JP4088846B2 - Disc scratch playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a disc on which audio data obtained by A / D converting an analog audio signal such as a music source is recorded. Of The present invention relates to a scratch reproducing apparatus.
[0002]
[Prior art]
In general, CDs (compact discs), DVDs (digital versatile discs), and the like are known as discs on which analog audio signals such as music sources are recorded by A / D conversion.
[0003]
[Problems to be solved by the invention]
By the way, when playing an analog audio disc, an operator such as a disc jockey rotates and fast-forwards and fast-rewinds the disc being played manually, so that fast-forward playback and fast-rewind playback are performed at a higher frequency than the original sound. So-called scratch reproduction is known. At this time, the operator fast-forwards and fast-reverses not at random positions on the disc but at intervals such as the start of the time signature (rhythm) while listening to the music source being played.
[0004]
However, with digital discs such as CDs, it is impossible to fast-forward and fast-rewind by manual operation. Therefore, in order to perform scratch playback, a scratch playback mode is provided to automatically detect music source breaks. However, this is difficult, and therefore there is a problem that scratch reproduction using this break is difficult.
[0005]
In view of the above-described conventional problems, the present invention provides a disc that can be scratch-played at the time interval of a music source. Of An object of the present invention is to provide a scratch reproduction device.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention A scratch of a disk having an audio pack including audio data and a management pack or related pack including information for managing the audio pack, and in which the time data representing the time of the audio data is arranged in the management pack or the related pack A playback device for playing back an audio pack and a management pack from the disc; a beat data decoding means for decoding the beat data played by the playback means; and a beat of a music source when the user performs scratch playback. A time data setting means for setting a delimiter in time data, a time data sequentially decoded by the time data decoding means, a time data comparison means for comparing the time data set by the time data setting means, The comparison result of the time data comparison means is one. A scratch reproduction means for reproducing at intervals of the audio data in the forward and backward until the scratch reproduction apparatus of a disk having Is provided.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. Figure 1 shows the DVD-Video format and , De FIG. 2 is an explanatory diagram showing the format of the audio content block unit (ACBU) of FIG. 1, and FIG. 3 is a format of the audio pack and video pack of FIG. FIG. 4 is an explanatory diagram showing in detail the format of the audio control (A-CONT) pack of FIG. 2, FIG. 5 is an explanatory diagram showing in detail the format of the audio character display (ACD) area of FIG. 4, and FIG. Is an explanatory diagram showing an example displayed by the name space information of FIG. 5, FIG. 7 is an explanatory diagram showing in detail the format of the audio search data (ASD) area of FIG. 4, and FIG. 8 is a modification of the audio content block unit of FIG. It is explanatory drawing which shows an example. 9 is a block diagram showing a DVD playback apparatus as an embodiment of a disk scratch playback apparatus according to the present invention, FIG. 10 is a block diagram functionally showing the DVD playback apparatus of FIG. 9, and FIGS. FIG. 13 is a block diagram showing a second embodiment of the DVD playback apparatus, FIG. 14 is a block diagram showing a third embodiment of the DVD playback apparatus, and FIG. 15 is a flowchart for explaining the AV synchronized playback processing. It is a block diagram which shows the scratch reproduction apparatus in a DVD reproduction apparatus.
[0009]
FIGS. 1A and 1B show DVD-video and DVD-audio formats, respectively, and the DVD-audio format is compatible with DVD-video although the area names are different. First of all, the DVD-video format is composed of the top video manager (VMG) and the following areas of a plurality of video title sets (VTS), while the DVD-audio format is an audio corresponding to this. Each area includes a manager (AMG) and a plurality of audio album sets (AAS) following AMG.
[0010]
Each VTS is composed of a head VTS information (VTSI), followed by one or more video content block sets (VCBS) and a last VTSI, while each AAS corresponds to the head AAS information (AASI). ) Followed by one or more audio content block sets (ACBS) and the last AASI. In AASI, the performance time of each song in the ACBS is set in real time.
[0011]
Each VCBS is composed of a plurality of VCBs, while each ACBS is composed of a plurality of ACBs. Each VCB is one video title, and each ACB is one audio album corresponding to this. Each VCB (one title) is composed of a plurality of chapters, while each ACB (one album) is composed of a plurality of tracks corresponding thereto. The chapter includes a part of title (PTT), and the track includes a part of album (PTA).
[0012]
Each chapter is composed of a plurality of cells, while each track is composed of a plurality of indexes correspondingly. Each cell is composed of a plurality of VCB units (VCBU), while each index is composed of a plurality of ACB units (ACBU) corresponding thereto. Each of the VCB unit and the ACB unit is composed of a plurality of packs, and one pack is composed of 2048 bytes.
[0013]
Each VCB unit is composed of a leading control pack (hereinafter referred to as CONT pack), followed by a plurality of video (V) packs, audio (A) packs and sub-picture (SP) packs. The SP) pack and the video (V) pack are sometimes called V packs. On the other hand, each ACB unit is composed of a leading audio control pack (hereinafter referred to as A-CONT pack), followed by a plurality of A packs and V packs.
[0014]
Information for controlling the subsequent V pack is arranged in the CONT pack, and information for managing the audio signal of the subsequent A pack is arranged in the A-CONT pack like the TOC information of the CD. Audio data is arranged in the A pack, and closed caption (CC) data other than the audio data is arranged in the V pack, in addition to the video data.
[0015]
Next, the A pack in which the audio stream is recorded and the control pack will be described. As shown in FIG. 2, the VCB unit is composed of an arbitrary number of packs for 0.4 to 1.0 seconds, while the ACB unit is composed of an arbitrary number of packs for 0.5 to 1.0 seconds. Has been. The A-CONT pack in the DVD-audio ACB unit is arranged in the third pack in the DVD-video VCB unit.
[0016]
The A-CONT pack is basically arranged in units of 0.5 second of the audio time, and is arranged so as to be completed in the range of 0.5 to 1.0 seconds at the index break. The audio time (GOF: Group of Audio Frame unit) is indicated by an A-CONT pack, and the data position is determined by the number of audio frame numbers, first access unit pointers, and frame headers. Also, the A pack immediately before the A-CONT pack does not force padding in units of 0.5 second of the audio time.
[0017]
Adjacent A packs are arranged so that audio signals are related to each other. For example, in the case of stereo, an L channel pack and an R channel pack are arranged adjacent to each other, and a 5/6/8 channel multi-channel is arranged. In the same way, they are arranged adjacent to each other. The V pack is arranged adjacent to the A pack when video is displayed during reproduction of the audio signal.
[0018]
As shown in FIG. 3, the A pack and the V pack are a 4-byte pack start information and a 6-byte SCR (System Clock Reference) for 2034 bytes of user data (A data and V data). ) Information, 3 byte Mux rate information, and 1 byte stuffing for a total of 14 bytes of pack header (1 pack = total of 2048 bytes). In this case, the time of the A pack in the same album can be managed by setting the SCR information, which is a time stamp, as “1” in the first pack in the ACB unit and continuing in the same album.
[0019]
On the other hand, as shown in FIG. 4, the A-CONT pack has a 14-byte pack header, a 24-byte system header, a 1003-byte ACD (audio character display) packet, and a 1007-byte ASD (audio search data). ) Consists of packets. The ACD packet is composed of a 6-byte packet header, a 1-byte substream ID, 676-byte ACD (audio character display) information as shown in detail in FIG. 5, and 320-byte audio reproduction control information. Yes. The ASD packet is similarly composed of a 6-byte packet header, a 1-byte substream ID, and a 1000-byte ASD (audio search data) as shown in detail in FIG.
[0020]
Here, FIGS. 5A and 7A show a first example, and FIGS. 5B and 7B show a second example. As shown in detail in FIG. 5 (A), the 676-byte ACD information area is composed of a 48-byte general information area, 294-byte character “1” and “2” information areas, and a 40-byte time signature data area. Each information area of the characters “1” and “2” is composed of a name space area of 93 bytes, two free space areas of 93 bytes each, and a data pointer area of 15 bytes. In the name space area, for example, 31-byte ¼-byte character data for header and 62-byte full-width and half-width text data for text are arranged to display the music name as shown in FIG.
[0021]
The 48-byte general information includes, for example, 16-byte service level information, 12-byte language code information, 6-byte character set code information, 6-byte display item information, and 2-byte “previous ACD information”. Difference information and 6-byte hold information. The 16-byte service level information indicates a display size, display type, audio / video / SP distinction, stream, and the like. Characters are mandatory, and bitmaps are optional. The 12-byte language code information indicates the language of the characters “1” and “2” by 2 bytes, as in the video file, and indicates a maximum of 8 languages in one file. English is mandatory.
[0022]
The 6-byte character set code information can have a maximum of 15 character codes corresponding to language codes, and indicates the presence / absence and type of characters “1” and “2” in 1 byte. A code example is shown below.
1. ISO646
2. ISO8859-1
3. MS-JIS
The 6-byte display item information indicates the free spaces “1” and “2” shown in FIG. The name space is mandatory, and the album name, music name, and artist name must be described.
[0023]
In the 40-byte time data area, five time data of 8 bits are arranged as time data of user data (music source) in the A pack. Thereby, the five time signatures of the music source in the A pack managed by the A-CONT pack are recorded at the timing time (8 bits).
[0024]
The content of the 294-byte audio playback control information area is arbitrary, and is composed of 10 types of audio playback control information areas (250 bytes) each having 25 bytes and a 44-byte reserved area, for example. In one audio playback control information area, 20-byte graphic equalizer information, 3-byte level balance information, and 2-byte reverberation additional information are arranged, and this information is selected by the user to control the sound quality of the audio signal. Is done. These audio playback control information is set according to the genre (classic, jazz, rock, BGM) of the music, for example, when the user plays the music arranged in the A pack. This data is recommended by a so-called professional mixer so that the sound quality during playback is best according to the performance state, recording state, atmosphere, etc. of the music.
[0025]
As shown in detail in FIG. 7A, the 1000-byte ASD (audio search data) includes 16-byte general information, 8-byte current number information, 16-byte current time information, and 8-byte album set. The search information includes 8-byte album search information, 404-byte track search information, 408-byte index search information, 80-byte highlight search information, and a 52-byte reserved area.
[0026]
Note that the time signature data may be recorded in the ASD area instead of being recorded in the ACD area. That is, as shown in FIG. 5 (B), the 40-byte time data in the ACD area are all reserved areas, and instead of the 40-byte time in the 52-byte reserved area in the ASD area as shown in FIG. 7 (B). The remaining 12 bytes of data may be used as a reserved area.
The time signature data may be recorded in another area. For example, it may be recorded as user-defined data in the DSI data area of the CONT pack, or may be recorded as user-defined data in a related pack such as a video (V) pack or a sub-picture (SP) pack.
[0027]
The ACBU in FIG. 1B includes the A-CONT pack and the CONT pack, but may be configured not to include the V pack and the CONT pack as shown in FIG. In this case, the video signal is not recorded, but the recording capacity of the audio signal is increased, the disc size can be reduced, and the playback function can be simplified, so that playback for portable use is possible. What is suitable for the device can be provided.
[0028]
Next, a DVD playback apparatus according to the present invention will be described with reference to FIG. On the DVD audio disk 1, data having the above structure is EFM modulated and recorded in the form of pits. When a song selection, playback, fast forward, stop operation or the like is performed by the operation unit 18 or the remote control device 19, the control unit 23 controls the drive device 2 and the playback device 17 according to the operation, and is recorded on the disc 1 at the time of playback. After the pit data is read by the drive device 2, it is EFM demodulated.
[0029]
In the playback device 17, this signal is sent to the CONT pack detection unit 3 and the A-CONT pack detection unit 9. The CONT pack detection unit 3 detects the CONT pack in the reproduction data, sets the control parameter in the parameter unit 8, and sequentially writes the V pack controlled by the CONT pack in the V pack buffer 4. User data (video signal, sub-picture information) in the V pack written in the V pack buffer 4 is stored in the order of packing based on the SCR (see FIG. 3) in the V pack by the buffer extracting unit 5 and in the CONT pack. Are output in the order of output time based on the PTS of the video signal, and then output as an analog video signal via the image converter 6, the D / A converter 7, and the video output terminals 15 and 15 '. These blocks 3 to 8 constitute a video processing unit 17V, which operates when the internal power switch control unit 30 turns on the power switch SW based on the control of the control unit 23.
[0030]
Further, the A-CONT pack detection unit 9 detects the A-CONT pack in the reproduction data, sets the control parameter in the parameter unit 14, and sequentially stores the A pack controlled by the A-CONT pack in the A pack buffer 10. Write. The user data (audio signal) in the A pack written in the A pack buffer 10 is in the order of the pack based on the SCR by the buffer extracting unit 11 and the current time of the audio search data ASD in the A-CONT pack (FIG. 7). Are output in order of output time, and then output as an analog audio signal via the PCM converter 12, D / A converter 13, and audio output terminal 16. The display data in the A-CONT pack (audio character display information ACD shown in FIGS. 5 and 6) is sent to the display signal generation unit 20 to generate a display signal. This display signal is displayed on the display signal output terminal 22. Or is output to the built-in character display unit 21.
[0031]
FIG. 10 is a block diagram functionally showing the configuration shown in FIG. The reproduction means 2 corresponds to the drive device 2 shown in FIG. 9, and the reproduction signal processing separation means A (9, 10, 11, 14) is an A-CONT pack detection unit 9, an A pack buffer 10, an extraction unit 11, and a parameter unit. 14, the audio signal output means (12, 13) corresponds to the PCM converter 12 and the D / A converter 13. The character information output unit 20 corresponds to the display signal generation unit 20, and the display unit 21 corresponds to the character display unit 21. The reproduction signal processing separation means V (3, 4, 5, 8) corresponds to the CONT pack detection unit 3, the V pack buffer 4, the buffer extraction unit 5, and the parameter unit 8, and includes video signal means and sub-picture information means ( 6, 7) correspond to the image conversion unit 6 and the D / A conversion unit 7. The control means 23 corresponds to the control unit 23.
[0032]
In FIG. 10, when a command signal for reproducing the target music is sent from the operation unit 18 or the remote control device 19, the control means 23 sends an address control information signal corresponding to the reproduction command to the reproduction means 2. Thus, the target music is reproduced from the disk 1. The reproduction signal processing separation means A separates the reproduction data, sends A-CONT information to the control means 23, sends audio signals to the audio signal output means (12, 13), and sends character information to the character information output means 20. The reproduction signal processing separation means V separates the reproduction data, sends CONT information to the control means 23, and sends the video signal and sub-picture information to the video signal means and sub-picture information means (6, 7), respectively.
[0033]
In addition, TOC information is additionally recorded in an empty area of AMGI (Audio Manager Information) and AASI (Audio Album Set Information) and a reserved area in the ACD packet of the A-CONT pack shown in FIG. The apparatus can access the TOC information, store it in the TOC information storage unit 14 ', and search for the beginning of the song. As this TOC information, information recorded in the lead-in area of the CD can be used.
[0034]
Then, the TOC information is read at the start of reproduction and stored in the TOC information storage memory 14 '. When cue reproduction of a song or movement is designated, the disk 1 is accessed with reference to the memory 14'. This TOC information is also recorded in the AMGI, AASI, or A-CONT pack, and further recorded in the lead-in area (the TOC area 1a in the figure) at the innermost periphery of the disk 1 as shown in FIG. At the start of reproduction, the TOC detection unit 24 may access the TOC area 1a independently and store it in the memory 14 '.
[0035]
Next, AV synchronized playback processing using playback control information such as TOC information and search information will be described with reference to FIGS. In FIG. 11, for example, when cued playback of a song or movement is designated, the TOC information corresponding to the designated position is referred to (step S1), and then the cell and index locations are calculated based on the TOC information (step S1). S2). Next, the location is searched (step S3), and if confirmed, synchronized playback of A and V as shown in detail in FIG. 12 is performed (step S4 → S5).
[0036]
In FIG. 12, the CONT pack is reproduced (step S11), then the A-CONT pack is reproduced (step S12), and then it is checked whether the time information in the CONT pack and the A-CONT pack is the same time (step S12). S13). If it is not the same time, both the CONT pack and the A-CONT pack are adjusted by ± 1 pack (step S14), and then the process returns to step S11 to reproduce the CONT pack and the A-CONT pack. In step S14, one of the CONT pack and the A-CONT pack may be adjusted by ± 1 pack and the pack may be reproduced.
[0037]
When the time information in the CONT pack and the A-CONT pack is the same in step S13, the A pack controlled by the A-CONT pack is reproduced and the A pack address (SCR information) is incremented by one (step S15). Then, the V pack controlled by the CONT pack is reproduced and the V pack address (SCR information) is incremented by one (step S16). Next, it is checked whether or not the reproduction of the A pack has been completed (step S17). If it has not been completed, the process proceeds to step S18. If it has been completed, the process proceeds to step S20.
[0038]
In step S18, it is checked whether or not the reproduction of the V pack has been completed. If it has not been completed, the process returns to step S13. If it has been completed, the process proceeds to step S19. In step S19, the next V pack controlled by the CONT pack is reproduced, the V pack address is incremented by 1, and the process returns to step S13. In step S20, the next A pack controlled by the A-CONT pack is reproduced and the A pack address is incremented by one, and then it is checked whether or not the reproduction of the V pack is completed (step S21). If not, the process proceeds to step S22. If completed, the process proceeds to step S23.
[0039]
In step S22, it is checked whether or not the A pack controlled by the A-CONT pack is the final pack. If it is not the final pack, the process returns to step S16. On the other hand, if it is the final pack, the process returns to step S12. Play the A-CONT pack. In step S23, the next V pack controlled by the CONT pack is reproduced and the V pack address is incremented by one, and then it is checked whether or not it is the end of frame (EOF) (step S24). Returning to step S13, on the other hand, in the case of EOF, this AV synchronized playback process is terminated.
[0040]
FIG. 13 shows, as a second embodiment, an apparatus for reproducing a disc configured to include only an A pack and an A-CONT pack, but not a V pack and a CONT pack as shown in FIG. 27V is omitted. Also, the ACD information in the A-CONT pack prior to the A-CONT pack that controls the A pack being output by the audio signal output means 12 and 13 is pre-read and stored in the ACD storage unit 14. The character information may be displayed on the planar matrix display 21 ′ as the display means 21.
[0041]
FIG. 14 shows, as a third embodiment, recording in addition to the lead-in area (the TOC area 1a shown in the figure) at the innermost periphery of the disc 1, and the TOC detecting means 24 independently reads the TOC area 1a at the start of reproduction. A playback device is shown that is accessed and stored in memory 14 '. Further, in this configuration, when audio reproduction control information for reproduction with the sound quality recommended by the professional mixer is recorded in the ACD packet shown in FIG. 5, the sound quality control information output means 31 and the sound quality / level control processing means 32 is provided to control the sound quality based on this control information.
[0042]
FIG. 15 shows a scratch reproduction device in the control means 23 shown in FIGS. 10, 13 and 14, and A− separated by the reproduction means 2 and the reproduction signal processing separation means A shown in FIGS. 10, 13 and 14. The time data in the CONT pack is decoded by the time data decoder 51. Further, the address control information signal from the scratch ON / OFF unit 56 and the reproduction address correction circuit 58 is sent to the reproduction means 2 shown in FIGS. 10, 13 and 14, and the reproduction means 2 is located at the position indicated by the address control information signal. Are reproduced from the disc 1.
[0043]
In FIG. 15, the time signature data decoded by the time signature data decoder 51 is applied to the comparator 52 and the time signature data calculation unit 55, and the time signature data calculation unit 55 is set to 1 or 2 by the user via the operation unit 18 or the remote controller 19. When two or more time signature data (address data) are designated, the scratch reproduction position command is input from the operation unit 18. The time signature data calculation unit 55 counts and detects time signature data ahead (future) of the specified time signature data from the time signature data sent from the time signature data decoder 51, and the first time signature data in the setting memory unit 54 is detected. Store in the area.
[0044]
Next, when two or more time signature data are specified, the time signature data calculating unit 55 counts and detects the number of time signature data after the specified time signature data number from the time signature data at that time (past). Store in the second time signature data area. Similarly, the third to Nth time signature data are stored in the third to Nth time signature data areas of the setting memory unit 54, respectively.
[0045]
In the initial state, the time data selection counter 56 outputs a signal for selecting the first time data in the setting memory unit 54 to the selector 53. At this time, the scratch reproduction start command signal from the operation unit 18 is a scratch. When applied to the ON / OFF unit 56, the selector 53 selects the first time signature data in the setting memory unit 54 and supplies it to the comparator 52. The comparator 52 compares the first time signature data with the time signature data sent from the time signature data decoder 51, and compares the result with the time signature data selection counter 56, the F / R counter 57, the reproduction address correction circuit 58, and the scratch ON. / Applied to the OFF section 56.
[0046]
When the comparison result of the comparator 52 is “mismatch”, the F / R counter 57 supplies the forward signal F to the reproduction address correction circuit 58, and the reproduction address correction circuit 58 receives the forward signal F and reproduces the optical disk 1. The address is corrected in a jumping manner in the forward direction, and an address control information signal including the corrected reproduction address is output to the reproducing means 2. The reproducing means 2 reproduces the optical disk 1 based on the reproduction address, and thereby reproduces the audio signal with a higher pitch as if the analog disk is reproduced with fast-forward.
[0047]
When the comparison result of the comparator 52 becomes “match”, that is, when the first time signature data in the setting memory unit 54 is reproduced, the F / R counter 57 supplies the reverse signal R to the reproduction address correction circuit 58, and The time signature data selection counter 56 counts up and outputs a signal for selecting the second time signature data in the setting memory unit 54 to the selector 53. When the reverse signal R is inputted, the reproduction address correction circuit 58 corrects the reproduction address of the optical disc 1 in the reverse direction, and outputs an address control information signal including the corrected reproduction address to the reproduction means 2. The reproducing means 2 reproduces the optical disk 1 based on the reproduction address, and thereby reproduces the audio signal with a higher pitch as if the analog disk is reproduced with fast reverse.
[0048]
Similarly, reproduction is performed in a state equivalent to fast-forward and fast-rewind of the analog disk up to the Nth time signature data in the setting memory unit 54. When the Nth time signature data is completed, a specified number of “match signals” are sent from the comparator 52 to the scratch ON / OFF unit 56, so that the scratch ON / OFF unit 56 performs scratch playback to the playback means 2. An address control information signal including an end signal is output. During this scratch reproduction, the video signal and the character information are held by the video signal output means 6 and 7 and the character information output means 20 shown in FIG. 10, respectively, and are not updated.
When the time signature data is not recorded in the A-CONT pack but in another area, for example, it is recorded as user-defined data in the DSI data area of the CONT pack, or the video (V) pack or sub In order to perform scratch reproduction on a disc recorded as user-defined data in a picture (SP) pack or the like, time signature data can be read from these areas and decoded by the time signature data decoder 51. .
[0049]
【The invention's effect】
As described above, according to the present invention, the time signature data representing the time signature of the audio data is recorded on the disc, and scratch playback is performed based on the time signature data reproduced from the disc and the set time signature data. Scratch playback can be performed at time intervals.
[Brief description of the drawings]
[Figure 1] DVD-Video format and , De FIG. 1 is an explanatory diagram showing a DVD-audio format as an embodiment of a disk.
FIG. 2 is an explanatory diagram showing a format of an audio content block unit (ACBU) in FIG. 1;
FIG. 3 is an explanatory diagram showing in detail the format of the audio pack and video pack of FIG. 2;
4 is an explanatory diagram showing in detail the format of the audio control (A-CONT) pack of FIG. 2; FIG.
5 is an explanatory diagram showing in detail the format of an audio character display (ACD) area in FIG. 4; FIG.
6 is an explanatory diagram showing an example displayed by the name space information of FIG. 5. FIG.
7 is an explanatory diagram showing in detail the format of an audio search data (ASD) area in FIG. 4; FIG.
FIG. 8 is an explanatory diagram showing a modification of the audio content block unit of FIG. 2;
FIG. 9 is a block diagram showing a DVD playback apparatus as an embodiment of a disk scratch playback apparatus according to the present invention.
FIG. 10 is a block diagram functionally showing the DVD playback apparatus of FIG. 9;
FIG. 11 is a flowchart for explaining AV synchronized playback processing;
FIG. 12 is a flowchart for explaining AV synchronized playback processing;
FIG. 13 is a block diagram showing a second embodiment of a DVD playback device.
FIG. 14 is a block diagram showing a third embodiment of a DVD playback device.
FIG. 15 is a block diagram showing a scratch playback device in a DVD playback device.

Claims (1)

A scratch on a disc having an audio pack containing audio data and a management pack or related pack containing information for managing the audio pack, and wherein time data representing the time signature of the audio data is arranged in the management pack or related pack A playback device,
Playback means for playing back an audio pack and a management pack from the disc;
Beat data decoding means for decoding the beat data reproduced by the reproducing means;
A time signature data setting means for setting a time signature of the music source when the user performs scratch playback with time signature data;
The time signature data sequentially decoded by the time signature data decoding means and the time signature data comparing means for comparing the time signature data set by the time signature data setting means,
Scratch reproduction means for reproducing the audio data in a forward and reverse direction until the comparison result of the time signature data comparison means matches,
A disk scratch playback device provided.

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