JP2000048487A - Method and device for reproducing digital audio data - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an audio data reproducing method capable of preventing sound breaks or sound fading during special reproducing such as fast-forward/ slow reproducing or the like. SOLUTION: A video decoder 4 decodes MPEG video data, and an audio decoder 5 decodes MPEG audio data. Linear audio data obtained by decoding the MPEG audio data in the decoder 5 is provided with time information by a CPU 9 at a specified interval, and stored in an HDD 6. The CPU 9 selects the linear audio data outputted from the decoder 5 as audio data synchronized with reproducing video data outputted from the decoder 4 during normal reproducing, and selects the linear audio data stored in the HDD 6 as audio data synchronized with the reproducing audio data outputted from the decoder 4 based on the time information during special reproducing.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for reproducing digital video data and digital audio data encoded with high efficiency, and more particularly to the reproduction of digital audio data during special reproduction.

[0002]

2. Description of the Related Art In digital broadcasting, video data and audio data are both MPEG (Moving Picture Exposure).
erts Group), and is transmitted by being encoded by a high-efficiency compression encoding scheme. Video data and audio data are separately compressed. For example, in the case of digital CS broadcasting, a variable bit rate data stream called an MPEG2-TS (Transport Stream) packet in units of 188-byte fixed-length packets is transmitted to the receiving side. I do. On the receiving side, these data are separated by a demultiplexer (DEMUX), the video data is expanded by a decoder, and after being D / A converted, output to a display.
The audio data is also expanded by the decoder, and the D / A
After conversion, it is output from the speaker.

At the time of reproduction, in order to synchronize video data and audio data, time information is added to each data. The decoder synchronously outputs the data of each frame to the next stage using the time information when decoding each data. The decoder is based on the time information so that the viewer can sense the synchronized playback video and audio.
It operates to maintain synchronization between video data and audio data within a video frame (typically 1/30 second).

[0004]

In such a system, there is no problem as long as the decoder performs a normal reproduction (1 × speed reproduction) operation. However, when performing a special reproduction operation such as fast forward / slow reproduction, the decoder is not required. In addition to normal playback operations, data processing such as frame data extraction and insertion operations for video data and sampling data extraction and insertion operations for audio data is required, resulting in an enormous amount of data processing. For this reason, although the decoder built into current consumer devices is capable of special playback of video data for the time being due to lack of processing capacity,
Measures such as silencing audio data are taken. For this reason, there is a problem in that the user cannot enjoy the video at a higher speed, or listen to the voice at a lower speed in language education or the like, and the range of use is limited.

The present invention has been made in view of the above points, and provides a method and apparatus for reproducing digital audio data in which sound does not break or disappear even during special reproduction such as fast-forward / slow reproduction. The purpose is to:

[0006]

A digital audio data reproducing method according to the present invention stores compressed audio data compressed and encoded in predetermined units and decodes the compressed audio data to obtain linear audio data. Time information is added to the linear audio data at regular intervals and stored. During normal playback, the compressed audio data is decoded to reproduce the compressed audio data. During special playback, the linear audio data to which the time information is added is read. Is reproduced based on the time information.

A digital audio data reproducing apparatus according to the present invention decodes compressed audio data compressed and encoded in predetermined units, and adds time information to the linear audio data obtained by the decoder at regular intervals. A storage unit for storing data; an output of the decoder is selected as reproduction audio data during normal reproduction; and linear audio data stored in the storage unit is read based on the time information during special reproduction, and is read out from the reproduction audio data. And control means for selecting

A digital audio / video data reproducing apparatus according to the present invention includes a decoder for decoding compressed audio data and compressed video data which are compression-encoded in predetermined units, respectively, and the decoder decodes the compressed audio data. Storage means for storing data obtained by adding time information to the linear audio data obtained by decoding at regular intervals, and output from the decoder as audio data synchronized with reproduced video data output from the decoder during normal reproduction Control means for selecting linear audio data and selecting, based on the time information, linear audio data stored in the storage means as audio data synchronized with reproduced video data output from the decoder during special reproduction. It is characterized by the following.

According to this invention, time information is added to the linear audio data obtained by temporarily decoding the compressed audio data, and the time information is stored in the storage means. Since the data is read out based on the time information, the processing up to decoding of the audio data is omitted, and the audio data can be reproduced even during special reproduction such as fast forward / slow reproduction.

[0010] If the linear audio data is pitch-converted so as to be close to the pitch of normal reproduction during special reproduction, and reproduced and output, sound that is easy to hear is obtained without distortion of the audio data. Also, at the time of fast forward / slow reproduction, particularly high sound quality is not required, and it is sufficient to listen to the audio data for the time being. This leads to a reduction in the storage capacity of the storage means.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a CS digital broadcast receiving apparatus to which an audio data reproducing method according to an embodiment of the present invention is applied. MPEG received via antenna 1
The 2-TS format CS received data is demodulated by the tuner 2 and then supplied to a demultiplexer (DEMUX) 3. DEMUX3 separates video data, audio data, and other information from MPEG2-TS,
The video data is supplied to the video decoder 4 and the audio data is supplied to the audio decoder 5. On the other hand, the MPEG video data and the MPEG audio data separated by the DEMUX 3 are stored in a hard disk drive (HDD) 6 as storage means.

The MPEG video data decoded by the video decoder 4 is D / A converted by a D / A converter 7 and displayed on a display device (not shown). The MPEG audio data decoded by the audio decoder 5 is D / D
The signal is D / A converted by the A converter 8 and output from a speaker (not shown). On the other hand, the decoded audio data from the audio decoder 5 is a linear PCM (Pulse Code M
odulation) audio data (hereinafter, simply referred to as “PCM data”).
And stored in the HDD 6. The PCM data read from the HDD 6 is subjected to predetermined processing by the CPU 9 and then provided for reproduction. The switch 10 selects PCM data from the audio decoder 5 and PCM data processed by the CPU 9 and outputs the PCM data to the D / A converter 8. The switch 10 is controlled by a control signal output from the CPU 9 in accordance with operation information. Switch the input.

Next, the operation of the thus configured CS receiving apparatus will be described. First, when the CS data is downloaded, the MPEG video data and the MPEG audio data separated by the DEMUX 3 are sequentially stored in the HDD 6 in packet units. Also, the MPEG audio data is supplied to the audio decoder 5 and the PCM
Decoded to data. This PCM data is supplied to the CPU 9.

The CPU 9, as shown in FIG.
The header H1 is inserted into the CM data at a constant sampling interval. The header H1 includes time information indicating the reproduction timing. FIG. 2B is a diagram for explaining the timing of inserting the header H1. Original MP
The EG2-TS packet is a 188-byte fixed-byte packet, and its header H2 includes timing information called a time stamp. According to the time stamp, the MPEG audio data is transmitted to the MP
To synchronize with the EG video data, the header H1 is also inserted into the PCM data at the timings of time1 and time2 indicated by the time stamp. However, since the MPEG audio data is sufficiently compressed, the time interval between time1 and time2 becomes long. If this time is too long, the responsiveness at the time of operation switching will deteriorate, so the PC between time1 and time2
M data is divided evenly, and the time
A new header H1 including detailed time information calculated from 1, time2 and the number of divisions is added. The divided data to which the header H1 including the time information is added by the CPU 9 is
The data is stored as PCM data in the HDD 6 via the PU 9.

The above is the data download process. When this download is completed and normal (1 × speed) reproduction is started, the CPU 9 connects the switch 10 to the audio decoder 5 side. In this state, the MPEG video data and the MPEG audio data read from the HDD 6 are decoded by the decoders 4 and 5, respectively, and D / D
The normal operation of D / A conversion by A converters 7 and 8 and display and audio output are performed.

When operation information for designating special playback such as fast-forward / slow playback is input to the CPU 9, the switch 10 is switched to the CPU 9 and the P.
Reproduction using the CM data is started. FIG. 3 shows this state. Normal playback starts from timeA and tim
Since the switch 10 is switched in response to the fast forward instruction given just before eB, the playback using the PCM data is started from time B, and the fast forward instruction is released just before time C, and the normal playback is resumed. , TimeC to switch 10
Is switched to the decoder 5 again to reproduce MPEG audio data.

As described above, in order to cope with the switching between the normal reproduction and the special reproduction, during reproduction, the CPU 9 always updates the pointer Mp of the MPEG data and the pointer Lp of the PCM data of the HDD 6 simultaneously and in parallel with time. deep. Thus, when, for example, a slow playback is instructed from the normal playback, the next header H1 of the PCM data is searched, and at that time, the pointer of the playback data is switched to Lp to perform the slow playback. Similarly, when an instruction of normal reproduction from special reproduction is issued, the next header H2 of MPEG data is searched, and at that time the data pointer is switched to Mp. In this way, it is possible to perform the reproduction as instructed by switching the data pointer at the timing of the header appearing next to each data according to the reproduction instruction.

The PCM data stored in the HDD 6 is data in which the number of bits is reduced by truncating lower bits of each sample of the PCM data output from the decoder 5 or the number of samples is reduced by thinning out samples. By degrading some quality such as HDD
6 can reduce the information amount of the PCM data to be stored. Even if the quality of the PCM data is slightly reduced, the PCM data is used only during special playback such as fast-forward / slow playback. Is not a problem.

When the CPU 9 performs pitch conversion processing on the PCM data in accordance with the reproduction speed so as to approach the pitch at the time of the normal reproduction, the distortion of the sound is eliminated and the listener can easily recognize the sound. As the pitch conversion, for example, a well-known cut and splice method or the like can be used. That is, as shown in FIG. 4, when a frame having a predetermined length T is defined as one processing unit, read speed conversion of a predetermined number of samples is performed in one frame, and when this is completed, the frame is jumped to a time position corresponding to the original signal. Repeat the same process again. As a result, a part of the original signal is truncated or reproduced twice. Since waveform discontinuity occurs between frames, the cross-fade processing is performed to smooth the frame connection. As shown in FIG. 5, for example, as shown in FIG. 5, the cross-fade processing is performed by shifting the start position of the frame by Ｔ of the frame period T and performing the above-described processing on the signals of two channels. What is necessary is just to multiply these cross-fade coefficients cg1 and cg2, respectively, and to add them.

In the above embodiment, the MPEG2-TS is used as an example of the processing unit of the compressed audio data. However, this is merely an example. For example, the decoding unit is AAU.
(Audio Access Unit) or PES (Packe
It is needless to say that the present invention is applicable even in the case of using a unitized elementary stream).

[0021]

As described above, according to the present invention, time information is added to linear audio data once obtained by decoding compressed audio data and stored in storage means, and a special reproduction operation is designated. When this is done, the linear data is read out based on the time information, so that the processing up to decoding of the audio data is omitted and the audio data can be reproduced even during special reproduction such as fast forward / slow reproduction. Become. As a result, it is possible to check the sound even at the time of fast forward or slow reproduction, and it is also possible to watch a video by speed reproduction. Furthermore, it is also very effective for language education, such as video reproduction by speech speed conversion.

[Brief description of the drawings]

FIG. 1 is a block diagram of a CS digital broadcast receiving apparatus according to an embodiment of the present invention.

FIG. 2 is a diagram for describing linear PCM audio data recorded by the same device.

FIG. 3 is a diagram for explaining the operation of the device.

FIG. 4 is a waveform chart for explaining pitch conversion processing.

FIG. 5 is a diagram for explaining coefficients used in the pitch conversion processing.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Antenna, 2 ... Tuner, 3 ... Demultiplexer (DEMUX), 4 ... Video decoder, 5 ... Audio decoder, 6 ... Hard disk drive (HDD),
7, 8 D / A converter, 9 CPU, 10 switch.

Continued on front page F-term (reference) 5C053 FA20 FA23 GB06 GB11 GB21 GB37 GB38 HA23 HA24 JA12 JA22 KA08 KA22 KA24 LA06 LA07 5D044 AB05 AB07 BC01 CC04 DE39 FG23 GK08 GK10

Claims (5)

[Claims] 1. A method for storing compressed audio data compressed and encoded in a predetermined unit, decoding the compressed audio data to obtain linear audio data, and storing the linear audio data by adding time information to the linear audio data at regular intervals. In normal reproduction, the compressed audio data is decoded to reproduce the compressed audio data, and in special reproduction, the linear audio data to which the time information is added is reproduced based on the time information. Method of reproducing digital audio data. 2. The stored linear audio data is data in which the quality of linear audio data obtained by decoding the compressed audio data is reduced to reduce the amount of stored information. Item 1. A method for reproducing digital audio data according to item 1. 3. The digital audio system according to claim 1, wherein at the time of the special reproduction, the linear audio data to which the time information is added is pitch-converted so as to be close to a pitch at the time of normal reproduction and reproduced and output. How to play the data. 4. A decoder for decoding compressed audio data compressed and encoded in predetermined units, storage means for storing data obtained by adding time information to the linear audio data obtained by the decoder at regular intervals, and normal reproduction. Control means for sometimes selecting the output of the decoder as reproduction audio data, and reading out the linear audio data stored in the storage means based on the time information during special reproduction, and selecting this as reproduction audio data. An apparatus for reproducing digital audio data, characterized in that: 5. A decoder for respectively decoding compressed audio data and compressed video data compressed and encoded in a predetermined unit, and a linear audio data obtained by decoding the compressed audio data by the decoder at regular intervals. Storage means for storing data to which information is added; linear audio data output from the decoder as audio data synchronized with playback video data output from the decoder during normal playback; output from the decoder during special playback Control means for selecting linear audio data stored in the storage means as audio data synchronized with the reproduced video data to be reproduced based on the time information. .