JPH06311485A - Inter-field motion detector - Google Patents

Abstract

PURPOSE:To prevent an inter-field motion detection signal from being outputted for a still picture too at the time of processing the video signal of an interlace system and detecting motion between fields. CONSTITUTION:An input video signal is supplied to an inter-frame motion detection circuit 14 provided with a frame memory 12, and an inter-frame motion detection signal is taken out, and simultaneously, it is supplied to an inter-field motion detection circuit 17 provided with a field memory 15, and the inter-field motion detection signal is taken out, and these motion detection signals are supplied to a control circuit 18, and when the motion is not detected between the frames, the inter-field motion detection signal is prevented from being outputted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for detecting a motion between successive fields of an interlaced video signal.

[0002]

2. Description of the Related Art Conventionally, a television receiver, a video camera, a VCR, a digital image effect device (Digital
In a digital video processing device such as a video effecter), a circuit for detecting a motion between fields is provided. As shown in FIG. 1, a conventional inter-field motion detection circuit supplies an interlaced video signal supplied to an input terminal 1 to a field memory 2 and a video signal output from this field memory and an input terminal 1 Is calculated by the subtracter 3 and the output signal of this subtractor is passed through the absolute value circuit 4,
The inter-field motion signal is output to the output terminal 5.

[0003]

In such a conventional inter-field motion detection circuit, when a video signal having no motion between frames continues for several frames, that is, a still image continues for several frames. Even if it continues, there is a drawback that the inter-field motion signal is output. The reason is that in the case of an interlaced video signal,
This is because scanning lines are skipped every other field for scanning, which will be described in detail below.

For example, when a stationary subject as shown in FIG. 2 is imaged by the interlace system, a video signal as shown in FIG. 3 is obtained in the first field and as shown in FIG. 4 in the second field. It is possible to obtain a good video signal. Since the scanning lines of the first field and the scanning lines of the second field have an interlaced relationship, the video signal of the first field and the video signal of the second field do not represent exactly the same image, The field is a video with every other image taken out. Therefore, when the inter-field motion signal is obtained as the absolute value of the difference between the first field video signal and the second field video signal, the inter-field motion signal as shown in FIG. 5 is obtained. FIG. 5A shows an image of one frame, and the images of two consecutive fields, that is, an odd field and an even field, which form this frame are as shown in FIGS. 5B and C. From the signal obtained by delaying the even field signal shown in FIG. 5C by 256H, FIG.
The signal obtained by subtracting the signal of the odd-numbered field shown in FIG. 5 to obtain the absolute value is as shown in FIG. 5D.

As described above, in the conventional inter-field motion detection circuit, the inter-field motion signal is erroneously detected even when the input video signal to be processed is a still image. Thus, the detection of the inter-field motion signal even in a still image is very inconvenient for applications such as converting an interlaced video signal into a non-interlaced video. Thus, when converting an interlaced video signal to a non-interlaced video signal, scanning lines are interpolated, that is, interpolated, but in the case of a still image, scanning lines of adjacent fields are interpolated. However, if the inter-field motion signal is output even for a still image as described above, inter-field interpolation is not performed and signals of adjacent scanning lines in the same field are not output. Interpolation will be performed using the averaged values, and the image quality will be degraded accordingly. In this way, not only when converting an interlaced video signal to a non-interlaced video signal, but also in a case where a motion between fields is detected and image processing suitable for it is performed, a field is applied to a still image. The fact that movements between them are detected is a drawback.

It is an object of the present invention to eliminate the above-mentioned conventional drawbacks and prevent inter-field motion detection signals from being output when no motion is detected between frames such as a still image. Is to provide.

[0007]

SUMMARY OF THE INVENTION The present invention is an apparatus for detecting the movement between successive fields of an interlaced video signal, in which the movement between successive fields is composed of two consecutive fields. Inter-frame motion detection means for detecting vertical motion of the frame as a high frequency component, and inter-frame motion detection means for detecting motion between frames constituted by sequential fields and outputting an inter-frame motion detection signal. When no motion is detected between the frames based on the high frequency component output from the inter-field motion detection means and the inter-frame motion signal output from the inter-frame motion detection means, the inter-field motion detection signal is output. It is characterized in that it is provided with a control means that does not allow it. In a preferred embodiment of the inter-field motion detection device according to the present invention, the control means is configured to control the absolute value of the high frequency component output from the inter-field motion detection means and the inter-frame output from the inter-frame motion detection means. Find the product with the motion detection signal,
This product is output as an inter-field motion detection signal.

[0008]

In the inter-field motion detecting apparatus according to the present invention, the inter-field motion is detected as well as the inter-frame motion. If no inter-frame motion is detected, the inter-field motion is detected. Even if motion is detected, it is not output as an inter-field motion detection signal.For video signals such as still images in which motion between frames is Even if the motion is detected at, it will not be output as the inter-field motion detection signal. Further, as in the preferred embodiment, when the product of the absolute value of the high frequency component in the vertical direction in the frame constituted by the sequential fields and the inter-frame motion detection signal is obtained and is output as the inter-field motion signal, Can simplify the circuit configuration.

[0009]

FIG. 6 is a block diagram showing the basic construction of an embodiment of an inter-field motion detecting apparatus according to the present invention.
A frame memory 12 receives an interlaced video signal provided to an input terminal 11, a subtracter 13 for obtaining a difference between an output signal of the frame memory and an input video signal, and an absolute value circuit 14.
Is supplied to the inter-frame motion detection circuit 15 having The inter-frame motion detection circuit 15 detects the inter-frame motion by obtaining the difference in brightness of the corresponding pixels in successive frames. The input video signal is further supplied to a field memory 16, an inter-field motion detection circuit 19 having an absolute value circuit 18 and a subtracter 17 for obtaining the difference between the output signal of the field memory and the input video signal, and the input video signal The difference in the luminance signal of the corresponding pixel between successive fields is extracted. This inter-field motion detection circuit 19 is shown in FIG.
This is the same as the conventional inter-field motion detection circuit shown in FIG. 3, and its output signal is a high frequency component in the vertical direction within a frame composed of the current field and the field immediately before it. That is, if there is a movement between successive fields, it will be detected as a high frequency component in the vertical direction. Consider a case where a still image as shown in FIG. 7A moves between two consecutive fields as shown in FIG. 7B. FIG. 7C shows an image in which two fields shown in FIG. 7B are overlapped as one frame. In FIG. 7C, the frequency component in the vertical direction at the position of x becomes a black and white signal for each line, and the high frequency component increases. The same applies to the frequency component in the vertical direction at the position of y. In this way, when there is movement, the high-frequency component increases compared to when there is no movement. Since this high-frequency component is an alternating current, it will be zero even if integrated, so when taking the high-frequency component, take its absolute value,
It is necessary to take measures such as taking peak-to-peak.

The inter-frame motion detection signal output from the inter-frame motion detection circuit 15 and the high-frequency component output from the inter-field motion detection circuit 19 are supplied to the control circuit 20. When the inter-frame motion signal is not supplied, even if the high-frequency component is output from the inter-field motion detection circuit 19, it is not supplied to the output terminal 21 of the motion detection signal. This control circuit
20 may be configured by a multiplier as in the embodiment described later, and may be configured to calculate the product of the high frequency component and the inter-frame motion detection signal and supply the product to the output terminal 21.

According to the present invention, when the motion is not detected between the successive frames in this way, even if the motion between the successive fields is detected, it is not output as the inter-field motion detection signal. Unlike the conventional inter-field motion detection circuit described above, the inter-field motion due to interlacing is not erroneously output as the inter-field motion. Therefore, the image processing performed based on the inter-field motion signal is accurately performed. Can be done.

FIG. 8 is a block diagram showing the configuration of an embodiment of the inter-field motion detecting apparatus according to the present invention. The input terminal 31 is supplied with an interlaced video signal to be processed. Here, in order to simplify the explanation, it is assumed that the interlaced video signal is a monochrome television signal having 525 scanning lines. This video signal is 26
First field memory 32, 263H capable of storing a video signal for a time corresponding to 2H (H is the length of one scanning line)
Second field memory 33 for storing over time of 3 and 3rd field memory for storing over time of 262H
Supply to 34 and one after another. That is, these first to third field memories 32-34 are respectively 262H, 263H and 26H.
It will act as a delay circuit having a delay time of 2H. Although the delay time due to these memories is not exactly one field (262.5H), it is called a field memory because it is almost equal to this. By setting the delay times of the first to third field memories 32 to 34 as described above, the output signal from the second field memory 33 and the video signal supplied to the input terminal 31 become exactly one frame. The output signal of the third field memory 34 and the output signal of the second field memory 33 are also shifted by exactly one frame from each other by a corresponding period.

The input video signal supplied to the input terminal 31 is further supplied to the adder 36 via the first 1H (1 line) delay line 35 and directly to this adder. Also, the second
The output signal of the field memory 33 is supplied to the second adder 38 via the second 1H delay line 37 and directly supplied thereto. The output signals of the first and second adders 36 and 38 are the first and second averaging circuits 39 and 38, respectively.
Supply it to 40 and halve the level of each output. Since the input video signal is interlaced, the signals passed through the first and second 1H delay lines 35 and 37 are separated by two lines in the vertical direction on the screen from the signals not passed through. It becomes a thing. Therefore, the output signals of the first and second averaging circuits 39 and 40 represent the video signal of the line at the intermediate position between these two lines. The outputs of the averaging circuits 39 and 40 are 1 for the input signal of the input terminal 31 and the output of the field memory 33, respectively.
The image on the line. Further, the outputs of the first and third field memories 32 and 34 are images on one line of the input signal of the input terminal 31 and the output signal of the field memory 33.
In this way, the first and second averaging circuits 39 and
The video signal line appearing on the output side of 40 and the output video signal line of the first and third field memories 32 and 34 appear at the same position on the screen.

In this example, the video signal output from the second field memory 33 is used as the video signal of the current field, and the inter-field movement from this and the video signal of the previous field output from the third field memory 34. Is to detect. For this purpose, the output video signal of the third field memory 34 and the output video signal of the second averaging circuit 40 are supplied to the first subtractor 41 to obtain the difference between them. As described above, the output video signal of the third field memory 34,
Although the output video signal of the second averaging circuit 40 is time-shifted from each other by one field, it is a signal of the same line on the screen. Can be taken out.
This difference signal is also a vertical component of a frame composed of two consecutive fields. The difference signal thus obtained is supplied to the absolute value circuit 42. The output signal of this absolute value circuit 42 represents the difference between successive fields,
It is a high frequency component f _h in the vertical direction within a frame composed of these sequential fields.

Further, in order to detect the movement between frames, the output signals of the first and second field memories 32 and 34 are supplied to the first subtractor 43, and the first and second averaging circuits 39 are supplied. And 40 output signals to a second subtractor 44. The output signals of the first and second subtractors 43 and 44 are supplied to the first and second absolute value circuits 45 and 46, respectively.
To detect the absolute values of these signals. Further, these absolute values are supplied to the comparator 47 and also to the switch 48. In the comparator 47, the first and second absolute value circuits
It compares the absolute value supplied from 45 and 46, which are configured such that the absolute value of the larger of which is output as a selected by the inter-frame motion detection signal f _r by a switching device 48.

Thus, by extracting two inter-frame motion detection signals and extracting a larger one of them, the inter-frame motion can be detected more accurately. This is because the signal for detecting the high frequency component f _h is generated from the output of the field memory 34 and the output of the averaging circuit 40,
An interframe motion signal that does not output the high frequency component f _h as a motion detection signal is required if either one of these two signals is moving between frames, so two interframe motion detections are performed, and the larger of the two is detected. Is output as an inter-frame motion detection signal, accurate motion detection can be performed.

Absolute value circuit 42 of inter-field motion detection circuit
The high-frequency component f _h output from the inter-frame motion detection circuit and the inter-frame motion detection signal f _r output from the switch 48 of the inter-frame motion detection circuit are supplied to the multiplier 49, these signals are multiplied, and the product is output. The inter-field motion detection signal s is output to the terminal 50. In other words, the s = f _h × f _r. Therefore, when a video signal having no motion between frames, such as a still image, is input, f _r = 0 even if f _h is detected due to interlacing, so that the inter-field motion detection signal s = It becomes 0, and the high frequency component f _h will not be erroneously output.

The present invention is not limited to the above-mentioned embodiments, but various modifications and variations are possible. For example, in the above-described embodiment, in order to detect the movement between fields, the signal delayed by the 1H delay line 37 and the signal that is not delayed are averaged, but it is not always necessary to do this. A field memory whose time is 262H may be used to obtain the difference between the delayed signal and the undelayed signal. However, the configuration as in the above-described embodiment is preferable because the high frequency component can be accurately detected. Further, in the above-described embodiment, the product of the high-frequency component as the interfield difference and the interframe motion detection signal is output as the interfield motion detection signal. However, the level of the interframe motion detection signal is detected. ,
When this is below a predetermined level, the high frequency component may not be output. Further, in the embodiment shown in FIG. 7, the absolute value of the high frequency component is obtained as the difference between the current field and the previous field, but it can be extracted as the difference between the current field and the subsequent field. In this case, the output video signal of the first averaging circuit 39 and the output video signal of the first field memory 32 may be supplied to the subtractor 41. In the above embodiment, in order to extract the high frequency component, the second field memory 34 outputs the second
Although the average value of the two lines of the output of the field memory 33 is subtracted, more lines may be appropriately weighted to obtain the average value, and the average value may be subtracted.

[0019]

In the inter-field motion detection apparatus according to the present invention described above, the inter-field motion detection signal is not simply extracted as the difference between the video signals of the successive fields, but is composed of two successive fields. The high-frequency component in the vertical direction of the frame is used as the inter-field motion detection signal, the inter-frame motion is also detected, and if there is no motion between the frames, the inter-field motion detection signal is not output. In the case of the interlaced video signal shown, the inter-field motion detection signal is not erroneously output, and therefore the image processing using the inter-field motion detection signal can be accurately performed.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a configuration of a conventional inter-field motion detection circuit.

FIG. 2 is a diagram showing an interlaced 1-frame video signal.

FIG. 3 is a diagram similarly showing a video signal of the first field.

FIG. 4 is a diagram showing a video signal of the second field of the same.

FIG. 5 is a diagram showing how a conventional inter-field motion detection signal is erroneously output.

FIG. 6 is a block diagram showing a basic configuration of an inter-field motion detection device according to the present invention.

FIG. 7 is a diagram showing how high-frequency components in the vertical direction increase due to movement between fields.

FIG. 8 is a circuit diagram showing a configuration of an embodiment of an inter-field motion detection device according to the present invention.

[Explanation of symbols]

 11 Input terminal 12 Frame memory 13 Subtractor 14, 18 Absolute value circuit 15 Interframe motion detection circuit 16 Field memory 17 Subtractor 19 Interfield motion detection circuit 20 Control circuit 21 Output terminal 31 Input terminal 32 262H Field memory 33 263H Field memory 34 262H Field memory 35, 37 1H Delay line 36, 38 Adder 39, 40 Averaging circuit 41, 43, 44 Subtractor 42, 45, 46 Absolute value circuit 47 Comparator 48 Switcher 49 Multiplier 50 Output terminal

Claims (2)

[Claims] 1. An apparatus for detecting a motion between successive fields of an interlaced video signal, wherein a high frequency component in a vertical direction of one frame constituted by two successive fields for the motion between successive fields. Inter-frame motion detection means, inter-frame motion detection means for detecting motions between frames of successive fields and outputting inter-frame motion detection signals, and high-frequency components output from the inter-field motion detection means. And based on the inter-frame motion signal output from the inter-frame motion detection means, if no motion is detected between the frames,
An inter-field motion detection device comprising: a control unit that does not output an inter-field motion detection signal. 2. The control means calculates a product of an absolute value of a high frequency component output from the inter-field motion detection means and an inter-frame motion detection signal output from the inter-frame motion detection means, and the product 2. The inter-field motion detection device according to claim 1, wherein the inter-field motion detection signal is output as an inter-field motion detection signal.