance / color signal separating circuit for separating and outputting a color signal by inverting the composite video signal stored by the storage means and adding the inverted signal to the composite video input signal; and a luminance signal separated by the luminance / color signal separating circuit. Weighting means for performing predetermined weighting on each of the color signals; and adding means for adding the luminance signal and the color signal each weighted by the weighting means to output an addition signal; and Motion detection means for performing motion detection based on the motion detection signal, and a motion detection signal outputted from the motion detection means. Signal and the composite and switching means for switching a video input signal, comprising a luminance and color signal separating and noise reducing circuit, characterized in that to store the signal is switched by the switching means to the storage means.