JP4091293B2 - Recording / reproducing method and recording / reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording / reproducing method and a recording / reproducing apparatus, and more particularly to data processing such as navigation information addition, signal form conversion, and code rate conversion when dubbing digital data.
[0002]
[Prior art]
In recent years, there has been a remarkable spread of DVD players. One of the reasons for this is the ease of use such as high-speed playback and cueing. This is largely due to the information of the navigation pack defined in the DVD video format. The navigation pack is arranged at the head of a VOBU that is a data unit defined in the DVD standard, and the navigation pack of each VOBU has a position indicating the positions of a plurality of VOBUs arranged before and after the VOBU. Since the information is described, the DVD player can instantaneously jump the playback position to the desired position. This is because the DVD video data is ROM data, and at the time of authoring, it is possible to know the position information of the VOBU whose processing order is later than the target VOBU to be processed (hereinafter referred to as future VOBU). is there. The VOBU is composed of one or more GOPs (data units in which random access is performed), and for convenience of explanation, the VOBU will be described as a GOP.
[0003]
[Problems to be solved by the invention]
However, in recent years, a system for recording AV data (audio video data) in real time, such as a DVD recorder or an HDD recorder, has become widespread. In this case, future data (data positioned after the data currently recorded) is used. It is impossible to write the position information. When all data is recorded at a fixed rate (CBR), this position information can be written, but in this case, compression efficiency is lowered, which is not desirable. That is, in a system for recording data at a variable rate (VBR) on a real-time recording device such as a DVD recorder or an HDD recorder, there is no means for recording information relating to future data as recorded in a navigation pack.
[0004]
Also, as a method of dubbing a digital signal once recorded on the HDD, a method of dubbing digital data back to analog data, or a method of dubbing the signal form (digital form) as it is conceivable can be considered. It is desirable to reduce the amount of information or convert the signal form according to the capacity of the signal.
Even in a real-time recording device, there has been a demand for a method for recording position information of future data corresponding to a DVD video navigation pack.
[0005]
The present invention has been made to solve the above problems, and an object of the present invention is to provide a recording / reproducing method and recording / reproducing apparatus capable of recording AV data at a variable rate so that special reproduction is possible. And
[0006]
Another object of the present invention is to provide a recording / reproducing method and a recording / reproducing apparatus capable of making the amount of AV data information in accordance with the capacity of the recording medium to be dubbed when dubbing AV data. To do.
[0009]
[Means for Solving the Problems]
  The recording / reproducing method according to claim 1 of the present invention reads data from a first recording medium on which first MPEG data divided into predetermined data units as one data group is recorded, and the read data Is a method of recording / reproducing data on a second recording medium, wherein the first MPEG data is read from the first recording mediumShiDecodes the read first MPEG data to generate a decoded signalAnd theRe-encode the decoded signal to generate second MPEG dataShi, The second MPEG dataAre sequentially stored in the semiconductor memory for each partial data,Position information indicating the position of the data group before and after the specific data group of the second MPEG data, Sequentially from the second MPEG data in the semiconductor memory for the specific data groupSeekingSaid determinedLocation informationSequentially to the specific data group in the second MPEG data stored in the semiconductor memoryAdd to generate third MPEG dataShiAnd recording the third MPEG data on the second recording medium.RukoIt is characterized by.
[0011]
  A recording / reproducing method according to claim 2 of the present invention is the recording / reproducing method according to claim 1,The second MPEG data is generated by re-encoding the decoded signal.The second MPEG data is encoded at a variable rate.
[0012]
  In the recording / reproducing method according to claim 3 of the present invention, fixed-rate MPEG data is recorded as the first MPEG data on the first recording medium,The generation of the second MPEG data by re-encoding the decoded signalThe variable-rate MPEG data is generated as the second MPEG data by re-encoding the decoded signal corresponding to the fixed-rate MPEG data.RukoIt is characterized by.
[0014]
  A recording / reproducing method according to claim 4 of the present invention is the recording / reproducing method according to claim 1, whereinThe generation of the second MPEG data by re-encoding the decoded signal is as follows:The decoded signal corresponding to the first MPEG data having a predetermined resolution is converted into a signal having a resolution lower than the resolution.ShiAnd re-encoding the converted signal to generate the second MPEG data.RukoIt is characterized by.
[0016]
  Claims of the invention5The recording / reproducing method according to claim4In the recording / reproducing method described in (1), the decoded signal corresponding to the first MPEG data is a high-definition signal, and the signal generated by converting the resolution of the decoded signal is a standard signal. is there.
[0020]
  A recording / reproducing method according to claim 6 of the present invention is the recording / reproducing method according to claim 1,The generation of the third MPEG data isFor the specific data group, position information indicating the positions of the data groups before and after the specific data group is added to the vicinity of the head of the specific data group.RukoIt is characterized by.
[0022]
  A recording / reproducing method according to claim 7 of the present invention is the recording / reproducing method according to claim 1,Generation of a decoded signal by decoding the read first MPEG data is as follows:Decoding only video data included in the first MPEG data to generate a video decoded signal,The generation of the second MPEG data by re-encoding the decoded signal is as follows:The video decoding signal is re-encoded to generate re-encoded video data, and the re-encoded video data is multiplexed with delayed audio data obtained by delaying audio data included in the first MPEG data. Which generatesThe recording of the third MPEG data onto the second recording medium is as follows:The multiplexed data is recorded as the second MPEG data.RukoIt is characterized by.
[0023]
  The recording / reproducing method according to claim 8 of the present invention is the recording / reproducing method according to claim 1,The generation of the second MPEG data by re-encoding the decoded signal is as follows:Data insertion processing for inserting external audio data obtained by encoding an external audio signal into the second MPEG data, data replacement processing for replacing the external audio data with audio data in the second MPEG data, or It is characterized in that any one of the data synthesis processing for synthesizing the external audio data with the audio data in the second MPEG data is performed.
[0031]
  According to a ninth aspect of the present invention, there is provided a recording / reproducing apparatus that reads data from a first recording medium on which first MPEG data divided into predetermined data units as one data group is recorded, and the read data Is a recording / reproducing apparatus that records the first MPEG data from the first recording medium, and decodes the read first MPEG data to generate a decoded signal. A decoding unit that generates, a re-encoding unit that re-encodes the decoded signal to generate second MPEG data, and a partial data of the second MPEG data while sequentially accumulating in the semiconductor memory, the second An information acquisition unit that sequentially obtains position information indicating the positions of data groups before and after a specific data group of MPEG data from the partial data, and for each data group The issuedEach saidLocation informationStored in the semiconductor memoryFor each data groupSequentiallyAn information adding unit for generating the third MPEG data by addition and a recording unit for recording the third MPEG data on the second recording medium are included.
[0042]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS.
[0043]
(Embodiment 1)
1 and 3 are block diagrams for explaining a recording / reproducing method according to Embodiment 1 of the present invention. FIG. 1 shows an entire recording / reproducing apparatus that performs dubbing of AV data by the recording / reproducing method. FIG. 3 shows a part of the recording / reproducing apparatus shown in FIG.
[0044]
The MPEG data stored in the HDD 8 as the first recording medium is read from the HDD 8 by the reproducing means 10 and reproduced to obtain an MPEG stream (AV data). There are various MPEG streams such as a transport stream, a program stream, and an elementary stream. The analysis unit 30 analyzes the position of each GOP on the MPEG stream and recognizes the positional relationship between a predetermined GOP and the preceding and subsequent GOPs. The navigation information adding means 6 adds position information indicating the positions of the preceding and following GOPs to a predetermined position near the head of a predetermined GOP based on an instruction from the analyzing means 30. At this time, the navigation information adding means 6 uses the memory means 19 as necessary. The memory means 19 may be a semiconductor memory or a recording medium such as an HDD. The MPEG stream to which the navigation information is added is recorded on the optical disk 9 as the second recording medium by the recording means 7. Here, the predetermined GOP to which the navigation information is added is all GOPs included in the MPEG stream. However, the GOP to which the navigation information is added may be selected based on a certain standard from all the GOPs included in the MPEG stream.
[0045]
This operation is not limited to being performed in real time, but may be performed at a speed faster than the actual operation (normal decoding display operation) or may be performed at a speed slower than the actual operation. It depends on the processing capability of the means 30 and the like. The processing of the analysis unit 30 may be performed by the navigation information addition unit 6 as part of the navigation information addition processing, or may be performed by the CPU 18.
[0046]
Next, the recording / reproducing method according to Embodiment 1 of the present invention will be described in more detail with reference to FIG. FIG. 1 is a block diagram showing a detailed configuration of a recording / reproducing apparatus according to Embodiment 1 of the present invention.
[0047]
The video signal input from the terminal 20 is AD converted by the AD conversion means 1, sent to the video encoding means 2 through the switch S 1, and the video encoded data output from the video encoding means 2 is sent to the system encoding means 5. It is done.
[0048]
The voice signal input from the terminal 21 is AD converted by the AD conversion means 3 and sent to the voice encoding means 4 via the switch S2, and the voice encoded data which is the output of the voice encoding means 4 passes through the switch S3 to the system. It is sent to the encoding means 5.
[0049]
The video data and the audio data are multiplexed by the system encoding means 5, and the MPEG data obtained by the multiplexing is sent to the switch S4 and the switch S6. The signal passed through the switch S4 is input to the navigation information adding means 6, and the output of the navigation information adding means 6 is output to the switch S5. The navigation information adding means 6 uses a memory means 19 as a storage medium as required.
[0050]
A 1394 signal is input from the terminal 22 and output to the switch S5 via the 1394 I / F means 16. The output of the switch S5 is converted into a recording signal by the recording means 7 and recorded on the HDD 8 serving as the first recording medium or the optical disk 9 serving as the second recording medium. A reproduction signal read out and reproduced by the reproduction means 10 from the HDD 8 as the first recording medium or the optical disk 9 as the second recording medium is reproduced by the video decoding means 11, the audio decoding means 12, and the audio delay means. 13, the analysis means 30, the switch S4, the switch S5, and the switch S6.
[0051]
The video signal decoded by the video decoding unit 11 is supplied to the switch S1 and is input to the DA conversion unit 14 and is output to the terminal 23 as a reproduced video signal. The audio signal decoded by the audio decoding unit 12 is supplied to the switch S2 and input to the DA conversion unit 15 and output to the terminal 24 as a reproduced audio signal. The output of the audio delay means 13 is output to the switch S3. The output of the switch S6 is inputted to the 1394 I / F means 17 and outputted to the terminal 25 in the form of 1394. At this time, the CPU 18 controls the overall operation of the recording / reproducing apparatus.
[0052]
Here, consider a case where signals from the terminals 20 and 21 are recorded at a variable rate.
A signal is generated by the above-described recording system, that is, the means 1-7. At this time, the navigation information adding means 6 needs to add the position information of the previous and subsequent GOPs to a predetermined GOP. However, since the amount of data to be recorded in the future cannot be predicted by real-time recording, the position information of the previous and subsequent GOPs. Cannot be added. Therefore, the data input to the navigation information adding means 6 is sent to the recording means 7 without adding the position information of the previous and subsequent GOPs, converted into a recording signal, and recorded on the HDD 8.
[0053]
FIG. 2 is a schematic diagram showing a stream compliant with the DVD video standard. In the DVD, as described above, one or a plurality of GOPs constitute a data unit called VOBU. In the present invention, VOBU is described as a GOP for convenience. At the top of each GOP, information called a navigation pack is added. In this information, position information indicating the positions of the GOPs located before and after the GOP is entered so as to be useful during special playback. Yes. The DVD player realizes special reproduction such as high-speed reproduction based on this position information.
[0054]
Now, since the data recorded in the HDD 8 lacks the positional information of the GOPs before and after the hatching shown in FIG. 2, the reproduction operation is not guaranteed in a normal DVD player. However, it is possible to know the position information of the preceding and following GOPs by reading the already recorded data from the HDD 8 again. In order to add the position information obtained in this way, the recording / reproducing apparatus shown in FIG. 1 performs the following operation.
[0055]
The following processing is performed so that the CPU 18 can detect the position information of the GOP of the data recorded in the HDD 8.
For example, data reproduction (reading of data) for a predetermined section of data recorded on the HDD 8 is executed and the reproduction data (read data) is analyzed by the analysis unit 30, or the recording unit 7 records the data on the HDD 8. At this time, the GOP position information is recorded in a predetermined position of the HDD 8 and stored.
[0056]
Thereafter, the reproduction data read and reproduced from the HDD 8 by the reproduction means 10 is sent to the switch S4. The reproduction data output from the switch S4 is navigation information adding means 6 in accordance with an instruction from the CPU 18, and navigation information including position information of GOPs before and after each GOP is determined at a position determined at the head of each GOP. The additional processing is performed, and the data is recorded on the HDD 8 or the optical disk 9 through the recording means 7. Here, since the recorded reproduction data includes navigation information, it can be reproduced by a normal DVD player.
[0057]
Note that the recording / reproducing apparatus of the first embodiment may be configured such that each of the above units is configured by hardware, or the processing by each of the above units may be performed by software.
[0058]
As described above, in the first embodiment of the present invention, the position of each GOP on the MPEG stream is obtained, the position information indicating the position of the GOP before and after the GOP is added to the MPEG stream, and the position is Since the MPEG stream to which the information is added is recorded on the optical disk 9, the MPEG data can be recorded at a variable rate so that special reproduction is possible.
[0059]
(Embodiment 2)
Next, as a second embodiment, a recording / reproducing method for converting the code rate of the data recorded on the HDD first will be described.
For example, data of a fixed rate (CBR) of 9 Mbps is recorded in the HDD 8. In order to permanently store this data, when dubbing on the optical disc 9, it is possible to record for a longer time, and consider the case where the data is converted into data of 3 Mbps variable rate (VBR) and recorded.
[0060]
First, 9 Mbps CBR data is read from the HDD 8 and played back, and is decoded by the video decoding means 11. The decoded data is supplied to the video encoding means 2 through the switch S1, and the decoded data is VBR encoded by the means 2. Re-encoded data (VBR data) obtained by VBR encoding of the decoded data is recorded as 3 Mbps VBR data on the HDD 8 via the system encoder means 5, the navigation information adding means 6, and the recording means 7.
[0061]
Here, since the navigation information adding means 6 does not yet know the position information of the future GOP for which the corresponding VBR data has not been input, the navigation information cannot be added to the VBR data in real time. Therefore, the position information of each GOP is recorded in a storage area different from the storage area of the VBR data in the semiconductor memory or HDD 8 that can be controlled by the CPU 18 when the VBR data is recorded in the HDD 8. Then, after re-encoding the CBR data so that the code rate is converted from 9 Mbps to 3 Mbps, the reproduction means 10 reads the 3 Mbps VBR data from the HDD 8 again. Further, the read VBR data is supplied to the navigation information adding means 6 through the switch S4, and the navigation information adding means 6 adds the navigation information including the position information of the GOP before and after each GOP to the VBR data. To do. The VBR data to which the navigation information is added is recorded on the optical disc 9 via the switch S5 and the recording means 7.
[0062]
As described above, according to the recording / reproducing method of the second embodiment of the present invention, the CBR data recorded on the HDD 8 is converted into VBR data by re-encoding, and the position information of each GOP of the VBR data is obtained. Since the position information of the GOP before and after each GOP is added to the VBR data and the VBR data to which the position information is added is then recorded on the optical disc 9, the information of the MPEG data is recorded when dubbing the MPEG data. The amount of MPEG data with a reduced amount of information can be recorded so that special reproduction is possible.
[0063]
In the above-described second embodiment, when navigation information is added to each GOP, the re-encoded 3 Mbps VBR data is temporarily recorded in the HDD 8, but the present invention is not limited to this. For example, the navigation information adding means 6 may have the memory means 19 as a work area, and the VBR data input to the navigation information adding means 6 may be temporarily stored in the memory means 19. In this case, the position information of the above-mentioned future GOP can be easily obtained, and the position information can be added to the VBR data almost in real time. In this case, 3 Mbps VBR data to which GOP position information is added is recorded on the optical disc 9 via the recording means 7.
[0064]
However, in this case, the position information of the previous and subsequent GOPs added to each GOP is limited to the position information of the GOP within the range corresponding to the data amount of the VBR data stored in the memory means 19. Specifically, when the memory unit 19 is a 256 Mbit DRAM, the navigation information adding unit 6 can know the position information of the future GOP separated by about 80 seconds for each GOP of the 3 Mbps VBR data. It becomes possible.
[0065]
(Embodiment 3)
Next, as a third embodiment, a recording / reproducing method in which data recorded at first in the HDD is a digital broadcast signal and the rate is converted will be described.
The digital broadcast signal is input in the form of an MPEG transport stream (TS data) from the terminal 22 in the 1394 format to the 1394 I / F means 16, and the TS data is recorded in the HDD 8 through the switch S 5 and the recording means 7. That is, the HDD 8 records a transport stream in MPEG as CBR data, and this stream does not include navigation information.
[0066]
In the third embodiment, the CBR data can be recorded on the optical disc 9 for a long time, so that the CBR data is converted into VBR data, and navigation information is added to the VBR data and recorded on the recording medium. .
[0067]
In the third embodiment, the data recording / reproducing process is performed in substantially the same manner as in the second embodiment, but the video decoding means 11 decodes the CBR data, and the video encoding means 2 re-encodes the CBR data. The system encoding means 5 creates a program stream (PS) as AV data (MPEG data).
[0068]
The method of adding the navigation information to the program stream is the same as in the second embodiment.
Thereby, simultaneously with the code rate conversion, it is possible to convert the data form from TS data to PS data.
[0069]
According to the recording / reproducing method of the third embodiment of the present invention, the AV data recorded in the HDD 8 is subjected to rate conversion processing for converting the CBR data into the VBR data by re-encoding the AV data, and the AV data is further converted into TS. Stream format conversion processing for converting data to PS data is performed, and the position information of the GOP before and after each GOP is added to the AV data in which the code rate and the stream format are converted, and the AV data to which the position information is added is added. Since data is recorded on the optical disc 9, when dubbing AV data (MPEG data), the information amount of the MPEG data can be reduced, the data form can be converted, and the information amount can be reduced and the data format can be converted. The recorded AV data can be recorded so that special reproduction is possible.
[0070]
(Embodiment 4)
Next, as a fourth embodiment, a recording / reproducing method for converting the code rate of data initially recorded on the HDD as an HD digital broadcast signal will be described.
In the fourth embodiment, the video decoding means 11 decodes the CBR TS data corresponding to the high-definition signal (HD signal), and the decoded data corresponding to the HD signal corresponds to the standard signal (SD signal). The third embodiment is different from the third embodiment in that it has a function of converting (downconverting) into data to be processed.
[0071]
The CBR data corresponding to the standard signal output from the video decoding unit 11 is input to the video encoding unit 2 via the switch S1. In the means 2, the CBR data is converted into VBR data by re-encoding and input to the system encoding means 5. The AV data including VBR video data output from the system encoding means 5 is recorded in the HDD 8 or the memory means 19, and then navigation information is added to the optical disc as in the third embodiment. 9 is recorded.
[0072]
As described above, according to the recording / reproducing method of the fourth embodiment of the present invention, the rate conversion process for converting the AV data corresponding to the HD signal recorded on the HDD 8 from the CBR data to the VBR data by re-encoding. In addition, the AV data is further down-converted from data corresponding to the HD signal to data corresponding to the SD signal, and the AV data subjected to the rate conversion process and the down-conversion process is subjected to the conversion for each GOP. Since the position information of the previous and subsequent GOPs is added and the AV data to which the position information is added is recorded on the optical disc 9, when the AV data (MPEG data) is dubbed, the information amount of the MPEG data is reduced and the definition is reduced. AV data with reduced information volume and reduced definition can be converted to special It can be recorded so that it is possible.
[0073]
(Embodiment 5)
Next, a recording / reproducing method according to Embodiment 5 of the present invention will be described.
In the recording / reproducing method of the fifth embodiment, when re-encoding of audio data is unnecessary, only re-encoding of video data is performed. Here, the operations of re-encoding video data and adding GOP position information are the same as those in the second embodiment, and are therefore omitted.
When the code rate of audio data is converted or when the encoding method is converted, re-encoding is necessary, and the following re-encoding is performed.
[0074]
The audio data output from the reproduction unit 10 is decoded by the audio decoding unit 12 and input to the audio encoding unit 4 via the switch S2 as decoded audio data. The decoded speech data input to the means 4 is re-encoded and input as re-encoded speech data to the system encoding means 5 via the switch S3. In the means 5, the re-encoded audio data is multiplexed with the re-encoded video data and output as AV data.
[0075]
  On the other hand, when re-encoding of audio data is unnecessary, the output of the reproduction means 10 isvoiceDelayed by the delay means 13 and input as delayed audio data to the system encoding means 5 via the switch S3. In the means 5, delayed audio data and re-encoded video data are multiplexed.
[0076]
As described above, according to the recording / reproducing method according to the fifth embodiment of the present invention, when re-encoding of audio data is unnecessary when re-encoding AV data recorded on the HDD 8, it is converted into AV data. Without re-encoding the included audio data, the audio data read from the HDD 8 is delayed and multiplexed with the re-encoded video data, and the AV data obtained by this multiplexing is recorded on the optical disc 9 Therefore, it is possible to prevent deterioration in sound quality due to re-encoding of the audio signal during dubbing.
[0077]
In addition, since the process of re-encoding video data and the process of adding navigation information to AV data (MPEG data) are performed in the same manner as in the second embodiment, when AV data is dubbed, the AV data is converted into the amount of information. Can be converted into data that can be played back specially.
[0078]
(Embodiment 6)
Next, a recording / reproducing method according to Embodiment 6 of the present invention will be described.
The recording / reproducing method of the sixth embodiment is the same as the recording / reproducing method of the second embodiment except that it includes post-recording processing or audio multiplex processing. Here, the re-encoding process of video data and MPEG data are performed. A description of the process of adding navigation information is omitted.
[0079]
First, the post-recording process of the recording / reproducing method of the sixth embodiment will be described.
Here, in the post-recording process, it is assumed that the viewer performs recording in accordance with the video displayed based on the playback video signal from the terminal 23 of the recording / playback apparatus (see FIG. 1).
[0080]
When an analog audio signal is input from the outside to the terminal 21 of the recording / reproducing apparatus, the audio signal is converted into a digital audio signal by the AD conversion means 3, and this digital audio signal is encoded by the audio through the switch S2. Input to means 4.
[0081]
The audio encoding unit 4 performs the encoding process of the digital audio signal, and the audio data obtained by the encoding process is input to the system encoding unit 5 through the switch S3. In the system encoder 5, the audio data is multiplexed with the re-encoded video data, and the multiplexed data is output to the navigation information adding unit 6 as AV data. This AV data is recorded on the optical disc 9 with navigation information added, as in the second embodiment.
In this after-recording process, the audio data of the MPEG data recorded in the HDD 8 is replaced with the after-recording audio data input from the outside.
[0082]
Next, audio multiplexing processing of the recording / reproducing method of the sixth embodiment will be described.
Here, it is assumed that the audio multiplexing process time-multiplexes original audio data and post-record audio data from the outside.
The audio signal input from the outside is converted into a digital audio signal by the AD conversion unit 3 and input to the audio encoding unit 4 via the switch S2, as in the post-recording process. In the means 4, the digital audio signal is encoded, and the audio data (after-recording audio data) obtained by the encoding process is output to the switch S3.
[0083]
On the other hand, the audio delay means 13 outputs audio data obtained by delaying original audio data (audio data included in MPEG data recorded in the HDD 8), and the audio data is output to the switch S3.
[0084]
In the switch S3, a time axis multiplexing process for switching and selecting the after-recording audio data from the audio encoding unit 4 and the original audio data from the audio delay unit 13 is performed, and is obtained by the time axis multiplexing process. The multiplexed audio data is output to the system encoding means 5. The system encoder means 5 performs an AV multiplexing process for multiplexing the multiplexed audio data and the re-encoded video data, and the AV data obtained by the AV multiplexing process is output to the navigation information adding means 6. The This AV data is recorded on the optical disc 9 with navigation information added, as in the second embodiment.
[0085]
In the audio multiplex processing, after-recording audio data input from the outside is inserted into the MPEG data recorded in the HDD 8, and the MPEG data recorded on the optical disc 9 includes two audio streams. Become.
[0086]
As described above, according to the recording / reproducing method according to the sixth embodiment of the present invention, when MPEG data recorded on the HDD 8 is re-encoded, the original audio data included in the MPEG data is converted into audio data from the outside. Since replacement processing or processing for inserting audio data from outside into the MPEG data is performed, post-recording at the time of dubbing is possible.
[0087]
  In the sixth embodiment, when MPEG data is re-encoded, the original audio data included in the MPEG data is replaced with external audio data, or external audio data is inserted into the MPEG data. The processing has been described, but when re-encoding MPEG data,TheYou may make it perform the process which synthesize | combines the original audio | voice data contained in MPEG data with the audio | voice data from the outside.
[0088]
(Embodiment 7)
Next, a recording / reproducing method according to Embodiment 7 of the present invention will be described.
The recording / reproducing method according to the seventh embodiment adds navigation information to MPEG data in almost real time.
FIG. 4 is a block diagram showing a schematic configuration of a recording / reproducing apparatus for recording MPEG data by the recording / reproducing method of the seventh embodiment.
[0089]
  In addition to the configuration of the recording / reproducing apparatus of the first embodiment shown in FIG. 1, the recording / reproducing apparatus of the seventh embodiment encodes an STB (Set-Top Box) 31 that receives a digital broadcast signal and an analog video signal. The encoder 32 receives AV data such as MPEG data distributed via a computer network such as the Internet.DeA data receiving unit 33, and a switch S7 for selecting and outputting any output data of the STB 31, the encoder 32, and the distribution data receiving unit. However, in FIG. 4, the same reference numerals as those in FIG. 1 are the same as those in the recording / reproducing apparatus of the first embodiment, and the encoder 32 includes means 1 to 5 and switches S1 to S1 in the recording / reproducing apparatus shown in FIG. This corresponds to S3. Further, the output data of the switch S7 of the seventh embodiment corresponds to the output data of the system encoder 5 of the first embodiment.
[0090]
  In the seventh embodiment, as the source of the recorded MPEG stream (MPEG data), output data of an STB (Set-Top Box) 31 that receives a digital broadcast signal, and output data of an encoder 32 that encodes an analog video signal Or MPEG data distributed via a computer network such as the InternetDeThe output data of the data receiver 33 can be considered.
[0091]
  In the switch S7, the STB 31, the encoder 32, and theDeOutput data is selected from one of the data receivers, and an MPEG stream supplied as output data from each unit is input to the navigation information adding unit 6 and the analyzing unit 30.
[0092]
The operations of the navigation information adding means 6, the analyzing means 30 and the recording means 7 are performed in the same manner as the recording / reproducing apparatus of the first embodiment shown in FIG.
However, the seventh embodiment is different from the first embodiment in that a series of processing such as addition of navigation information and analysis of MPEG data needs to be performed almost in real time.
[0093]
That is, when MPEG data is input to the navigation information adding means 6, the navigation information adding means 6 performs a process of temporarily storing data in the memory means 19 that the means 6 has as a work area. The analysis means 30 performs position information detection processing for detecting the position information of each GOP for the data stored in the memory means 19. Then, the navigation information adding means 6 performs processing for adding, to the MPEG data, position information indicating the positions of the preceding and succeeding GOPs for each GOP based on the position information obtained by the analyzing means 30.
However, in this case, the position information of the previous and subsequent GOPs added to each GOP is limited to the position information of the GOP in a range corresponding to the data amount of the MPEG data stored in the memory means 19.
[0094]
As described above, in the recording / reproducing method of the seventh embodiment, a digital broadcast signal or distribution data on the Internet is received and recorded as MPEG data, or an external analog video signal is encoded and recorded as MPEG data. At this time, the MPEG data is temporarily stored in the memory means 19, and the stored MPEG data is analyzed to obtain the position information of each GOP. The process of adding the GOP position information can be performed almost in real time.
[0095]
(Embodiment 8)
Next, a recording / reproducing method according to Embodiment 8 of the present invention will be described.
In the recording / reproducing method of the eighth embodiment, navigation information addition, code rate conversion, signal format conversion, and the like are performed during high-speed dubbing of AV data such as MPEG data.
[0096]
The data recorded on the recording medium HDD8 is normally read out at a real time reproduction speed because the data is decoded and displayed. However, when the decoding display process for the data is not performed or when the decoding display for the data is performed intermittently, the data can be read from the HDD 8 at a speed higher than the real time reproduction speed.
[0097]
Therefore, the recording / reproducing apparatus of the eighth embodiment performs the highest transfer of the data (first MPEG data) recorded in the HDD 8 (see FIG. 1) during dubbing without performing normal decoding display processing. AV data that has been subjected to the above data processing is read out at a rate, data processing such as navigation information addition, code rate conversion, signal form conversion in each of the above-described embodiments is performed at a speed higher than the real-time playback speed. The second or third MPEG data) is recorded on the optical disc 9 (see FIG. 1) at a speed higher than the real-time playback speed. Here, the CPU 18 (see FIG. 1) functions to control the entire system.
[0098]
As described above, in the recording / reproducing method according to the eighth embodiment of the present invention, the data recorded in the HDD 8 is read at a speed higher than the real-time reproducing speed when dubbing without performing the normal decoding display processing is performed. While performing high-speed dubbing of data, it is possible to add navigation information to MPEG data, convert a code rate, and convert a signal form.
[0099]
For example, when an HDD 8 with a maximum transfer rate of 20 Mbps is used and the normal playback speed of AV data recorded on the HDD 8 is 5 Mbps, high-speed dubbing at about 4 × speed is performed on the AV data. It is possible to perform data processing such as addition of the navigation information, conversion of the code rate, conversion of the signal form.
[0100]
In the eighth embodiment, the case where high-speed dubbing is performed in the recording / reproducing apparatus has been described. However, data (reproduction data) read from the HDD or data recorded on the optical disc during the high-speed dubbing process. (Recording data) may be sent to the STB or the like as a recording signal or a reproduction signal in 1394 format.
[0101]
In this case, these signals are output from the terminal 25 by supplying the recording signal or the reproduction signal to the 1394 I / F means 17 via the switch S6.
[0102]
In each of the above-described embodiments, the HDD and the optical disk are exemplified as the recording medium. However, the recording medium is not limited thereto, and the recording medium may be a magneto-optical disk, a magnetic tape, or a semiconductor memory.
[0103]
In each of the above embodiments, the SD signal, HD signal, CBR data, VBR data, and MPEG data (TS or PS) are shown as data recorded in the HDD. Digital data such as elementary data and DVC (digital video camera) may be used.
[0104]
Needless to say, the MPEG data listed in the above embodiments specifically corresponds to all MPEG standards such as MPEG1, MPEG2, MPEG4, and MPEG7. Further, the first, second or third recording medium in the above embodiment may be a separate recording medium or the same recording medium.
[0105]
  Further, in each of the above embodiments, the recording / reproducing apparatus is realized by hardware. However, these apparatuses may be realized by software. In this case, the recording / reproducing program for performing the recording / reproducing process shown in each of the above embodiments is stored in a floppy disk.MediumBy recording in a data storage medium such as the above, the recording / reproducing apparatus can be constructed in an independent computer system.
[0106]
  FIG. 5 shows the recording / reproducing process of each of the above embodiments in the floppy disk storing the recording / reproducing program.MediumIt is a figure for demonstrating the case where it implements by a computer system using FIG.
  Figure 5 (a) shows a floppy disk.MediumAppearance from the front, cross-sectional structure, and floppy diskMediumFIG. 5 (b) shows the main body.MediumAn example of the physical format of the main body is shown.
[0107]
  Above floppy diskMediumFD is the above floppy diskMediumBody D is a floppy diskMediumThe floppy disk has a structure accommodated in the case FC.MediumA plurality of tracks Tr are concentrically formed on the surface of the main body D from the outer periphery toward the inner periphery, and each track Tr is divided into 16 sectors Se in the angular direction. Therefore, the floppy disk storing the above programMediumIn FD, the above floppy diskMediumIn the main body D, data as the program is recorded in an area (sector) Se allocated thereon.
[0108]
  Fig. 5 (c) shows a floppy disk.Medium2 shows a configuration for recording the program on the FD and recording / reproducing processing by software.
  Floppy disk with the above programMediumWhen recording on the FD, the data as the program is transferred from the computer system (personal computer) Cs to the floppy disk via the floppy disk drive FDD.MediumWrite to FD. Also floppy diskMediumWhen the recording / reproducing apparatus is constructed in the computer system Cs by the program recorded in the FD, the program is stored in the floppy disk by the floppy disk drive FDD.MediumRead from FD and load into computer system Cs.
[0109]
In such a computer system, not only encoding and decoding of video signals and audio signals, but also writing and reading to a recording medium such as an HDD, an optical disk, and a memory can all be processed by software.
[0110]
  In the description of FIG. 5, a floppy disk is used as the data storage medium.MediumHowever, even if an optical disk is used, the above floppy disk is used.MediumIn the same way as in the above, the recording / reproducing process by software can be performed. The data storage medium is the above optical disk or floppy disk.MediumHowever, the present invention is not limited to the above, and any IC card, ROM cassette, etc. can be used as long as they can record a program.MediumThe recording / reproducing process by software can be performed in the same manner as in the case of using the above.
[0113]
【The invention's effect】
  According to the recording and reproducing method according to claims 1 and 2 of the present invention, data is read from the first recording medium on which the first MPEG data divided into predetermined data units as one data group is recorded. A method for recording and reproducing recorded data on a second recording medium, wherein the first MPEG data is read from the first recording mediumShiDecodes the read first MPEG data to generate a decoded signalAnd theRe-encode the decoded signal to generate second MPEG dataShi, The second MPEG dataAre sequentially stored in the semiconductor memory for each partial data,Position information indicating the position of the data group before and after the specific data group of the second MPEG data, Sequentially from the second MPEG data in the semiconductor memory for the specific data groupSeekingSaid determinedLocation informationSequentially to the specific data group in the second MPEG data stored in the semiconductor memoryAdd to generate third MPEG dataShiAnd recording the third MPEG data on the second recording medium.RukoTherefore, when dubbing MPEG data, the MPEG data can be recorded at a variable rate so that special reproduction such as high-speed reproduction and cueing can be performed. Depending on the capacity of the recording medium of the dubbing destination. Further, it is possible to easily obtain position information indicating the position of the GOP before and after each GOP.
[0116]
  According to a recording / reproducing method according to claim 3 of the present invention, in the recording / reproducing method according to claim 1, fixed-rate MPEG data is recorded as the first MPEG data on the first recording medium. Has beenThe generation of the second MPEG data by re-encoding the decoded signalThe variable-rate MPEG data is generated as the second MPEG data by re-encoding the decoded signal corresponding to the fixed-rate MPEG data.RukoThus, at the time of dubbing, the MPEG data can be converted from a fixed rate to a variable rate, and the converted MPEG data can include GOP position information necessary for special reproduction.
[0118]
  According to a recording / reproducing method according to claim 4 of the present invention, in the recording / reproducing method according to claim 1,The generation of the second MPEG data by re-encoding the decoded signal is as follows:The decoded signal corresponding to the first MPEG data having a predetermined resolution is converted into a signal having a resolution lower than the resolution.ShiAnd re-encoding the converted signal to generate the second MPEG data.RukoTherefore, MPEG data can be dubbed after being converted from a signal having a predetermined resolution to a signal having a resolution lower than the resolution.
[0120]
  Claims of the invention5According to the recording / reproducing method according to claim4In the recording / reproducing method according to claim 1, the decoded signal corresponding to the first MPEG data is a high-definition signal, and the signal generated by converting the resolution of the decoded signal is a standard signal. MPEG data can be converted from a high definition signal to a standard signal and dubbed.
[0123]
  According to a recording / reproducing method of claim 6 of the present invention, in the recording / reproducing method of claim 1,The generation of the third MPEG data isFor the specific data group, position information indicating the positions of the data groups before and after the specific data group is added to the vicinity of the head of the specific data group.RukoTherefore, there is an effect that MPEG data can be reproduced even with a DVD player.
[0125]
  According to a recording / reproducing method of claim 7 of the present invention, in the recording / reproducing method of claim 1,Generation of a decoded signal by decoding the read first MPEG data is as follows:Decoding only video data included in the first MPEG data to generate a video decoded signal,The generation of the second MPEG data by re-encoding the decoded signal is as follows:The video decoding signal is re-encoded to generate re-encoded video data, and the re-encoded video data is multiplexed with delayed audio data obtained by delaying audio data included in the first MPEG data. Which generatesThe recording of the third MPEG data onto the second recording medium is as follows:The multiplexed data is recorded as the second MPEG data.RukoTherefore, it is possible to prevent deterioration in sound quality due to re-encoding of the audio signal.
[0126]
  According to the recording / reproducing method of claim 8 of the present invention, in the recording / reproducing method of claim 1,The generation of the second MPEG data by re-encoding the decoded signal is as follows:Data insertion processing for inserting external audio data obtained by encoding an external audio signal into the second MPEG data, data replacement processing for replacing the external audio data with audio data in the second MPEG data, or Since any one of the data synthesis processing for synthesizing the external audio data with the audio data in the second MPEG data is performed, post-recording at the time of dubbing is possible. effective.
[0131]
According to the recording / reproducing apparatus of the twenty-fourth aspect of the present invention, data is read out and read out from the first recording medium on which the first MPEG data divided into predetermined data units as one data group is recorded. A recording / reproducing apparatus for recording / reproducing data, wherein the first MPEG data is read from the first recording medium, and the read first MPEG data is decoded to generate a decoded signal. Decoding means for re-encoding, the re-encoding means for re-encoding the decoded signal so that the amount of information is less than that of the first MPEG data, and generating the second MPEG data; Recording means for recording on the recording medium of the recording medium. When dubbing MPEG data, the information amount of the MPEG data is determined by the dubbing destination recording medium. There is an effect that can be made in accordance with the amount.
[0132]
  According to the recording / reproducing apparatus of the ninth aspect of the present invention, data is read out from and read out from the first recording medium on which the first MPEG data divided into predetermined data units as one data group is recorded. A recording / reproducing apparatus for recording the recorded data on a second recording medium, a reading unit for reading the first MPEG data from the first recording medium, and decoding and decoding the read first MPEG data A decoding unit that generates a signal, a re-encoding unit that re-encodes the decoded signal to generate second MPEG data, and sequentially stores the partial data of the second MPEG data in a semiconductor memory. An information acquisition unit that sequentially obtains position information indicating the position of the data group before and after the specific data group of the MPEG data from the partial data, and each data group It derived againstEach saidLocation informationStored in the semiconductor memoryFor each data groupSequentiallyAnd an information adding unit for generating third MPEG data and a recording unit for recording the third MPEG data on the second recording medium. The MPEG data can be recorded at a variable rate so that special reproduction such as high-speed reproduction and cueing is possible, and the information amount of the MPEG data corresponds to the capacity of the recording medium of the dubbing destination There is an effect that can be. Further, it is possible to easily obtain position information indicating the position of the GOP before and after each GOP.
[Brief description of the drawings]
FIG. 1 is a block diagram for explaining a detailed configuration of a recording / reproducing apparatus according to each embodiment of the present invention.
FIG. 2 is a schematic diagram illustrating a stream configuration.
FIG. 3 is a block diagram showing a schematic configuration of a recording / reproducing apparatus according to Embodiment 1 of the present invention.
FIG. 4 is a block diagram showing a schematic configuration of a recording / reproducing apparatus according to Embodiment 7 of the present invention.
FIG. 5 illustrates a data storage medium (FIGS. (A) and (b)) storing a program for performing the recording / reproducing process of each of the embodiments by a computer system, and the computer system (FIG. (C)). It is a figure for doing.
[Explanation of symbols]
  1,3 AD conversion means
  2 Video encoding means
  4 Speech coding means
  5 System encoding means
  6 Navigation information addition means
  7 Recording means
  8 HDD
  9 Optical disc
  10 Reproduction means
  11 Video decoding means
  12 Voice decoding means
  13 Voice delay means
  14, 15 DA conversion means
  16, 17 1394 IF means
  18 CPU
  19 Memory means
  20, 21, 22 terminals
  23, 24, 25 terminals
  30 Analytical means
  31 STB
  32 Encoder
  33 Data receiver
  S1-S7 switch
  Cs computer system
  FD floppy diskMedium

Claims (9)

A recording / reproducing method in which data is read from a first recording medium on which first MPEG data divided into predetermined data units as one data group is recorded, and the read data is recorded on a second recording medium. There,
To read out the first MPEG data from the first recording medium,
Decoding the first MPEG data read said generated decoded signal, and generates a second MPEG data re-encoding said decoded signal,
Before SL while sequentially storing the second MPEG data in the semiconductor memory for each the partial data, the position information indicating the position of the data before and after a group for a particular data group of MPEG data of the second, the specific data A group is sequentially obtained from the second MPEG data in the semiconductor memory , and the obtained position information is sequentially added to the specific data group in the second MPEG data stored in the semiconductor memory. and generating a third MPEG data,
That records the third MPEG data into the second recording medium,
Recording and reproducing method, wherein a call. The recording / reproducing method according to claim 1,
The method of generating the second MPEG data by re-encoding the decoded signal includes encoding the second MPEG data at a variable rate. The recording / reproducing method according to claim 1,
On the first recording medium, MPEG data of a fixed rate is recorded as the first MPEG data,
Generation of the second MPEG data by the re-encoding of the decoded signal, the re-encoding of the decoded signal corresponding to the MPEG data before Symbol fixed rate, generate MPEG data of a variable rate as the second MPEG data recording and reproducing method characterized by and to Turkey. The recording / reproducing method according to claim 1,
Generation of the second MPEG data by the re-encoding of the decoded signal has a predetermined resolution, the decoded signal corresponding to the first MPEG data, into a signal having a lower than said resolution resolution, the recording and reproducing method, wherein the benzalkonium generate the second MPEG data and re-encode the transformed signal. The recording / reproducing method according to claim 4,
A recording / reproducing method, wherein a decoded signal corresponding to the first MPEG data is a high-definition signal, and a signal generated by converting the resolution of the decoded signal is a standard signal. The recording / reproducing method according to claim 1,
The generation of the third MPEG data recording and reproducing method for for a particular data group, the position information indicating the position of the data before and after the group, wherein the Turkey be added to the head near the particular data group . The recording / reproducing method according to claim 1,
The generation of the decoded signal by decoding the read first MPEG data is to generate a video decoded signal by decoding only the video data included in the first MPEG data,
The generation of the second MPEG data by re-encoding the decoded signal generates re-encoded video data by re-encoding the video decoded signal, and the re-encoded video data is converted into the first MPEG data. Is multiplexed with the delayed audio data obtained by delaying the audio data included in the
The third recording on the second recording medium of the MPEG data recording and reproducing method, wherein the benzalkonium to record said multiplexing data as the second MPEG data. The recording / reproducing method according to claim 1,
The generation of the second MPEG data by re-encoding the decoded signal is as follows:
A data insertion process for inserting external audio data obtained by encoding an external audio signal into the second MPEG data;
A data replacement process for replacing the external audio data with the audio data in the second MPEG data;
Or a data synthesis process for synthesizing the external audio data with the audio data in the second MPEG data,
A recording / reproducing method characterized by performing data processing on any one of the above. A recording / reproducing apparatus that reads data from a first recording medium on which first MPEG data divided into predetermined data units as one data group is recorded, and records the read data on a second recording medium. There,
A reading unit for reading out the first MPEG data from the first recording medium;
A decoding unit for decoding the read first MPEG data to generate a decoded signal;
A re-encoding unit that re-encodes the decoded signal to generate second MPEG data;
Information acquisition for sequentially obtaining position information indicating the position of the data group before and after the specific data group of the second MPEG data while sequentially storing the partial data of the second MPEG data in the semiconductor memory And
An information adding unit that sequentially adds each position information derived for each data group to each data group stored in the semiconductor memory to generate third MPEG data;
A recording unit for recording the third MPEG data on the second recording medium,
And a recording / reproducing apparatus.

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