JP3563733B2 - Compression encoded audio data playback device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a reproducing apparatus for reproducing compressed encoded audio data from a recording medium, such as an optical disk, on which packetized compressed encoded audio data is recorded.
[0002]
[Prior art]
As is well known, in recent years, for example, not only audio data but also moving image data can be compressed and recorded on an optical disc having a diameter of 12 cm, which is the same as an audio CD (compact disk). As this type of optical disk, for example, a CD-ROM (Read Only Memory) is widely used in a wide range of fields from education to karaoke.
[0003]
FIG. 6 shows a physical recording format of compression-encoded audio data A and moving image data V on this type of optical disc. That is, the audio data A and the moving image data V are separated by a unit called a sector S which is a physical reference data amount. Each sector S is recorded on the optical disc as a data stream DS arranged in a time-division manner.
[0004]
Here, each sector S is composed of a header area HA and a data area DA. In the header area HA, various types of management information for indicating the type of data recorded in the data area DA are recorded. In the data area DA, compression-encoded audio data, moving image data, and the like are recorded.
[0005]
On the other hand, at present, moving image data corresponding to a movie for about 2 hours and audio data in eight different languages are not only recorded at high density by compression coding on an optical disk having the same diameter as a CD, An optical disc commonly called a DVD (Digital Video Disk) has also been developed that can also record sub-picture data representing subtitles and the like in 32 different languages.
[0006]
In the case of this DVD, compression-encoded audio data and moving image data are divided into units called packets corresponding to the sectors. Each packet is recorded on the optical disc as a data stream arranged in a time-division manner. Each packet is composed of a header area and a data area, similarly to the sector.
[0007]
FIG. 7 shows a plurality (two in the illustrated case) of audio packets AP1 and AP2 in which compression-encoded audio data is recorded. These audio packets AP1 and AP2 are composed of a header area PHA and an audio data area ADA. Among these, in the packet header area PHA, various management information for indicating the type of data recorded in the audio data area ADA and the like are recorded.
[0008]
In the audio data area ADA, compression-encoded audio data is recorded while being divided in units called frames. Each frame includes a synchronization signal and compression-encoded audio data sampled within a certain unit time.
[0009]
Here, the compressed and encoded audio data is restored to the original audio data by detecting a synchronization signal at the time of reproduction and performing a decoding process on a frame basis. When the sampling frequency of the compression-encoded audio data is 48 kHz, the length of one frame is 24 msec in the MPEG standard and 32 msec in the AC-3 standard.
[0010]
FIG. 8 shows a means for detecting a synchronizing signal for each frame from the compression-encoded audio data. That is, the bit stream of the compressed and coded audio data supplied to the input terminal 1 is taken out of the output terminal 2 as it is and subjected to the decoding process, and is sent to the synchronization pattern detection circuit 3 and the frame length information extraction circuit 4 respectively. Supplied.
[0011]
Among them, the synchronization pattern detection circuit 3 detects a pattern of the synchronization signal from the input bit stream, and outputs the detected synchronization signal to the frame synchronization detection circuit 5. When the window signal output from the synchronization window generation circuit 6 is open, the frame synchronization detection circuit 5 determines that the synchronization signal output from the synchronization pattern detection circuit 3 is a normal frame synchronization signal, and The signal is output to the terminal 7 and to the frame length information extraction circuit 4.
[0012]
The frame length information extraction circuit 4 extracts frame length information included in a frame from a bit stream based on the frame synchronization signal output from the frame synchronization detection circuit 5, and extracts the extracted frame length information from the frame. It is output to the length determination circuit 8. The frame length determination circuit 8 determines the frame length based on the input frame length information, and outputs a determination signal to the synchronization window generation circuit 6. Then, the synchronization window generating circuit 6 generates a window signal that is opened at the expected position where the synchronization signal of each frame is to be generated based on the input discrimination signal, and outputs the window signal to the frame synchronization detection circuit 5. .
[0013]
FIG. 9 shows the relationship between the bit stream of the compression-encoded audio data, the synchronization signal detected by the synchronization pattern detection circuit 3, and the window signal output from the synchronization window generation circuit 6. As shown in FIG. 9, a synchronization signal is detected by the synchronization pattern detection circuit 3 at the beginning of each frame in the bit stream, and when the synchronization signal is detected, the synchronization signal is output from the synchronization window generation circuit 6. The state in which the window signal is open (high level) indicates that synchronization has been achieved.
[0014]
By the way, as described above, when the compression-encoded audio data is divided into frames and recorded in the audio data area ADA of the audio packets AP1 and AP2, one or an integral multiple of the audio data area ADA is included in the audio data area ADA. It is rare that a few frames are recorded just exactly and without waste.
[0015]
For this reason, in order to use the capacity of the audio data area ADA and the capacity of the optical disk without waste, one frame K + 1 is divided into two audio packets AP1 and AP2 and recorded as shown by hatching in FIG. There is a need to. However, if one frame is divided into two audio packets AP1 and AP2 in this way, it takes several frames of reproduction time to detect a synchronization signal during reproduction of audio data. Problems such as interruption occur.
[0016]
In addition, in the above-mentioned DVD, up to eight audio streams can be recorded, so that the sound is interrupted even when the stream is switched, that is, when the language is switched. Further, even during special reproduction such as high-speed reproduction, audio packets are not continuously read out, so that sound interruption occurs.
[0017]
[Problems to be solved by the invention]
As described above, in the conventional means for packetizing the compression-encoded audio data divided into frames, one frame is divided into two audio packets and recorded in order not to waste the capacity of the audio packets. In this case, there is a problem that a sound break occurs at the time of normal reproduction, switching of audio streams, special reproduction, and the like.
[0018]
Therefore, the present invention has been made in consideration of the above circumstances, and has been made so that during normal playback, at the time of switching audio streams, and during special playback, etc. An object of the present invention is to provide a very good apparatus for reproducing compressed encoded audio data, which can reproduce a recording medium in which compressed encoded audio data divided into units are packetized and recorded.
[0019]
[Means for Solving the Problems]
A compression-encoded audio data reproducing apparatus according to the present invention packetizes compressed-encoded audio data compressed so as to be decodable in frame units, with one fixed-length sector, which is a physical reference data amount, as one packet. A reproducing apparatus for reproducing compressed and encoded audio data from a recording medium on which a packet sequence is configured such that each packet is completed by one or an integral multiple of the number of frames,
Demodulating means for demodulating data read from the recording medium, signal processing means for performing error correction processing on the data from the demodulating means, and extracting one or an integer multiple of the number of frames from the packet and separating and extracting the frames. A decoding unit that decodes the compressed and coded audio data obtained from the separation unit in units of frames, and compresses the decoding unit in units of frames during normal reproduction and special reproduction of the compressed and coded audio data. It is configured such that encoded audio data is supplied.
[0020]
Further, according to the present invention, there is provided a playback apparatus for compressed and coded audio data, wherein one sector of a fixed length, which is a physical reference data amount, is defined as one packet, and a plurality of streams of compressed and coded voice data are compressed so as to be decoded in frame units. A reproducing apparatus for reproducing compressed and encoded audio data from a recording medium in which a packet sequence is formed by packetizing data and each packet is configured to be completed by one or an integral multiple of the number of frames. And
Demodulating means for demodulating data read from the recording medium, signal processing means for performing error correction processing on the data from the demodulating means, and extracting one or an integer multiple of the number of frames from the packet and separating and extracting the frames. A decoding unit that decodes the compression-encoded audio data obtained from the separation unit in units of frames, wherein the decoding unit performs frame-by-frame decoding during normal playback of the compression-encoded audio data and switching between multiple streams. , So that the compression-encoded audio data is supplied.
[0021]
According to the above configuration, when decoding the compressed and encoded audio data read from the recording medium in units of frames, when switching between normal playback and special playback of the compressed and encoded audio data, or when performing compression encoding. At the time of switching between the normal reproduction of audio data and the plurality of streams, the compression-encoded audio data is supplied to the same decoding means in frame units.
[0022]
Thus, when switching between normal playback and special playback, or switching between normal playback and an audio stream, audio can be quickly reproduced and sound breaks can be eliminated, so that the sound is separated into frames. It is possible to reproduce a recording medium in which the obtained compressed and encoded audio data is packetized and recorded.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. That is, FIG. 1 shows the structure of the voice packet AP11. This audio packet AP11 is composed of a packet header area PHA and an audio data area ADA. Among these, in the packet header area PHA, various management information for indicating the type of data recorded in the audio data area ADA and the like are recorded.
[0024]
In the audio data area ADA, compression-encoded audio data is recorded while being divided in units called frames. In this case, one audio data area ADA is set such that one or an integral multiple of the number of frames is recorded exactly and without waste. That is, one audio data area ADA is set to be completed by one or an integral multiple of the number of frames.
[0025]
By setting the audio data area ADA of the audio packet AP11 in this manner, one frame is not divided into two audio packets and recorded as in the related art, so that it takes no time to detect the synchronization signal. At the time of normal reproduction, switching of the audio stream, special reproduction, and the like, the audio can be quickly reproduced, and it is possible to prevent the sound from being interrupted.
[0026]
If the packet length of the audio packet AP11 is to be fixed, additional data is added to the audio packet AP11. FIG. 2 shows an example in which a padding packet PP is provided as additional data. FIG. 3 shows an example in which a stuffing ST is provided as additional data.
[0027]
That is, in FIG. 2, the audio packet AP11 is composed of a packet header area PHA and an audio data area ADA completed by one or an integral multiple of the number of frames, and includes the audio packet AP11 and the padding packet PP. The padding packet PP is adjusted so that the data amount is fixed.
[0028]
In FIG. 3, the audio packet AP11 includes an audio data area ADA completed by one or an integral multiple of the number of frames and a packet header area PHA to which a stuffing ST is added. The length is adjusted by the stuffing ST so as to be long.
[0029]
In the above-described MPEG standard, since the audio packet requires at least 8 bytes, the padding packet PP is used when the additional data is 8 bytes or more, and the stuffing ST is used when the additional data is 7 bytes or less. It would be good to use it.
[0030]
Next, FIG. 4 shows recording means for packetizing the compression-encoded audio data in frame units as described above and recording the packetized data on a recording medium such as an optical disk. That is, the analog audio signal supplied to the input terminal 11 is supplied to an A / D (analog / digital) conversion circuit 12, converted into digital audio data, and then output to the compression circuit 13.
[0031]
The compression circuit 13 performs a high-efficiency compression encoding process on the input digital audio data in accordance with the AC-3 standard or the like, and outputs the obtained compression encoded audio data to the packing circuit 14 in frame units. ing. The packing circuit 14 packetizes the compression-encoded audio data input in units of frames together with the header data output from the header adding circuit 15 to generate an audio packet AP11 as shown in FIG.
[0032]
When packetization of a fixed length is performed, the packing circuit 14 generates the audio packet AP11 shown in FIGS. 2 and 3 by attaching additional data such as a padding packet PP and a stuffing ST.
[0033]
Then, the audio packet AP11 generated by the packing circuit 14 is supplied to a signal processing circuit 16 and subjected to a parity adding process for error correction, and then output to a modulation circuit 17. The modulation circuit 17 performs a modulation process suitable for recording on the recording medium 18 on the input data, and causes the recording data to be recorded on the recording medium 18. As the recording medium 18, various types such as an optical disk, a magnetic disk, a magnetic tape, and a semiconductor memory can be used.
[0034]
Next, FIG. 5 shows a reproducing means for reading out the compressed and encoded audio data packetized as described above and recorded on the recording medium 18 from the recording medium 18 and reproducing it. That is, the data read from the recording medium 18 is subjected to demodulation processing by the demodulation circuit 19, supplied to the signal processing circuit 20, subjected to error correction processing, and then output to the separation circuit 21.
[0035]
This separation circuit 21 separates header data and compression-encoded audio data from packetized data. When additional data such as a padding packet PP and a stuffing ST is added to the packetized data, the separation circuit 21 also performs an operation of removing the additional data. The compression-encoded audio data separated by the separation circuit 21 is supplied to the decoding circuit 22 in frame units.
[0036]
Since the compression coded audio data is supplied to the decoding circuit 22 in units of frames at any time including the time of special reproduction, it is not necessary to perform the frame synchronization capturing process. The audio data is subjected to decompression processing. The digital audio data decoded by the decoding circuit 22 is converted into an original analog audio signal by a D / A (digital / analog) conversion circuit 23, and then is amplified by an amplification circuit 24, and is output from an output terminal. 25.
[0037]
It should be noted that the present invention is not limited to the above-described embodiment, and can be variously modified and implemented without departing from the scope of the invention.
[0038]
【The invention's effect】
As described in detail above, according to the present invention, at the time of normal reproduction, at the time of switching audio streams, at the time of special reproduction, and the like, the audio is divided into frame units so that audio can be reproduced quickly and sound breaks can be eliminated. It is possible to provide a very good apparatus for reproducing compressed encoded audio data, which can reproduce a recording medium in which the compressed encoded audio data is packetized and recorded.
[Brief description of the drawings]
FIG. 1 is a diagram showing an embodiment of the present invention.
FIG. 2 is a diagram showing a modification of the embodiment.
FIG. 3 is a view showing another modification of the embodiment.
FIG. 4 is a block diagram showing a recording unit of the compression-encoded audio data according to the embodiment;
FIG. 5 is a block diagram showing a means for reproducing compression-encoded audio data according to the embodiment;
FIG. 6 is a diagram showing a physical recording format of compression-encoded audio data and moving image data on an optical disk.
FIG. 7 is a diagram showing a relationship between an audio packet and a frame in the recording format.
FIG. 8 is a block diagram showing a means for detecting a synchronization signal from the frame.
FIG. 9 is a timing chart shown for explaining the operation of the synchronization detecting means.
[Explanation of symbols]
11 input terminal,
12 ... A / D conversion circuit,
13 ... compression circuit,
14 ... Packing circuit,
15. Header addition circuit,
16 ... signal processing circuit,
17: modulation circuit,
18 recording medium,
19 ... demodulation circuit,
20 ... Signal processing circuit,
21 ... separation circuit,
22 ... Decoding circuit,
23 ... D / A conversion circuit,
24 ... amplifier circuit,
25 output terminal.

Claims (12)

One sector of a fixed length, which is a physical reference data amount, is defined as one packet, and compressed encoded audio data compressed to be decodable in frame units is packetized, and each packet is one or an integer multiple thereof. A playback device that plays back the compression-encoded audio data from a recording medium on which a packet sequence configured to be completed by frames is recorded,
Demodulation means for demodulating data read from the recording medium,
Signal processing means for performing error correction processing on the data from the demodulation means,
Separating means for extracting the one or an integer multiple of the number of frames from the packet and separating and extracting the frames in frame units;
Decoding means for decoding the compressed and coded audio data obtained from the separation means in frame units,
Wherein the decoding means is configured to supply the compressed and coded audio data in frame units during normal reproduction and special reproduction of the compressed and coded audio data. apparatus. The packet has a header and compressed and encoded audio data, and the separating unit separates the header and the compressed and encoded audio data, and supplies the separated compressed and encoded audio data to the decoding unit. The apparatus for reproducing compressed and encoded audio data according to claim 1. 3. The apparatus according to claim 2, wherein the separating unit removes the additional data when the packet includes additional data such as a padding packet or stuffing. When the additional data is 8 bytes or more, the additional data is added to the packet,
4. The apparatus according to claim 3, wherein the additional data is added to the packet when the additional data is 7 bytes or less. 3. The apparatus according to claim 2, wherein the header records management information of the compression-encoded audio data. 3. The apparatus according to claim 2, wherein the header records information indicating a type of the compression-encoded audio data. One fixed-length sector, which is a physical reference data amount, is defined as one packet, and compressed and encoded audio data of a plurality of streams compressed so as to be decodable in frame units is packetized. Each packet is one or an integer thereof. A playback device that plays back the compression-encoded audio data from a recording medium on which a packet sequence configured to be completed with a double number of frames is recorded,
Demodulation means for demodulating data read from the recording medium,
Signal processing means for performing error correction processing on the data from the demodulation means,
Separating means for extracting the one or an integer multiple of the number of frames from the packet and separating and extracting the frames in frame units;
Decoding means for decoding the compressed and coded audio data obtained from the separation means in frame units,
Wherein said decoding means is configured to supply said compressed and encoded audio data in units of said frame during normal reproduction of said compressed and encoded audio data and at the time of switching between said plurality of streams. Data playback device. The packet has a header and compressed encoded audio data,
8. The apparatus according to claim 7, wherein the separating unit separates the header from the compressed coded audio data and supplies the separated compressed coded audio data to the decoding unit. . 9. The apparatus according to claim 8, wherein the separating unit removes the additional data when the packet includes additional data such as a padding packet or stuffing. When the additional data is 8 bytes or more, the additional data is added to the packet,
10. The apparatus according to claim 9, wherein the additional data is added to the packet when the additional data is 7 bytes or less. The apparatus according to claim 7, wherein the header records management information of the compression-encoded audio data. The apparatus according to claim 7, wherein the header records information indicating a type of the compression-encoded audio data.

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