JP2002359813A - Recording and reproducing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a recording and reproducing method, capable of performing after-recording of voice on a recording medium on which a pack is multiplexed and recorded. SOLUTION: Whether or not the contents of voice coded data recorded on an information record area A are silent is discriminated from first information of a table T prerecorded on an information recording area B; it is decided that after-recording of a voice signal is possible, when the contents are decided to be silent; and that the sound signal to be subjected to after-recording in an encoding method being the same as that of voice coded data recorded in the information record area A of a recording medium and also in the same fixed bit rate is encoded from second and third information in the read table, and after that is packed and is subsequently overwritten on a voice pack and recorded. A bitmap image is overwritten and recorded on a pack of a bitmap image based on fourth information of the table T, when bitmap image coded data recorded on the information record area A are invisible.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a recording / reproducing method, and more particularly to a recording / reproducing method, which is divided into a plurality of sectors each having a fixed data amount. The present invention relates to a recording / reproducing method for trailing recording of an audio signal on a rewritable recording medium having an information recording area continuously recorded from a head of a sector after being packed in a data amount.

[0002]

2. Description of the Related Art With the recent development of information processing technology, digital audiovisual information is being compressed and recorded on an information recording medium. In particular, recordable optical disks to which these compression techniques are applied are considered to become the mainstream of digital audio / video recording media in the future due to their good random accessibility and portability.

[0003] Since a moving image has an enormous amount of information with respect to a sound, an advanced compression technique is used in order to effectively use a limited amount of information recorded on a medium. A typical example of this method is not only data compression using a correlation in a frame which is a unit of video but also compression using a correlation between a plurality of temporally close frames. It is well known that as a result of this data compression, the data amount per frame of a moving image greatly varies according to the complexity of the intra-frame video and the degree of correlation between frames.

[0004] As described above, the state in which the code amount generated in a certain period fluctuates due to data compression is referred to as "compression encoding at a variable bit rate" or "VBR (Variable Bit Rat)".
e) is referred to as "compression encoding". On the other hand, for voice, compression coding at a fixed bit rate, in which the amount of code generated during a certain period is constant, that is, compression coding at a so-called CBR (Constant Bit Rate), is adopted because of the relative small amount of information. In most cases.

[0005] The encoding of moving pictures and audio has been described above.
In (Digital Versatile Disc), a format of a bitmap image for displaying (overlaying) a movie subtitle or the like over a moving image together with the moving image and audio is defined. Unlike the conventional subtitles, this bitmap image has a feature that it can be selectively displayed because it is encoded independently of a moving image. In addition to the application to subtitles, the application range is wide, such as displaying graphics that modify moving images.

Now, these coded data are recorded on a recording medium. On the recording medium, small-sized and fixed data amount sections called sectors are continuously arranged.
The encoded data is recorded after being divided into sectors. Furthermore,
Since writing / reading by a recording / reproducing apparatus for a medium is generally performed in sector units, it is not preferable to record different types of data in the same sector from the viewpoint of easy access. Coded data such as a map image is recorded in different sectors.

At the time of reproduction, consecutive sectors are sequentially read and decoded. However, since moving images / audio / bitmap images have a synchronous relationship, at the time of recording, these encoded data are appropriately multiplexed and recorded in the sectors. There is a need.
In addition, since the coding of a moving image is performed by VBR, a mechanism for controlling a reading speed from a medium is required. For this purpose, a program stream format defined in ISO / IEC13818-1 (MPEG system standard) is mainly used.

A recording state on a medium adopting the program stream format and an outline of the recording / reproducing apparatus will be described with reference to FIG. FIG. 4A shows an arrangement of encoded data according to a program stream format recorded on a medium. Pack (Pac
Although a transfer unit referred to as k) is defined, FIG. 4A shows a state where the pack and the sector match.

The boxes shown are moving images (V1, V2, V3).
) / Audio (shown by A1 and A2) / bitmap image (shown by B1).
Multiplexed in packs. S for each pack
Time information called CR (System Clock Reference) is attached, and the playback device controls the reading speed from the medium using the SCR as described later. Further, information and the like for identifying the contents are described in the pack, but the description is omitted.

FIG. 5 is a block diagram showing an example of a conventional recording and reproducing apparatus for recording and reproducing a program stream. In the figure, at the time of recording, encoded data obtained by performing encoding with compression processing in each of the moving image encoding unit 1, the audio encoding unit 2, and the bitmap image encoding unit 3 is transmitted to the multiplexing unit 4 Are multiplexed while generating and packing the SCR. STC (System Time
Clock) 5 is a counter that monotonically increases, and is initialized to 0 prior to the start of encoding. The SCR is a counter value at the time when the pack is output from the multiplexing unit 4, and indicates the output time.

Output multiplexed data (pack) of the multiplexing unit 4
Is supplied to the write buffer 6 and temporarily stored,
From this, the data is continuously read and recorded on the recording medium 8 by the information writing unit 7. Here, the output multiplexed data of the multiplexing unit 4 is a pack sequence, but the output speed (pack rate) of the pack varies in accordance with the VBR encoding. On the other hand, the recording medium 8 usually has a constant continuous writing speed, and is generally set to about the writing speed corresponding to the highest pack rate.

However, as shown in FIG. 4A, packs must be continuously arranged for effective use of the recording area, and the writing operation in the information writing section 7 must be intermittent. I can't get it. FI to solve this problem
A configuration is employed in which packs generated during a period in which writing cannot be performed using a write buffer 6 in the form of an FO (First-in First-out) memory are held. As a result, the SCR in the pack sequence on the recording medium 8 gradually increases in a portion where the pack rate is high, that is, in a portion where the generated code amount is large, and rapidly increases in a portion where the pack rate is low.

Next, the operation at the time of reproduction will be described. The reading speed of the recording medium 8 during reproduction is set to be equal to or higher than the writing speed. The packs sequentially read from the recording medium 8 through the information reading unit 9 are stored in the FIFO.
It is stored in a read buffer 10 in the shape of a letter. The pack occupancy in the read buffer 10 fluctuates according to the input and output amounts, but in order to prevent buffer overflow, the information reading unit 9 performs intermittent reading and temporarily stops the output to the read buffer 10. Control occupancy.

The pack read from the read buffer 10 is supplied to the demultiplexer 11. Prior to the start of reproduction, STC5 is initialized to 0. The demultiplexing unit 11 compares the SCR of the pack appearing at the output end of the read buffer 10 with the current STC.
2. Transfer to the audio decoding unit 13 or the bitmap image decoding unit 14. The transfer destination refers to the content information in the pack and selects an appropriate decoding unit. Video decoding unit 12, audio decoding unit 1
3 and the bitmap image decoding unit 14 perform decoding, and as a result, are output in the same synchronized state as at the time of recording.

Here, the transfer state in the demultiplexer 11 will be supplementarily described with reference to FIG. In FIG. 4A, V1, V2, and V3 each represent encoded data per unit display period, and are, for example, video encoded data of one video frame. Similarly, A1 and A2 are coded audio data respectively corresponding to separately determined reproduction periods. B1 is video encoded data corresponding to one bitmap image.

The graph shown in FIG. 4B shows a moving picture decoding section 12, a speech decoding section 13, and a bitmap picture decoding section 14.
This indicates the state of the transfer of the pack to. The transfer speed of the pack represented by the slope of the graph is a prescribed value, and the amount of data in the pack is fixed, so that the SCR increment cannot be less than 10 in this example. A solid line I represents a state of transfer of the pack to the video decoding unit 12. The pack carrying the video encoded data V1 is intermittently transferred according to the SCR value. On the other hand, the packs carrying the encoded video data V2 having a large generated code amount are continuously transferred.

On the other hand, the audio decoding unit 1 indicated by a rough dotted line II
The transfer to No. 3 occurs at substantially constant intervals even after the illustrated range due to the CBR coding of the audio coded data A1 and A2. Since the display of the encoded data B1 of the bitmap image is updated irregularly and the display is maintained until the next display update, the pack transfer itself is also irregular, and the frequency of the transfer is relatively low. FIG. 4 (B)
In the figure, the dotted line III indicates the transfer state of the pack to the bitmap image decoding unit 14.

[0018]

By the way, a widespread audio-video recording / reproducing apparatus represented by VHS (registered trademark) records a video signal and then tracks only the audio signal without changing the video signal. It has a so-called post-record function for recording, and is a very useful function for simple editing work. This audio / video recording / reproducing apparatus uses a magnetic tape as a recording medium, separates a video signal into a luminance signal and a carrier chrominance signal, modulates the luminance signal, and divides the carrier chrominance signal into a lower frequency band than the frequency-modulated luminance signal. After the frequency conversion to the frequency domain that has been performed, the audio signal was further frequency-modulated to a band between the above-described low-frequency conversion carrier chrominance signal and the frequency band of the frequency-modulated luminance signal, and each of those signals was frequency-division multiplexed. A signal is supplied to the rotating head, and the rotating head forms a main recording track inclined with respect to the longitudinal direction of the magnetic tape, and is recorded analogly. Therefore, audio recording tracks are formed along the longitudinal direction of the magnetic tape and analog recording is performed. Therefore, audio dubbing using this audio recording track is not possible. In was easy.

On the other hand, in the recording / reproducing apparatus for multiplexing and recording packs shown in FIG. 5, when only moving images are recorded on the recording medium 8, the data arrangement as shown in FIG. 6 is performed. . Since the SCR is recorded in the pack structure, there is no need to perform processing such as inserting an empty sector in order to control the transfer rate.

Here, a case will be considered in which the audio signal is recorded afterward (after-recording) on the moving image thus recorded. Performing post-recording means multiplexing a new pack into the above-mentioned pack sequence. In order to insert a newly encoded audio pack between video packs, it is necessary to move a large number of video packs to another sector.

However, it is extremely difficult to perform this moving operation in parallel with recording. Further, as in a section indicated by an ellipse IV in FIG. 6, a pack of audio cannot be inserted in a section where the moving image pack rate is high. Obviously, such a situation also occurs when dubbing a bitmap image. For these reasons, it has been practically impossible for a recording / reproducing apparatus that multiplexes and records packs to post-record audio and bitmap images.

The present invention has been made in view of the above points,
An object of the present invention is to provide a recording / reproducing method capable of dubbing audio on a recording medium on which packs are multiplexed and recorded.

[0023]

To achieve the above object, a recording / reproducing method according to the present invention is an encoded data recording medium having an information recording area divided into a plurality of sectors of a fixed data amount, A plurality of moving image packs generated from moving image encoded data compressed and encoded so that the bit rate fluctuates, and a plurality of moving image packs generated from audio encoded data encoded so that the bit rate is fixed. A rewritable coded data recording medium having, in the information recording area, a first information recording area in which an audio pack is multiplexed in units of each pack and continuously recorded from the predetermined sector; Each of the moving image packs and each of the audio packs is a pack having a data amount corresponding to the fixed data amount of the sector, and
Is the audio encoded data packed and recorded in the first information recording area as a pack, which is a transfer unit in a program stream format defined in a system standard, and is possible to be recorded afterwards. A table including at least first information for identifying whether or not the audio data is encoded, second information indicating an encoding method of the encoded audio data, and third information indicating the number of audio channels of the encoded audio data. Is a recording / reproducing method for recording / reproducing on / from an encoded data recording medium recorded in a second information recording area different from the first information recording area in the information recording area, comprising: A reading step of reading the table from the second information recording area to perform follow-up recording; An identification step of identifying from the first information in the table whether follow-up recording is possible for the audio encoded data packed and recorded in the first information recording area; and When it is determined that the trailing recording is possible, the audio code packed and recorded in the first information recording area from the second and third information in the table read in the reading step. The same encoding method as the encoded data and the same fixed bit rate are specified, and the audio signal to be followed-up recorded is encoded using the specified same coding method and the same specified fixed bit rate. And the audio encoded data extracted from the audio encoding step is packed and tracked in the same manner as the packing. Generating a recording audio pack, and overwriting a sector in which the audio pack is recorded in the first information recording area with the follow-up recording audio pack; and The first information in the table recorded in the information recording area No. 2 is used as information for identifying whether or not follow-up recording is to be performed on the audio encoded data packed and recorded in the first information recording area. An updating step of updating. In the present invention, it is determined whether or not the trailing recording of the audio signal is possible by identifying the first information in the table recorded on the encoded data recording medium. If it is determined that the trailing recording of the audio signal is possible, the second and third information in the read-out table are used in the same encoding scheme as the audio encoded data recorded on the encoded data recording medium, and ,
At the same fixed bit rate, an audio signal to be recorded later is encoded and then packed. Since the audio encoding method is intended for a fixed bit rate method including compression, the newly encoded audio encoded data has the same bit rate as the already recorded audio data, and the new audio encoding Audio packs with coded data
It is possible to overwrite the audio pack in the first information recording area of the encoded data recording medium without updating the arrangement of the already recorded pack.

[0024]

Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram showing the recorded contents of one embodiment of an encoded data recording medium used in the present invention. As shown in the figure, in this recording medium, a first information recording area A and a second information recording area B are separately formed,
It is a rewritable recording medium divided into sectors of a fixed data amount. In the first information recording area A, packed moving image data, audio data, and bitmap image data are recorded. Further, the first information recording area A
Separately, a table T is recorded in the second information recording area B.

As shown in FIG. 2, the table T stores the number of audio channels 31, the audio encoding method 32, the audio contents 33, and the bitmap image information of the information recorded in the first information recording area A. It is a table in which contents 34 are associated. The number 31 of audio channels indicates the number of channels of the recorded audio. The audio encoding format 32 only needs to be able to identify a recordable format in accordance with a format specific to the recording medium. For example, linear PCM 16 bits 48 kHz
Identify that it is quantization. By specifying the audio encoding method and the number of audio channels, the encoding bit rate of the recorded audio can be calculated.

In the audio content 33, information indicating whether or not the audio encoded data recorded in the first information recording area A is recorded silently is recorded. This is for letting the recording / reproducing device identify whether or not the audio dubbing is possible, and 1-bit information is sufficient. In the content 34 of the bitmap image, information indicating whether the bitmap image is invisible and recorded as a transparent overlay still image on the moving image is recorded. This is for making the recording / reproducing apparatus identify whether or not the post-recording of the bitmap image is possible.

FIG. 3 is a block diagram showing one embodiment of a recording / reproducing apparatus to which one embodiment of the recording / reproducing method according to the present invention is applied. 5, the same components as those of FIG. 5 are denoted by the same reference numerals, and the description thereof will be omitted. The recording / reproducing apparatus shown in FIG.
The control unit 16 is provided, and controls the audio encoding unit 17, the multiplexing unit 18, and the information writing unit 19 based on the reproduction information from the information reading unit 21, and compresses the recording medium 20 to change the bit rate. After packing the encoded moving image data and the audio data coded so that the bit rate is fixed at a data amount corresponding to each sector, the pack is multiplexed and buffered, A first information area continuously recorded from the beginning of the sector, information for identifying whether or not the recorded voice is silent, and at least a voice coding method and a number of channels for the voice coding mode. 2 information areas.

Here, the recording medium 20 is the recording medium described with reference to FIGS. Further, the control unit 16 allows the information reading unit 21 to refer to the recording position and the contents of the sector on the recording medium 20, enables the audio encoding unit 17 to set the encoding method, and adds the encoding method to the multiplexing unit 18. SCR
Can be set, and the information writing unit 19 is controlled to specify the recording position and selectively rewrite the sector.

Next, the audio dubbing operation of the recording / reproducing apparatus shown in FIG. 3 will be described. In this case, the recording medium 2
In the first information recording area A of 0, moving image encoded data compressed so that the bit rate fluctuates, and audio encoded data encoded so that the bit rate is fixed, After being packed with the data amount corresponding to each sector, it is sufficient that the pack is multiplexed and buffered and recorded continuously from the beginning of the sector, and the bitmap image encoded data is not recorded even if it is recorded. You may. Audio encoded data is recorded in the first information recording area A even if there is no sound.

The control section 16 sends the information from the recording medium 20 to the table T as shown in FIG.
Is read, and it is determined from the audio content 33 in the table T whether or not the content of the recorded audio data in the first information recording area A is silent. If it is silent, it is determined that the audio post-recording is possible. I do.

If the control unit 16 determines that there is no sound, the control unit 16 then performs audio encoding so as to perform the same encoding according to the encoding method 32 of the recorded audio and the number of audio channels 31 shown in the table T. After setting the encoding method of the section 17, encoding of the audio signal to be post-recorded is started. Moving image encoding unit 2 and bitmap image encoding unit 3
Stops the operation at this time, and does not supply encoded data to the multiplexing unit 18.

Further, the control unit 16 sequentially reads the recording position of the sector where the audio pack is recorded and the SCR of the audio pack from the first information recording area A of the recording medium 20, and the multiplexing unit 18 When the encoded data supplied from the encoding unit 17 is packed, the read SC
Control is performed so that R is sequentially set.

The information writing unit 19 selectively overwrites the audio pack supplied from the writing buffer 6 in accordance with the recording position of the recorded audio pack read by the control unit 16 in the sector where the recorded audio pack is located. Works like that. Control unit 1 at the end of post-recording
6 updates the audio content 33 of the table T on the recording medium 20 to indicate that the audio content is not silent.

Next, the operation of the recording / reproducing apparatus for dubbing a bitmap image will be described. In this case, in the first information recording area A of the recording medium 20, moving image encoded data that has been compression-encoded so that the bit rate fluctuates is displayed over the moving image, and is displayed every arbitrary period. If the encoded data of a plurality of bitmap images to be updated are packed with a data amount corresponding to each sector, the packs are multiplexed and buffered, and are continuously recorded from the beginning of the sector. Often, the audio coded data may or may not be recorded. Even if it is not visible, encoded bitmap image data is recorded in the first information recording area A.

First, the control section 16 reads the table T from the recording medium 20 through the information reading section 21, and reads the first bit from the content 34 of the recorded bitmap image in the table T.
It is determined whether or not a bitmap image is invisiblely recorded in the information recording area A of (1). If the contents of the bitmap image are invisible, it is determined that the bitmap image can be dubbed.

Subsequently, the bitmap image encoding unit 3 starts encoding a bitmap image signal to be dubbed. At this time, the operation of the audio encoding unit 1 and the moving image encoding unit 2 is stopped, and the encoded data is not supplied to the multiplexing unit 18. Subsequently, the control unit 16 sequentially reads the recording position of the sector where the bitmap image pack is recorded and the SCR of the bitmap image pack from the first information recording area A of the recording medium 20. The control unit 16 selects the SCR closest to the desired timing from the read SCR and supplies it to the multiplexing unit 18.

The multiplexing unit 18 controls the SCR supplied from the control unit 16 to be set when the encoded data supplied from the bitmap image encoding unit 3 is packed. The information writing unit 19 selectively stores the bitmap image pack supplied from the writing buffer 6 in accordance with the recording position of the recorded bitmap image pack read by the control unit 16 in the sector where the recorded bitmap image pack is located. It operates so that it may overwrite sequentially.

At the end of the after-recording operation, the control unit 16 sets the content of the bitmap image so as to indicate that the content is not invisible.
The content 34 of the bitmap image of the table T on the recording medium 20 is updated. A plurality of bitmap still images can be encoded and sequentially dubbed by the above operation, but the dubbing possible timing is determined at the initial recording time when the invisible bitmap image is multiplexed and recorded. In this case, in the initial recording, the user may multiplex the bitmap image at an arbitrary timing with respect to the after-recording timing of the bitmap image, or may multiplex the bitmap image periodically, for example, every one second.

[0039]

As described above, according to the recording / reproducing method of the present invention, it is determined whether or not follow-up recording of an audio signal is possible based on the first information in the table recorded on the encoded data recording medium. I can judge. If it is determined that the trailing recording of the audio signal is possible, the second and third information in the table read from the encoded data recording medium are used to determine the audio encoded data recorded on the encoded data recording medium from the second and third information. It is possible to encode and pack audio signals that are to be tracked and recorded using the same encoding method and the same fixed bit rate. Therefore, according to the recording / reproducing method of the present invention, the audio pack for follow-up recording is overwritten on the audio pack of the encoded data recording medium without updating the arrangement of the packs already recorded on the encoded data recording medium. And the trailing recording of the audio signal can be easily performed.

[Brief description of the drawings]

FIG. 1 is a schematic diagram of recorded contents of one embodiment of an encoded data recording medium used in the present invention.

FIG. 2 is an explanatory diagram of the contents of a table in FIG. 1;

FIG. 3 is a block diagram of an embodiment of a recording and reproducing apparatus to which an embodiment of the recording and reproducing method according to the present invention is applied.

FIG. 4 is a diagram illustrating an example of a conventional arrangement of encoded data and a transfer state of a pack.

FIG. 5 is a block diagram of an example of a conventional recording / reproducing apparatus.

FIG. 6 is an explanatory diagram of an example of a conventional encoded data arrangement.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 moving image encoding unit 3 bitmap encoding unit (bitmap image encoding unit) 6 write buffer 11 demultiplexing unit 12 moving image decoding unit 13 audio decoding unit 14 bitmap image decoding unit 16 control unit (identification unit, audio Encoding means, updating means,
Bitmap image encoding unit) 17 Audio encoding unit (Audio encoding unit) 18 Multiplexing unit 19 Information writing unit (writing unit, updating unit) 20 Recording medium 21 Information reading unit (Reading unit) 31 Number of audio channels (No. 3 information) 32 audio coding method (second information) 33 audio contents (first information) 34 bitmap image contents A first information recording area B second information recording area T table

Continued on the front page (51) Int.Cl. ⁷ Identification code FI Theme coat II (Reference) H04N 5/85 H04N 5/92 H 5/92 G11B 27/02 K (72) Inventor Takayuki Sugawara Kanagawa-ku, Yokohama-shi, Kanagawa 3-12-12 Moriyacho Inside Victor Company of Japan (72) Inventor Junzo Suzuki 3-12-12 Moriyacho, Kanagawa-ku, Yokohama-shi, Kanagawa Prefecture F-term within Victor Company of Japan, Ltd. 5C052 AA02 AB02 AB04 AB08 DD02 DD04 DD06 5C053 FA14 FA23 GA11 GB01 GB11 GB21 GB37 JA01 JA03 5D044 AB05 AB07 BC04 CC05 DE14 DE17 DE22 DE49 EF05 EF07 FG18 FG21 GK11 HL14 5D110 AA19 AA27 AA29 BB06 CA02 CA06 CB06 CD02

Claims (1)

[Claims] 1. An encoded data recording medium having an information recording area divided into a plurality of sectors having a fixed data amount, wherein the encoded data recording medium is generated from encoded moving image data which has been compression-encoded so that a bit rate varies. A plurality of moving image packs and a plurality of audio packs generated from audio coded data coded so that the bit rate is fixed are multiplexed in units of each pack and continuously multiplexed from the predetermined sector. A rewritable encoded data recording medium having a first information recording area recorded in the information recording area, wherein each of the moving image packs and each of the audio packs is provided in each of the sectors. A pack having a data amount corresponding to the fixed data amount, and as a pack which is a transfer unit in a program stream format defined in the MPEG system standard. First information for identifying whether or not follow-up recording is possible for the encoded audio data, which is packed and recorded in the first information recording area and recorded, and the audio code A table including at least second information indicating an encoding method of encoded data and third information indicating the number of audio channels of the audio encoded data, wherein the first information recording area in the information recording area is Is a recording / reproducing method for recording / reproducing on / from an encoded data recording medium recorded in another second information recording area, wherein the second information recording area is used for following recording of an audio signal. A reading step of reading a table; and packing and recording the first information in the table read in the reading step in the first information recording area. An identification step of identifying whether follow-up recording is possible for the encoded audio data, and if it is determined that the follow-up recording is possible by the identification step, the From the second and third information, specify the same encoding method and the same fixed bit rate as the audio encoded data packed and recorded in the first information recording area, and perform the follow-on recording. And a voice coding step of coding the voice signal to be specified at the same specified coding method, and at the specified fixed bit rate, wherein the voice-coded data extracted from the voice coding step is packed. In the same manner as described above, an audio pack for follow-up recording is generated, and the audio pack is recorded in the first information recording area. A write step of overwriting the follow-up recording audio pack in a sector to be written, and, together with the overwriting operation, the first information in the table recorded in the second information recording area with the first information An update step of updating to information for identifying whether or not follow-up recording is performed on audio encoded data packed and recorded in a recording area.