JP3887890B2 - Video signal reproducing method and video signal reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a video signal reproduction method and a video signal reproduction apparatus. Specifically, when reproducing a compressed video signal having a data amount recorded on the recording medium, the data amount of the video signal read from the recording medium is changed , and the video signal read from the recording medium is changed to a predetermined speed. The video signal obtained by the decompression process is stored in the memory means, and the playback speed is changed without changing the speed of the decompression process by thinning or reading the video signal from the memory means twice. The obtained video signal can be obtained.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there has been known a video signal reproducing apparatus capable of reproducing a video signal recorded on a hard disk device using a magnetic disk, for example. Here, the configuration of the video signal reproducing apparatus is shown in FIG. FIG. 4 also shows a recording circuit for recording a video signal in the hard disk device.
[0003]
In FIG. 4, the digital video input signal Din is compressed into a video signal Da by the data amount being compressed by the encoding unit 11 and written into the memory unit 12. The video signal Da written in the memory unit 12 is read out from the memory unit 12 based on a control signal CTW from a control unit 50 configured using a CPU (Central Processing Unit), and is interfaced as a video signal Db. The video signal Db is supplied to and recorded on the hard disk device 30 via the PCI (Peripheral Component Interconnect) bus 20 based on the control signal CTW. The recording of the video input signal Din is performed with reference to the reference video signal Dref.
[0004]
When the video signal Db recorded on the hard disk device 30 is reproduced, an instruction for reading a desired video signal is supplied from the control unit 50 to the hard disk device 30 via the interface unit 41 and the PCI bus 20. The In accordance with this command, a desired video signal Dc is read from the hard disk device 30. The video signal Dc is written into the memory unit 42 via the PCI bus 20 and the interface unit 41.
[0005]
The video signal Dc written in the memory is read based on the control signal CTB and supplied to the decoding unit 43 as the video signal Dd. In the decoding unit 43, the compressed video signal Dd is decompressed and written into the memory unit 44 as the video signal De, and the stored video signal is read out from the memory unit 44 to obtain a digital video output signal. Output as Dout.
[0006]
Here, the reference video signal Dref is supplied to the memory unit 44 and also to the reproduction speed variable unit 60. The reproduction speed variable unit 60 varies the frequency of the reference video signal Dref based on the control signal PC for controlling the reproduction speed from the control unit 50 to generate a new reproduction reference video signal Dvr. The reproduction reference video signal Dvr is supplied to the control unit 50 and the like, and based on the reproduction reference video signal Dvr, the video signal Dc is read from the hard disk device 30, the control of the interface unit 41, or the memory unit 42. The video signal writing and reading processing is performed. Further, the decoding unit 43 generates a reference signal synchronized with the video signal Dd supplied from the memory unit 42, and the video signal Dd is expanded based on the reference signal.
[0007]
Next, the variable operation of the reproduction speed will be described with reference to FIG. FIG. 5A shows a frame of the video output signal Dout at the standard playback speed. When the playback speed is increased by 20% with respect to the standard playback speed, as shown in FIG. The video signal Dc is read from the hard disk device 30 by 20% more. For example, the video signals from the “0” frame to the “11” frame are read from the hard disk device 30 with respect to the reading of the video signals from the “0” frame to the “9” frame at the standard playback speed. Further, based on the control signal PC from the control unit 50, the frequency of the reproduction reference video signal Dvr is increased by 20% compared to the reference video signal Dref.
[0008]
In the control unit 50, the control signal CTB is generated based on the reproduction reference video signal Dvr, and writing and reading of the video signal in the memory unit 42 are advanced by 20%. Therefore, since the frequency of the reference signal for performing the decompression process is also increased by 20% in the decoding unit 43, the expansion processing operation is accelerated by 20%, and the video signal De is stored in the memory unit 44 as shown in FIG. 5C. 20% more written.
[0009]
Here, since the digital video output signal Dout is generated by reading the video signal from the memory unit 44 based on the reference video signal Dref, for example, “4” frame, “9” frame as shown in FIG. 5D. , “14” frames... Are thinned out, and a video output signal Dout with a reproduction speed increased by 20% can be output. That is, during the period from the “0” frame to the “9” frame at the standard playback speed, the image from the “0” frame to the “11” frame can be displayed.
[0010]
When the playback speed is delayed by 20% with respect to the standard playback speed, the video signal Dc is read from the hard disk device 30 by 20% less by the command from the control unit 50 as shown in FIG. 5E. For example, the video signals from the “0” frame to the “7” frame are read from the hard disk device 30 with respect to the reading of the video signals from the “0” frame to the “9” frame at the standard playback speed. Further, based on the control signal PC from the control unit 50, the frequency of the reproduction reference video signal Dvr is lowered by 20% from the reference video signal Dref.
[0011]
In addition, since the writing and reading of the video signal in the memory unit 42 are delayed by 20%, the frequency of the reference signal for performing the decompression process is also lowered by 20% in the decoding unit 43. Therefore, the decompression processing operation is delayed by 20%. Then, the video signal De is written to the memory unit 44 by 20% less as shown in FIG. 5F.
[0012]
Here, since the digital video output signal Dout is generated by reading the video signal from the memory unit 44 based on the reference video signal Dref, as shown in FIG. 5G, for example, “0” frame, “5” frame .. Are read twice, and a video output signal Dout with a reproduction speed reduced by 20% can be obtained.
[0013]
[Problems to be solved by the invention]
By the way, in the decoding unit that generates a reference signal synchronized with the video signal Dd from the memory unit 42 and performs the decompression process based on the reference signal, the frequency of the video signal Dd is also greatly varied according to the reproduction speed. Therefore, in order to generate a reference signal synchronized with the video signal Dd, a circuit for generating the reference signal becomes complicated.
[0014]
Accordingly, the present invention provides a video signal playback method and a video signal playback apparatus that can easily change the playback speed with a simple configuration.
[0015]
[Means for Solving the Problems]
The video signal playback method according to the present invention is a video signal playback apparatus for playing back a compressed video signal having a data amount recorded on a recording medium. The video signal playback method takes a predetermined time as one cycle and divides the cycle. This is a video signal playback method in which a time slot is set and playback is performed in units of this time slot, and if the playback speed is faster than the standard playback speed according to a predetermined reference signal, it is generated based on this playback speed. In response to the playback reference signal, a larger number of video signals are read from the recording medium than the standard playback speed and stored in the first memory means, and if the playback speed is slower than the standard playback speed, the playback speed is set to this playback speed. based in response to the generated reproduced reference signal, stored in the first memory means from the recording medium by reading fewer video signal than the standard reproduction speed, or the recording medium Decoding the read video signal stored in the first memory means, when the playback speed is faster than the standard playback speed, the video signal of the same amount of data as in the standard reproduction speed, having a plurality of decoding portions The video signal read more than in the case of the standard reproduction speed is decompressed according to the predetermined reference signal in the other decoding unit, and is expanded according to the predetermined reference signal in one decoding unit of the means, When the playback speed is slower than the standard playback speed, the video signal obtained by decompression processing according to a predetermined reference signal in one decoding unit, and when the playback speed is faster than the standard playback speed The video signal having the same amount of data as in the case of the standard reproduction speed is stored in one memory part of the second memory means having a plurality of memory parts in accordance with a predetermined reference signal, and moreover than in the case of the standard reproduction speed. Read too much Written video signal in response to a predetermined reference signal stored in the other memory unit, when the playback speed is slower than the standard reproduction speed is stored in one memory unit in accordance with a predetermined reference signal, reproduction According to the speed, the video signal stored in the single memory section or the plurality of memory sections of the second memory means is thinned out or read twice, thereby obtaining a video signal whose playback speed is changed.
[0016]
The video signal reproducing apparatus according to the present invention has a predetermined time as one cycle, a time slot is set by dividing the cycle, and the video signal is reproduced in units of the time slot. A signal reading means for reading a video signal from a recording medium on which a compressed video signal having a data amount is recorded, a first memory means for storing the video signal read by the signal reading means, A second decoding unit having a plurality of decoding units for decompressing the video signal stored in the first memory unit, and a second memory unit for storing the video signal obtained by the decompressing process by the decoding unit. and memory means, and control means for controlling the signal readout means and the first memory means and decoding means and the second memory means, the control means, the reproduction speed is a predetermined reference signal If faster than the standard playback speed according to, in response to the reproduction reference signal generated on the basis of the reproduction speed, read many video signals than from the recording medium by controlling a signal reading means of the standard reproduction speed The video signal read out by the signal reading means by controlling the first memory means is stored in the first memory means, and if the playback speed is slower than the standard playback speed, the video signal is generated based on this playback speed. In accordance with the reproduction reference signal, the signal reading means is controlled to read out less video signals from the recording medium than the standard reproduction speed, and the first memory means is controlled to be stored in the first memory means . according to the reference signal, and controls the first memory means and decoding means, a video signal stored in the first memory means, when the playback speed is faster than the standard playback speed, the standard reproduction speed situ The video signal with the same amount of data is decompressed by one decoding unit of the decoding means, and the video signal read more than the standard playback speed is decompressed by other decoding units, and the playback speed is standard. If slower than the reproduction speed, it decompresses one of the decoding unit, according to a predetermined reference signal, and controls the second memory means, a video signal obtained by the decompression processing by the decoding means, reproduction When the speed is higher than the standard playback speed, the video signal having the same data amount as that at the standard playback speed is stored in one memory part of the second memory means and read more than at the standard playback speed. video signal is stored in the other memory unit, when the playback speed is slower than the standard playback speed, by storing in the one memory unit, for reading the thinning or twice the stored video signals, reproduction Speed A modified video signal is obtained.
[0017]
In the control means, when the reproduction speed is slower than the standard reproduction speed, the reproduction speed is slower than the standard reproduction speed by reading the video signal stored in one memory part of the second memory means twice. Obtain a supposed video signal. When the playback speed is higher than the standard playback speed, the video signals stored in the plurality of memory units are thinned and read, and the video signals read from the plurality of memory units are selected by the signal selection unit. As a result, a video signal whose playback speed is faster than the standard playback speed is obtained.
[0018]
In the present invention, when a compressed video signal having a data amount recorded on a recording medium is reproduced, when the reproduction speed is changed from the standard reproduction speed, for example, the data is generated based on the changed reproduction speed. A video signal is read from the recording medium in accordance with the reproduced reference signal. That is, when the data amount of the video signal read from the recording medium is changed according to the playback speed, and the playback speed is faster than the standard playback speed according to the predetermined reference signal, the video signal is displayed more than the standard playback speed. When the reproduction speed is slower than the standard reproduction speed, the video signal is read out less than the case of the standard reproduction speed and the first memory means is read out and stored in the first memory means. Is remembered . Decompression processing of the video signal read in this case decoding means, regardless of the playback speed, Ru performed at a predetermined speed in accordance with a predetermined reference signal. That is, when the playback speed is higher than the standard playback speed, a video signal having the same data amount as that at the standard playback speed is decompressed according to a predetermined reference signal by one decoding unit of the decoding means, The video signal read more than at the reproduction speed is decompressed according to a predetermined reference signal by another decoding unit. When the playback speed is slower than the standard playback speed, the decoding process is performed in accordance with a predetermined reference signal by one decoding unit.
The video signal obtained by the decompression process is stored in a single memory unit or a plurality of memory units of the second memory means according to the reproduction speed . When the video signal is thinned out or read twice from the second memory means, a video signal corresponding to the changed reproduction speed is output.
[0019]
Here, when the playback speed is higher than the standard playback speed, for example, the data amount of the read video signal is higher than the standard playback speed. The video signal is decompressed, and the obtained video signal is stored in a plurality of memory units. The video signal stored in the memory unit is read out by thinning out, and the video signal read out by thinning out from a plurality of memory units is selected by the signal selection unit, and the video signal has a higher playback speed than the standard playback speed. Can be obtained.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows the configuration of a video signal reproducing apparatus according to the present invention. Here, the data amount of the digital video signal is compressed and recorded in the hard disk device 30.
[0021]
The hard disk device 30 is connected to the interface unit 71 via, for example, the PCI bus 20. The interface unit 71 is connected to a memory unit 72 as a first memory means and a control unit 80. When a command for reading a desired video signal is output from the control unit 80, the command is sent to the interface unit 71. 71 and the PCI bus 20 to be supplied to the hard disk device 30.
[0022]
In the hard disk device 30, a desired video signal Dc is read based on this command and supplied to the memory unit 72 via the PCI bus 20 and the interface unit 71.
[0023]
Two decoding units 73 and 74 which are decoding means and a control unit 80 are connected to the memory unit 72, and a video signal Dc is written to the memory unit 72 based on a control signal CTC from the control unit 80. Further, the video signal is read out at a speed equal to the playback operation at the standard playback speed based on the control signal CTD and supplied to the decoding unit 73 as the video signal Df, and the playback speed is increased to increase the hard disk device 30. The video signal recorded more than the playback operation at the standard playback speed is read out at the same speed as the playback operation at the standard playback speed, and supplied from the memory unit 72 to the decoding unit 74 as the video signal Dg. .
[0024]
The decoding unit 73 is connected to a memory unit 75 that constitutes a second memory means and a control unit 80. By the control signal CTD from the control unit 80, video is reproduced at a speed equal to the reproduction operation at the standard reproduction speed. The expansion process of the signal Df is performed, and the obtained video signal Dh is supplied to the memory unit 75.
[0025]
Like the decoding section 74 also decode unit 73, the control signals CTD from the control unit 80, the decompression processing of the video signal D g at a rate equal to the reproduction operation of the standard reproduction speed is performed, the video signal obtained Dj is The data is supplied to the memory unit 76 which is the second memory means.
[0026]
A signal selection unit 77 and a control unit 80 are connected to the memory units 75 and 76, and a control unit 80 is connected to the signal selection unit 77, and the memory is based on a control signal CTD from the control unit 80. The video signals stored in the unit 75 are sequentially read out, selected by the signal selection unit 77 and output as the video output signal Dout, and data equal to the data amount at the time of standard reproduction stored in the memory unit 75 When the reading of the amount of video signals is completed, the video signals stored in the memory unit 76 are sequentially read out, selected by the signal selection unit 77, and output as the video output signal Dout.
[0027]
Here, the reference video signal Dref is supplied to the control unit 80 and the reproduction speed control unit 90, and the reproduction speed control unit 90 performs the reference based on the control signal PC for controlling the reproduction speed from the control unit 80. A new reproduction reference video signal Dvr is generated by changing the frequency of the video signal Dref. The reproduction reference video signal Dvr is supplied to the control unit 80.
[0028]
In the control unit 80, based on the reproduction reference video signal Dvr, the video signal Dc from the hard disk device 30 is read and the control signal CTC for performing the writing process of the interface unit 71 or the memory unit 72 is generated. . Further, based on the reference video signal Dref, the video signal reading process in the memory unit 72, the decompressing process in the decoding units 73 and 74, the video signal writing and reading process in the memory units 75 and 76, and the signal selection unit 77. A control signal CTD for controlling the signal selection process in is generated.
[0029]
In the video signal reproducing apparatus configured as described above, a predetermined time (for example, 1 second) is set as one cycle, and one cycle is divided to set a time slot, and reproduction is performed in units of this time slot. For example, as shown in FIG. 2, if one cycle is divided into four time slots “T1” to “T4”, the hard disk during one time slot, eg, time slot “T2” A video signal corresponding to the video signal for one cycle is read from the apparatus, and the read video signal is expanded to be a video output signal for one cycle.
[0030]
Next, the operation will be described with reference to FIG. FIG. 3A shows a frame of the video output signal Dout at the standard playback speed. When the playback speed is increased by 20% with respect to the standard playback speed, as shown in FIG. The video signal Dc is read from the hard disk device 30 by 20% more. For example, the video signals from the “0” frame to the “11” frame are read from the hard disk device 30 with respect to the reading of the video signals from the “0” frame to the “9” frame at the standard playback speed. Further, based on the control signal PC from the control unit 80, the frequency of the reproduction reference video signal Dvr is increased by 20% compared to the reference video signal Dref.
[0031]
In the control unit 80, the control signal CTC is generated based on the reproduction reference video signal Dvr, and the writing of the video signal in the memory unit 72 is advanced 20% based on the control signal CTC. More than 20% of the video signal Dc is stored compared to the standard reproduction speed.
[0032]
The video signal stored in the memory unit 72 is read based on the control signal CTD. Here, a video signal having the same data amount as that at the standard reproduction speed is supplied to the decoding unit 73, and a video signal read more than at the standard reproduction speed is supplied to the decoding unit 74.
[0033]
The decoding units 73 and 74 perform the expansion process at a speed equal to the standard reproduction speed based on the control signal CTD. Therefore, the video signal Dh corresponding to the “0” frame to the “9” frame is written from the decoding unit 73 to the memory unit 75 as shown in FIG. 3C. Further, as shown in FIG. 3D, the video signal Dj corresponding to the “10” frame and the “11” frame read more than the standard reproduction speed is written from the decoding unit 74 to the memory unit 76.
[0034]
Here, the video signal stored in the memory unit 75 is read out by thinning out the video signals of the “4” frame and the “9” frame, for example, and the video signal read from the memory unit 75 is the signal selection unit. 77 is selected and output as a video output signal Dout. When the reading of the video signal stored in the memory unit 75 is completed, the video signal stored in the memory unit 76 is continuously read out, selected by the signal selection unit 77, and output as the video output signal Dout.
[0035]
For this reason, as shown in FIG. 3E, it is possible to output a video output signal Dout with a reproduction speed increased by 20%. That is, during the period from the “0” frame to the “9” frame at the standard playback speed, the image from the “0” frame to the “11” frame can be displayed.
[0036]
When the playback speed is delayed by 20% with respect to the standard playback speed, the video signal Dc is read by 20% less from the hard disk device 30 as shown in FIG. . For example, the video signals from the “0” frame to the “7” frame are read from the hard disk device 30 with respect to the reading of the video signals from the “0” frame to the “9” frame at the standard playback speed. At this time, based on the control signal PC from the control unit 80, the frequency of the reproduction reference video signal Dvr is lowered by 20% from the reference video signal Dref.
[0037]
For this reason, the writing of the video signal in the memory unit 72 is delayed by 20%, and the memory unit 72 stores the video signal Dc that is 20% less than that at the standard reproduction speed.
[0038]
The video signal stored in the memory unit 72 is read based on the control signal CTD and supplied to the decoding unit 73. The decoding unit 73 performs an expansion process at a speed equal to the standard reproduction speed based on the control signal CTD. . Therefore, the video signal Dh corresponding to the “0” frame to the “7” frame is written from the decoding unit 73 to the memory unit 75 as shown in FIG. 3G.
[0039]
Here, the video signal stored in the memory unit 75 is read out by, for example, reading the video signals of the “0” frame and the “5” frame twice to obtain the video output signal Dout whose playback speed is delayed by 20%. be able to.
[0040]
As described above, according to the above-described embodiment, writing in the decoding unit and the memory unit can be performed at a predetermined speed regardless of the reproduction speed, so that the configuration is simple and the control can be facilitated. In the above-described embodiment, the case where one frame of video signal is compressed without being collected has been described. However, as in the MPEG (Moving Picture Experts Group) method, video is collectively compressed into GOP (Group of Pictures). It can be easily applied to cases. Although the video signal is a digital video signal, an analog video signal can also be handled by A / D and D / A conversion and input / output. Further, here, the video signal is recorded on the hard disk device via the PCI bus, but another interface bus, for example, an interface bus such as SCSI may be used. In addition, the present invention is not limited to the case where the video signal recorded on the magnetic disk of the hard disk device is reproduced. .
[0041]
【The invention's effect】
According to the present invention, when a video signal with a compressed data amount is reproduced, the data amount of the video signal read from the recording medium is changed according to the changed reproduction speed. At this time, the decoding means performs the decompression process of the read video signal at a predetermined speed regardless of the reproduction speed, and the obtained video signal is stored in the second memory means. When the video signal is thinned out or read twice from the second memory means, a video signal corresponding to the changed reproduction speed is output.
[0042]
As described above, according to the present invention, it is possible to always perform the decompression process of the video signal in the decoding unit at a predetermined speed regardless of the reproduction speed. Thus, as compared with changing the expansion processing of the video signal at the decoder in accordance with the reproduction speed, configuration is simplified, it is possible to easily obtain a video signal reproduction speed is changed.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a video signal reproduction apparatus according to the present invention.
FIG. 2 is a diagram for explaining time slots.
FIG. 3 is a diagram for explaining the operation of the video signal reproduction apparatus.
FIG. 4 is a diagram illustrating a configuration of a conventional video signal reproduction apparatus.
FIG. 5 is a diagram for explaining the operation of a conventional video signal reproduction apparatus.
[Explanation of symbols]
20 ... PCI bus, 30 ... hard disk device, 60 ... playback speed variable section, 71 ... interface section, 72,75,76 ... memory section, 73,74 ... decode Part, 77 ... signal selection part, 80 ... control part

Claims (4)

A video signal reproducing apparatus for reproducing a compressed video signal having a data amount recorded on a recording medium , wherein a predetermined time is defined as one cycle, and a time slot is set by dividing this one cycle. A video signal playback method in which playback is performed at
When the playback speed is faster than the standard playback speed according to the predetermined reference signal, the video signal is output from the recording medium more than the standard playback speed according to the playback reference signal generated based on the playback speed. When the reproduction speed is slower than the standard reproduction speed, the standard reproduction speed is read from the recording medium according to the reproduction reference signal generated based on the reproduction speed. Less video signal than in the case of, and store in the first memory means ,
When the video signal read from the recording medium and stored in the first memory means has a reproduction speed higher than the standard reproduction speed, a plurality of video signals having the same data amount as the standard reproduction speed are used. The decoding unit having one decoding unit performs decompression processing in accordance with the predetermined reference signal, and the video signal read more than in the case of the standard reproduction speed is read by the other decoding unit. When the reproduction speed is slower than the standard reproduction speed, the one decoding unit performs the expansion process according to the predetermined reference signal,
When the video signal obtained by the decompression process has a playback speed faster than the standard playback speed, the video signal having the same data amount as that of the standard playback speed has a second memory section. The video signal read more than in the standard reproduction speed is stored in another memory unit in accordance with the predetermined reference signal and stored in one memory unit of the memory means in accordance with the predetermined reference signal. If the playback speed is slower than the standard playback speed , store in the one memory unit according to the predetermined reference signal,
According to the reproduction speed, the video signal stored in the single memory section or the plurality of memory sections of the second memory means is thinned out or read twice to obtain a video signal whose reproduction speed is changed. A characteristic video signal reproducing method. A video signal reproducing apparatus in which a predetermined time is defined as one cycle, a time slot is set by dividing the one cycle, and a video signal is reproduced in units of the time slot.
Signal reading means for reading the video signal from the recording medium on which the compressed video signal of the data amount is recorded;
First memory means for storing the video signal read by the signal reading means;
Decoding means having a plurality of decoding units for decompressing the video signal stored in the first memory means;
Second memory means having a plurality of memory units for storing video signals obtained by decompression processing by the decoding means;
Control means for controlling the signal reading means, the first memory means, the decoding means, and the second memory means;
In the above control means,
When the reproduction speed is faster than the standard reproduction speed corresponding to the predetermined reference signal, the signal reading means is controlled in accordance with the reproduction reference signal generated based on the reproduction speed to control the standard reproduction from the recording medium. More video signals are read than in the case of speed, the first memory means is controlled to store the video signals read by the signal reading means in the first memory means, and the playback speed is higher than the standard playback speed. If it is slower, the signal reading means is controlled in accordance with the reproduction reference signal generated based on the reproduction speed to read less video signals from the recording medium than in the case of the standard reproduction speed. And controlling the memory means to store in the first memory means ,
In accordance with the predetermined reference signal, said first memory means and to control said decoding means, said first memory means the image signal stored in, when the playback speed is faster than the normal playback speed The video signal having the same amount of data as in the case of the standard reproduction speed is decompressed by one decoding unit of the decoding means, and the video signal read more than in the case of the standard reproduction speed is transmitted to another decoding unit. If the playback speed is slower than the standard playback speed, the extension process is performed by the one decoding unit ,
In accordance with the predetermined reference signal, said second controlled memory means, a video signal obtained by the decompression processing by the decoding means, when the playback speed is faster than the normal playback speed, the standard A video signal having the same data amount as that at the playback speed is stored in one memory unit of the second memory means, and a video signal read more than at the standard playback speed is stored in another memory unit. If the playback speed is slower than the standard playback speed , store it in the one memory section ,
A video signal reproducing apparatus characterized in that a video signal whose reproduction speed is changed is obtained by thinning or reading the stored video signal twice. In the control means, when the playback speed is slower than the normal playback speed, by reading twice the second video signal stored in the memory unit of the one of the memory means, the reproduction speed is the standard The video signal reproducing apparatus according to claim 2, wherein a video signal that is slower than a reproducing speed is obtained. Upper Symbol second memory means has a signal selection unit for selecting a video signal read from said plurality of memory units,
In the control means, when the playback speed is faster than the normal playback speed, reads decimating the video signal stored in said plurality of memory units, a video signal read out from the plurality of memory portions The video signal reproduction apparatus according to claim 2, wherein a video signal having a reproduction speed higher than the standard reproduction speed is obtained by selection by a signal selection unit.

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