JP2002369156A - Video signal converter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video signal converter capable of preventing deterioration of picture quality even if a caption or a telop is inserted to an interlaced video signal, which is generated by telecine conversion, by conducting a proper interpolation processing on the video signal to convert the video signal to a progressive video signal. SOLUTION: This video signal converter is provided with a telecine discrimination means 16 that discriminates whether the interlaced video signal in the field to be interpolated is a signal generated by telecine conversion or not based on the correlation strength with the video signal in a field of one-frame period before and outputs a telecine discrimination signal, and a telecine selection means 16 that discriminates which of the preceding field or the succeeding field to the field to be interpolated has a stronger correlation with the video signal in the field to be interpolated and outputs a telecine selection signal. The telecine discrimination means and telecine selection means determine the telecine discrimination signal and the telecine selection signal, respectively, on every specific-sized region that constitutes a part of the field and output the signals per each region.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video signal conversion apparatus for converting a video signal of an interlaced scanning type into a video signal of a progressive scanning type. The present invention relates to a video signal converter capable of converting both a signal and an interlaced video signal generated from a motion picture film by telecine conversion into a progressively scanned video signal.

[0002]

2. Description of the Related Art In a television system such as NTSC, a video signal is formed as an interlaced scanning signal of 30 frames per second (60 fields per second). In contrast, a movie is shot at 24 frames (24 frames) per second,
In order to read a movie film with a scanner and obtain an interlaced scanning video signal suitable for a television system, a telecine conversion (in general, 2-3 pull-down processing described below) is performed to absorb a difference in the number of frames per unit time. Is performed.

[0003] The 2-3 pull-down processing is performed on the motion picture film 2
This is for converting a frame into 5 fields of an interlaced scanning video signal. That is, the first frame of the movie film is made to correspond to the first and second fields of the television system, and the second frame of the movie film is made to correspond to the third, fourth, and fifth fields of the television system. Similarly, the third frame of the movie film corresponds to the sixth and seventh fields of the television system, and the fourth frame of the movie film corresponds to the eighth, ninth, and tenth fields of the television system, Hereinafter, the same association is performed. This makes it possible to generate an interlaced scanning video signal suitable for the television system from a movie film.

[0004] When converting an interlaced scanning video signal into a progressive scanning video signal, the input video signal is an interlaced scanning video signal of a normal television system or generated from a movie film by telecine conversion. It is necessary to identify whether or not the signal is an interlaced scanning type video signal, and to perform a conversion process suitable for each of them. In the case of the interlaced scanning video signal generated by the telecine conversion, this identification is performed so that the third field and the fifth field become the same signal, and the eighth field and the tenth field become the same signal. Since there is a periodicity with a 5-field interval, it is possible to detect this periodicity.

[0005] As an example of a conventional video signal conversion device having the above-described identification function, the configuration of a video signal conversion device disclosed in Japanese Patent Application Laid-Open No. 2000-341648 is shown in FIG. In the figure, reference numeral 51 denotes an input terminal of an interlaced scanning type video signal,
52 is an output terminal of a progressive scanning video signal, 53, 55, 5
6 is a field memory, 54, 57 and 58 are line memories, 59 is a mode detector, 60 is a motion detector, and 61 is a scanning line interpolator.

The interlaced scanning type video signal input from the input terminal 51 is input to the field memory 53 and the mode detector 59, respectively. This video signal is delayed by one field in the field memory 53, and
4 and the mode detector 59. The signal delayed by one line in the line memory 54 is input to a field memory 55, a mode detector 59, a motion detector 60, and a scanning line interpolator 61, respectively. The video signal input to the field memory 55 is delayed by one field,
The data is input to a field memory 56, a line memory 58, a mode detector 59, a motion detector 60, and a scanning line interpolator 61, respectively. The video signal input to the field memory 56 is delayed by one field and input to the mode detector 59 and the line memory 57, respectively. The video signal input to the line memory 57 is delayed by one line, and is input to the mode detector 59, the motion detector 60, and the scanning line interpolator 61, respectively. The video signal input to the line memory 58 is delayed by one line and input to the motion detector 60 and the scanning line interpolator 61, respectively.

Here, the video signal input to the input terminal 51 is defined as S1, and the field memory 53 and the line memory 5
4. The video signals output from the field memory 55 are S5, S4, and S3, respectively, and the video signals output from the line memory 58, the field memory 56, and the line memory 57 are S2, S1, and S0, respectively.

The mode detector 59 outputs signals S6, S5, S
4, a correlation value between S3, S1, and S0 is obtained, and a telecine selection signal JD1 and a telecine determination signal JD2 are output to the scanning line interpolator 61 based on the correlation value. Telecine determination signal JD2
Is a signal indicating whether the input interlaced scanning image signal is a normal television interlaced scanning video signal or an interlaced scanning video signal generated by telecine conversion from movie film, The telecine selection signal JD1 is a signal of the field to be processed.
This signal indicates which of the signal before the field and the signal after the one field has a stronger correlation.

The motion detector 60 outputs signals S4, S3, S
2. The motion of the video between the fields is detected by calculating the correlation value between S0 and the motion detection signal G is output to the scanning line interpolator 61 based on the motion. The scanning line interpolator 61 performs an inter-field or intra-field interpolation process on the video signals S4, S3, S2, and S0 according to the motion detection signal G to generate an interpolation scanning signal, and a video signal S0. Or a film interpolator that selects one of S4 based on the telecine selection signal JD1 and outputs it as an interpolation scanning signal. One of the interpolated scanning signals output from the motion adaptive interpolator and the film interpolator is selected according to the telecine determination signal JD2, interpolated into the signal S2, and output from the output terminal 52 as a progressively scanned video signal. .

[0010]

With the above arrangement, N
Whichever of the interlaced scanning video signal of the normal television system such as TSC and the interlaced scanning video signal generated from the movie film by the telecine conversion is input,
By identifying them and performing appropriate interpolation processing on each of them, a progressive scanning video signal can be generated.

However, in the conventional video signal converter having the above-mentioned configuration, when a subtitle or a telop is inserted into the telecine-converted interlaced scanning video signal, a correct telecine determination signal or a correct telecine selection signal is output. In some cases, the interpolation processing is not generated, or the executed interpolation processing is not appropriate processing for a part of the screen, and the image quality deteriorates. Further, since the telecine determination is performed on a field basis, there is a problem that an extra delay for one field is required.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem. Even if a caption or a telop is inserted in a telecine-converted interlaced scanning video signal, the above-described telecine determination error or the like causes It is an object of the present invention to provide a video signal conversion device that does not deteriorate image quality and does not require extra delay for telecine determination.

[0013]

Means for Solving the Problems In order to solve the above problems,
According to a first aspect of the present invention, there is provided a video signal conversion apparatus for converting an input interlaced scanning video signal into a progressive scanning video signal by interpolating scanning lines, wherein the interlaced scanning video signal of a field to be interpolated is telecine-converted. Is determined based on the strength of correlation with the video signal of the field one frame period before, and a telecine determination means for outputting a telecine determination signal indicating the result is provided. Telecine selecting means for determining which of the field preceding the field to be interpolated and the field following the field to be interpolated has a stronger correlation with the video signal of the field to be interpolated, and outputting a telecine selection signal indicating the result; Checks whether the video signal represents a moving image or a still image, and outputs a motion detection signal indicating the result Motion detecting means, and a film interpolating means for selecting one of the preceding field and the following field according to the telecine selection signal and interpolating the video signal of the field to be interpolated to generate a sequential scanning video signal, According to the motion detection signal, a motion adaptive interpolating unit that performs inter-field or intra-field interpolation processing on the field to be interpolated to generate a progressive scanning video signal, and the film interpolating unit and the motion adaptive interpolating unit. Switching means for selecting any one of the progressive scanning video signals to be output according to the telecine determination signal and outputting the selected signal to the outside, wherein the telecine determination means and the telecine selection means include the telecine determination signal and the telecine determination signal. The telecine selection signal is output for each area of a predetermined size constituting a part of the field. Respectively obtained,
It is characterized in that it is output in units of the area.

According to a second aspect of the present invention, in the first aspect of the present invention, when the determination signal of one area is different from other equal determination signals of the surrounding area, the one area is determined. And a space expanding means for changing the determination signal to the same as the other determination signals.

According to a third aspect of the present invention, in the first or second aspect of the invention, the signal generated by the telecine conversion is a signal read from a cinema film.
-3 is a signal obtained by pull-down processing.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 FIG. 1 is a block diagram showing a configuration of a video signal conversion device according to a first embodiment of the present invention. In the figure, reference numeral 11 denotes an input terminal for inputting an interlaced scanning video signal to be converted, 12 denotes an output terminal for outputting a progressively converted video signal, and 1
3, 14, 15 are field memories, 16 is a mode detector, 17 is a motion detector, 18 is a motion adaptive interpolator, 19
Is a film interpolator, and 20 is a switching circuit.

Next, the operation of the video signal converter according to the first embodiment will be described. The interlaced scanning video signal input via the input terminal 11 is
The field is delayed and then input to the field memory 14 and delayed by one field.
5 and is delayed by one field.

The mode detector 16 receives a video signal input from the input terminal 11 and a two-field delayed video signal output from the field memory 14. The mode detector 16 obtains the correlation values of these video signals not for the entire field but for the areas at the corresponding positions in each field, and outputs a telecine determination signal and a telecine selection signal in area units based on the results. I do. As described above, the telecine determination signal is an interlaced video signal in which the input video signal is a normal television interlaced video signal or a telecine conversion generated from a movie film by telecine conversion. The telecine selection signal is a signal indicating whether the signal of the field to be processed has a stronger correlation with the signal before the field or the signal after the field.

The motion detector 17 includes a field memory 1
A 1-field delayed video signal and a 3-field delayed video signal are input from the 3 and field memories 15, respectively. The motion detector 17 checks whether or not there is motion between fields based on the correlation between the two video signals.
A motion detection signal indicating whether the video signal indicates a moving image or a still image is output to the motion adaptive interpolator 18.

The motion adaptive interpolator 18 detects the motion of the one-field delayed video signal output from the field memory 13 and the two-field delayed video signal output from the field memory 14 by using the motion detection output from the motion detector 17. In accordance with the signal, inter-frame or intra-frame interpolation processing is performed, and progressive scanning video signal (motion adaptive interpolation video signal)
Generate

The film interpolator 19 selects either a two-field delayed video signal output from the field memory 14 or a video signal input from the input terminal 11 based on a telecine selection signal output from the mode detector 16. Then, the video signal is interpolated into a one-field-delayed video signal output from the field memory 13 to generate a progressively-scanning video signal (film-interpolated video signal).

The switching circuit 20 includes a motion adaptive interpolator 18
, And one of the film interpolation video signal output from the film interpolator 19 is selected in accordance with the telecine determination signal output from the mode detector 16, and sequentially selected via the output terminal 12. It is output to the outside as a scanning video signal. As already explained,
Since the telecine determination signal is generated in units of regions of a predetermined size in the field, the switching circuit 20 switches between the motion adaptive interpolation video signal and the film interpolation video signal in units of regions.

According to the configuration of the first embodiment, when a caption or a telop is inserted into the screen, the mode detector 16 sets different telecine determination signals and telecine selection signals for the area for displaying the caption or telop and the other area. Since a signal can be generated, appropriate interpolation processing is performed for each area, and video signal switching is performed for each area, thereby preventing deterioration in image quality.

Embodiment 2 FIG. In the configuration of the first embodiment, when a noise component included in a video signal is large, an erroneous determination due to noise may result in generation of an erroneous telecine determination signal. Means for preventing erroneous determination due to noise is provided.

FIG. 2 shows a configuration of a video signal conversion device according to a second embodiment of the present invention. In the second embodiment, the mode detector 1
6 is different from that of the first embodiment in that the telecine determination signal output from 6 is supplied to the switching circuit 20 via the space expander 21. Hereinafter, the operation of the device according to the second embodiment will be described with respect to portions different from the first embodiment.

As in the case of the first embodiment, the mode detector 16 generates a telecine determination signal for each area. The space expander 21 compares the input telecine determination signal with another telecine determination signal for the surrounding area. If the input telecine determination signal is different from the telecine determination signal in the surrounding area and is isolated from other areas, it is determined that an erroneous determination due to noise has occurred, and The signal is supplied to the switching circuit 20 according to the telecine determination signal of the area.

As described above, in the second embodiment, even when noise is mixed in the video signal and an error occurs in the telecine determination, the error is corrected by performing the spatial expansion of the telecine determination, and the deterioration of the image quality is reduced. Can be prevented.

[0028]

Since the present invention is configured as described above, it has the following effects.

According to the first aspect of the invention, the strength of the correlation between the video signal of the field to be interpolated and the video signal of the field one frame before, the field preceding and following the field to be interpolated. Which of the fields has a stronger correlation with the video signal of the field to be interpolated is detected for each area of a predetermined size in the field, so subtitles and telops are inserted in the telecine-converted interlaced scanning video signal. However, it is possible to perform an appropriate interpolation process on each area, and it is possible to prevent the image quality from deteriorating. Further, the field delay required for the telecine determination can be reduced.

According to the second aspect of the present invention, when the judgment signal of one area is different from the other judgment signals of the surrounding area which are equal to each other, the judgment signal of the one area is replaced with the judgment signal of the other area. Even if noise is mixed in the video signal and an error occurs in the telecine judgment, the error is corrected by expanding the space of the telecine judgment, preventing the deterioration of the image quality because it is changed to the same as the judgment signal of can do.

According to the third aspect of the present invention, it is possible to convert an interlaced scanning signal obtained by performing 2-3 pull-down processing on a signal read from a movie film into a progressive scanning video signal.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a video signal conversion device according to a first embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of a video signal conversion device according to a second embodiment of the present invention.

FIG. 3 is a block diagram illustrating a configuration of a conventional video signal conversion device.

[Explanation of symbols]

11, 51 input terminal, 12, 52 output terminal, 1
3, 14, 15, 53, 55, 56 field memory, 16, 59 mode detector, 17, 60 motion detector, 18 motion adaptive interpolator, 19 film interpolator, 20 switching circuit, 21 space expander, 5
4, 57, 58 line memory, 61 scanning line interpolator.

Claims (3)

[Claims] 1. A video signal converter for converting an input interlaced scanning video signal into a progressive scanning video signal by interpolating scanning lines, wherein an interlaced scanning video signal of a field to be interpolated is generated by telecine conversion. A telecine judging means for judging whether or not the signal is a signal based on the strength of correlation with the video signal of the field one frame period before, and outputting a telecine judging signal indicating the result; A telecine selection unit that checks which of the field to be interpolated and the subsequent field has a stronger correlation with the video signal of the field to be interpolated, and outputs a telecine selection signal indicating the result; Or a still image, and outputs a motion detection signal indicating the result. Output means, film interpolating means for selecting one of the preceding field and the following field according to the telecine selection signal, and interpolating the video signal of the field to be interpolated to generate a sequential scanning video signal; In accordance with the detection signal, a motion-adaptive interpolator for performing inter-field or intra-field interpolation on the field to be interpolated to generate a progressive scanning video signal; output from the film interpolator and the motion-adapter interpolator, respectively. Switching means for selecting any one of the progressive scanning type video signals according to the telecine determination signal and outputting the selected signal to the outside, wherein the telecine determination means and the telecine selection means comprise the telecine determination signal and the telecine selection. The signal is divided into regions of a predetermined size that constitute a part of the field. A video signal conversion device, wherein the video signal is obtained and output in units of the area. 2. When the judgment signal of one area is different from the other judgment signals of the surrounding area which are equal to each other, the judgment signal of the one area is changed to the same as the other judgment signal. The video signal conversion device according to claim 1, further comprising a space enlarging unit. 3. The video signal according to claim 1, wherein the signal generated by the telecine conversion is a signal obtained by performing 2-3 pull-down processing on a signal read from a movie film. Conversion device.