JP2004153631A - Digital image and sound recorder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a digital image and sound signal recorder which suppresses increase in a circuit scale by solving the problem brought about by the transcoding image information newly compression encoded in an MPEG2-TS encoding circuit. <P>SOLUTION: A digital image and voice signal recorder includes the MPEG2-TS encoding circuit and an MPEG2-TS decoding circuit. The recorder further includes a transcoding means for transcoding the externally input MPEG2-TS to generate a first row MPEG-TS. The transcoding means has a decoding means for decoding the externally input MPEG2-TS, and encoding means for transforming the signal obtained by the decoding means into the MPEG2-TS. The MPEG2-TS decoding means is used as the decoding means, and the MPEG2-TS encoding circuit is used as the encoding means. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a digital video / audio recording device having a bit rate conversion function for MPEG2-TS.
[0002]
[Prior art]
As shown in FIG. 1, the video signal from the MPEG2-TS is separated from other information (audio information, data, etc.) for the purpose of reducing the transmission band or the storage capacity, and the video information having a large code amount is separated. A low bit rate conversion (called transcoding) is performed, and a bit rate conversion processing circuit for multiplexing the obtained video signal again with audio information, data, and the like has been developed.
[0003]
In FIG. 1, the thickness of the arrow indicates the MPEG2-TS transmission rate, and the area of the area within the arrow indicates the amount of bandwidth occupied by video, audio, and data.
[0004]
The following two methods are known as means for implementing transcoding processing on video information.
[0005]
(1) A method of re-encoding compressed video information without completely decoding it. (2) A method of completely decoding and re-encoding the compressed video information.
[0006]
The transcoding process in the MPEG2-TS bit rate conversion uses the method (1) described above as disclosed in FIG. 6 of JP-A-2001-251616.
[0007]
The reason for using the above method (1) is that there is no delay due to the rearrangement of the frames in the encoding and decoding processes, so that there is no need to control the delay for the non-transcoding target stream, and before and after the transcoding process. For example, the reproduction output time management information and the decoding time management information can be used as they are without changing the picture type of the corresponding video frame.
[0008]
By the way, as shown in FIG. 2, there is known a digital video / audio recording apparatus in which an analog video / audio signal and MPEG2-TS are externally input.
[0009]
This digital video / audio recording device includes an A / D converter 101, an MPEG2-TS encoding circuit 102, a selection circuit 103, a storage device 104, and an MPEG2-TS decoding circuit 105.
[0010]
As shown in FIG. 3, the MPEG2-TS encoding circuit 102 includes a reference time generation unit 51, a video encoding unit 52, an audio encoding unit 53, and an MPEG2-TS multiplexing unit 54. The video signal encoded by the video encoding unit 52 and the audio signal encoded by the audio encoding unit 53 are multiplexed by the MPEG2-TS multiplexing unit 54 and converted into MPEG2-TS.
[0011]
As the MPEG2-TS decoding circuit 105, a circuit that can simultaneously decode two input signals is used. As shown in FIG. 4, the MPEG2-TS decoding circuit 105 includes an MPEG2-TS demultiplexing unit 61, a reference time / reference clock generation unit 62, a reproduction output / decoding timing control unit 63, a first video decoding unit 64, A first audio decoding unit 65, a second video decoding unit 66, and a second audio decoding unit 67 are provided.
[0012]
Assuming that two MPEG2-TSs are input to the MPEG2-TS demultiplexing unit 61, the MPEG2-TS demultiplexing unit 61 outputs a video packet (hereinafter, referred to as a first video packet) and an audio packet from one of the MPEG2-TSs. (Hereinafter, referred to as a first audio packet) and a video packet (hereinafter, referred to as a second video packet) and an audio packet (hereinafter, referred to as a second audio packet) from the other MPEG2-TS. I do. The first video packet, the first audio packet, the second video packet, and the second audio packet obtained by the MPEG2-TS demultiplexing unit 61 are a first video decoding unit 64 and a first audio packet, respectively. The signals are sent to the decoding unit 65, the second video decoding unit 66, and the second audio decoding unit 67, decoded, and output as the video signal V1, the audio signal A1, the video signal V2, and the audio signal A2.
[0013]
When an analog video / audio signal is input, the input analog video / audio signal is converted into a digital signal by the A / D converter 101 and then encoded by the MPEG2-TS encoding circuit 102. It is converted to MPEG2-TS. The obtained MPEG2-TS is stored in the storage device 104 via the selection circuit 103. On the other hand, when the MPEG2-TS is input, the input MPEG2-TS is stored in the storage device 104 via the selection circuit 103. In some cases, a packet extraction unit that extracts a desired TS packet from the MPEG2-TS output from the selection circuit 103 based on the packet ID may be provided at a stage subsequent to the selection circuit 103. When such a packet extracting unit is provided, only a desired packet among the packets included in the MPEG2-TS output from the selection circuit 103 can be stored in the storage device 104.
[0014]
When outputting the MPEG2-TS stored in the storage device 104, the MPEG2-TS is read from the storage device 104 and sent to the MPEG2-TS decoding circuit 105. The video signals V1, V2 and the audio signals A1, A2 obtained by the MPEG2-TS decoding circuit 105 are sent to a display device (not shown).
[0015]
The digital video / audio recording device also has a function of directly transmitting the input MPEG2-TS to the MPEG2-TS decoding circuit 105, decoding the same, and transmitting the decoded data to the display device.
[0016]
FIG. 5 shows a digital video / audio recording device having a function of transcoding input video information in MPEG2-TS and recording the transcoded video information in a storage device. 5, the same components as those in FIG. 2 are denoted by the same reference numerals, and the description thereof will be omitted.
[0017]
When transcoding the input video information in the MPEG2-TS and recording the transcoded video information in the storage device, the input MPEG2-TS is converted into the MPEG2-TS bit rate conversion processing circuit 106 as described in FIG. The data is stored in the storage device 104 via the selection circuit 103. In some cases, a packet extraction unit that extracts a desired TS packet from the MPEG2-TS output from the selection circuit 103 based on the packet ID may be provided at a stage subsequent to the selection circuit 103.
[0018]
By the way, in the digital video / audio recording apparatus as shown in FIG. 2, the bit rate conversion processing using the transcoding processing method (2) is realized by the combination of the MPEG2-TS decoding circuit 105 and the MPEG2-TS encoding circuit 102. If this can be done, it is not necessary to incorporate the MPEG2-TS bit rate conversion processing circuit 106 as shown in FIG. 5, and the circuit scale can be reduced.
[0019]
However, if the bit rate conversion process using the transcode processing method (2) is to be realized by a combination of the MPEG2-TS encoding circuit 102 and the MPEG2-TS decoding circuit 105, the following problem occurs.
[0020]
That is, since the video information to be transcoded is newly compressed and encoded by the MPEG2-TS encoding circuit, a delay accompanying the rearrangement of the frames occurs, and the corresponding video information before and after the transcoding process is performed. The picture type of the frame may change. Also, since the playback output time management information and the decoding time management information are added to the transcoded video frame based on the reference time of the MPEG2-TS encoding circuit, the video frame is transmitted as non-transcoding target data. Audio information, subtitle information, etc., cannot be synchronized.
[0021]
[Patent Document] Japanese Patent Application Laid-Open No. 2001-251616
[Problems to be solved by the invention]
The present invention provides a digital video / audio signal recording apparatus which solves the problem caused by newly compressing and encoding video information to be transcoded by an MPEG2-TS encoding circuit and suppresses an increase in circuit scale. The purpose is to:
[0023]
[Means for Solving the Problems]
According to the first aspect of the present invention, after an MPEG2-TS encoding circuit, a storage device, and an externally input analog video / audio signal are digitally converted, the obtained digital signal is converted into MPEG2-TS by the MPEG2-TS encoding circuit. Recording means for recording the MPEG2-TS externally input to the storage device, and MPEG2-TS externally input and / or MPEG2 recorded on the storage device. In a digital video / audio recording apparatus including an MPEG2-TS decoding circuit for decoding a TS, a third recording means for converting an externally input MPEG2-TS to a low bit rate and recording the converted signal in a storage device is provided. The third recording means transcodes the MPEG2-TS input from the outside, and Transcoding means for generating a PEG2-TS, first extracting means for extracting a video packet from the first row of MPEG2-TS based on a packet ID, and a video to be transcoded from the MPEG2-TS externally input A second extraction unit for extracting the MPEG2-TS in the second column composed of the packets to be recorded excluding the packet based on the packet ID, a delay unit for delaying the MPEG2-TS in the second column by a predetermined time, and a first extraction unit Multiplexing means for multiplexing the video packet obtained by the above and the MPEG2-TS in the second column delayed by the delay means, and the transcoding means decodes the externally input MPEG2-TS. Means, and encoding means for converting the signal obtained by the decoding means into MPEG2-TS, Serial the MPEG2-TS decoding circuit is used as a decoding means, characterized in that the MPEG2-TS encoding circuit is used as the encoding means.
[0024]
According to a second aspect of the present invention, in the digital video / audio recording apparatus according to the first aspect, the MPEG2-TS decoding circuit and the MPEG2-TS encoding circuit are used as components of the transcoding means. The MPEG2-TS decoding circuit and the MPEG2-TS encoding circuit reproduce a reference clock of an encoder that has generated the input MPEG2-TS, reproduced from information on a reference clock included in the externally input MPEG2-TS. It is characterized by being operated with a clock synchronized with.
[0025]
According to a third aspect of the present invention, in the digital video / audio recording apparatus according to the first or second aspect, reproduction of a corresponding video frame between the externally input MPEG2-TS and the first row of MPEG2-TS is performed. Means for calculating a difference value of the output time management information, and adding the obtained difference value to the reproduction output time management information and the decoding time management information given to the video frame by the MPEG2-TS encoding circuit, thereby obtaining It is characterized in that it comprises means for updating the reproduction output time management information and the decoding time management information added to the video frames transmitted by one line of MPEG2-TS.
[0026]
According to a fourth aspect of the present invention, in the digital video / audio recording apparatus according to any one of the first to third aspects, the delay unit converts the MPEG2-TS of the second column into packet units for each packet unit. Is delayed by a time corresponding to
[0027]
According to a fifth aspect of the present invention, in the digital video / audio recording apparatus according to the fourth aspect, the delay time of the delay means is a reference time of the externally inputted MPEG2-TS and the MPEG2-TS of the first column. Is calculated on the basis of the difference value from the reference time and the difference value of the playback output time management information of the corresponding video frame between the externally input MPEG2-TS and the MPEG2-TS in the first column. It is characterized by the following.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
[0029]
[1] Description of Configuration of Digital Video / Audio Signal Recording Apparatus
FIG. 6 shows the configuration of the digital video / audio signal recording device. 6, the same components as those in FIG. 2 are denoted by the same reference numerals. As the MPEG2-TS decoding circuit 105, a circuit that can simultaneously decode two input signals is used.
[0031]
When an analog video / audio signal is input, the input analog video / audio signal is converted into a digital signal by an A / D converter 101, and then is supplied to an MPEG2-TS encoding circuit 102 via a selection circuit 110. Sent to The digital signal sent to the MPEG2-TS encoding circuit 102 is converted into MPEG2-TS by being encoded by the MPEG2-TS encoding circuit 102. The obtained MPEG2-TS is stored in the storage device 104 via the selection circuit 103. A packet extraction unit that extracts a desired TS packet from the MPEG2-TS output from the selection circuit 103 based on the packet ID may be provided at a subsequent stage of the selection circuit 103.
[0032]
In this digital video / audio signal recording apparatus, the recording mode when the MPEG2-TS is input includes a normal recording mode and a long-time recording mode.
[0033]
In the normal recording mode, the input MPEG2-TS is stored in the storage device 104 as it is, similarly to the conventional example of FIG. That is, the input MPEG2-TS is stored in the storage device 104 via the selection circuit 103. However, if the above-described packet extracting means is provided at the subsequent stage of the selection circuit 103, only the desired packets among the packets included in the input MPEG2-TS are stored in the storage device 104. It becomes possible.
[0034]
In the long-time recording mode, a transcoding process is performed on the input MPEG2-TS by a combination of the MPEG2-TS decoding circuit 105 and the MPEG2-TS encoding circuit 102, and the input MPEG2-TS has a low bit rate. After being converted, it is stored in the storage device 104.
[0035]
Hereinafter, the operation in the long-time recording mode will be described in detail. In order to realize recording in the long-time recording mode, the digital video / audio signal recording device includes an MPEG2-TS separation / delay / remultiplex circuit 200. FIG. 7 shows the configuration of the MPEG2-TS separation / delay / remultiplex circuit 200. FIG. 8 shows the timing of the video frame decoding process and the playback output process in the long-time recording mode.
[0036]
In the long-time recording mode, the input MPEG2-TS is sent to the MPEG2-TS decoding circuit 105 and also to the MPEG2-TS separation / delay / remultiplexing circuit 200.
[0037]
The input MPEG2-TS sent to the MPEG2-TS decoding circuit 105 is decoded into an uncompressed digital signal by the MPEG2-TS decoding circuit 105, and then sent to the MPEG2-TS encoding circuit 102 via the selection circuit 110. The uncompressed digital signal sent to the MPEG2-TS encoding circuit 102 is compressed and encoded again at a desired bit rate by the MPEG2-TS encoding circuit 102, and the first signal in the MPEG2-TS separation / delay / remultiplexing circuit 200 Is input to the MPEG2-TS demultiplexing unit 201 (see FIG. 7). In this manner, the MPEG2-TS including the transcoded video information will be referred to as the first row of MPEG2-TS.
[0038]
The first MPEG2-TS demultiplexing unit 201 performs a process for passing only a packet transmitting video information to be transcoded, to a subsequent stage based on the packet ID. The packet (the packet transmitting the video information) output from the first MPEG2-TS demultiplexing unit 201 is sent to the time information updating unit 203.
[0039]
On the other hand, the input MPEG2-TS sent to the MPEG2-TS separation / delay / remultiplexing circuit 200 is input to the second MPEG2-TS separation unit 204 in the MPEG2-TS separation / delay / remultiplexing circuit 200. The second MPEG2-TS separation unit 204 performs a process for passing a recording target packet other than a packet transmitting video information to be transcoded, to a subsequent stage based on the packet ID. The MPEG2-TS output from the second MPEG2-TS separation unit 2 will be referred to as an MPEG2-TS in the second column. The second row of MPEG2-TS output from the second MPEG2-TS separation unit 2 is sent to the delay buffer 206.
[0040]
The first time information extraction unit 202 combines the reference time (STC1) of the MPEG2-TS in the first column and the reproduction output time management information (PTS (n) on STC1) given to the video frame (n). Extract. The extracted reference time (STC1) is sent to delay control section 207. The extracted reproduction output time management information (PTS (n) on STC1) is sent to the time information difference value calculation unit 208.
[0041]
The second time information extraction unit 205 extracts the reference time (STC2) of the input MPEG2-TS and the reproduction output time management information (PTS (n) on STC2) given to the video frame (n). The video frame (n) indicates a corresponding video frame before and after the transcoding process. The extracted reference time (STC2) is sent to delay control section 207. The extracted reproduction output time management information (PTS (n) on STC2) is sent to the time information difference value calculation unit 208.
[0042]
The time information difference value calculation unit 208 includes the playback output time management information (PTS (n) on STC1) added to the video frame (n) transmitted in the first column of MPEG2-TS, and the input MPEG2-TS. The difference ΔPTS (= PTS (n) on STC2-PTS (n) on STC1) from the reproduction output time management information (PTS (n) on STC2) given to the video frame (n) to be transmitted is calculated.
[0043]
The time information updating unit 203 updates the reproduction output time management information and the decoding time management information added to the video frame (n) transmitted by the MPEG2-TS in the first column.
[0044]
Regarding the update processing of the playback output time management information, the playback output time management information (PTS (n) on STC1) added to the video frame (n) transmitted by the MPEG2-TS in the first column is input to the input MPEG2-TS. May be updated to the reproduction output time management information (PTS (n) on STC2) assigned to the video frame (n) included in the file. Specifically, the time information difference value calculation unit 208 calculates the reproduction output time management information (PTS (n) on STC1) given to the video frame (n) transmitted by the MPEG2-TS in the first column. The playback output time management information is updated by adding the difference ΔPTS (= PTS (n) on STC2−PTS (n) on STC1). In this way, the video information included in the first column of MPEG2-TS is synchronized with the audio information, subtitle information, and the like included in the second column of MPEG2-TS.
[0045]
Regarding the update processing of the decoding time management information, the decoding time management information (DTS (n) on STC1) given to the video frame (n) transmitted by the MPEG2-TS in the first column is input to the input MPEG2-TS. Decoding time management information (DTS (n) added to the contained video frame (n)
on STC2) cannot simply be updated.
[0046]
This is because the decoding order changes because the picture structure differs before and after the transcoding process. For example, when focusing on the frame Fn + 1 in FIG. 8, the input MPEG2-TS is encoded as a B picture, but the MPEG2-TS output from the MPEG2-TS encoding circuit 102 is encoded as a P picture. I have.
[0047]
Therefore, the decoding time management information (DTS (n) on STC1) added to the video frame (n) transmitted by the MPEG2-TS in the first column includes the difference ΔPTS (= PTS (n) on STC2−PTS (n) on STC1) is added to update the decoding time management information.
[0048]
The MPEG2-TS in the first column, in which the reproduction output time management information and the decoding time management information time have been updated by the time information updating unit 203, is sent to the MPEG2-TS multiplexing unit 209. Also, the MPEG2-TS in the second column output from the delay buffer 206 is sent to the MPEG2-TS multiplexing unit 209. The MPEG2-TS multiplexing unit 209 multiplexes the first row of MPEG2-TS and the second row of MPEG2-TS. As a result, a bit rate converted MPEG2-TS is obtained. The bit rate-converted MPEG2-TS is stored in the storage device 104 via the selection circuit 103 (see FIG. 6).
[0049]
The multiplexing by the MPEG2-TS multiplexing unit 209 needs to be performed on the same time axis. For this purpose, it is necessary that the reference time STC1 of the first column of MPEG2-TS and the reference time STC2 of the second column of MPEG2-TS match each other. Therefore, a clock synchronized with the operation clock of the encoder that has generated the input MPEG2-TS in the MPEG2-TS decoding circuit 105 is reproduced from the information on the reference clock included in the MPEG2-TS, and the obtained clock is used as the operation clock. By operating the MPEG2-TS encoding circuit 102, the interval between the reference time of the MPEG2-TS in the first column and the reference time of the MPEG2-TS in the second column is matched.
[0050]
The difference ΔPTS (= PTS (n) on STC2−PTS (n) on STC1) calculated by the time information difference value calculation unit 208 is also input to the delay control unit 207 in addition to STC1 and STC2. The delay control unit 207 provides, for each packet unit, a transcoding processing time (a time corresponding to the sum of the decoding processing time in the MPEG2-TS decoding circuit 105 and the encoding processing time in the MPEG2-TS encoding circuit 102) and the second By controlling the delay of the MPEG2-TS in the column, the reference time of the MPEG2-TS in the second column matches the reference time of the MPEG2-TS in the first column.
[0051]
The transcoding processing time ΔT is the processing time (difference in reproduction output time of the frame Fn) shown in FIG. 8, and is represented by the following equation (1).
[0052]
ΔT = (PTS (n) on STC2−STC2) − (PTS (n) on STC1−STC1) = ΔPTS− (STC2−STC1) (1)
[0053]
The above-described MPEG2-TS separation / delay / remultiplexing circuit 200 is composed of a comparison circuit, an addition / subtraction circuit, a delay circuit, and the like, as compared with a dedicated MPEG2-TS bit rate conversion processing circuit having a large circuit scale. Is easy. The MPEG2-TS separation / delay / remultiplexing circuit 200 requires a delay buffer, but the delay target data is audio data of several hundred Kbps, and the delay amount is 200 msec (corresponding to the delay amount of about 6 frames). If so, a buffer amount of about 5 KB may be used. That is, according to the above-described embodiment, a digital video / audio signal recording device having a long-time recording function with good cost performance and suppressed increase in circuit scale can be obtained.
[0054]
Since an MPEG2-TS decoding circuit 105 capable of simultaneously decoding two input signals is used, the MPEG2-TS decoding circuit 105 and the MPEG2-TS encoding circuit 102 are used in the long-time recording mode. Even when the code processing is performed, it is possible to read out the MPEG2-TS stored in the storage device 104, decode it by the MPEG2-TS decoding circuit 105, and display it on the display device.
[0055]
【The invention's effect】
According to the present invention, there is provided a digital video / audio signal recording apparatus which solves a problem caused by newly compressing and encoding video information to be transcoded by an MPEG2-TS encoding circuit and suppresses an increase in circuit scale. Realize.
[Brief description of the drawings]
FIG. 1 separates a video signal from MPEG2-TS from other information, performs low bit rate conversion on video information having a large code amount, and multiplexes the obtained video signal again with audio information, data, and the like. FIG. 2 is a block diagram showing a bit rate conversion processing circuit for the present invention.
FIG. 2 is a block diagram showing a configuration of a conventional digital video / audio recording device.
FIG. 3 is a block diagram illustrating a configuration of an MPEG2-TS encoding circuit 102 in FIG. 2;
FIG. 4 is a block diagram showing a configuration of an MPEG2-TS decoding circuit 105 of FIG. 2;
FIG. 5 is a block diagram showing a configuration of a conventional digital video / audio recording device having a function of transcoding input video information in MPEG2-TS and recording the transcoded video information in a storage device.
FIG. 6 is a block diagram illustrating a configuration of a digital video / audio signal recording device according to an embodiment of the present invention.
FIG. 7 is a block diagram showing a configuration of the MPEG2-TS separation / delay / remultiplex circuit 200 of FIG. 6;
FIG. 8 is a time chart showing timings of a video frame decoding process and a reproduction output process in a long time recording mode.
[Explanation of symbols]
102 MPEG2-TS encoding circuit 105 MPEG2-TS decoding circuit 201 first MPEG2-TS demultiplexing unit 202 first time information extracting unit 203 time information updating unit 204 second MPEG2-TS demultiplexing unit 205 second time Information extraction unit 206 Delay buffer 207 Delay control unit 208 Time information difference value calculation unit 209 MPEG2-TS multiplexing unit

Claims (5)

An MPEG2-TS encoding circuit, a storage device, and a digital converter for converting an externally input analog video / audio signal into digital data, and then converting the obtained digital signal into MPEG2-TS by the MPEG2-TS encoding circuit and recording the digital signal on the storage device. Recording means, a second recording means for recording the externally inputted MPEG2-TS in the storage device, and an MPEG2-TS for decoding the externally inputted MPEG2-TS and / or the MPEG2-TS recorded in the storage device. In a digital video / audio recording device provided with a TS decoding circuit,
A third recording means for converting the externally input MPEG2-TS to a low bit rate and recording the converted data in a storage device;
The third recording means is a transcoding means for transcoding an externally input MPEG2-TS to generate a first row of MPEG2-TS, and a video packet from the first row of MPEG2-TS based on a packet ID. First extracting means for extracting, based on a packet ID, a second column of MPEG2-TS composed of recording target packets excluding video packets to be transcoded from the externally input MPEG2-TS. Means, delay means for delaying the second row of MPEG2-TS by a predetermined time, and multiplexing for multiplexing the video packet obtained by the first extraction means and the second row of MPEG2-TS delayed by the delay means. Means,
The transcoding means includes decoding means for decoding an externally input MPEG2-TS, and coding means for converting a signal obtained by the decoding means into MPEG2-TS. A digital video / audio recording apparatus, wherein a decoding circuit is used, and the MPEG2-TS encoding circuit is used as the encoding means. In the case where the MPEG2-TS decoding circuit and the MPEG2-TS encoding circuit are used as components of the transcoding means, the MPEG2-TS decoding circuit and the MPEG2-TS encoding circuit are configured to output the externally input MPEG2 2. The digital video / audio according to claim 1, wherein the digital video / audio is operated with a clock synchronized with a reference clock of an encoder that has generated the input MPEG2-TS, which is reproduced from information on a reference clock included in the TS. Recording device. Means for calculating a difference value of reproduction output time management information of a corresponding video frame between the externally input MPEG2-TS and the MPEG2-TS in the first column, and encoding the obtained difference value into the MPEG2-TS encoding The circuit adds the playback output time management information and the decoding time management information assigned to the video frame to the playback output time management information and the decoding time assigned to the video frame transmitted by the MPEG2-TS in the first column. 3. The digital video / audio recording apparatus according to claim 1, further comprising means for updating management information. 4. The apparatus according to claim 1, wherein the delay unit delays the MPEG2-TS in the second column for each packet by a time corresponding to a processing time in the transcoding unit. Digital audio and video recording device. The delay time by the delay means is a difference value between the reference time of the externally input MPEG2-TS and the reference time of the MPEG2-TS in the first column, the externally input MPEG2-TS, and the first column. 5. The digital video / audio recording apparatus according to claim 4, wherein the digital video / audio recording apparatus is calculated based on a difference value of reproduction / output time management information of a corresponding video frame between the MPEG2-TS.

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