JP2007180847A - Recording device and reproducing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To record the sound of 4ch without reducing the bit rate of a video and to record non-compressed PCM sound of quality higher than that of sound compressed by MPEG in synchronism with an MPEG stream. <P>SOLUTION: On an encoder side, the MPEG stream including the video data of MPEG and the audio data of MPEG of 2 channels is recorded in the video region of a DV, TSdv is generated on the basis of the time reference of the MPEG stream recorded in the video region of the DV, and PCM audio signals and the TSdv are recorded in the audio region of the DV. On a decoder side, the PCM audio signals are synchronized with the video data of MPEG on the basis of the TSdv. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an MPEG stream recording apparatus and an MPEG stream playback apparatus, and more particularly to video and audio synchronization at the time of audio multi-channel recording in a VTR that supports the HD1 mode of the HDV format.

  In HD1 mode of HDV format (see Non-Patent Document 1 below), in addition to normal stereo audio (2ch), audio for 4ch (stereo audio x 2) in MPEG-TS (transport stream) A method for recording the stream is defined. FIG. 6 shows the data layout on the HD1 mode tape in HDV format. In FIG. 6, the tracks on the tape are shown in the vertical direction, but in actuality, they are arranged obliquely by a DV camera or VTR helical scan. Each track is scanned from one side edge (the lower end in FIG. 6) to the other side edge (the upper end in FIG. 6). 101 (also referred to as an audio area) is provided, followed by a DV video area (hereinafter also simply referred to as a video area) 102. In the DV video area 102, MPEG-TS video data and program information TS packets and audio TS packets are recorded. Since the additional 2ch area of the audio TS packet does not exist in normal 2ch recording, the video band is cut and inserted into the video area 102.

Here, the additional 2ch area is provided on the assumption that post-recording is performed mainly by editing on a PC (personal computer), and the newly added audio data is used when writing back to the tape. If you want to use 4ch recording so that the bandwidth does not overflow, reduce the bit rate of the video data beforehand at the time of recording, and the reduced amount is a dummy audio stream that has the same audio bandwidth as the main audio 2ch It is supposed to be secured in advance. The reason for this is that, unless reserved in advance, the bit rate that can be recorded on the tape is constant, so that data for 2ch added later by post-recording cannot be written back to the tape. For this reason, it is necessary to re-encode the video data so that it fits on the tape to reduce the bit rate. However, since this processing amount is very large and takes a long time, it is specified in the format so as to secure a band for 4ch in advance. ing.
Specification of HDV Recording Format Version 1.0 September 2003

  However, in the method of Non-Patent Document 1, an audio stream for 4 channels including dummy data must be recorded even in normal stereo recording (2 channel recording), and the video bit rate, that is, image quality is sacrificed. Become. Also, with this method, it is not possible to record uncompressed PCM audio of higher quality than audio compressed with MPEG. In HD1 mode of HDV format, an MPEG stream including video and audio is recorded in an area where video was recorded in DV format, but DV format audio area 101 which is PCM audio is not used. The audio area 101 can be used for recording audio signals. However, there is no method for matching MPEG video data and lip sync because there is no regulation regarding the synchronization between the audio recorded in the audio area 101 and the MPEG stream recorded in the video area 102.

In view of the above-described problems of the conventional example, the present invention can record 4ch audio without reducing the bit rate of video data, and can convert uncompressed PCM audio of higher quality than MPEG compressed audio into an MPEG stream. It is an object of the present invention to provide an MPEG stream recording apparatus capable of recording in synchronization with the recording medium.
Another object of the present invention is to provide an MPEG stream playback apparatus capable of playing back PCM audio recorded with higher quality than uncompressed audio compressed in MPEG in synchronization with the MPEG stream.

In order to achieve the above object, the present invention compresses input video data and input audio data by the MPEG method, and MPEG-TS obtained by time-division multiplexing the compressed MPEG video data and MPEG audio data, The data is converted by a method based on the HD1 mode of the HDV standard based on the DV standard and recorded in the DV video area provided in each track of the DV tape.
In the recording apparatus for recording the input audio data in a DV audio area provided in each track of the DV tape,
Timing information generating means for generating frame reference information indicating the timing of recording the head data of the input audio data in the head block of each frame constituting each DV audio area; (3, 5);
The input audio data is sequentially compressed with MPEG while adding PTS, the frame reference information is received, and the head data of each input audio data recorded in the head block of each frame is received by the frame reference information. (2) an audio compression unit that identifies and extracts a PTS to be added when compressing each input audio data including the identified head data as TSdv that is time information for DV;
(6, 7, 5) TSdv adding means for setting the TSdv in an AUX section which is an area describing auxiliary information in a DV audio area in which each corresponding input audio data specified is recorded
It is characterized by having.

In order to achieve the above object, the present invention provides MPEG video data and MPEG audio data from MPEG-TS recorded in a DV video area provided in each track of a DV tape by the recording apparatus according to claim 1. And separating and reproducing the separated MPEG video data and MPEG audio data,
In the reproducing | regenerating apparatus which reproduces | regenerates the audio data recorded on the DV audio area provided in each track | truck of the said DV tape with the recording device of Claim 1.
Means for reading TSdv recorded in the AUX part of the DV audio area;
Audio data decompression means for reading out and decompressing the MPEG audio data and generating an STC; (11, 12, 13);
The difference value between the STC and the TSdv is calculated, the reproduction timing of the audio data recorded in the DV audio area is delayed by the time of the calculated difference value, and the MPEG audio data is expanded. Playback delay means for synchronizing with the playback timing (16, 14),
It is characterized by having.

  According to the present invention, 4ch audio can be recorded without reducing the video bit rate, and uncompressed PCM audio of higher quality than MPEG compressed audio can be recorded in synchronization with the MPEG stream. In addition, it is possible to reproduce PCM audio recorded with high-quality non-compression compared with audio compressed with MPEG in synchronization with the MPEG stream.

  Embodiments of the present invention will be described below with reference to the drawings. In this embodiment, DV audio data is basically synchronized using a time reference STC (System Time Clock) used for MPEG A / V synchronization. PTS (Presentation Time Stamp) is time information indicating the output timing of audio or video in MPEG. The PTS is added to a certain unit (a unit of each frame or a certain audio sample) on the encoder side, and is compared with an STC which is a time reference counter on the decoder side to determine the output timing of audio or video. In this embodiment, time information (time stamp) corresponding to the PTS is added to DV audio data. This time stamp is distinguished from MPEG PTS and defined as TSdv.

  FIG. 1 is a block diagram showing one track of the DV audio area 101 shown in FIG. The audio area for one track has a configuration in which 17 sync blocks = 0 to 16 are arranged in the vertical direction with the horizontal direction = 90 bytes (90 bytes) as one sync block, and 2 bytes at the head of each sync block. Synchronization signal Sync is arranged, and a sync block ID of 3 bytes is arranged after the synchronization signal Sync. Of the 17 sync blocks = 0 to 16, the first two sync blocks = 0, 1 and the last sync block = 16 are sync blocks for identification codes not directly related to audio data.

In each sync block = 2 to 10, 5-byte audio auxiliary data (Audio Aux, hereinafter also referred to as AAUX) is arranged following the sync block ID, and 72-byte audio data (PCM data: FIG. 1) is arranged following AAUX. Among them, an audio data is displayed, and an 8-byte error parity (ECC) inner parity is arranged after the audio data. In each sync block = 11 to 15, 5 + 72 = 77 bytes of ECC outer parity (Outer Parity) are arranged following the sync block ID, and 8 bytes of inner parity are arranged following the outer parity. . In the present embodiment, as an example, the above TSdv is arranged in the audio auxiliary data AAUX of sync blocks = 9,6.
In particular, when track = 0, 2, 4, 6, 8 (NTSC) / 0, 2, 4, 6, 8, 10 (PAL), TSdv is arranged in the AAUX area of sync block = 9,
When track = 1, 3, 5, 7, 9 (NTSC) / 1, 3, 5, 7, 9, 11 (PAL), TSdv is arranged in the AAUX area of sync block = 6.

  Here, a unit for recording data for one frame of DV is 10 tracks (NTSC) / 12 tracks (PAL) as defined in the DV standard (IEC61834). Even when MPEG data is recorded, since the audio data conforms to the DV standard, track numbers = 0 to 9 (NTSC) / 0 to 11 (PAL) based on one DV frame. ) And the recording position of AAUX data is determined based on this track number.

  The TSdv of one PCM audio data is bit-assigned as shown in FIG. 2 using a binary pack structure in the AAUX area. In FIG. 2, AAUX data for one track is composed of 5 bytes (PC0 to PC4). Then, the number of tracks for one frame = 10 (NTSC) / 12 (PAL) is used, and two bytes of the AAUX area of one track are used over two tracks to store 32-bit TSdv data PTS31 to PTS0 ( PC3, PC4 in the figure). The binary pack is specified in the DV format, but the contents are not specified. In addition, although MPEG PTS is originally represented by 33 bits, one bit is missing in FIG. 2, but this number of bits is considered sufficient for lip sync.

  FIG. 3 is a block diagram showing an embodiment of an MPEG stream recording apparatus according to the present invention, and FIG. 4 is a timing chart for explaining its operation. An input video signal V is applied to an MPEG encoder (MPEG enc.) 2, and an input audio signal is converted into PCM audio data by an A / D converter (ADC) 1, and then sent to an MPEG encoder 2 and a DV audio (audio) processing unit 3. Applied. The MPEG encoder 2 compresses the input video signal and the input PCM audio data to generate an MPEG-TS (transport stream), and the HDV processing unit 4 performs processing for HDV recording of the MPEG-TS from the MPEG encoder 2. And output to the DV encoding unit 5. The DV audio processing unit 3 performs processing for recording the PCM audio data from the A / D converter 1 as DV audio data, and outputs it to the DV encoding unit 5.

In the above configuration, when 4ch simultaneous recording is performed, the MPEG encoder 2 receives timing information indicating the head of each frame from DV frames A, B, and C as shown in FIG. Then, using this timing information, the same input audio data as the DV audio data (Ddv) arranged at the head of each frame is added to the data Dmp input to the MPEG encoder 2 and encoded. Extract PTS.
The PTS is sent to the AUX generation unit 7 via the microcomputer 6. The AUX generation unit 7 packs this PTS as TSdv in the structure of binary pack as shown in FIG. 2 and outputs it to the DV encoding unit 5. As shown in FIGS. 1 and 2, the DV encoding unit 5 includes MPEG-TS from the HDV processing unit 4, DV audio data from the DV audio processing unit 3, and AAUX data including TSdv from the AUX generation unit 7. Multiplex and error correction processing, and output to the tape side. At this time, TSdv is recorded in the AAUX area of the frame in which Ddv is recorded.

  Also, during non-linear editing, a TSdv of DV audio data is determined based on a PCR (Program Clock Reference) of the MPEG-TS to be edited, and AAUX data is generated from this TSdv, so that MPEG video / audio data and Synchronize DV audio data.

  FIG. 5 is a block diagram showing an embodiment of an MPEG stream reproducing apparatus according to the present invention. A signal read from the tape is separated into MPEG-TS and DV audio signals in the DV video area by a DV codec (codec) 11 and subjected to error correction processing. The MPEG-TS in the DV video area is decoded as an MPEG video / audio signal via the HDV processing unit 12 and the MPEG decoder (dec.) 13. The MPEG audio signal decoded by the MPEG decoder 13 and the DV audio signal separated by the DV codec 11 are output via a delay / mix (delay / mix) unit 14 and a D / A converter (DAC) 15. The At this time, the microcomputer 16 reads TSdv from the Audio Aux area, compares this TSdv with the current STC sent from the MPEG decoder 13, determines the delay amount of the DV audio signal from the difference, and determines the delay / mixing unit 14 Control the amount of delay. The delay / mixing unit 14 mixes and outputs the DV audio signal delayed according to the application and the MPEG audio signal, outputs 4ch simultaneously, or outputs only the DV audio signal.

It is a block diagram which shows the audio area | region of DV which concerns on this invention. It is explanatory drawing which shows the audio auxiliary data of FIG. 1 in detail. 1 is a block diagram showing an embodiment of an MPEG stream recording apparatus according to the present invention. 4 is a timing chart for explaining the operation of the MPEG stream recording apparatus of FIG. 3. It is a block diagram which shows one Embodiment of the MPEG stream reproducing | regenerating apparatus based on this invention. It is explanatory drawing which shows the data layout on the tape of HD1 mode of HDV format.

Explanation of symbols

1 A / D converter (ADC)
2 MPEG encoder (MPEG enc.)
3 DV audio processing unit 4, 12 HDV processing unit 5 DV encoding unit 6, 16 microcomputer 7 AUX generation unit 11 DV codec (DV codec)
13 MPEG decoder (MPEG dec.)
14 Delay / mix section 15 D / A converter (DAC)

Claims (2)

The input video data and the input audio data are each compressed by the MPEG system, and the MPEG-TS obtained by time-division multiplexing the compressed MPEG video data and the MPEG audio data is converted into an HDV standard HD1 mode based on the DV standard. The data is converted by a method based on the above and recorded in the DV video area provided in each track of the DV tape.
In the recording apparatus for recording the input audio data in a DV audio area provided in each track of the DV tape,
Timing information generating means for generating frame reference information indicating timing for recording the head data of the input audio data in the head block of each frame constituting each DV audio area;
The input audio data is sequentially compressed with MPEG while adding PTS, the frame reference information is received, and the head data of each input audio data recorded in the head block of each frame is received by the frame reference information. An audio compression unit that identifies and extracts a PTS to be added when compressing each input audio data including the identified head data as TSdv which is time information for DV;
TSdv adding means for setting the TSdv in an AUX section that is an area describing auxiliary information in a DV audio area in which each corresponding input audio data specified is recorded,
A recording apparatus comprising: The MPEG video data and the MPEG audio data are separated from the MPEG-TS recorded in the DV video area provided in each track of the DV tape by the recording apparatus according to claim 1, and the separated MPEG video data and MPEG are separated. While expanding and playing back each audio data,
In the reproducing | regenerating apparatus which reproduces | regenerates the audio data recorded on the DV audio area provided in each track | truck of the said DV tape with the recording device of Claim 1.
Means for reading TSdv recorded in the AUX part of the DV audio area;
Audio data decompression means for reading and decompressing the MPEG audio data and generating STC;
The difference value between the STC and the TSdv is calculated, the reproduction timing of the audio data recorded in the DV audio area is delayed by the time of the calculated difference value, and the MPEG audio data is expanded. Playback delay means for synchronizing with playback timing,
A playback device comprising:

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