JP3733840B2 - Recording / playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus for recording or reproducing data such as video signals and audio signals, such as a digital VTR.
[0002]
[Prior art]
In recent years, an HDTV (high definition TV) system has been developed as a new broadcasting system, and broadcasting has already started as a DTV broadcasting in the United States. In the DTV broadcast, a video signal is encoded by the MPEG2 system disclosed as the ISO / IEC 13818 standard, and broadcast as a digital broadcast together with a multi-channel audio signal such as the Dolby Digital system. In digital broadcasting, video signals are compressed and encoded, and many channels can be transmitted in a small frequency band, which enables high image quality and multi-channels. However, in the US DTV broadcasting, 18 formats with different numbers of scanning lines and frame frequencies are stipulated, and it is possible to freely select and broadcast for each broadcaster. There is a need to develop a multi-format compatible VTR that supports the above-mentioned standards.
[0003]
In particular, news gathering equipment, studio equipment, and the like that are compatible with the HDTV system are expensive, and it is extremely difficult to recreate a new HDTV broadcast material from the viewpoint of cost and time. Therefore, broadcasting materials are made by converting movie films for TV. When a movie film is used as the material, the movie film is a sequential scanning signal (hereinafter referred to as a 24p signal) having 24 frames per second, that is, a frame frequency of 24 Hz. In order to record a TV signal on a recording / reproducing VTR, it is necessary to convert the frame frequency. Converting a movie into a TV signal is generally called telecine conversion. In the telecine conversion, the frame frequency is converted by repeating the generation of field images of 2 fields, 3 fields, 2 fields, and 3 fields in order of time series from one frame of movie film. However, when a telecine-converted signal is recorded by a conventional VTR, it is necessary to make the editing point coincide with the frame break of the original film, and there is a limitation in editing, so the movie material remains as it is, that is, with a frame frequency of 24 Hz. It was desired to record on a VTR.
[0004]
As an example of a VTR that records the 24p signal described above, a method for recording a 24p signal using a so-called HD-D5 VTR that compresses and encodes an HDTV signal and records / reproduces it on a D5 VTR disclosed in the SMPTE279M standard will be described. To do.
[0005]
FIG. 6 shows the configuration of a video signal processing unit of an HD-D5 VTR capable of recording a video signal (hereinafter referred to as 1080 / 24p signal) having 1125 scanning lines, 1080 effective scanning lines, and a frame frequency of 24 Hz. FIG.
[0006]
Hereinafter, a method for recording and reproducing a progressive scanning video signal having 1080 effective scanning lines and a frame frequency of 24 Hz will be described.
[0007]
A 1080 / 24p signal is input to the input terminal 1010. In the input processing unit 1000, the synchronization signal is separated from the input signal, and synchronization is established. Next, the conversion means 1001 converts the sequential scanning signal into an interlaced scanning signal and converts it into a pseudo scanning signal (1080 / 48i signal) with a pseudo field frequency of 48 Hz. A conversion method in the conversion means 1001 is shown in FIG. As shown in FIG. 7, among the image signals for one frame of the 1080 / 24p signal, the odd line data is assigned to the first field of the 1080 / 48i signal and the even line data is assigned to the second field of the 1080 / 48i signal. , Converted into a pseudo interlaced scanning signal.
[0008]
Next, compression encoding means 1002 performs compression encoding using DCT (Discrete Cosine Transform) in units of fields to obtain compressed encoded data 1011 having a data amount compressed to about ¼. The compressed encoded data 1011 is subjected to recording processing such as addition of an error correction code, addition of a synchronization signal, and modulation for recording on the tape in the recording processing unit 1003, and the recording signal 1012 is recorded on the tape 1016. .
[0009]
Next, the reproduction processing means 1004 demodulates the reproduction data 1013 reproduced from the tape 1016, performs reproduction processing such as synchronization signal detection and error correction, and restores the compressed encoded data 1014. Then, the compression / decoding means 1005 performs the reverse process of the compression / encoding means 1002 to restore the interlaced scanning signal having a field frequency of 48 Hz. The inverse conversion means 1006 restores the sequential scanning signal (1080 / 24p signal) with a frame frequency of 24 Hz by synthesizing two fields of pseudo interlaced scanning signals with a field frequency of 48 Hz to form one frame image signal. The output processing means 1007 adds a synchronization signal and the like and outputs the result from the output terminal 1015.
[0010]
[Problems to be solved by the invention]
However, in the conventional configuration, a problem occurs when variable speed reproduction of +1 times or higher speed is performed. In a conventional recording / reproducing apparatus, if an AT (auto-tracking) head is mounted on the drum, the AT head traces on the recording track even during variable speed reproduction of +1 times or higher speed, so that reproduction without noise can be performed. However, since the track traced by the head is discontinuous during variable speed reproduction at + 1 × speed or higher, the field of the reproduction signal data is necessarily discontinuous.
[0011]
For example, when the AT head traces a recording track in units of fields, discontinuous points occur in the reproduction signal field as shown in FIG. FIG. 8 shows the field information of the reproduction data when the tape is reproduced at a slightly higher reproduction speed than +1 times. In FIG. 8, the reproduction signal field f1 indicates that the first field is reproduced, and f2 indicates that the second field signal is reproduced. Normally, the first field and the second field are reproduced in this order. However, at the discontinuous points indicated by the arrows in FIG. 8, the first field or the second field is reproduced continuously. When a discontinuity occurs in the reproduction signal field, the inverse conversion unit 1006 converts the field signal into a frame signal and outputs it as a 24p signal. When the 24p signal is output, an image signal for one frame of the 24p signal has a different recording frame. It will be comprised from the image signal of this. In this case, when telecine conversion is performed and the image is converted to 60 Hz and output, the time axis of the output image may be reversed, causing a problem that the motion of the image becomes strange.
[0012]
This will be described in detail below with reference to FIG. In FIG. 9, for example, the number in parentheses denoted by f1 (2) represents the original recording frame number of each reproduction data, and f1 (2) represents the first frame of recording frame number 2. For example, in FIG. 9, the reproduction signal having a 24 Hz output frame number of 3 is composed of a second field f2 (3) of a frame of recording frame number 3 and a first field f1 (4) of recording frame number 4. . In this case, when telecine conversion is performed, the image signal of the first field of recording frame number 4 and the recording frame number are shown at the boundary between the frame of 60i output frame number 3 and the frame of 60i output frame number 4 in FIG. 3 are displayed in the order of the image signals of the second field. Therefore, on the TV monitor, the frames are displayed in the order of frame number 4 and frame number 3, so that the display order of the images is reversed on the time axis, so that the motion becomes unnatural in an image with a large motion. There was a point. Since a TV monitor that can display a 24p signal as it is is not common, it is common to telecine-convert the 24p signal and display it on a TV monitor as a 60i signal. In this case, however, the motion of the image is unnatural. It became a big problem.
[0013]
In addition, when the playback speed of the tape is changed and the rotation speed of the drum on which the head is mounted is changed in accordance with the playback speed of the tape (generally called program playback), Since the relative speed between the tapes does not change, the head traces on the recording track. Even in this case, one frame of the output signal may be composed of the image signal of another recording frame. When the 60i signal is used, there is a problem that the motion of the image becomes unnatural as in the case of variable speed reproduction.
[0014]
The present invention solves the above-mentioned problems, and provides a VTR that can prevent the time axis of an output image from reversing during variable speed playback or program playback, and eliminate the unnatural motion. For the purpose.
[0015]
[Means for Solving the Problems]
In order to achieve the above object, the recording / reproducing apparatus of the present invention deletes a missing divided image or missing a divided image constituting a frame image at the same time when reproducing at a speed other than + 1 × speed. If there is an overlapping divided image, delete the overlapping divided image or replace the overlapping divided image with the divided images constituting the frame image at the same time. .
[0016]
With this configuration, the recording / reproducing apparatus of the present invention can always configure each frame image of the output sequential scanning signal as a field image at the same time even when the reproducing speed of the recording medium is other than + 1 × speed. It is possible to prevent the time axis of the output image from being reversed during variable speed reproduction or program reproduction, and to eliminate the unnaturalness of movement.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
In the first aspect of the present invention, each frame image of the progressive scanning signal is divided into predetermined divided images. Is a field A recording / reproducing apparatus for reconstructing the frame image from the reproduced divided image and sequentially outputting it as a scanning signal, in the reproduced divided image, The field is If there are missing split images, By sequentially outputting divided images for the remaining fields, the missing divided images are substituted, or by sequentially deleting the divided images for the remaining fields, the scanning signals are sequentially output. Reconstruct and output, In the reproduced divided image, The field is If there are overlapping divided images, the overlapping divided images Delete one, Alternatively, the overlapping divided images may be replaced with the divided images constituting the frame image at the same time. It is possible to reconstruct and output the sequential scanning signal by performing alternately. The feature of the recording / reproducing apparatus is that each frame image of the output sequential scanning signal can be made up of a field image at the same time by eliminating divided images that are missing or overlapping from the output sequential scanning signal.
[0018]
In addition, the first of the present invention 2 In this invention, a sequential scanning signal having a frame frequency of 24 Hz is converted into an interlaced scanning signal having a field frequency of 48 Hz, recording and reproduction are performed in field units, and the interlaced scanning signals of the two reproduced fields are synthesized to sequentially generate one frame. When the recording / reproducing apparatus outputs as a scanning signal and the reproducing speed of the storage medium is 1 × or higher, If one of the two interlaced scanning signals constituting the frame at the same time is missing, the missing field is obtained by continuously outputting the interlaced scanning signal for the existing field. The interlaced scanning signal is replaced, or the interlaced scanning signal for the existing field is alternately deleted to reconstruct and output the sequential scanning signal. By eliminating the interlaced scanning signal that is missing from the output sequential scanning signal, each frame image of the output sequential scanning signal is always a field image at the same time during variable speed reproduction of 1 × speed or more. Can be configured.
[0019]
According to a third aspect of the present invention, a progressive scanning signal having a frame frequency of 24 Hz is converted into an interlaced scanning signal having a field frequency of 48 Hz, recording and reproduction are performed in field units, and the reproduced interlaced scanning signals of two fields are synthesized. A recording / reproducing apparatus that outputs a sequential scanning signal of one frame, where the reproduction speed of the recording medium is between −1 × speed and + 1 × speed, When interlaced scanning signals of the same field and the same field are reproduced in duplicate, one of the interlaced scanning signals is deleted, or the overlapping fields are deleted and replaced with two fields constituting the same frame. By alternately performing, the scan signal is reconstructed and output. By eliminating the interlaced scanning signal that overlaps the output sequential scanning signal, each frame image of the output sequential scanning signal is always at the same time during variable speed playback from -1 × to 1 × speed. Field images.
[0020]
According to a fourth aspect of the present invention, an input sequential scanning signal having a frame frequency of 24 Hz is converted into an interlaced scanning signal having a field frequency of 48 Hz, recording and reproduction are performed in field units, and the reproduced interlaced scanning signals for two fields are synthesized. A recording / reproducing apparatus that outputs a sequential scanning signal for one frame, wherein the reproduction speed of the storage medium is increased by +1 times or more, and the rotation speed of the drum equipped with the magnetic head is increased at the same rate as the reproduction speed of the recording medium. To play If one of the two interlaced scanning signals constituting the frame at the same time is missing, the missing field is obtained by continuously outputting the interlaced scanning signal for the existing field. The interlaced scanning signal is replaced, or the interlaced scanning signal for the existing field is alternately deleted to reconstruct and output the sequential scanning signal. By eliminating the interlaced scanning signal missing from the output sequential scanning signal, each frame image of the output sequential scanning signal is always a field image at the same time during program playback at +1 times speed or higher. Can be configured.
[0021]
According to a fifth aspect of the present invention, a progressive scanning signal with a frame frequency of 24 Hz is converted into an interlaced scanning signal with a field frequency of 48 Hz, recording and reproduction are performed in field units, and the reproduced two fields of interlaced scanning signals are synthesized to produce one frame. Is a recording / reproducing device that outputs a sequential scanning signal for 1 minute, and makes the reproduction speed of the recording medium +1 times or less, and further reduces the rotation speed of the drum equipped with the magnetic head at the same rate as the reproduction speed of the recording medium. if you did this, When interlaced scanning signals of the same field and the same field are reproduced in duplicate, one of the interlaced scanning signals is deleted, or the overlapping fields are deleted and replaced with two fields constituting the same frame. It is possible to reconstruct and output the sequential scanning signal by performing alternately. A characteristic recording / reproducing apparatus that eliminates an interlaced scanning signal from an output sequential scanning signal, so that each frame image of the output sequential scanning signal is always composed of a field image at the same time during program reproduction of +1 times or less speed. be able to.
[0022]
(Embodiment 1)
In the present embodiment, a case will be described in which a tape is played back at a playback speed of +1 times or higher during special playback.
[0023]
FIG. 1 is a block diagram showing the configuration of the recording / reproducing apparatus of the present invention.
[0024]
In FIG. 1, 1 is a selection means for selecting either video data 17 or delayed video data 18 and outputting it as video data 19, 2 is a delay means for delaying video data 17 in field units, and 1000 is an input terminal 10. An input unit that performs serial-parallel conversion, separation of synchronization signals, and the like, and outputs video data 11, and 1001 a conversion unit that sequentially converts the video data 11 of the scanning signal into video data 12 of the scanning signal, Reference numeral 1002 denotes compression encoding means for compressing the video data 12 using DCT in units of fields and outputting the compressed encoded data 13. Reference numeral 1003 denotes an error correction code, a synchronization signal added to the compressed encoded data 13, and a tape Recording means for performing recording processing such as modulation for recording and recording the recording data 14 on the tape 1016 04 is a reproduction processing means for demodulating and reproducing the reproduction data 15 reproduced from the tape 1016, and outputs the demodulated reproduction data 16; 1005, the demodulated reproduction data 16 is subjected to a process reverse to that of the compression encoding means 1002, and video data 17 is a compression decoding means for outputting 17, 1006 is an inverse conversion means for converting the video data 19 of the interlaced scanning signal into the video data 20 of the sequential scanning signal, and 1007 is an addition of a synchronization signal to the video data 20 and parallel serial conversion. This is an output means for outputting a video signal to the output terminal 22.
[0025]
In this embodiment, a digital VTR capable of recording a video signal (1080 / 24p signal) having 1125 scanning lines, 1080 effective scanning lines, and a frame frequency of 24 Hz will be described as an example.
[0026]
Hereinafter, the recording / reproducing apparatus of the present invention will be described in detail with reference to FIG.
[0027]
The input terminal 10 receives a 1080 / 24p signal as a serial digital signal having a frequency of about 1.5 GHz disclosed in the SMPTE (Society of Motion Picture and Television Engineers) 274M standard. Input processing such as synchronization signal separation is performed. The video data 11 output from the input unit 1000 is converted from the sequential scanning signal to the interlaced scanning signal by the conversion unit 1001 using the same method as described in the related art. That is, the odd line data is assigned to the first field, the even line data is assigned to the second field, and the sequential scanning signal having a frame frequency of 24 Hz is converted to the interlaced scanning signal having a field frequency of 48 Hz. The video data 12 converted into the interlaced scanning signal is compressed and encoded using DCT in a compression encoding means 1002 in a field unit of a field frequency of 48 Hz, and the data amount is compressed to about 1/4. The data 13 is obtained. The compressed encoded data 13 is recorded on the tape 1016 after recording processing such as addition of an error correction code, addition of a synchronization signal, modulation for recording on the tape, etc. is performed in the recording processing means 1003. .
[0028]
Next, the reproduction processing means 1004 demodulates the reproduction data 15 reproduced from the tape 1016, performs reproduction processing, and restores the demodulated reproduction data 16. Then, the compression / decoding unit 1005 performs the reverse process of the compression / encoding unit 1002 to restore the video data 17. The delay means 2 delays the video data 17 output from the compression decoding means 1005 by one field or a plurality of fields in a field (48 Hz) unit. Here, if the AT head is mounted on the drum, the selecting means 1 uses the field data of the recording track to be traced by the AT head and the video data 17 output from the compression decoding means 1005 and the field in the delay means 2. One of the delayed video data 18 delayed in units is selected and output.
[0029]
Hereinafter, the operation of the selection unit 1 will be described in detail.
[0030]
First, during normal playback, that is, when there are no discontinuities. The selection unit 1 selects and outputs the video data 17 output from the compression decoding unit 1005.
[0031]
Next, a description will be given of a case where the tape is played back at a playback speed of 1 × speed or higher in the forward direction, that is, + 1 × speed or higher during special playback. Even if the playback speed is + 1x or higher, if an AT head is installed, the recording track can be traced up to + 2x, for example, and noise-free playback is possible. The track to be traced becomes discontinuous and the field of the reproduction signal becomes discontinuous. FIG. 2 is a timing chart for explaining the operation of the selection means 1 and the delay means 2 when the reproduction speed is slightly higher than the + 1 × speed.
[0032]
In FIG. 2, the reproduction signal field f1 represents the first field, and f2 represents the reproduction of the second field signal. In FIG. 2, for example, the number in () written as f 1 (2) represents the original recording frame number of each reproduction signal. For example, f1 (2) indicates the first field of recording frame number 2. As shown in FIG. 2, the reproduction signal field repeats f1 and f2 during normal reproduction. However, when the reproduction speed is +1 times or more, the same field as f1, f1 or f2, f2 may occur continuously. To do.
[0033]
First, the selection means 1 obtains information for reading the first field f1 (1) of the recording frame number 1 from the AT head and subsequently reading the second field f1 (2) from the AT head in the frame of 24Hz output frame number 1. In the output frame number 1, the video data 17 output from the compression decoding means 1005 is selected on both the first field side and the second field side. Similarly, in the 24 Hz output frame number 2 frame, both the first field side and the second field side output the video data 17 output from the compression decoding means 1005, that is, the first field f1 (2) of the recording frame number 2 and the first field side. Two field f2 (2) is selected.
[0034]
Next, the selecting means 1 receives information for reading the first field of the frame of the recording frame number 4 after the second field f2 (3) of the recording frame number 3 in the frame of the 24 Hz output frame number 3 from the AT head. . Since the first field f1 (3) of the recording frame number 3 is missing, the selection unit 1 substitutes the video data of the second field f2 (3) with the video data of the first field f1 (3). That is, the selection means 1 continuously outputs the video data f2 (3) of the second field of the recording frame number 3 as shown in the selection means output field of FIG. In this case, the selection means 1 selects the video data 17 output from the compression decoding means 1005 on the first field side in the frame of 24 Hz output frame number 3, and the second field side uses the delay means 2 for one field. The delayed video data of the second field of the recording frame number 3 is selected.
[0035]
Further, since the second field f2 (9) of the recording frame number 9 is missing in the frame of the 24 Hz output number frame number 8 from the information from the AT head, the selection means 1 has the first field f1 (9). Is replaced with the video data of the second field f2 (9). That is, the selection means 1 operates so as to continuously output the video data of the first field of the recording frame number 9 indicated by f1 (9) as shown in the selection means output field of FIG. In this case, the selection means 1 selects the video data 17 output from the compression decoding means 1005 on the first field side in the frame of 24 Hz output frame number 9, and the second field side uses the delay means 2 for one field. The video data of the delayed recording frame number 9 in the first field is selected.
[0036]
As shown in FIG. 2, the image signals for two fields constituting one frame image of the video data 19 output from the selection means 1 are always composed of a combination of image signals of the same recording frame. The combination of image signals of the same recording frame constitutes a frame indicated by a recording frame number (first field, second field), (first field, first field), (second field, second Field) combinations are possible, and if one field is missing, the existing field is output continuously.
[0037]
Also, in the frame of 24 Hz output frame number 6, the first field f1 (6) of recording frame number 6 is missing the second field, but in the selection means output field of FIG. The number of frames is deleted so that no contradiction occurs. That is, in the recording frame number 2, the image data in the second field of the recording frame 6 is deleted as much as the image data in the first field is added. In this case, the entire number of frames is adjusted by alternately performing substitution and deletion operations using fields that are not missing every three frames.
[0038]
The video data 19 output from the selection means 1 is converted in the inverse conversion means 1006 from the interlaced scanning signal having a field frequency of 48 Hz to the sequential scanning signal having a frame frequency of 24 Hz, as indicated by the 60i output signal in FIG. Next, the output means 1007 adds a synchronization signal and performs parallel-serial conversion, and outputs it from the output terminal 22 as a serial digital signal having a frequency of about 1.5 GHz.
[0039]
As described above, when the reproduction speed is + 1 × or more, each frame image of the progressive scanning signal to be output is always a combination of the image data of the first and / or second field of the recording frame having the same recording frame number. Even when the telecine conversion and the conversion to the 60i signal are performed as shown in FIG. 2, the time axis of the recording frame number does not change. The movement of the image is prevented from becoming unnatural, and the problem that the movement of the image becomes unnatural on the TV monitor does not occur.
[0040]
In the present embodiment, the selection unit 1 alternately performs substitution and deletion operations every three frames. However, the selection unit 1 is not limited to this, and the timing of substitution and deletion is adjusted according to the playback speed. Is done.
[0041]
(Embodiment 2)
In the present embodiment, a case will be described in which the tape is played back at a playback speed from 1 × speed (−1 × speed) in the negative direction to 1 × speed (+ 1 × speed) in the positive direction during special playback. Since the configuration of the recording / reproducing apparatus in the present embodiment is the same as that of the first embodiment, and only the operations of the selection unit 1 and the delay unit 2 are different, only the operations of the selection unit 1 and the delay unit 2 will be described below. .
[0042]
When the playback speed is between -1x speed and + 1x speed, the field number of the recording track traced by the AT head is always continuous or repeated in the same field, so the field number of the playback signal is also continuous or repeated in the same field. Become. FIG. 3 is a time chart when the playback speed is between −1 × speed and + 1 × speed, and illustrates the case where the playback speed is about 0.8 × speed. In FIG. 3, the reproduction signal field f1 represents the first field, and f2 represents the reproduction of the second field signal. In FIG. 3, for example, the number in parentheses denoted by f1 (2) represents the original recording frame number of each reproduction signal.
[0043]
As shown in FIG. 3, when the reproduction speed is between -1 × speed and + 1 × speed, when the reproduction signal field changes from f1 to f2 or from f2 to f1, the field numbers before and after the change are Always be continuous. In the case of 0.8 times speed, data in the same field is continuously reproduced once every five fields. Here, if the AT head is mounted on the drum, the selecting means 1 uses the field data of the recording track to be traced by the AT head and the video data 17 output from the compression decoding means 1005 and the field in the delay means 2. One of the delayed video data 18 delayed in units is selected and output.
[0044]
Hereinafter, the operation of the selection unit 1 will be described with reference to FIG.
[0045]
First, the selecting means 1 obtains information for reading the first field f1 (1) of the recording frame number 1 and subsequently reading the second field f1 (2) from the AT head in the frame of 24 Hz output frame number 1. At this time, the selection unit 1 does not know whether or not the next frame to be read is a repetition of the same field, and therefore does not operate. Next, the selecting means 1 reads information from the AT head that reads the first field f1 (2) of the frame of the recording frame number 2 in the frame of 24Hz output frame number 2, and then reads the second field f2 (2). obtain. At this time, since the selection means 1 has the video data constituting the next frame, the video data f1 (1) of the first field of the recording frame number 1 is output to the first field side output. For output, the video data f2 (1) of the second field of the recording frame number 1 is output. In this case, the selection means 1 selects and outputs the first field f1 (1) and the second field video data f2 (1) of the recording frame number 1 delayed by the delay means 2 by two fields.
[0046]
Next, the selecting means 1 reads the second field f2 (2) of the recording frame number 2 in the frame of the 24 Hz output frame number 3 from the AT head, and subsequently reads the first field f1 (3) of the recording frame number 3 Get information to read. At this time, since the video data constituting the frame of the next recording frame number 2 is prepared, the selection means 1 has the video data f1 (2) of the first field of the recording frame number 2 for the first field side output. In the second field side output, the video data f2 (2) of the second field of the recording frame number 2 is output. In this case, the selection unit 1 selects and outputs the first field f1 (2) and the second field video data f2 (2) of the recording frame number 2 delayed by two fields by the delay unit 2.
[0047]
Further, the selection means 1 reads the second field f2 (3) of the recording frame number 3 in the frame of the 24 Hz output frame number 4 from the AT head, and then reads the first field f1 (4) of the recording frame number 4. get information. At this time, since the second field f2 (2) of the recording frame number 2 is duplicated and the video data constituting the frame of the recording frame number 3 is prepared, the selection unit 1 outputs the first field side. Is output the video data f1 (3) of the first field of the recording frame number 3, and the video data f2 (3) of the second field of the recording frame number 3 is output to the second field side output. The second field f2 (2) of the recorded recording frame number 2 is deleted. In this case, the selection means 1 selects and outputs the first field f1 (3) and the second field video data f2 (3) of the recording frame number 2 delayed by one field by the delay means 2.
[0048]
In addition, in the 24 Hz output frame numbers 5 and 6, the frame of the recording frame number 4 is continuously output. This is the second field f2 (4) of the recording frame number 4 read out redundantly. Is deleted, and the frame of recording frame number 4 is continuously output so that there is no contradiction in the number of frames of playback video from -1 × speed to 1 × speed. In this case, in the frames of 24 Hz output frame numbers 5 and 6, the selection unit 1 uses the delay unit 2 to delay the first field f1 (4) and the second field of the recording frame number 4 delayed by 2 fields and 4 fields, respectively. The field video data f2 (4) is selected and output. That is, two fields (= 1 frame) of the second field f2 (2) of the recording frame number 2 and the second field f2 (4) of the recording frame number 4 which are read out redundantly are equivalent to one frame of the recording frame 4. It substitutes with. In this case, every two frames, the two overlapping fields are replaced with two fields constituting the same frame, and the total number of frames is adjusted.
[0049]
In this way, in the case of 0.8 times speed, since the data of the same field is continuously reproduced once every 5 fields, the delay amount by the delay means 2 is prevented so as to output the data of the same field once every 5 fields. Is made variable.
[0050]
As described above, the delay amount in the delay means 2 is variable, and a delay from one field delay to a plurality of field delays is possible. The video data 19 output from the selection unit 1 is sequentially converted into a scanning signal by the inverse conversion unit 1006, subjected to output processing by the output unit 1007, and then output from the output terminal 22. At this time, since each frame image of the progressive scanning signal to be output is always composed of the image data of the first field and the second field having the same recording frame number, the 60i signal is obtained by performing telecine conversion as shown in FIG. Even when converted to, the time axis of the image does not change, so that the problem of unnatural movement of the image on the TV monitor does not occur.
[0051]
In this embodiment, the case of 0.8 times speed has been described. However, the present invention is not limited to this, and even when reproducing at a speed other than 0.8 times speed, the selection means can be changed by varying the delay amount. Each frame image of the progressive scanning signal output from 1 can always be composed of image data of the first field and the second field of the same recording frame number.
[0052]
Further, in this embodiment, the timing for substitution with two fields constituting the same frame in order to adjust the total number of frames by the amount corresponding to the deletion of duplicate fields is set every four frames. However, the present invention is not limited to this. Instead, the replacement timing is adjusted according to the playback speed.
[0053]
(Embodiment 3)
In the present embodiment, processing when program reproduction is performed at + 1 × speed or higher will be described. Since the configuration of the recording / reproducing apparatus in the present embodiment is the same as that of the first embodiment, and only the operations of the selection unit 1 and the delay unit 2 are different, only the operations of the selection unit 1 and the delay unit 2 will be described.
[0054]
Program playback is to change the playback speed of the tape and change the rotation speed of the drum equipped with the head according to the playback speed of the tape, and the relative speed between the head and the tape does not change. The head automatically traces on the recording track, and the reproduction time can be slightly changed with respect to the recording time. For example, it is a reproduction method that allows adjustment of reproduction time such that a tape recorded for 60 minutes is reproduced in 59 minutes.
[0055]
Hereinafter, a case where the playback speed is set to +1 times or higher in program playback will be described with reference to FIG.
[0056]
When the program is played back at a speed of +1 or higher speed, the head traces all over the recording track, but the playback processing means 1004 skips a part of the playback field. For example, when 62 fields of data are played back from the tape during program playback, the playback processing means 1004 skips 2 fields of data, and the playback processing means 1004 receives 60 fields of data per second. Output. Thus, discontinuities occur in the playback field.
[0057]
FIG. 4 is a time chart in the case where the playback speed is slightly faster than the +1 times speed in the program playback. In FIG. 4, the reproduction signal field f1 indicates that the first field is reproduced, and f2 indicates that the second field signal is reproduced. In FIG. 4, for example, the number in () written as f 1 (2) represents the original recording frame number of each reproduction signal.
[0058]
As shown in FIG. 4, the reproduction signal field repeats f1 and f2 during normal reproduction, but when the reproduction speed is +1 times or more, the reproduction signal field becomes discontinuous and f1, f1 or f2, f2 is generated. . The delay means 2 delays the video data 17 output from the compression decoding means 1005 by one field or a plurality of fields in a field (48 Hz) unit. The selection unit 1 selects and outputs one of the video data 17 output from the compression / decoding unit 1005 and the delayed video data 18 delayed by the field unit in the delay unit 2.
[0059]
The operation of the selection unit 1 will be described with reference to FIG.
[0060]
First, the selection means 1 reads the first field f1 (1) of the recording frame number 1 in the frame of 24Hz output frame number 1 from the AT head in the frame of 24Hz output frame number 1, and then the second field f1 ( 2) is obtained, and the video data 17 output from the compression decoding means 1005 is selected on both the first field side and the second field side. Similarly, in the 24 Hz output frame number 2 frame, both the first field side and the second field side output the video data 17 output from the compression decoding means 1005, that is, the first field f1 (2) of the recording frame number 2 and the first field side. Two field f2 (2) is selected.
[0061]
Next, from the information from the AT head, the selection means 1 detects that the video data f2 (3) of the second field of the recording frame number 3 is missing in the frame of the 24 Hz output frame number 3, so that the first field Instead of the video data f1 (3), the video data f2 (3) is output. In this case, the selection means 1 selects the video data 17 output from the compression decoding means 1005 on the first field side in the frame of 24 Hz output frame number 3, and the second field side uses the delay means 2 for one field. The video data of the delayed recording frame number 3 in the first field is selected.
[0062]
Further, in the 24 Hz output frame numbers 7 and 8, the first field f1 (8) of the recording frame number 8 is missing, but the selection means 1 does not cause any contradiction as the number of frames of the reproduced video at + 1 × speed or higher. Will be deleted. That is, in the frame of 24 Hz output frame number 3, the image data of the second field of recording frame number 8 is deleted as much as the image data of the second field of recording frame number 3 is added. In this case, deletion is performed every 8 frames, and an alternative operation is performed at the third frame of the 8 frames to adjust the total number of frames.
[0063]
The video data 19 output from the selection means 1 is converted from an interlace scanning signal having a field frequency of 48 Hz to a sequential scanning signal having a frame frequency of 24 Hz by an inverse conversion means 1006, and a synchronization signal is added and parallel serial conversion is performed by an output means 1007. Thus, it is output from the output terminal 22 as a serial digital signal having a frequency of about 1.5 GHz.
[0064]
In the present embodiment, the case where only the video data of the first field is read has been described. However, when only the video data of the second field is read, the video data of the second field is continuously transmitted. Thus, a sequential scanning signal of one frame can be constituted by a combination of interlaced scanning signals of the same recording frame.
[0065]
As described above, even when the playback speed is set to +1 times or higher during program playback, each frame image of the progressive scanning signal to be output is always image data of the first and / or second field having the same recording frame number. Even when telecine conversion and conversion to a 60i signal are performed as shown in FIG. 4, the time axis of the image does not change, so that the motion of the image on the TV monitor becomes unnatural. The problem does not occur.
[0066]
In this embodiment, the selection unit 1 deletes every 8 frames and performs the substitute operation at the third frame of the 8 frames. However, the present invention is not limited to this, and the substitute and delete are performed according to the playback speed. The timing is adjusted.
[0067]
(Embodiment 4)
In the present embodiment, a description will be given of processing when a program is played back at + 1 × speed or lower. Since the configuration of the recording / reproducing apparatus in the present embodiment is the same as that of the first embodiment, and only the operations of the selection unit 1 and the delay unit 2 are different, only the operations of the selection unit 1 and the delay unit 2 will be described below. .
[0068]
When the program is played back at + 1 × speed or lower in program playback, the head traces all over the recording track, but the playback processing means 1004 outputs a part of the playback field in duplicate. For example, when 58 fields of data are reproduced from the tape during playback of the program, the playback processing means 1004 outputs two fields of data in duplicate, and the playback processing means 1004 outputs 60 fields of data per second. Output data. Therefore, there are cases where the reproduction signal field repeats the same field.
[0069]
FIG. 5 is a timing chart in the case where the playback speed is slightly slower than +1 times in the program playback. In FIG. 5, the reproduction signal field f1 represents the first field, and f2 represents the reproduction of the second field signal. In FIG. 5, for example, the number in parentheses denoted by f1 (2) represents the original recording frame number of each reproduction signal. As shown in FIG. 5, the reproduction signal field repeats f1 and f2 during normal reproduction. However, when the reproduction speed is +1 times or less, there are cases where the same field continues in the reproduction signal field, and f1, f1 or The cases of f2 and f2 occur. The delay means 2 delays the video data 17 output from the compression decoding means 1005 by one field or a plurality of fields in a field (48 Hz) unit. The selection unit 1 selects and outputs one of the video data 17 output from the compression / decoding unit 1005 and the delayed video data 18 delayed by the field unit in the delay unit 2.
[0070]
The selection method of the selection means 1 is demonstrated using FIG.
[0071]
First, the selecting means 1 obtains information for reading the first field f1 (1) of the recording frame number 1 and subsequently reading the second field f1 (2) from the AT head in the frame of 24 Hz output frame number 1. At this time, the selection unit 1 does not know whether or not the next frame to be read is a repetition of the same field, and therefore does not operate. Next, the selecting means 1 reads information from the AT head that reads the first field f1 (2) of the frame of the recording frame number 2 in the frame of 24Hz output frame number 2, and then reads the second field f2 (2). obtain. At this time, since the selection means 1 has the video data constituting the next frame, the video data f1 (1) of the first field of the recording frame number 1 is output to the first field side output. For output, the video data f2 (1) of the second field of the recording frame number 1 is output. In this case, the selection means 1 selects and outputs the first field f1 (1) and the second field video data f2 (1) of the recording frame number 1 delayed by the delay means 2 by two fields.
[0072]
Next, the selection unit 1 obtains information obtained by continuously reading the first field f1 (3) of the recording frame number 1 in the frame of the 24 Hz output frame number 3 from the AT head. At this time, since the video data constituting the frame of the next recording frame number 2 is prepared, the selection means 1 has the video data f1 (2) of the first field of the recording frame number 2 for the first field side output. In the second field side output, the video data f2 (2) of the second field of the recording frame number 2 is output. In this case, the selection means 1 selects and outputs the first field f1 (2) and the second field video data f2 (2) of the recording frame number 1 delayed by two fields by the delay means 2.
[0073]
Further, the selection means 1 reads the second field f2 (3) of the recording frame number 3 in the frame of the 24 Hz output frame number 4 from the AT head, and then reads the first field f1 (4) of the recording frame number 4. get information. At this time, since the first field f1 (3) of the recording frame number 3 is duplicated, the selection means 1 has the duplicated read-out so that no contradiction occurs in the number of frames of the reproduced video. One field f1 (3) is deleted, and the frame of recording frame number 2 is output again. In this case, the selection means 1 selects and outputs the first field f1 (2) and the second field video data f2 (2) of the recording frame number 2 delayed by four fields by the delay means 2.
[0074]
As described above, since video data in the same field is continuously reproduced when the speed is +1 times or less, the delay amount of the delay means 2 is made variable so that there is no contradiction in the number of frames of the reproduced video. The video data is deleted, and the duplicated video data is replaced with two fields constituting the same frame with respect to the deletion of the two fields.
[0075]
The video data 19 output from the selection means 1 is converted from an interlace scanning signal having a field frequency of 48 Hz to a sequential scanning signal having a frame frequency of 24 Hz by an inverse conversion means 1006, and a synchronization signal is added and parallel serial conversion is performed by an output means 1007. Thus, it is output from the output terminal 22 as a serial digital signal having a frequency of about 1.5 GHz. The delay amount in the delay means 2 is variable, and a delay from one field delay to a plurality of field delays is possible.
[0076]
As described above, when the playback speed is set to +1 times or lower during program playback, each frame image of the progressive scanning signal to be output is always composed of the image data of the first field and the second field of the same recording frame number. As shown in FIG. 5, even when telecine conversion is performed and converted to a 60i signal, the time axis of the image does not change, causing a problem of unnatural movement of the image on the TV monitor. do not do.
[0077]
Note that the adjustment to be replaced with one of the frames corresponding to the deletion of the image data of the duplicate field is not limited to the timing described in this embodiment, and the timing is adjusted according to the reproduction speed.
[0078]
The telecine conversion described in the present invention may be performed inside the recording / reproducing apparatus of the present invention. In this case, the telecine conversion means may be added after the inverse conversion means 1006. Moreover, it is also possible to simultaneously output a 1080 / 24p signal and a 1080 / 60i signal by having a telecine conversion means inside and two output terminals. Even when the telecine conversion means is provided outside, the present invention provides an effect that the motion of the video after the telecine conversion does not become strange.
[0079]
In the present invention, when the same field image is output continuously, it goes without saying that the filter processing may be performed in the vertical direction of the screen in order to prevent flicker on the screen.
[0080]
In the present invention, the 1080 / 24p signal is recorded / reproduced. However, the present invention is not limited to this. Even in the case of a sequential scanning signal (720 / 24p signal) having 750 scanning lines, 720 effective scanning lines, and a frame frequency of 24 Hz. It goes without saying that the same applies.
[0081]
In the present invention, the field frequency of 60 Hz may be the field frequency of 59.94 Hz, and the frame frequency of 24 Hz may be the frame frequency of 23.976 Hz. Absent.
[0082]
In the present invention, the input / output is the serial digital interface signal. However, it is obvious that the input / output is not limited to the serial interface but may be a parallel interface.
[0083]
In the present invention, an example of a digital VTR has been described. However, the present invention is not limited to a digital VTR, and can be applied to, for example, an optical disk or a hard desk.
[0084]
In addition, the configuration of the recording / reproducing apparatus of the present invention is not limited to the configuration shown in the embodiment, and deletion or substitution processing is performed on missing or duplicated field images during variable speed reproduction or program reproduction. The image signal for two fields constituting one frame image of the output video signal may be configured to be a combination of image signals of the same recording frame.
[0085]
【The invention's effect】
According to the present invention, even when the playback speed of the recording medium is other than +1 times speed, each frame image of the output sequential scanning signal can always be composed of field images at the same time. Sometimes it was possible to prevent the time axis of the output image after telecine conversion from being reversed and to eliminate the unnaturalness of the movement.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a recording / reproducing apparatus of the present invention.
FIG. 2 is a timing chart of output signals in Embodiment 1 of the present invention.
FIG. 3 is a timing chart of output signals in Embodiment 2 of the present invention.
FIG. 4 is a timing chart of output signals in Embodiment 3 of the present invention.
FIG. 5 is a timing chart of output signals in Embodiment 4 of the present invention.
FIG. 6 is a block diagram showing the configuration of a conventional recording / reproducing apparatus.
FIG. 7 is a diagram illustrating a conversion method from a sequential scanning signal to an interlaced scanning signal in a conversion unit.
FIG. 8 is a diagram for explaining a reproduction signal field in a conventional recording / reproducing apparatus.
FIG. 9 is a timing chart of output signals in a conventional recording / reproducing apparatus.
[Explanation of symbols]
1 Selection means
2 Delay means
1000 input means
1001 Conversion means
1002 Compression encoding means
1003 Recording processing means
1004 Reproduction processing means
1005 Compression decoding means
1006 Inverse conversion means
1007 Output means

Claims (5)

A recording / reproducing apparatus that records and reproduces each frame image of a progressive scanning signal into fields that are predetermined divided images , reconstructs the frame image from the reproduced divided images, and outputs the frame image as a sequential scanning signal,
In the reproduced divided image, if there is a divided image in which a field is missing, the divided image for the remaining field is output continuously to replace the missing divided image or to remain in existence. By alternately deleting the divided images for the field, the scan signal is sequentially reconstructed and output,
In the reproduced divided image, if there is a divided image with overlapping fields, one of the overlapping divided images is deleted, or the overlapping images constituting the frame image at the same time are duplicated. A recording / reproducing apparatus characterized in that it sequentially reconstructs and outputs a scanning signal by alternately substituting the divided images. A progressive scanning signal with a frame frequency of 24 Hz is converted into an interlaced scanning signal with a field frequency of 48 Hz, recording and reproduction are performed in field units, and the reproduced interlaced scanning signals of the two fields are synthesized and output as a sequential scanning signal of one frame. A recording / reproducing apparatus for
If the playback speed of the storage medium is 1 × speed or more, if one of the two interlaced scanning signals constituting the frame at the same time is missing, the interlaced scanning signal for the existing field is The interlaced scanning signal for the missing field is substituted by outputting continuously, or the interlaced scanning signal for the existing field is alternately deleted to reconstruct the sequential scanning signal. recording and reproducing apparatus characterized by and output. A progressive scanning signal with a frame frequency of 24 Hz is converted into an interlaced scanning signal with a field frequency of 48 Hz, recording and reproduction are performed in field units, and the reproduced interlaced scanning signals of two fields are synthesized and output as a sequential scanning signal of one frame. A recording / reproducing apparatus,
When the playback speed of the recording medium is between -1x speed and + 1x speed, if the interlaced scanning signal of the same frame and the same field is reproduced in duplicate, one of the interlaced scanning signals is deleted or the field is duplicated A recording / reproducing apparatus characterized by sequentially reconstructing and outputting a scanning signal by alternately substituting two fields constituting the same frame by deleting An input sequential scanning signal with a frame frequency of 24 Hz is converted into an interlaced scanning signal with a field frequency of 48 Hz, recording and reproduction are performed in field units, and the reproduced interlaced scanning signals for two fields are synthesized and output as a sequential scanning signal for one frame. A recording / reproducing apparatus for
When the reproduction speed of the storage medium is set to +1 times or more and the number of rotations of the drum on which the magnetic head is mounted is increased at the same rate as the reproduction speed of the recording medium, the two fields constituting the frame at the same time are reproduced. When one field of the interlaced scanning signal is missing, the interlaced scanning signal for the missing field is substituted by continuously outputting the interlaced scanning signal for the existing field, or the presence A recording / reproducing apparatus for sequentially reconstructing and outputting a scanning signal by alternately deleting the interlaced scanning signal corresponding to the field to be performed . A progressive scanning signal with a frame frequency of 24 Hz is converted into an interlaced scanning signal with a field frequency of 48 Hz, recording and reproduction are performed in field units, and the reproduced two-field interlaced scanning signals are synthesized and output as a sequential scanning signal for one frame. A playback device,
When the playback speed of the recording medium is set to + 1x speed or lower and the rotation speed of the drum equipped with the magnetic head is reduced at the same rate as the playback speed of the recording medium, the interlaced scanning signals of the same frame and the same field are duplicated. when reproduced, to remove one of the interlaced scanning signal or reconstruct the progressive scan signal by performing alternately possible to delete the field are duplicates for replacement progeny of two fields constituting the same frame recording and reproducing apparatus characterized by and output.

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