JP2892696B2 - Moving image signal recording device and moving image signal reproducing device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a moving picture signal recording apparatus for compressing and coding a moving picture signal and recording it on a storage medium such as an optical disk or a magnetic tape, and a moving picture signal from the storage medium. The present invention relates to a moving image signal reproducing apparatus for reproducing.

2. Description of the Related Art In recent years, moving image signal recording devices and moving image signal reproducing devices have
A system for compressing and encoding a moving image signal and recording it on a storage medium such as an optical disk or a magnetic tape has been developed. For reproduction of a moving image signal by a storage medium, special reproduction functions such as high-speed search and random access are required in addition to normal reproduction.

Hereinafter, an example of the above-described conventional moving picture signal recording apparatus and moving picture signal reproducing apparatus will be described with reference to the drawings.

FIG. 5 is a block diagram showing a conventional moving picture signal recording apparatus. In FIG. 5, 1 is a moving image signal input, 2 is an encoding circuit, 3 is a buffer circuit, and 6 is a storage medium recording device. In the encoding circuit 2, 201 is a subtraction circuit, 202 is an orthogonal transformation circuit, 203 is a quantization combination circuit, 204 is an inverse quantization circuit, 205 is an inverse orthogonal transformation circuit, 206 is an addition circuit, 20
7 is a frame memory, 208 is a motion vector detection circuit, 209a
And 209b are switches, and 210 is a variable length coding circuit. In the storage medium recording device 6, reference numeral 601 denotes a signal processing circuit, and reference numeral 7 denotes a storage medium.

The operation of the moving picture signal recording apparatus configured as described above will be described below.

The moving image signal input from 1 is encoded by the encoding circuit 2. In the compression encoding method of a moving image signal, inter-frame encoding has higher encoding efficiency than intra-frame encoding. However, when a moving image signal is recorded on a storage medium, it is necessary to perform intra-frame encoding at appropriate intervals in order to enable special reproduction such as high-speed search and random access. The encoding circuit 2 converts the input video signal of 4 frames into 1
Intra-frame encoding is performed at a rate of the number of times, and inter-frame encoding is performed for other frames. The encoding circuit 2 performs intra-frame encoding when the switches 209a and 209b are switched to the A side, and performs inter-frame encoding when the switches are switched to the B side.
In intra-frame encoding, quantization is performed after orthogonally transforming a frame signal. In the interframe coding, quantization is performed after orthogonally transforming the motion compensation interframe prediction error. These quantized conversion count values are subjected to variable-length coding, and are output after adding necessary information at the time of decoding. The output signal of the encoding circuit 2 is stored in the internal memory of the buffer circuit 3. The buffer circuit 3 controls the output signal amount (data amount) to be constant by changing the quantization parameter of the quantization circuit 203 according to the signal amount (memory remaining amount) stored in the internal memory. FIG. 3A shows an output signal of the buffer circuit. F (n−1,0), F (n, 0), F (n + 1,0) are signals obtained by intra-frame coding, F (n−1,1), F (n−1,2), F
(N−1,3) is a signal obtained by inter-frame coding. The storage medium recording device 6 records the input signal on the storage medium 7.
For example, the storage medium 7 is a CD-ROM, and the storage medium recording device 6 at this time is a CD-ROM cutting system.

FIG. 6 shows a block diagram of a conventional moving picture signal reproducing apparatus. In FIG. 6, 8 is a storage medium reproducing device, 11 is a buffer circuit, 12 is a decoding circuit, 10 is a microprocessor, and 13 is an output of a moving image signal. In the storage medium reproducing device 8, 7 is a storage medium, 801 is a signal processing circuit, and 802 is an access control circuit. In the decoding circuit 12, 1201 is a variable length code decoding circuit, 1202 is an inverse quantization circuit, 1203 is an inverse orthogonal transform circuit, 1204 is an addition circuit, 1205 is a frame memory, and 1206 is a switch.

The operation of the moving picture signal reproducing apparatus configured as described above will be described below.

First, normal reproduction will be described. The storage medium reproducing device 8 reads the signals recorded on the storage medium 7 in the order in which the signals were recorded. At this time, a signal shown in FIG. 3A is obtained at the output of the storage medium reproducing device 8. After passing this signal through the buffer circuit 11, the signal is decoded by the decoding circuit 12. The decoding circuit 12 performs intra-frame decoding when the switch 1206 is switched to the A side, and performs inter-frame decoding when the switch 1206 is switched to the B side.

Next, high-speed search reproduction will be described. The high-speed search is realized by reading only the intra-frame code from the storage medium 7 and decoding it. The intra-frame code recorded on the storage medium 7 is read by the storage medium reproducing device 8. This operation is performed according to an instruction from the microprocessor 10.
The access control circuit 802 accesses the codes in the frame of the storage medium 7 in order. FIG. 4A shows an output signal of the storage medium reproducing device 8 at this time. Since the intra-frame code is recorded at a physically distant position on the storage medium, one access operation is required every time one intra-frame code is read. The read intra-frame code passes through the buffer circuit 11, is decoded by the decoding circuit 12, and the moving picture signal is output from 13. In addition,
Since one access operation is required to read one intra-frame code, it is difficult to read one intra-frame code within one frame time. Therefore, when there is no intra-frame code to be decoded during the access operation, the image of the previous frame that has already been decoded is output from the frame memory 1205. That is, the same frame is output continuously.

However, in the above configuration, in the high-speed search for reading and decoding only the intra-frame code from the storage medium, one access operation (track jump) is performed each time one intra-frame code is read. ) Is required, and the number of intra-frame codes that can be read per time is reduced, so that there is a problem that it is difficult to perform a smooth high-speed search. In particular, 100 times for one access operation like CD-ROM.
It is impossible to perform a high-speed search on a storage medium that requires time in the unit of mS.

The present invention has been made in view of the above problems, and in reproducing a moving image signal by a high-speed search, the number of accesses to a storage medium is small.
An object of the present invention is to provide a moving image signal recording device and a moving image signal reproducing device that enable smooth moving image reproduction.

Means for Solving the Problems In order to solve the above problems, a moving image signal recording apparatus of the present invention encodes an input moving image signal within a frame at a predetermined frame interval, and encodes other frames with an inter-frame prediction code. Moving image signal encoding means for performing coding, and outputting the obtained bit string, and storage means for storing the bit string, rearranging the codes by intra-frame encoding among the bit strings so as to be continuous for three or more frames, and outputting the same. And signal processing means for recording the output of the storage means on a storage medium.

Further, the moving picture signal reproducing apparatus of the present invention performs intra-frame coding at predetermined frame intervals and performs inter-frame predictive coding for other frames in coding of a moving picture signal, and changes the frame order of the obtained bit sequence. A signal processing means for reading a signal from a storage medium recorded so that a code by intra-frame encoding can be read continuously for three or more frames, and outputting a bit string; Access control means for controlling the storage medium so that the processing means outputs, and at the time of normal reproduction, the frame sequence of the bit string is changed and output;
At the time of high-speed reproduction, a memory means for outputting in the order of input, a decoding means for decoding the output of the memory means and outputting a reproduced video signal, and a bit string are continuously outputted from the signal processing means at the time of normal reproduction. And a reproduction control means for controlling the access control means so that, at the time of high-speed reproduction, only the bit sequence by intra-frame encoding is output from the signal processing means.

Operation According to the present invention, the number of intra-frame codes that can be read from the storage medium per one access operation in a moving image reproduction by a high-speed search is increased by the above configuration. In other words, a smoother high-speed search can be performed by increasing the number of intra-frame codes that can be read per time.

Embodiment Hereinafter, a moving image signal recording apparatus according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing a moving picture signal recording apparatus according to an embodiment of the present invention. In FIG. 1, 1
Is a moving image signal input, 2 is an encoding circuit, 3 is a buffer circuit, 4 is a memory circuit, 5 is a memory control circuit, and 6 is a storage medium recording device. In the encoding circuit 2, 201 is a subtraction circuit, 202 is an orthogonal transformation circuit, 203 is a quantization circuit, 204 is an inverse quantization circuit, 205 is an inverse orthogonal transformation circuit, 206 is an addition circuit, 20
7 is a frame memory, 208 is a motion vector detection circuit, 209a
, 209b and a switch, and 210 is a variable length coding circuit. In the storage medium recording device 6, reference numeral 601 denotes a signal processing circuit, and reference numeral 7 denotes a storage medium.

The operation of the moving picture signal recording apparatus configured as described above will be described below.

A moving image signal input from a moving image signal input 1 is encoded by an encoding circuit 2. The encoding circuit 2 can switch between intra-frame encoding and inter-frame encoding. In the intra-frame encoding, after orthogonally transforming a frame signal, coefficient values are quantized. In the interframe coding, the coefficient value is quantized after orthogonally transforming the motion compensation interframe prediction error. These transform coefficient values are subjected to variable-length coding, and are output after adding necessary information at the time of decoding. When the switches 209a and 209b are set to the A side, intra-frame encoding is performed, and when the switches 209a and 209b are set to the B side, inter-frame encoding is performed. Intra-frame encoding is performed once per A frame of the input video signal. For other frames, interframe coding is performed. The output signal of the encoding circuit 2 is stored in the internal memory of the buffer circuit 3. The buffer circuit 3 changes the quantization parameter of the quantization circuit 203 according to the signal amount (remaining memory amount) stored in the internal memory. Thus, the signal amount (data amount) output from the buffer circuit 3 is controlled to be constant. FIG. 3A shows an output signal of the buffer circuit. F (n−1,1), F (n,
0), F (n + 1,0) are signals obtained by intra-frame coding, F
(N−1,1), F (n−1,2), F (n−1,3) are signals obtained by inter-frame coding. Hereinafter, a signal obtained by intra-frame coding is referred to as an intra-frame code, and a signal obtained by inter-frame coding is referred to as an inter-frame code. The memory circuit 4 changes the order of the input intra-frame code and inter-frame code and outputs them.

FIG. 3B shows an output signal of the memory circuit 4. The memory circuit 4 rearranges the codes so that three codes in the frame are continuous. The memory control circuit 5 gives an address of the memory circuit 4 necessary for the above operation.

Next, a moving image signal reproducing apparatus according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 2 is a block diagram showing a moving picture signal reproducing apparatus according to one embodiment of the present invention. In FIG. 2, 8
Is a storage medium reproducing device, 9 is a memory circuit, 10 is a microprocessor, 11 is a buffer circuit, 12 is a transcoding circuit, and 13 is a moving image signal output. In the storage medium reproducing device 8, 7
Denotes a storage medium, 801 denotes a signal processing circuit, and 802 denotes an access control circuit. In the decoding circuit 12, 1201 is a variable length code decoding circuit, 1202 is an inverse quantization circuit, 1203 is an inverse orthogonal transform circuit, 1204 is an addition circuit, 1205 is a frame memory, and 1206 is a switch.

The operation of the moving picture signal reproducing apparatus configured as described above will be described below.

First, normal reproduction will be described. The signals recorded on the storage medium 7 are read out in the order in which they were recorded by the storage medium reproducing device 8. At this time, a signal shown in FIG. 3B is obtained at the output of the storage medium reproducing device. The memory circuit 9 rearranges and outputs the signals of FIG. 3B under the control of the microprocessor 10 as shown in FIG. 3A. The signal shown in FIG. 3A is obtained by arranging intra-frame codes and inter-frame codes in the order of frame numbers.
After passing this signal through the buffer circuit 11, the decoding circuit 12
To decrypt. The decoding circuit 12 performs intra-frame decoding when the switch 1206 is switched to the A side, and performs inter-frame decoding when the switch 1206 is switched to the B side. Next, high-speed search reproduction will be described. The high-speed search is realized by reading only the intra-frame code from the storage medium and decoding it. The storage medium reproducing device 8 reads the intra-frame code recorded on the storage medium 7. This operation is performed by the access control circuit 802 of the storage medium reproducing device 8 according to an instruction from the microprocessor 10.
By sequentially accessing the intra-frame codes of the storage medium 7. FIG. 4B shows an output signal of the storage medium reproducing device 8. Three consecutive intra-frame codes are output, and the next intra-frame code is output at intervals by the access operation. The memory circuit 9 does not rearrange the input signals. After passing through the buffer circuit 11, the intra-frame code is decoded by the decoding circuit 12, and a moving image signal is output from 13. Since time is required for the access operation, it is difficult to find one intra-frame code within one frame time. Therefore, when there is no intra-frame code to be decoded during the access operation,
The image of the previous frame that has already been decoded is output from the frame memory 1205. That is, the same frame is output continuously.

In the moving picture signal recording apparatus according to the embodiment of the present invention, intra-frame coding is performed once in four frames of the input moving picture signal, but the present invention is not limited to this number.

As described above, according to the present invention, when a frame selected at a predetermined interval from a moving image signal is intra-frame encoded and recorded on a storage medium, a code such that two or more intra-frame encoding codes are consecutive. In the high-speed search for reading out only the intra-frame codes from the storage medium, the number of intra-frame codes that can be read from the storage medium per time can be increased by recording the rearranged order. That is, a faster or smoother high-speed search can be performed.

[Brief description of the drawings]

FIG. 1 is a block diagram of a moving picture signal recording apparatus according to one embodiment of the present invention, FIG. 2 is a block diagram of a moving picture signal reproducing apparatus according to one embodiment of the present invention, and FIG. FIG. 4 is an explanatory diagram showing an intra-frame code output by a storage medium reproducing device when performing a high-speed search, FIG. 5 is a block diagram of a conventional moving picture signal recording device, and FIG. 1 is a block diagram of a moving image signal reproducing device. 2 ... Encoding circuit, 3,11 ... Buffer circuit, 4,9 ... Memory circuit, 5 ... Memory control circuit, 6 ... Storage medium recording device, 7 ... Storage medium, 8 ... Storage medium reproduction Equipment, 10 ...
... microprocessor, 12 decoding circuit, 201 subtraction circuit, 202 orthogonal transform circuit, 203 quantization circuit, 20
4,1202 ... inverse quantization circuit, 205,1203 ... inverse orthogonal transform circuit, 206,1204 ... addition circuit, 207,1205 ... frame memory, 208 ... motion vector detection circuit, 210 ... variable length code ..., a signal processing circuit, 802 ... an access control circuit, 1201 ... a variable length code decoding circuit.

Claims (3)

(57) [Claims] A moving image signal encoding means for encoding an input moving image signal within a frame at a predetermined frame interval, performing inter-frame predictive encoding for other frames, and outputting an obtained bit sequence; A storage unit that stores the bit sequence, rearranges and outputs codes of intra-frame coding in the bit sequence so as to be continuous for three or more frames, and a signal processing unit that records an output of the storage unit on a storage medium. A moving picture signal recording apparatus characterized by the above-mentioned. 2. The moving picture signal recording apparatus according to claim 1, wherein said storage means rearranges and outputs all the input codes by intra-frame coding so as to be continuous for three or more frames. 3. In the coding of a moving image signal, intra-frame coding is performed at a predetermined frame interval, inter-frame predictive coding is performed on other frames, and the frame order of the obtained bit sequence is changed to perform intra-frame coding. A signal processing means for reading a signal from a storage medium recorded so that a code of 3 or more can be continuously read out and outputting a bit string; and a signal processing means for outputting a bit string of a frame designated by reproduction control means. Access control means for controlling a storage medium; memory means for changing and outputting the frame order of the bit string during normal reproduction, and outputting the input order during high-speed reproduction; decoding the output of the memory means to decode a reproduced video signal. Decoding means for outputting, and the access control so that a bit string is continuously output from the signal processing means during normal reproduction. Means for controlling the access control means so as to output only a bit sequence by intra-frame encoding from the signal processing means during high-speed playback. apparatus.