JP3814927B2 - Data reproducing apparatus and data reproducing method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a DVD in which a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) is recorded based on PGC information (PGCI: PGC Information) describing the essence and order of presentations. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data reproducing apparatus and a data reproducing method for reproducing PGCI from a recording medium such as (Digital Versatile Disc / Digital Video Disc), reproducing PGC based on PGCI, and performing special reproduction such as high-speed reproduction and reverse reproduction. .
[0002]
[Prior art]
A disc called DVD (Digital Versatile Disc / Digital Video Disc) has been put to practical use as an optical disc suitable for multimedia use.
[0003]
  In a DVD-VIDEO disc, recorded data is recorded by a packet multiplexing method as a video data stream for main video, an audio data stream for audio, and a sub-picture stream such as subtitles. Then, image information with different camera angles can be divided into a plurality of interleaved units (ILVU) and recorded as interleaved multi-angle blocks, so that the angle can be switched during playback. Yes.
[0004]
[Problems to be solved by the invention]
That is, the volume structure of the DVD-VIDEO disc is defined as shown in FIG. 1, and the DVD-VIDEO zone in the volume space has one video manager (VMG) and one or more and 99 or less. Video title set (VTS). The VMG is located at the head of the DVD-VIDEO zone and consists of two or three files. The VTS is composed of 3 or more and 12 or less files.
[0005]
FIG. 2 shows the structures of VMG and VTS. In VMG, the first file is control data (VMGI: Video Manager Information), the next file is VOBS (VMGM_VOBS: VMGM Video Object Set) for menus, and the last file is a backup of VMGI. . VMGI is information for managing a VMG menu (VMGM: VMG Menu) and one or more VTSs.
[0006]
In the VTS, the first file is control data (VTSI: Video Title Set Information), and the next file is VOBS (VTSM_VOBS: VTSM Video Object Set) for the menu. The file is a VOBS (VTSTT_VOBS: VTSTT Video Object Set) for the title, and the last file is a backup of VTSI. The VTSI is information for managing a VTS menu (VTSM: Video Title Set Menu) and one or more titles (TT: Title) in the VTS.
[0007]
  Here, the video object set (VOBS) is composed of one or more video objects (VOB) as shown in FIG. The VOB ID number (VOB_IDN: VOB ID number) is assigned from the VOB having the smallest logical sector number (LSN) in the VOBS. A VOB is composed of one or more cells. The cell ID number (C_IDN: Cell ID number) is assigned from the cell having the smallest logical sector number (LSN) in the VOB. A cell is composed of an integer number of video object units (VOBU). A VOBU is an integer number of audio packs (A_PCK: Audio Pack), video packs (V_PCK: Video Pack), sub-picture packs (SP_PCK: Sub-picture Pack), and a navigation pack (NV_PCK: Navigation Pack) arranged at the top of the pack. Consists of.
[0008]
  VOBs in VOBS include a contiguous block (CTGB) and an interleaved block (ILVB). CTGB is a single VOB positioned adjacent to each other as shown in FIG. The ILVB is composed of a plurality of interleaved VOBs as shown in FIG. Each VOB in ILVB is divided into a plurality of interleaved units (ILVU).
[0009]
Further, the NV_PCK includes a pack header, a system header, a PCI packet (PCI_PKT: Presentation Control Information packet), and a DSI packet (DSI_PKT: Data Search Information packet), as shown in FIG.
[0010]
  Presentation control information (PCI: Presentation Control Information) given as a PCI packet is navigation data for controlling the presentation of a VOBU. As shown in FIG. 7, the PCI includes PCI general information packet (PCI_GI), non-seamless angle information (NSML_AGLI), highlight information (HLI), and recording information. (RECI: Recording Information). As shown in FIG. 8, PCI_GI includes a navigation block logical block number (NV_PCK_LBN: Logical Block number of Navigation Pack), a VOBU category (VOBU_CAT: Category of VOBU), and a VOBU user operation control (VOBU_UOP_CTL: User Operation control of). VOBU), VOBU presentation start time (VOBU_S_PTM: Start Presentation Time of VOBU), VOBU presentation end time (VOBU_E_PTM (End PTM of VOBU)), VOBU presentation end time (VOBU_SE_E_PTM: End PTM of sequence in VOBU) Information such as cell elapsed time (C_ELTM: Cell Elapse Time), etc. NSML_AGLI is information on the switching destination in angle switching as shown in Fig. 9, and is effective only for non-seamless angle cell switching. .
[0011]
  Further, data search information (DSI: Data Search Information) given as the DSI packet is navigation data for seamless playback and search of VOBU. As shown in FIG. 10, this DSI includes DSI overall information (DSI_GI: DSI General Information), seamless playback information (SML_PBI), seamless angle information (SML_AGLI: Angle Information for seamless), VOBU search information (VOBU_SRI). : VOB Unit Search Information) and synchronization information (SYNCI: Synchronous Information). As shown in FIG. 11, DSI_GI includes NV_PCK_SCR (SCR_System Clock Reference of Navigation Pack), NV_PCK_LBN (Logical Block number of Navigation Pack), VOBU_EA (End address of VOBU), VOBU_1STREF_EA (End address of the first reference picture in VOBU). , VOBU_2NDREF_EA (End address of the secnd Reference Picture in VOBU), VOBU_3RDREF_EA (End address of the third Reference Picture in VOBU), VOBU_VOB_IDN (VOB ID number of VOBU), VOBU_C_IDN (Cell ID number of Time VOBU) ) Etc. Here, the VOBU_1STREF_EA, VOBU_2NDREF_EA, and VOBU_3RDREF_EA are DSI having a relative logical block number (RLBN: Relative Logical Block number) from the first logical block (LB: Logical Block) LB of the VOBU of the DSI packet, as shown in FIG. VOBU_1STREF_EA is the video pack (V_PCK: Video pack) recorded after the packet and indicates the address of the video pack of the final data of the reference image (first I picture) to be encoded first, and then encoded VOBU_2NDREF_EA indicates the address of the video pack of the final data of the reference image (I picture or P picture) to be encoded, and the video pack of the final data of the reference image (I picture or P picture) to be encoded next. VOBU_3RD_EA indicates the address of the queue.
[0012]
Further, as shown in FIG. 13, the SML_PBI includes a seamless VOBU category (VOBU_SML_CAT: Category of seamless VOBU), an interleaved unit (ILVU) end address (ILVU_EA: End Address of Interleaved Unit), and the next ILVU. Start address (NXT_ILVU_SA: Start address of the next Interleaved Unit), next ILVU size (NXT_ILVU_SZ: Size of the next Interleaved Unit), video presentation start time in VOB (VOB_V_S_PTM: Video Start PTM in VOB), VOB Video presentation end time (VOB_V_E_PTM: Video End PTM in VOB), VOB audio presentation stop time (VOB_A_STP_PTM: Audio Stop PTM in VOB), VOB audio gap length (VOB_A_GAP_LEN: Audio Gap Length in VOB), etc. .
[0013]
  Further, the SML_AGLI is information on a switching destination in angle switching as shown in FIG. 14, and is valid only for seamless angle cell switching.
[0014]
  The DVD-VIDEO disc employs a program chain (PGC) structure as shown in FIG. 15, and is based on PGC information (PGCI: PGC Information) describing the essence and order of the presentation. Data is recorded as a program chain (PGC: Program Chain) composed of individual programs (PG: Program). The PGC is a logical unit that provides a menu or a title or a part thereof, and is configured based on PGCI. One PGC is divided into an integer number of PGs. The PG is a unit obtained by dividing the contents of the PGC, and one PG is composed of an integer number of cells. The DVD-VIDEO disc playback device plays back PGCI and plays back PGC based on PGCI. PG is a collection of cells defined in PGCI. The PGCI includes a pre-command area, a post-command area, and a presentation control block. The presentation control block provides navigation data for controlling the cell playback order and VOB presentation.
[0015]
  As shown in FIG. 16, the PGCI includes PGC overall information (PGC_GI: Program Chain General Information), PGC command table (PGC_CMDT: Program Chain Command Table), PGC program map (PGC_PGMAP: Program Chain Program Map), and cell playback information. A table (C_PBIT: Cell Playback Information Table) and a cell position information table (C_POSIT: Cell Position Information Table) are configured.
[0016]
As shown in FIG. 17, the contents of PGC_GI include PGC content (PGC_CNT: PGC Contents), PGC playback time (PGC_PB_TM: PGC Playback Time), PGC user operation control (PGC_UOP_CTL: PGC Use Operation Control), PGC audio stream control table (PGC_AST_CTLT: PGC Audio stream Control Table), PGC sub-picture stream control table (PGC_SPST_CTLT: PGC Sub-picture stream Control Table), PGC navigation control (PGC_NV_CTL: PGC Navigation Control), PGC sub-picture palette (PGC_SP_PLT: PGC Sub-picture) Palette), PGC_CMDT start address (PGC_CMDT_SA: Start address of PGC_CMDT_SA), PGC_PGMAP start address (PGC_PGMAP_SA: Start address of PGC_PGMAP), PGC_PBIT start address (C_PBIT_SA: Start address of C_PBIT) and PGC_POSIT start Less: it has become a (C_POSIT_SA Start address of C_POSIT).
[0017]
  The C_PBIT is a table that defines the order of presentation of cells in the PGC, and cell playback information (C_PBI) is continuously described as shown in FIG. Then, as shown in FIG. 19, this C_PBI includes a cell category (C_CAT: Cell Category), a cell playback time (C_PBTM: Cell Playback Time), and a start address (C_FVOBU_SA: Start address of the cell). First VOBU in Cell), end address of the first VOBU of the cell (C_FVOBU_EA: End address of the First VOBU in Cell :), start address of the last VOBU of the cell (Cell) (C_LVOBU_SA: Start address of the Last VOBU in Cell) Cell), and an end address (C_LVOBU_SA: End address of the Last VOBU in Cell :) of the last VOBU of the cell (Cell).
[0018]
As described above, in a DVD-VIDEO disc, two types of data are recorded in the DVD-VIDEO zone: navigation data, that is, reproduction control data, and presentation data, that is, data for reproducing video, audio, sub-pictures, and the like. .
[0019]
Also, in such a DVD-VIDEO disc playback device, a first play domain (FP_DOM) generated by a special entry PGC executed at the time of initial access, such as after power-on or disc loading, and a title menu VMG menu domain (VMGM_DOM: VMG Menu Domain) used for each language in the VTS, VTS menu domain used for each VTS and each language appearing in the root menu, PTT menu, audio menu, sub-picture menu and angle menu (VTSM_DOM: VTS Menu Domain) and title domains (TT_DOM: Title Domain) used for each VTS and each title are defined, and each domain is defined according to navigation commands and user input. Transition So that the can. In the state transition by the user's operation input, as shown in FIG. 20, there is no transition between the FP_DOM and the transition between the stop state, VMGM_DOM, VTSM_DOM, and TT_DOM according to the command as follows. To do. The transition to VMGM_DOM or VTSM_DOM is caused by a Menu_Call () command that instructs the start of execution of the menu entry PGC specified by the menu ID. The transition to the stop state (Stop State) is caused by a Stop () command for instructing to stop the reproduction of the PGC, and in VMGM_DOM and VTSM_DOM, it is also caused by a Resume () command for instructing the return to the resume position. The transition to TT_DOM is specified by the Title_Play () command for instructing the start of playback of the title specified by the title number, the PTT_Play () command for instructing the start of playback of the title specified by the PTT (Part_of_Title) number, and by time. This is caused by a Time_Play () command instructing start of playback of the title to be played.
[0020]
Here, the DVD-VIDEO disc playback device is equipped with a memory called a track buffer for realizing variable rate playback. Of the playback data recorded on the disc for the multi-angle function, etc., a pickup is provided. The above memory absorbs the time to read out only the data required for playback of the video and audio selected by the user while the track jumps. Seamless playback can be performed.
[0021]
However, the function of seamless angle switching in the conventional DVD-VIDEO disc playback device is a function that is executed only for normal playback in the forward direction, and plays back images that are simultaneously progressing at different angles without any breaks. Thus, it has not been possible to cope with special playback modes such as variable speed playback and reverse playback.
[0022]
Accordingly, an object of the present invention is to provide a data reproducing apparatus and a data reproducing method capable of performing seamless angle switching in special reproduction modes such as variable speed reproduction and reverse direction reproduction.
[0023]
[Means for Solving the Problems]
  The present invention relates to a video object unit (VOBU) in which image information having different angles is divided into a plurality of interleaved units (ILVU) and interleaved.)A program chain (PGC: Program) in which image information of a cell structure including a plurality of VOBUs includes an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) describing the essence and order of presentation From the recording medium recorded as (Chain)PGCIIs a data reproduction device that reproduces PGC based on anControl means for switchingIt is characterized by havingThe
  In the data reproducing apparatus according to the present invention, for example, the control means receives an angle switching command during a pause operation, obtains a reproduction address of a VOBU from which an image of a target angle is to be obtained by time code search in a cell, and Is controlled. Further, the control means accepts an angle switching command at the time of AB repeat operation for repeatedly reproducing between the preset points A and B, and applies an angle switching command to an image of a new angle designated by the angle switching command. The angle is switched, the playback address of point A and point B is obtained for the image of the new angle specified by the angle switching command by the time code search in the cell, and the image of the new angle whose angle has been switched is set to point A. Control to reproduce repeatedly between point B and point B is performed. Further, when receiving the angle switching command during forward high-speed playback, the control means performs control to execute angle switching when the end address of the interleaved video object unit is exceeded. Furthermore, when the control means accepts an angle switching command during backward playback, the control means performs backward playback until the start address of the interleaved video object unit is exceeded, and executes angle switching when the start address is exceeded, further,Perform reverse playback.
[0024]
  The present invention also provides a video object unit (VOBU: Video Object Unit) in which image information having different angles is divided into a plurality of interleaved units (ILVUs) and interleaved.)A program chain (PGC: Program) in which image information of a cell structure including a plurality of VOBUs includes an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) describing the essence and order of presentation From the recording medium recorded as (Chain)PGCIIs a data reproduction method for reproducing a PGC based on the above, and at the time of a pause operation, an angle switching command is received, a reproduction address of a VOBU to obtain an image of a target angle is obtained by time code search in a cell, and a still image is obtained. It is characterized by outputting.
[0025]
  In addition, image information of a cell structure composed of a plurality of VOBUs including a video object unit (VOBU) obtained by dividing image information having different angles into a plurality of interleaved units (ILVU) and interleaving. From a recording medium recorded as a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) describing the essence and order,PGCIIs a data reproduction method for reproducing a PGC based on the above, and at the time of AB repeat operation for repeatedly reproducing between preset points A and B, an angle switching command is received and designated by the angle switching command. Switch the angle to a new angle image, search for the playback address of point A and point B for the new angle image specified by the angle switch command by time code search in the cell, and change the angle An angle image is repeatedly reproduced between points A and B.
[0026]
  The present invention also provides a video object unit (VOBU: Video Object Unit) in which image information having different angles is divided into a plurality of interleaved units (ILVUs) and interleaved.)Consists of multiple VOBUscellRecording in which image information of structure is recorded as a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) describing the essence and order of presentation From the medium,PGCIIs a data reproduction method for reproducing PGC based on the above, and when an angle switching command is received during forward high-speed reproduction, the angle is exceeded when the end address of the interleaved video object unit is exceeded.Performing a switchIt is characterized by.
[0027]
  AlsoThe present invention relates to a video object unit (VOBU) in which image information having different angles is divided into a plurality of interleaved units (ILVUs) and interleaved.)Consists of multiple VOBUscellRecording in which image information of structure is recorded as a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) describing the essence and order of presentation From the medium,PGCIIs a data reproduction method for reproducing PGC based on the above, and when an angle switching command is received during backward reproduction, backward reproduction is performed until the start address of the interleaved video object unit is exceeded, and when the start address is exceeded. The angle switching is executed in step (3), and the backward reproduction is continued.
  Furthermore, the present invention provides a plurality of interleaved units (image information with different angles). ILVU : Interleaved Unit A data reproducing apparatus for reproducing the video program data based on the parameter information from a recording medium on which the video program data divided and interleaved and the parameter information necessary for reproducing the video program data are recorded, Control means for receiving an angle switching command and performing angle switching at the time of variable speed reproduction is provided.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments will be described with reference to the drawings.
[0029]
The present invention is applied to, for example, an optical disc reproducing apparatus 100 having a configuration as shown in FIG. This optical disk reproducing apparatus 100 is an application of the present invention to a DVD-VIDEO disk reproducing apparatus, and includes a pickup 2 for reproducing an RF signal from a recording medium 1 on which data in accordance with the DVD format is recorded, An RF circuit 3 which is supplied with an RF signal reproduced by the pickup 2 and performs binarization processing of the RF signal; a data decoder 4 which is supplied with reproduction data from the RF circuit 3 and performs decoding processing such as error correction; And a demultiplexer 5 that distributes the reproduction data decoded by the data decoder 4 into main video compression data, sub-video compression data, and audio compression data.
[0030]
The optical disc playback apparatus 100 further includes a video decoder 6 that decompresses the main video compression data, a sub video decoder 7 that decompresses the sub video compression data and combines it with the main video data, and decompresses the audio compression data. Digital / NTSC, PAL conversion circuit (hereinafter simply referred to as NTSC conversion circuit) which is supplied with video data obtained by synthesizing main video data and sub-video data from the audio decoder 8 and the sub-video decoder 7 and converts them into NTSC signals or PAL signals. .) 9 and a digital / analog conversion circuit (hereinafter simply referred to as an A / D conversion circuit) 10 which is supplied with audio data from the audio decoder 8 and converts it into an analog signal.
[0031]
The DVD player 100 also controls the pickup 2, RF circuit 3, data decoder 4, demultiplexer 5, video decoder 6, sub-picture decoder 7, audio decoder 8, NTSC conversion circuit 9 and A / D conversion circuit 10. A controller 11, a user interface 12 that mediates the controller 11 and a user operation input, and a memory 13 that serves as a data storage unit of the controller 11.
[0032]
The optical disc playback apparatus 100 plays back a read-only, write-once, rewritable DVD disc and DVD-VIDEO disc as the recording medium 1.
[0033]
The pickup 2 reproduces an RF signal from the recording medium 1 and supplies it to the RF circuit 3.
[0034]
The RF circuit 3 equalizes and binarizes the waveform of the RF signal to generate digital data and its synchronization signal. Digital data or the like generated by the RF circuit 3 is supplied to the data decoder 4.
[0035]
The data decoder 4 performs processing such as data demodulation and error correction based on the digital data generated by the RF circuit 3. The digital data demodulated by the data decoder 4 is supplied to the demultiplexer 5.
[0036]
The data decoder 4 detects system information in the MPEG2 format, parameter information included in a pack header, etc., predetermined information included in a navigation pack (NV_PCK: Navigation Pack) in the DVD format, and the like. The detected parameter information and the like are supplied from the data decoder 4 to the controller 11.
[0037]
The data decoder 4 is provided with a track buffer at the digital data output stage. This track buffer absorbs the difference in processing speed between the data decoder 4 and the demultiplexer 5.
[0038]
The demultiplexer 5 divides the digital data reproduced from the recording medium 1 that has been subjected to error correction decoding processing or the like by the data decoder 4 into main video compressed data, sub video compressed data, and audio compressed data.
[0039]
Here, the main video compressed data is video data compressed by the MPEG2 method, and is, for example, Video streams in the DVD format. The sub-picture compressed data is data such as subtitles synthesized with the main picture, and is, for example, Sub-picture streams in the DVD format. The audio compressed data is audio data compressed by a method such as MPEG2, and is an audio stream in the DVD format.
[0040]
The demultiplexer 5 supplies the main video compressed data to the video decoder 6, supplies the sub video compressed data to the sub video decoder 7, and supplies the audio compressed data to the audio decoder 8.
[0041]
The video decoder 6 performs decoding processing of the main video compressed data, and generates main video data expanded by the decoding processing. The video decoder 6 has an image memory for three screens in order to perform a decoding process. That is, using the image memory for these three screens, I picture, P picture, and B picture in the MPEG2 format are decoded onto the memory, and each decoded picture is output from the memory. Note that this image memory is not limited to three screens, and there may be more screens than this. The video decoder 6 supplies the generated main video data to the sub video decoder 7.
[0042]
The sub-picture decoder 7 performs a decoding process on the sub-picture compressed data, and synthesizes the decoded sub-picture data with the main picture data supplied from the video decoder 6 to generate video data. That is, the sub video decoder 7 synthesizes subtitle data or the like reproduced as sub video data with the main video. The sub video decoder 7 outputs the main video data as it is as video data when there is no sub video data. The sub video decoder 7 supplies the generated video data to the NTSC conversion circuit 9.
[0043]
The audio decoder 8 decodes the audio compression data to generate decompressed audio data. That is, if the audio compressed data is compressed in the MPEG2 format, the audio decoder 8 performs an expansion process corresponding to this and generates audio data. In addition to this MPEG2 format, if it is a format such as PCM, processing corresponding to this is performed. The audio decoder 8 supplies the generated audio data to the A / D conversion circuit 10.
[0044]
The NTSC conversion circuit 9 converts the video data from digital data into a television signal such as NTSC or PAL and outputs it. By supplying this output to a monitor or the like, the user can view the video reproduced from the recording medium 1.
[0045]
The A / D conversion circuit 10 converts audio data that is digital data into analog audio data and outputs the analog audio data. By supplying this output to a speaker or the like, it is possible to view the video reproduced from the recording medium 1 by the user.
[0046]
The controller 11 controls the pickup 2, RF circuit 3, data decoder 4, demultiplexer 5, video decoder 6, sub-picture decoder 7, audio decoder 8, NTSC conversion circuit 9 and A / D conversion circuit 10.
[0047]
The controller 11 receives an operation input via an operation panel or a user interface 12 which is a remote controller, and controls each circuit based on the operation input.
[0048]
The controller 11 stores each control data in the memory 13 and controls each circuit based on the data stored in the memory 13.
[0049]
In the optical disc playback apparatus 100, the controller 11 uses an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) describing the essence and order of the presentation played back from the recording medium 1. When controlling the decoder 4 to reproduce the program chain (PGC), the reproduced PGCI is held in the cache area of the memory 13, and the PGCI of the PGC to be reproduced is held in the cache area. When this is done, the decoder 4 is controlled to reproduce the PGC by the PGCI held in the cache area.
[0050]
In the special playback mode, the controller 11 receives an angle switching command by a user operation and performs the following control operation.
[0051]
  That is, as shown in the flowchart of FIG. 22, for example, when an angle switching command is generated during a pause (step S1), the controller 11 firstly has a video object unit (VOBU) cell of the current display picture. The elapsed time (C_ELTM: Cell Elapse Time) is stored in the memory 13 (step S2), and the variable AN indicating the current angle number is set as the target angle number (AGLN: Angle number) (step S3). Next, the current cell number (CN: Cell Number) is determined according to this AN (step S4), and the start address (VOBU_SA: VOBU) of the first CN of the CN is determined from the cell playback information table (C_PBIT: Cell Playback Information Table) VOBU start address) is acquired (step S5). Based on this VOBU_SA and the stored C_ELTM, a time code (TC) search in the cell is performed (step S6), and a still image of the target angle number is output (step S7).
[0052]
  The TC search in the cell in step S6 is performed according to the flowchart of FIG. That is, in the TC search in the cell, first, a navigation pack (NV_PCK: Navigation Pack) of VOBU_SA is acquired (step S11). Next, a difference between the target C_ELTM and the current C_ELTM is obtained (step S12), and VOBU_SA closest to the difference is obtained from VOBU search information (VOBU_SRI: VOB Unit Search Information) of NV_PCK (step S13). Further, it is determined whether or not the acquired VOBU_SA is the current VOBU_SA (step S14). If the determination result is “NO”, the acquired VOBU_SA is set to the current VOBU_SA (step S15), and the process returns to step S11. Then, the processes of steps S11 to S14 are repeated. If the determination result in step S14 is “YES”, the TC search process in this cell is terminated, and the process proceeds to step S7 described above to output a still image of the target angle number.
[0053]
By performing such control by the controller 11, the angle can be switched during the pause.
[0054]
  Further, as shown in the flowchart of FIG. 24, for example, when the event of storing point A occurs (step S21), the controller 11 has a cell number (CN) and an angle number (AGLN) at point A. And C_ELTM are stored (step S22). Then, when the point B is determined (step S23), as shown in FIG. 25A, AB repeat that repeatedly reproduces between the point A (A1 · C_ELTM) and the point B (B1 · C_ELTM). (Step S24).
[0055]
Then, as shown in the flowchart of FIG. 26, when the angle switching command is generated during the AB repeat operation for outputting the image of the angle number 1 shown in FIG. For example, CN and AN are changed so as to output the image of angle number 2 received by the angle switching command (step S31).
[0056]
Then, as shown in FIG. 25B, when the point B (B1 · C_ELTM) is reached (step S32), the CN stored in step S22 and the point A (A1 · C_ELTM) given by the AN are angles. Search for point A (A2 · C_ELTM) for the image of number 2 (step S33), and return to point A (A2 · C_ELTM) of the image of angle number 2 as shown in FIG. An AB repeat operation state in which reproduction is repeatedly performed between (A2 · C_ELTM) and point B (B2 · C_ELTM) is entered (step S34).
[0057]
  The point A (A2 · C_ELTM) search in step S33 is performed according to the flowchart of FIG. That is, in the point A (A2 · C_ELTM) search, first, the CN that will have the point A having the current AN (angle number 2) is determined from the CN stored in step S22 (step S41). Then, the start address (VOBU_SA: VOBU start address) of the first CN of the CN is obtained from the cell playback information table (C_PBIT: Cell Playback Information Table) (step S42), and the stored C_ELTM of point A is stored as VOBU_SA. Based on this, a time code (TC) search in the cell is performed (step S43). The TC search in the cell in step S43 is performed according to the flowchart of FIG.
[0058]
Further, the controller 11 further issues an angle switching command during AB repeat which repeatedly reproduces between the point A (A2 · C_ELTM) and the point B (B2 · C_ELTM) shown in FIG. By accepting, for example, CN and AN are changed so that an image of angle number 3 is output, and the interval between point A (A3 · C_ELTM) and point B (B3 · C_ELTM) shown in FIG. It becomes an operation state of AB repeat to reproduce repeatedly.
[0059]
By performing such control by the controller 11, angle switching can be performed even during AB repeat.
[0060]
Here, during normal playback, when an angle switching command is generated by a user operation, an interleaved unit (ILVU: Interleaved Unit) is put in one buffer, and then angle switching processing is performed. During forward high-speed playback (FF) operation that repeats the process of putting only the length into the buffer, if the jump destination is immediately changed according to the angle information in accordance with the angle switching command by the user's operation, an image of about 2 to 3 seconds is skipped. It will end up.
[0061]
Therefore, the controller 11 in the optical disc reproducing apparatus 100 receives the angle switching command by the user operation and performs the angle switching even during the FF operation by the control operation according to the procedure shown in the flowchart of FIG.
[0062]
That is, as shown in the flowchart of FIG. 28, in the FF operation in which the processing jumps to NEXT_SA (step S51), repeats the processing (step S52) of acquiring the next jump destination VOBU_SA and assigning it to NEXT_SA. After that, it is determined whether or not an angle switching event has occurred (step S52). If no angle switching event has occurred, the process returns to step S51 without switching the angle and the FF operation is continued. When an angle switching event occurs, the process proceeds to step S54.
[0063]
In this step S54, it is determined whether or not the end address of ILVU_EA, that is, an interleaved unit (ILVU) of seamless playback information (SML_PBI) in NV_PCK is in front of VOBU_SA, that is, NEXT_SA, for the next FF. judge.
[0064]
If ILVU_EA <NEXT_SA is not satisfied, angle switching is not performed immediately, and the process returns to step S51 to continue the FF operation. When ILVU_EA <NEXT_SA is established, the process proceeds to step S55 to perform angle switching.
[0065]
  In this step S55, NEXT_SA is changed by seamless angle information (SML_AGLI: Angle Information for seamless) according to the angle number (AGLN: Angle number) received in response to the angle switching command. And it returns to said step S51 and continues FF operation | movement.
[0066]
Thereby, for example, seamless angle switching from the image of angle number 1 to the image of angle number 2 as shown in FIG. 29 can be performed even during the FF operation.
[0067]
In addition, the controller 11 performs angle switching by receiving an angle switching command by a user operation during a reverse reproduction (FR) operation by a control operation according to the procedure shown in the flowchart of FIG.
[0068]
That is, during the FR operation, the start address of the next FR destination is set to SA (step S61), and the current ILVU_EA or NXT_ILVU_SA of NV_PCK is stored in the memory (step S62). Then, the process jumps to SA (step S63), and acquires ILVU_EA or NXT_ILVU_SA of NV_PCK of VOBU pointed to by SA (step S64).
[0069]
Next, it is determined whether or not the NV_PCK ILVU_EA or NXT_ILVU_SA stored in step S62 is the same as the NV_PCK ILVU_EA or NXT_ILVU_SA acquired in step S63 (step S65).
[0070]
If the determination result in step S65 is “YES”, the process returns to step S61 and the FR operation is continued. If the determination result in step S65 is “NO”, the process jumps to the destination of the target angle from seamless angle information (SML_AGLI: Angle Information for seamless) (step S66).
[0071]
Then, the jump destination NV_PCK is obtained, jumping to PREV_VOBU (step S67), returning to step S61 and continuing the FR operation (step S67).
[0072]
By performing such control, seamless angle switching from an image of angle number 2 to an image of angle number 1 as shown in FIG. 31, for example, can be performed even during the FR operation.
[0073]
Here, it is possible to simplify the processing by returning to step S61 after step S66 and continuing the FR operation without performing step S67, but by performing step S67, the accuracy of the FR operation can be improved. Can be improved. Further, the accuracy can be further improved by not outputting the images for the processing period of step S65 to step S67.
[0074]
As described above, in the optical disc reproducing apparatus 100, seamless angle switching can be performed with high accuracy in the special reproduction mode such as variable speed reproduction and reverse reproduction by the control of the controller 11.
[0075]
【The invention's effect】
According to the present invention, it is possible to provide a data reproducing apparatus and a data reproducing method capable of performing seamless angle switching in special reproduction modes such as variable speed reproduction and reverse direction reproduction.
[Brief description of the drawings]
FIG. 1 is a diagram showing a volume structure in a DVD-VIDEO disc.
FIG. 2 is a diagram showing a structure of VMG and VTS in the volume structure.
FIG. 3 is a diagram illustrating a configuration of a VOBS.
FIG. 4 is a diagram showing a continuous block CTGB.
FIG. 5 is a diagram showing an interleaved unit ILVU.
FIG. 6 is a diagram showing a configuration of a navigation pack NV_PCK.
FIG. 7 is a diagram showing a configuration of presentation control information PCI.
FIG. 8 is a diagram showing a configuration of PCI overall information PCI_GI;
FIG. 9 is a diagram illustrating a state of angle switching by NSML_AGLI.
FIG. 10 is a diagram showing a configuration of data search information DSI.
FIG. 11 is a diagram showing a configuration of DSI overall information DSI_GI;
FIG. 12 is a diagram illustrating contents instructed by VOBU_1STREF_EA, VOBU_2NDREF_EA, and VOBU_3RDREF_EA of DSI.
FIG. 13 is a diagram illustrating a configuration of SML_PBI.
FIG. 14 is a diagram showing a state of seamless angle cell switching by SML_AGLI.
FIG. 15 is a diagram showing a program chain PGC structure employed in a DVD-VIDEO disc.
FIG. 16 is a diagram illustrating a configuration of PGCI.
FIG. 17 is a diagram illustrating a configuration of PGC_II.
FIG. 18 is a diagram illustrating a configuration of C_PBIT.
FIG. 19 is a diagram illustrating a configuration of C_PBI.
FIG. 20 is a diagram showing a state transition between domains in response to a user operation input in a DVD-VIDEO disc playback apparatus.
FIG. 21 is a block diagram showing a configuration of an optical disc reproducing apparatus to which the present invention is applied.
FIG. 22 is a flowchart showing a control procedure of seamless angle switching by a controller during a pause operation in the optical disc playback apparatus.
FIG. 23 is a flowchart showing a time code search procedure in a cell.
FIG. 24 is a flowchart showing a control procedure of AB repeat in the optical disc playback apparatus.
FIG. 25 is a diagram showing a state of seamless angle switching during AB repeat.
FIG. 26 is a flowchart showing a control procedure for seamless angle switching by the controller during AB repeat.
FIG. 27 is a flowchart showing a point A search procedure in seamless angle switching during the AB repeat.
FIG. 28 is a flowchart showing a control procedure for seamless angle switching by the controller during the FF operation.
FIG. 29 is a diagram showing a state of seamless angle switching during the FF operation.
FIG. 30 is a flowchart showing a control procedure of seamless angle switching by the controller during the FR operation.
FIG. 31 is a diagram showing a state of seamless angle switching during the FR operation.
[Explanation of symbols]
  1 recording medium, 2 pickup, 3 RF circuit 3, 4 data decoder, 5 demultiplexer, 6 video decoder, 7 sub-picture decoder, 8 audio decoder, 9 NTSC conversion circuit, 10 A / D conversion circuit, 11 controller, 12 user Interface, 13 memory, 100 optical disk playback device

Claims (10)

Image information of a cell structure composed of a plurality of VOBUs including video object units (VOBU: Video Object Units) obtained by dividing image information of different angles into a plurality of interleaved units (ILVUs) and interleaved units. From a recording medium recorded as a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) that describes the order, PGC is based on PGCI. A data reproducing device for reproducing,
A data reproducing apparatus comprising control means for accepting an angle switching command and performing angle switching during variable speed reproduction.   The control means receives an angle switching command during a pause operation, obtains a playback address of a VOBU from which an image of a target angle is to be obtained by time code search in a cell, and performs control to output a still image. The data reproducing apparatus according to claim 1.   The control means accepts an angle switching command during an AB repeat operation that repeatedly reproduces between preset points A and B, and switches the angle to an image of a new angle specified by the angle switching command. To obtain the playback addresses of the A and B points for the new angle image specified by the angle switching command by the time code search in the cell, and the A and B points for the new angle image that has been angle switched. 2. A data reproducing apparatus according to claim 1, wherein reproduction control is performed repeatedly between the first and second data.   2. The data reproduction according to claim 1, wherein when the angle switching command is received during forward high-speed reproduction, the control means performs control to perform angle switching at the time when the end address of the interleaved video object unit is exceeded. apparatus. When the control means accepts an angle switching command during backward playback, the control means performs backward playback until the start address of the interleaved video object unit is exceeded, and executes angle switching when the start address is exceeded. The data reproducing apparatus according to claim 1, wherein reverse reproduction is performed . Image information of a cell structure composed of a plurality of VOBUs including video object units (VOBU: Video Object Units) obtained by dividing image information of different angles into a plurality of interleaved units (ILVUs) and interleaved units. From a recording medium recorded as a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) that describes the order, PGC is based on PCGI. A data reproduction method for reproducing,
A data reproduction method characterized by receiving an angle switching command during a pause operation, obtaining a reproduction address of a VOBU from which an image of a target angle is to be obtained by time code search in a cell, and outputting a still image. Image information of a cell structure composed of a plurality of VOBUs including video object units (VOBU: Video Object Units) obtained by dividing image information of different angles into a plurality of interleaved units (ILVUs) and interleaved units. From a recording medium recorded as a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) that describes the order, PGC is based on PCGI. A data reproduction method for reproducing,
During the A-B repeat operation that repeatedly reproduces between the preset points A and B, the angle change command is accepted, the angle is changed to the image of the new angle specified by the angle change command, A new angle image specified by the angle switching command by the time code search is obtained for the playback addresses of the points A and B, and the angle-switched new angle image is repeated between the points A and B. A data reproduction method comprising reproducing. Image information of a cell structure composed of a plurality of VOBUs including video object units (VOBU: Video Object Units) obtained by dividing image information of different angles into a plurality of interleaved units (ILVUs) and interleaved units. From a recording medium recorded as a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) that describes the order, PGC is based on PCGI. A data reproduction method for reproducing,
A data reproduction method characterized in that , when an angle switching command is received during forward high-speed reproduction, angle switching is executed when the end address of the interleaved video object unit is exceeded. Image information of a cell structure composed of a plurality of VOBUs including video object units (VOBU: Video Object Units) obtained by dividing image information of different angles into a plurality of interleaved units (ILVUs) and interleaved units. From a recording medium recorded as a program chain (PGC: Program Chain) composed of an integer number of programs (PG: Program) based on PGC information (PGCI: PGC Information) that describes the order, PGC is based on PCGI. A data reproduction method for reproducing,
When an angle switch command is received during reverse playback, reverse playback is performed until the start address of the interleaved video object unit is exceeded, angle switching is performed when the start address is exceeded, and reverse playback continues. A data reproduction method characterized by: Image information with different angles is stored in multiple interleaved units ( ILVU : Interleaved Unit A data reproducing apparatus for reproducing the video program data based on the parameter information from a recording medium on which the video program data divided and interleaved and the parameter information necessary for reproducing the video program data are recorded,
A data reproducing apparatus comprising control means for accepting an angle switching command and performing angle switching during variable speed reproduction.

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