WO2004056105A1 - 情報処理装置、情報処理方法及びプログラム、並びに記録媒体 - Google Patents
情報処理装置、情報処理方法及びプログラム、並びに記録媒体 Download PDFInfo
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- H04N21/426—Internal components of the client ; Characteristics thereof
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Definitions
- the present invention relates to a recording medium in which data including a still image used for a so-called slide show for continuously reproducing still images and a so-called slide show and information attached thereto is recorded, and the like.
- the present invention relates to an information processing apparatus, an information processing method, and a program for performing recording and reproduction of data in a short time.
- the DVD video format realizes continuous playback of still images (so-called slide show).
- Each still image signal is encoded into an intra-coded Ij picture (I-picture) of a Moving Picture Experts Group 2 (MPEG2) video and multiplexed into an MPEG2 program stream.
- I-picture intra-coded Ij picture
- MPEG2 Moving Picture Experts Group 2
- MPEG2 Moving Picture Experts Group 2
- audio sub-pictures can be reproduced in synchronization with the slide show.
- Such a slide show is reproduced at a predetermined evening based on a presentation time stamp PTS (Presentation Time Stamp).
- PTS Presentation Time Stamp
- the DVD video program stream has a structure in units of VOBU (Video Object Unit).
- VOBU Video Object Unit
- Such a conventional DVD data structure is described in, for example, Japanese Patent Laid-Open Publication No. 10-271444 (hereinafter referred to as Conventional Example 1).
- Figure 1 shows the structure of the DVD video program stream of Conventional Example 1. It is a schematic diagram. As shown in FIG. 1, a DVD-Video program stream is managed in units of V0BS (Video Object Set), which is a unit of one movie, for example.
- V0BS is composed of multiple Video Objects (V0B). This V0B is a unit in which each data is recorded as a group on the disc.
- This V0B is composed of a plurality of cells, which are, for example, units of one scene or one power in a movie. Further, this Cell is composed of a plurality of VOBUs (Video Object Units). This V0BU is a unit of 0.4 to 1.2 seconds in a moving image, and contains one or more GOPs (Groups of Pictures) in MPEG2 format in this V0BU.
- VOBUs Video Object Units
- V0BU has a navigation pack (Navigation pack (NJPCK)) N which is a pack having management information of this V0BU, and this navigation pack is arranged at the head of each VOBU.
- Navigation pack has VOBU-SRI (VOBU Search Information) and SP_SYNCA.
- the VOBU-SRI has a head address of the VOBU to be played back N seconds (N is an integer) before and after the playback time of the VOBU including the VOBU-SRI.
- SP_SYNCA has address information of a sub-picture reproduced in synchronization with the video of the VOBU including the SP_SYNCA. When playing back a movie or the like, this Navigation pack can be read in advance and played back based on the management information indicated by the Navigation pack.
- the VOBU includes, in addition to the NV_PCK, a video pack (V-PCK) which is a pack having a main video, an audio pack (A_PCK) A which is a pack having an audio data, and sub-picture data. It has a sub-picture pack (SP-PCK) S which is a pack.
- V-PCK video pack
- A_PCK audio pack
- SP-PCK sub-picture pack
- the V-PCK, A_PCK, and SP_PCK are each compressed in a predetermined format such as MPEG2 and recorded on a recording medium.
- the VOBUs include, for example, VOBU 1 including the video pack shown in FIG. 1 (including one I-picture and SeQuence_end_code data), and V0BU2 not including the video pack.
- the VOBU used for the slide show may not include a video pack (a Video pack including MPEG2 video).
- V0BIK that does not include a video pack
- V0BU2 continues the still of the video from the previous V0BU1.
- the length of time the I-picture is still can be controlled by the navigation command.
- the DVD audio program stream basically has the structure shown in Fig. 1. It has the same structure.
- the DVD audio format realizes a mode (Browsable slide show) in which audio playback and slide show progress are asynchronous.
- the user instructs the player to proceed to the next still image using a remote controller or the like, and even if the still playback time of each still image changes, audio playback is continuously performed without interruption .
- DVD audio has a mode in which the playback of video and audio is asynchronous.
- the application format of the data recorded in the information processing apparatus described in Conventional Example 2 has two layers, PlayList and Clip, for managing the AV stream.
- the PlayList in the PlayList layer is referenced only by the user, and can be used when the user refers to P1ayList to reproduce and edit data such as video.
- the Clip layer is used when the player plays back the AV stream specified by PlayList.
- one AV stream and a pair of information attached to the AV stream are treated as one object, which is managed in units called Clips.
- the AV stream file is called a Clip AV stream file, and its additional information is called a Clip Information file, which is separately recorded on a recording medium. In this way, by recording and managing the stream data and its attached information separately, the data management can be easily performed.
- the address information of the still image is embedded in the MPEG program stream, so that it takes time to read. That is, when determining the read address of the still image, the stream data is read from the disc, the data is analyzed by the host CPU of the player, and then the address of the access point of the still image is determined. It takes time to read the data.
- a slide show can be realized using the same format as the audio and video data described in Conventional Example 2 above, data management is easy, and the same recording and playback device can be used, which is convenient. is there.
- An information processing apparatus includes: an attribute information creating unit that creates image attribute information for managing each still image of a still image group including one or more still images; and a playback device that indicates a playback path of the still image group.
- Playback control information creation means for creating control information; and a recording means for recording the still image group and the corresponding image attribute information and playback control information on a recording medium.
- the still image whose is controlled is associated with the still image recorded on the recording medium based on the image attribute information.
- the image attribute information and the reproduction control information are recorded on the recording medium separately from the still image group. Therefore, when reading and reproducing the still image from the recording medium, the image attribute information and the reproduction control information are read. Can be read in advance, and each still image of the still image group can be generated in a predetermined order, so that continuous playback of still images (so-called slide show) is realized using the same format as conventional moving image recording. can do.
- An information processing method includes: an attribute information creating step of creating image attribute information for managing each still image of a still image group including one or more still images; and playback control information indicating a playback path of the still image group.
- the still image to be controlled is characterized in that it is associated with a still image recorded on the recording medium based on the image attribute information.
- a program according to the present invention is a program for causing a computer to execute a predetermined operation, and includes attribute information for creating image attribute information for managing each still image in a still image group including one or more still images.
- the information processing apparatus comprises: at least a part of the still image group from a recording medium in which a still image group including one or more still images and corresponding image attribute information and reproduction control information are recorded.
- Reproduction means for reproducing the still image of the image data, and control means for controlling the reproduction means in accordance with the reproduction control information with reference to the image attribute information.
- the reproduction control information indicates a reproduction path of the still image group, and a still image whose reproduction is controlled by the reproduction control information is stored on the recording medium based on the image attribute information. It is characterized by being related to the recorded still image.
- An information processing apparatus comprises: attribute information creating means for creating image attribute information for managing each still image in a still image group including one or more still images; Reproduction control information generating means for generating reproduction control information indicating a reproduction path designating at least a part of reproduction, the still image group, and the corresponding image attribute information and reproduction control information on a recording medium.
- the playback control information creating means creates the playback control information using the image attribute information.
- a program according to the present invention is a program for causing a computer to execute a predetermined operation, wherein attribute information creation for creating image attribute information for managing each still image of a still image group including one or more still images is provided.
- a reproduction control information generating step for generating reproduction control information indicating a reproduction path for designating reproduction of at least a part of the still image group; the still image group; and the image attribute information and reproduction corresponding thereto
- the reproduction control information is created using the image attribute information.
- FIG. 4 is a diagram illustrating an example of a PlayList in a slide show in which the reproduction start time of each still image is predetermined according to the first embodiment of the present invention, and a relationship between a still image and a reproduction time.
- FIG. 5 is a diagram showing the relationship between PlayList and Clip shown in FIG.
- FIG. 7 is a diagram illustrating an example of a PlayList in a slide show in which only the playback order of each still image is determined according to the first embodiment of the present invention, and a relationship between the still image and the playback time.
- FIG. 10 is a block diagram illustrating an information processing device according to the first embodiment of the present invention.
- FIG. 15 is a flowchart showing a reproducing operation in the information processing apparatus according to the first embodiment of the present invention.
- FIG. 16 is a diagram illustrating an example of a relationship between a PlayList and a Clip in a modification of the first embodiment of the present invention.
- FIG. 17A is a diagram showing the Clip Information shown in FIG.
- FIG. 19 is a diagram showing a relationship between a PlayList, a Clip Information ator, and an audio stream when asynchronously reproducing audio in a Browsable slide show according to the second embodiment of the present invention. is there
- FIG. 20 is a schematic diagram illustrating an example of a PlayList in a slide show in which only the reproduction order of each still image is determined according to the third embodiment of the present invention, and a relationship between a still image and a reproduction time.
- FIG. 21 is a schematic diagram illustrating another example of a PlayList in a slide show in which only the reproduction order of each still image is determined according to the third embodiment of the present invention, and the relationship between a still image and a reproduction time. is there.
- FIG. 23 is a diagram showing the relationship between the PlayList shown in FIG. 21, its CI information file, and the data arrangement of the related still image file on the recording medium (disk).
- FIG. 24 shows another example of the third embodiment of the present invention, in which a PlayList, a Clip Information file thereof, and a recording medium (data) for a still image file related thereto.
- FIG. 11 is a diagram showing a relationship with the data arrangement on the above.
- FIG. 25 shows a PlayList of a slide show that reproduces audio in synchronization with the reproduction of a still image, its Clip Information file, and a recording medium (disc) of a still image file related thereto according to the third embodiment of the present invention.
- FIG. 7 is a diagram showing the relationship with the above data arrangement.
- FIG. 26 is a schematic diagram illustrating an example of a source packet indicated in a transport stream file (still image file).
- FIG. 28 is a diagram showing a relationship between a PlayList of a slide show in which audio and still image reproduction are asynchronous, a Clip Information file thereof, and an audio stream according to the third embodiment of the present invention. is there.
- FIG. 3 OA is a block diagram showing a BDAV MPEG2 TS Player Model-11
- FIG. 30B is a block diagram showing a BDAV MPEG2 TS Player Mode 2.
- FIG. 31 is a block diagram showing a buffer model of the browsable slide show.
- Fig. 32 ⁇ shows the bit occupancy of the EB buffer (video code buffer) during the slide show in the browserable mode
- Fig. 32 B shows the graph of the bit occupancy of the B4 buffer (audio code buffer). It is.
- Figure 34 shows the relationship between the PlayList, Clip Information file, and the related still image file layout on the recording medium (disk) when an I picture is used as the still image data.
- FIG. 36 is a schematic diagram for explaining another example of the source packet indicated in the transport stream file (still picture (I-picture) file).
- PlayList is playback control information indicating a playback path (playback path) that specifies the playback order of still images and the like.
- One playback section is called Playltem. Therefore, PlayList is composed of a collection of PlayItems.
- PlayList has two types. One is Real PlayList and the other is Virtual PlayList.
- the Real PlayList is considered to share the portion of the still image group of the Clip to which it refers. In other words, the Real PlayList occupies in the disc a temporary capacity corresponding to the still image group portion of the Clip referred to by the Real PlayList. When a new still image is recorded, it is automatically added to Real PlayList. If a part of the playback range of the Real PlayList is deleted, the data of the still image group of the CI ip to which it refers is also deleted. On the other hand, the Virtual PlayList is regarded as not sharing the data of the CI ip. Even if the Virtual PlayList is changed or deleted, the Clip does not change. In the following description, Real PlayList and Virtual PlayList are simply referred to as PlayList.
- FIG. 3 is a diagram showing an example of Group of picture files and their Clip Information.
- one or more still image files are managed as one Group of picture files.
- a Clip Information file corresponding to the Group of picture files is provided.
- CI ip Information is the ID (file—id) that is the still image identification information when referencing the still image file for each still image file included in the Group of picture files, and the file name (file_id) corresponding to file_id.
- byte_size the byte size of the file (file_size), the number of horizontal pixels of each still image (horizonta to size), and the number of vertical pixels of the still image (vertica to size).
- the data format of the still image is JPEG and PNG, but it goes without saying that any other still image data format such as MPEG2 I-picture, GIF, and JPEG2000 may be used. .
- the first slide show is a slide show in which the reproduction start time of each still image is predetermined (hereinafter, also referred to as a time base slide show or a time base mode).
- the second slide show is a slide show in which the playback start time of each still image is not determined and the playback order is determined (hereinafter, also referred to as Browsable slide show).
- the first slide show in which the reproduction start time of each still image is determined in advance will be described with reference to FIGS.
- FIG. 4 is a diagram illustrating a slide show in which the playback start time of each still image is determined in advance.
- the slide show in which the playback start time of each still image is determined in the upper and lower sides, respectively.
- An example of a PlayList and a relationship between a still image and a reproduction time are shown.
- each still image is reproduced at a predetermined evening on the Pyltem time axis.
- PlayList is composed of multiple Playltems. As shown in FIG. 4, each Playltem has IN_time and OUTjiuie data indicating the playback section of the slide show. Start playback of each slide show by INJime and OUT-time And the end time.
- Each Playltem has data (hereinafter, also referred to as a Scene) for each still image constituting a slide show.
- This Scene includes an ID (file-id) as identification information of a still image when referring to Group of picture files in the Clip.
- these Scenes include a playback start time (a start-time-stamp) in the Playltem.
- each of these scenes has a playback time, that is, a display time (duration) which is a still playback time of each still image.
- FIG. 5 is a diagram showing the relationship between PlayList and Clip shown in FIG.
- PlayList refers to a still image (file ID in this example) in Cli.
- Clip Information indicates the relationship between the still image (file ID) referred to by PlayList and its actual state (in this example, the file name). That is, the file name FUe_name of the ID (file_id) that is the still image identification information described in the PlayList is specified with reference to the Clip Information. Then, the still image file having this file name is read from the Group of Picture files.
- FIG. 6 is a diagram illustrating a configuration example of a PlayList when audio is reproduced in synchronization with a slide show of a still image.
- the PlayList has an audio path that indicates the audio playback path separately from the Playltem (MainPath) that indicates the still image playback path. Playback control information and SubSubPlayltem (SubPat) is provided.
- This SubPlayltem is the playback start time on the time axis of Playltem (PlayList)
- the SubPlayltern includes a reproduction start time (SubPlayItem_IN-time) on the Clip referred to by the SubPlayltem.
- the SubPlayltem is the playback end time on the Clip referenced by the SubPlayltem.
- the Clip Information file contains the address information to start decoding the stream in the AV stream file. Help to find.
- the AV stream file of the Clip referred to by SubPlayltem is an audio stream (Auxi iary audio stream).
- C Auxiliary audio stream is also referred to as sub audio stream).
- the Clip Information file has a table (EPjnap for audio) in which a start time in the audio stream and information indicating an address of a source packet (minimum access unit) corresponding to the start time and the end time are described.
- the address corresponding to the specified presentation time PTS can be obtained, and the audio data indicated by this address can be read and reproduced.
- the SubPlayltem since the SubPlayltem has the playback start time on the time axis of the Playltem indicating the playback path of the still image, the audio can be played back in synchronization with the slideshow of the still image.
- FIG. 7 is a schematic diagram showing an example of a PlayList showing a Browsable slide show, and a relationship between a still image and a reproduction time.
- the playback start time of the still image is not specified in the Playltem scene of the browsable slide show.
- Each still image is played on Playltem instead of the information of the playback start time (start_time_stamp) in Playltem of each still image It has information specifying only the order.
- Playltem does not have IN_time and OUT-time.
- the playback time (display time) of each still image that composes the slide show has not been determined. In this case, the user can instruct the player on the reproduction time of each Scene.
- each Scene of this PlayList is not a predetermined playback time (duration) as shown in FIG. 4 described above, but information indicating a default playback time corresponding to the playback order of each still image in the Playltem. Can be provided.
- the player performs still playback for the default playback time only when the user does not specify anything.
- the user can instruct the player to proceed to the next still image using a remote controller or the like, and can freely control the still playback time of each still image. it can.
- FIG. 8 is a diagram showing an example of the relationship between the PlayList shown in FIG. 7 and CI ip.
- the PlayList refers to a still image in the Clip
- the Clip Information indicates the relationship between the still image referenced by the PlayList and its actual state. That is, in the present embodiment, the file ID for identifying the still image in the Clip indicated by the PlayList is Refer to the information, obtain the file name corresponding to this file ID, read the still image with this file name from Group of Picture f Ues and play it back.
- FIG. 9 is a diagram showing a relationship between a PlayList of Browsable side show for playing audio asynchronously, CI ip Iniormat ion file, and an audio stream.
- the PlayList consists of a Playltem indicating the playback path of the still image and a Playltem indicating the playback path of the audio.
- the PlayList has the Playltem One playback path is shown, and SubPlayltem is a still image playback path.
- the structure of the SubPlayltem indicating the slide show playback path is the same as the Playltem indicating the slide show playback path described above with reference to FIG. That is, the playback order of the Scene in the Playltem (playing order), the ID (file-id) required to refer to the Group of Picture files file in the CI ip, and the default playback time of the Scene (Defoul and duration).
- Playltem which indicates the audio playback path of the Browsable slide show shown in Fig. 9, is a playback start time (IN-time) on the Clip referenced by Playltem and a playback end time (OUT-time) on Clip referenced by Playltem. — Time) is described.
- the Clip Information file is included in the AV stream file of CI ip.
- the Clip Information file referred to by the Playltem has a table (audio EP jap) that describes the correspondence between the start time of each playback section and its address in the audio stream. This allows the playback device to By converting the time stamp into an address, the audio stream in the target playback section can be read and played.
- the slide session may end at, for example, the audio playback end time, Try playing the audio that was played until the end time again, and repeat the audio multiple times.
- FIG. 10 is a block diagram showing an information processing device according to the present embodiment.
- the information processing apparatus 1 receives a still image via a terminal 13, a still image encoder 14 for encoding the still image, and an audio via a terminal 10.
- Information on the slide show playback content is input via the audio encoder 11 to be coded and the terminal 15 and image attribute information and audio attribute information are supplied from the still image encoder 14 and the audio encoder 11 respectively.
- the PlayList and the CI information are supplied from the controller 16 for generating the PlayList and the Clip Information described above, and the PlayList and the CI ip Information are supplied from the controller 16 and recorded on a recording medium such as a DVD, for example. It has a recording unit 17 for recording the evening in a predetermined format on a recording medium.
- the controller 16 determines the playback start time of each still image and its playback time ( Display time) information.
- Display time As shown in Fig. 6, when audio is played back in synchronization with the slide show, the controller 16 provides information on the playback start time of each still image and its playback time, as well as information on the audio playback time. , The playback start time on the Playltem indicating the playback path of the still image, and information indicating the playback section in the audio stream. Also, As shown in FIG.
- the controller 16 determines the reproduction order of each still image and its reproduction order. Upon receiving information on the default playback time and, as shown in FIG. 9, such a slide show, when playing asynchronous audio, the controller 16 determines the playback order of each still image and its default playback time. In addition, information indicating the playback section in the audio stream is received. In addition, the controller 16 is supplied with data such as the data size of each still image, the number of vertical and horizontal pixels, and the like as image attribute information from the still image encoder 14, and corresponds to each still image included in the Group of Picture files. Create the Clip Infomat ioin shown in Figure 3.
- the controller 16 uses the ID (file_id) described in the Clip Informatioin from the supplied information to create a PlayList indicating the playback path of the still image and audio described above.
- the audio / video playback table that has a table (EP map for audio) that shows the correspondence between the playback time of audio data on the PlayStation and the address of the minimum access unit (access point) of the audio stream.
- Create Clip Information audio attribute information
- FIG. 11 is a diagram showing an example of the structure of files and directories to be recorded.
- the root 100 has directories of BDAV110 and PICTURE120, and the BDAV110 has directories of PLAYLIST11, CLIPINFl12 and STREAM113.
- PLAYUSTl 11 has a plurality of PlayList files 1 1 1 a to 1 1 1 c.
- the CLIPINF 112 also has an audio stream Clip Information file 112a and a Group of picture files ⁇ ⁇ Clip Information file 112b.
- the STREAM 113 also has an optional auxiliary audio stream (Auxiliary audio stream) file 113a.
- the PICTURE 120 has a plurality of Group of picture files 120a composed of, for example, still image files 121 to 125.
- FIG. 4 is a diagram showing an example of data arrangement on a recording medium (disk) of an image file.
- the playback device player
- the playback device is stopped in the order of the image file names (image identification information ID (file_id)) appearing in the Clip Iniormation.
- image file names image identification information ID (file_id)
- file_id image identification information
- FIG. 13 is a flowchart showing a PlayList creation method in the recording operation of the information processing apparatus according to the present embodiment.
- the still image encoder 14 encodes the still image supplied via the terminal 13 to generate image data, supplies the image data to the recording unit 17, and supplies the image attribute information to the controller 16.
- the audio encoder 11 generates an audio stream by encoding the audio data supplied via the terminal 10, supplies the audio stream to the recording unit 17, and controls the stream attribute information.
- the controller 16 acquires the content of the slide show playback (step S 1). That is, as described above, when the slide show and the audio are AV-synchronized, information on the reproduction start time of each still image, the reproduction time thereof, and the reproduction time of the audio reproduced in synchronization with the reproduction start time and the reproduction time. Received via terminal 15 If the slide show and the audio are asynchronous to each other, information on the playback order of each still image, its default playback time, and the audio playback time is received via the terminal 15.
- the controller 16 receives the image attribute information from the still image encoder 14 (step S2), and receives the audio stream attribute information such as the EP_map for audio from the audio encoder 11 (step S3). Then, according to the image attribute information, the controller 16 creates a Clip Iniormation as additional information on the Group oi picture files (step S4). That is, the attribute data of each still image is registered in the order of images to be reproduced in the slide show. 03015627
- a PlayList indicating a playback section (playback path) of the slide show is created based on the supplied external information, and a PlayList indicating the playback path of the audio. (Step S5), and the controller 16 instructs the recording unit 17 to record PlayList and Clip Information.
- the recording unit 17 records the PlayList and Clip Information created by the controller 16 on a recording medium, and also records the image data and audio data generated by the still image encoder 14 and the audio encoder on the recording medium, respectively. . At this time, the recording unit 17 records the image data such that the image data is arranged in the order of the image files appearing in the Playltem of the Clip Information.
- one or more still image files are managed as a group of picture files as one file, and each still image included in the file is managed.
- information such as identification information (File_id) is managed as Clip Information, and a Playltem that specifies playback of each still image in a slide show is used. Therefore, it is possible to record data that realizes a slide show while maintaining compatibility with the moving image recording device described in the above-described Conventional Example 2 and the like. That is, instead of an AV stream file in a moving image, a file of a still image group (Group of picture files) is prepared. Prepare a Clip Information file to refer to the files in this Group of picture files, and specify the playback by PlayList, so that Clip (Information file) in the format of moving image data can be shared with PlayList, etc. Can be planned.
- FIG. 14 is a block diagram showing an information processing apparatus for reproducing the data recorded by the recording apparatus described above.
- the information processing apparatus 20 includes a reading unit 21 for reading data from a recording medium, a controller 22 to which PlayList and Cliplnformation read by the reading unit 21 are supplied, and a reading unit 21.
- the still image decoder 23 and the audio decoder 26 to which the read still image data and audio data are supplied, respectively, and temporarily hold the decoded still image. It comprises a frame buffer 24 and a processor 25 for controlling reproduction of a still image.
- the controller 22 acquires the ID (file-id) of the still image data to be reproduced with reference to the PlayList, and sends the still image data indicated by the acquired still image data ID to the still image decoder 23. Read and decrypt.
- an instruction from the user is supplied to the controller 22 via the user interface 27.
- the ID of the still image data can be acquired and the reading operation can be performed.
- the playback time (duration) of the still image described in the PlayList or the default playback time (default one duration) has elapsed
- the ID of the still image data is acquired and read. Perform the operation.
- the controller 22 obtains the playback time of the audio data to be played back by referring to the PlayList, obtains the address of the audio stream corresponding to the playback time by referring to the Clip Information of the audio stream, and To the corresponding audio data.
- FIG. 15 is a flowchart showing a reproducing operation in the information processing apparatus according to the present embodiment.
- ayList and Clip Information are read by the reading unit 21 and supplied to the controller 22.
- the controller 22 acquires ie-id for identifying a Playltem still image indicating a playback path of the PlayList still image (step S11).
- the controller 22 refers to the Clip Information of the Group of picture files, specifies the still image file indicated by the file_id of the still image, and reads the still image file from the Group of picture files by the reading unit 21. (Step S12).
- the controller 22 acquires the audio playback time according to the Pyltem indicating the audio playback path of the PlayList (step S13). Then, referring to the Clip Information of the audio stream (Auxiliary audio stream) as a sub stream, the stream data in the audio stream file is referred to. The address information at which the code is to be started is obtained, and the reading unit 21 controls to read the audio data from the audio stream file based on the information (step S14).
- the still image decoder 23 decodes the still image data read in step S12 (step S15), and inputs the decoded image to the frame buffer 24.
- the audio decoder 26 decodes the audio data read in step S14 (step S16), and outputs the decoded audio.
- the controller 22 issues a predetermined instruction to the processor 25 and the frame buffer 24.
- the frame buffer 24 reproduces the stored image at a predetermined timing according to the instruction (step S17).
- step S11 the controller 22 acquires the file-id of the still image at the next timing t1 or t2. That is, when the playback time of the still image has passed the playback time described in the corresponding Scene of the Playltem indicating the playback path of the still image in the PlayList, the playback time has elapsed since t1, or the user 27 This is timing t2 when the instruction to switch the image is received.
- the controller 22 ends the reproduction of PlayList.
- the controller 22 sets the timing t1, that is, the evening when the duraton described in the Playlteni Scene has elapsed. Then, the file-id can be read, and the reading of the corresponding still image can be instructed to the reading unit 21. Further, when the user or the like is instructed to start the reproduction of each still image shown in FIGS. 7 to 9 above, the following timing t2, ie, the timing of the still image switching instruction from the user or the like, is used. . . . Reads the id and instructs to read the corresponding still image.
- a point in time when a predetermined default reproduction time (defaul dulation) has elapsed is set as the evening of reading the next file_id.
- a still image is used as a format of data for realizing a slide show that is a continuous playback of a still image.
- Two layers, PlayList and Clip are provided to manage images and audio data.
- the still image group and the audio stream in the Clip and the Clip Information File which is the additional information, are managed in separate files, the moving image described in the above-described conventional example 2 and the like is used.
- the format and commonality of data applied to image recording and reproduction can be achieved. That is, a Clip is provided with a Group of picture files consisting of one or more still images and a Clip Information ie that manages these, and the playback section of the slide show is specified in the Playltem of the PlayList, and continuous playback of still images is performed. Since a certain slide show is realized, it is possible to continuously reproduce still images while maintaining compatibility with an information processing apparatus that handles moving images.
- the seek time required for reading can be reduced.
- image files including one or more still images are divided into groups (hereinafter, referred to as still image group files). Numbers are allocated, and the ID numbers are referenced by Clip Information.
- FIG. 16 is a diagram showing an example of the relationship between PlayList and Clip in this modification. As shown in FIG. 16, PlayList is the same as FIG.
- the Scene shown in FIG. 7 is information specifying the playback order of each Scene in the Playltem, identification information ID (file-id) of a still image when referring to Group of picture files in the Clip, And the default playback time, but in this modified example, the ID (group_id) which is the identification information of each still image group is described in place of the identification information ID (file_id) of the still image of the above Scene Is different.
- this Page has the same function as Scene.
- the Page is information (playing_order) that specifies the order of playback of each Page in the Playltem, and ID (group) that is the identification information of the still image group when referring to the Group of Picture files in the Cli. — Id) and the default playback time (deiaul and duration) of each Group.
- the PlayList refers to a still image in the Clip
- the Clip Information indicates the relationship between the still image referred to by the PlayList and its actual state. That is, the PlayList refers to a still image group identification information ID (group-id) for identifying a still image in the CI ip.
- the Clip Information indicates the address information on the recording medium of the grouped still images corresponding to the still image group identification information ID (group_id). The playback device acquires the address information, reads out and plays back the still image.
- FIGS. 17A and 17B are diagrams each showing an example of the data arrangement on the recording medium (disk) of the Clip Information and the related still image file in the present modification shown in FIG.
- TJP200 hired 5627
- the playback device reads out and plays back the still image data in the order of the still image group identification information ID (group-id) appearing in the Clip Information.
- the amount of file system data for managing files can be reduced as compared with the case where the Group of picture files is a set of separate image files.
- each still image of the Group of picture files or the image data of each still image group is recorded on the recording medium as it is, but in this embodiment, This image data is recorded in the format of a transport stream (TS).
- TS transport stream
- FIG. 18A and FIG. 18B are diagrams showing the data arrangement on the recording medium (disc) of the Clip Information and the related still image file in the present embodiment, respectively.
- one or more still images that are played back simultaneously are managed as a still image group.
- the playback order is specified, and the playback time of each still image (the duration of the slide still) is finite.
- a slide show with a certain default playback time is described.
- the Clip Information since the image data of each still image group is multiplexed in the transport stream, the Clip Information includes the identification information ID (group_id) of the grouped still images and the corresponding ID. It has an EP_map which is a table indicating the start address in the transport stream in which the grouped still images are multiplexed, that is, the head source packet number (SM_start).
- the source packet number is a number that is incremented by 1 in the order of the source buckets in the transport stream file, and the source packet number at the beginning of the transport stream file is zero. Is to be done.
- the recording device is arranged in the reproduction order (readout order). Therefore, the image data of the still image group is multiplexed and recorded in the transport stream, and the playback device (player) records the still image group in the order of the still image group identification information ID (group-id) appearing in this Clip Information. Read and play back image data.
- the structure of the transport stream can be made similar to that of the AV stream file described in the second conventional example, and the same recording / reproducing device is used. It is convenient because it can do things.
- FIG. 19 is a diagram showing a PlayList in the case where audio is asynchronously reproduced in the present embodiment.
- the PlayList includes a Playltem indicating a playback path of a still image and a Playltem indicating an audio playback path.
- the difference from the case shown in FIG. 9 is that the playback path of the still image is set to Playltem and the playback path of the audio is set to SubPlayl ten. Therefore, in the present embodiment, the SubPlaylay has a playback start time In one time and a playback end time Ou time, and refers to the playback start and playback end time stamps in the audio stream.
- the Playltem has a Page which is a list of the still images constituting the slide show as described above.
- the playback device obtains the address information on the recording medium in the evening corresponding to the playback start time In-time and playback end time Ou and Ume of the SubPlayltem by referring to the Clip information. I do. Then, the playback device reads and plays back the audio using the address information.
- the mechanism of such audio reproduction is the same as that of the first embodiment shown in FIG.
- the SubPlayltem and Playltem as the playback control information can be accompanied by additional information (hereinafter referred to as “playback additional information”) in addition to information such as the playback path.
- the SubPlayltem in the present embodiment is the first information indicating that the reproduction of the SubPlayltem is asynchronous with the reproduction of the Playltem, as the reproduction auxiliary information.
- SubPlayItem_type is added. Furthermore, the playback start time IN-time and the playback end time of the audio stream are included in the playback information of the SubPlayltem.
- a flag (second information) (is-repeated-SubPlayltem flag) indicating whether the playback section indicated by “Ou” and “time” is to be played repeatedly or only once is added.
- the playback device determines that the playback of the SubPlayltem is asynchronous with the playback of the Playltem based on the first information SubPlayltem-type.
- the is_repeat_SubPlayItem flag is, for example, 0, the reproduction is performed only once.
- the flag is 1, the above reproduction section is repeatedly reproduced.
- these two types of playback auxiliary information have been described as data attached to SubPlayltem in a static data format. However, in addition, they are attached to SubPlayltem in a playback controller (PBC) command format. Is also good. Specifically, for example, instead of the is_repea and the SubPlayltem flag, the command may be attached to the SubPlayltem by using a command called Repeat-SubPlayltem.
- PBC playback controller
- playback control information indicating one playback path described as a Scene or a Page is defined as one Playltem, and the number of Playltems corresponding to each Scene or Page is provided.
- the default playback time (display time) indicating the length of each Scene or Page is specified by defaul and dulation.
- the IN_Ume and OUT-time of Playltem2 are set to t2 and t3, respectively, and the playback section from t2 to t3 is equal to d2 of the default playback time (deliault-duration).
- the IN-time and OUTJime of each Playliem indicate the playback range in the AV stream.
- the still image data from the IN-time PTS to the OUT-time PTS value in the AV stream is played. Is done.
- the player automatically starts playback of the next Playltem. .
- the default playback time of a still image is finite. However, for example, if the creator of the PlayList wants to set the default playback time to infinity, by adding information indicating that the playback image at the playback end time OUT-time is to be continuously displayed to the Playltem information, The playback time can be set to infinity.
- the Playltem can be newly added with information as the playback supplementary information, similarly to the information processing apparatus described in the above-described conventional example 2.
- the OUTJTime image The flag is—Playltem—Still can be attached as playback auxiliary information that indicates whether or not to continue to display.
- the playback ancillary information indicating that the playback image of 0UT_time is kept displayed has been described as data accompanying the Playltem in a data format of a static flag, but other playback control (so-called PBC) commands may be used. It may be attached to Playltem in the form. Specifically, for example, it can be attached to Playltem by using a command called SH1I-Playltem.
- FIGS. 22 and 23 are diagrams schematically showing a PlayList, its CUp Information file, and data recorded on a recording medium.
- FIG. 22 shows a case where the playback time of the Playltem shown in FIG. 20 is finite.
- a transport stream in which ABCD0001.JPG and ABCD0001.PNG are multiplexed has a presente-section time stamp PTS from t1.
- the transport stream in which ABCD0002.JPG is multiplexed is the range from t2 to t2.
- the transport stream in which ABCD0003.JPG and ABCD0003.PNG are multiplexed has a PTS ranging from t3 to t4.
- the PTS is between tl and t4, a still image and graphics subtitles overlaid on it are multiplexed in the transport stream.
- the EPjnap of the Clip Information file recorded on the recording medium in association with the transport stream of the still image file is the presentation type stamp PTS of the transport stream and the transport indicated by it. It is a table showing a correspondence relationship with a source bucket number in a stream. That is, the EPjnap in the present embodiment has the values of the individual packet numbers indicated by t1, t2, and t3, which are the IN_time of Playlteml, Playltem2, and Playltem3.
- EP_ma shown in FIG. 18 in the above-described second embodiment indicates a correspondence relationship between a plurality of still image group identification information Group-id and a source packet number SPN-start at which it is started.
- the EP-map according to the present embodiment shown in FIG. 22 has the same configuration as the EP-map described in Conventional Example 2 above, that is, the time stamp PTS_start of the still image and the start.
- the playback device player
- the playback device reads out and plays back the still image data referenced by the Playltem, that is, the data indicated by the source packet number SPlstart.
- the transport stream has the same structure as the AV stream file described in the above-mentioned conventional example 2, so that the same recording / reproducing apparatus is used. It is convenient to do things.
- the default playback time of a still image is set to be finite, and the default playback time is the time indicated by the playback start time IN-time and the playback end time OUT—time of Playltem. It is a section.
- the PlayList shown in FIG. 23 includes the Playltem in which the default playback time of the still image is set to infinity, and the fact that the default playback time is infinite is indicated by the is_PlayItem_Still flag added to the Playltem.
- the user does not have to wait for the finite default playback time to expire, or PT / JP2003 / 015627
- the playback device 31 can instruct the playback device to advance playback to the next still image in the middle. For example, if the user instructs the playback device to advance to the next still image while the playback device is playing Playlteml, the playback device starts playback of Playltem2.
- the is_PlayItem_Still flag 1
- the duration of the still is Stil
- the duration is indicated by duration.
- the still duration Stil and duration are set to a predetermined value, it is sufficient to indicate that the still duration is infinite.
- the still duration is Stil and the duration is an 8-bit value
- OxFF indicates that the duration of the still is infinite
- the value of the Stil and duration Denote the duration of a finite still. For example, seconds (s) can be set as the unit of the value of this still duration SU1 and duration.
- the transport stream part referenced by each Playltem is not multiplexed at the source packet level in the transport stream file. is there. This is because the amount of data read required for reproducing the Playltem can be minimized. For this purpose, as shown in Fig.
- the Clip Information file shown in FIG. 24 has the same SeQuencelnfo as that of the second conventional example. Sequencelnio is information attached to the Clip Information file, and the source bucket number (SPN_STC—start) where the continuous system time clock STC starts in the transport stream file and its system time clock STC Is a table showing a correspondence relationship with the index number (stc-id). A source bucket sequence having one continuous system time clock STC is called an STC-sequence.
- the Playltem adds the playback start time IN-time and the playback end time OUT-time, and a reference value (rei-to-stst) to the STC to which these time stamps refer. id).
- the playback device uses EPjiap and Seauencelnfo to read and play back the still image data referred to by the Playtem.
- each playback section plays audio together with the slide show indicated by the PlatList.
- FIG. 25 is a diagram showing a PlayList of a slide show in which audio reproduced in synchronization with a still image is also multiplexed into a transport stream, and audio is reproduced in synchronization with reproduction of a still image.
- the audio stream reproduced in synchronization with the slide show is multiplexed on the transport stream together with the still image.
- the playback device (player) reads out the still image data and audio referenced by Playltem using the EP-map of Clip Iniormation, and synchronizes the audio with the still image based on the presentation time slump PTS for playback output. I do.
- sub-image information such as graphics (“G”) and subtitles (“S”) that are overlaid on (synchronized with) the still image are positioned more than the video bucket indicated by the EP-map. Multiplexed later.
- the PAT Program Association Table
- PMT Program Map Table
- the packet including the PAT is assigned to the source packet number of the EP_map. It may be indicated by the signal spn2.
- FIG. 28 is a diagram showing a PlayList of a Browsable slide show that plays audio asynchronously.
- the PlayList is composed of a plurality of Playltems indicating playback paths of still images and SubPlayltems indicating audio playback paths.
- the playback start time IN-time and playback end time OUT-time of SubPlayltem are indicated by the playback start and end timestamps in the audio stream, respectively. It is.
- the playback device refers to the Clip Information and refers to the SubPlayltem IN-time and Acquires the data address information on the recording medium of the audio stream corresponding to OUT-time. Then, the reproducing device reads and reproduces the audio using the address information.
- the mechanism of such audio reproduction is the same as in the first embodiment shown in FIG. 9 described above.
- the creator of the PyList can add playback accessory information to the Playltem in the same manner as in the second embodiment shown in FIG. That is, a flag indicating whether the playback section indicated by the playback start time INjime and the playback end time Out—time of the audio stream is repeatedly played back or whether the playback is performed only once (is_repeat—SubPlayltem flag) is included as playback attached information.
- SubPlayltem type
- PBC playback controller
- the playback device can play back the SubPlayltem by the following three methods. That is, the first method is that when reading out from a recording medium two files, a still image file referred to by Playltem and an audio stream file referred to by SubPlayltem, the respective files are alternately time-divisionally changed. It is a method to read it out. In this case, the playback device plays back the still image and the audio while alternately reading the data of the two files from the recording medium.
- the second method first, all data of the audio stream file referred to by the SubPlayltem is read and stored in the buffer memory of the playback device. Next, the still image data referred to by the Playltem is read from the recording medium. The playback device reads the still image data from the recording medium and plays back the still image and the audio while reading the audio data from the buffer memory.
- the third method first, all the data of the still image file referred to by the Playltem is read and stored in the buffer memory of the playback device. Next, the audio stream referred to by the SubPlayltem is read from the recording medium. The playback device reads the audio stream from the recording medium and plays back the still image and the audio while reading the still image from the buffer memory.
- the second method is effective when the audio stream file referred to by the SubPlayltem has a small bite size. 200 hired 5627
- the size is several megabytes (Mbyte)
- all file data can be read out to the buffer memory before playback.
- audio playback is BGM (Back Ground Music), and when playing back SubPlayltem repeatedly, for example, the audio stream with a bit rate of 256 kbps for about 65 seconds Since the evening size is about 2 megabytes (Mbyte), the second method is effective.
- FIG. 29 is a block diagram showing a reproducing apparatus for reading and reproducing by the first method.
- a main transport stream still image file
- an audio transport stream hereinafter referred to as audio TS
- SubPlayltem an audio transport stream
- the reproducing apparatus reproduces a still image and audio while alternately reading out two files (main TS and audio TS) from the recording medium 31.
- Each file data read by the reading unit 31 is demodulated by the demodulation / ECC decoding unit 32, and error correction is performed on the demodulated multiplexed stream.
- the source packet data of the main TS file is buffered in a main TS read buffer (Read Buffer) 33 for buffering the main TS
- the source packet data of the audio TS file is in audio format. It is buffered in the audio TS lead buffer 34 for buffering the TS.
- the stream data read from the main TS read buffer 33 is supplied to a main player (BDAV MPEG2 TS Player Model-1) 35 described later.
- the main player 35 reads the stream data read from the main TS read buffer 33 at the transmission rate R MAX at a predetermined timing (transmission rate R TS _ m ) at the subsequent main PID (packet ID). Output to Phil 37.
- audio The stream data read out from the TS read buffer 34 is supplied to an audio player (BDAV MPEG2 TS Player Mode 2) 36 described later.
- the audio player 36 transfers the stream data read from the audio TS read buffer 34 at the transmission rate R A to the subsequent audio PID file 39 at a predetermined timing (transmission rate R TS — a ).
- the main PID filter 37 distributes the input main TS to a decoder of each subsequent elementary stream according to the PID (packet ID) and outputs the same. That is, system information such as still image (video), sub-image information (graphics and subtitles (captions), etc.), and system information such as PSI (Program Specific Information) of the main TS and SI (Service Information) are respectively provided. It is divided into transport buffers TB I, TB 2 and TBsys 1. Note that SI is a table that describes additional information of TS, and indicates a table that does not conform to the MPEG2 standard. The SI is also packetized in a transport bucket. SI includes SIT (SelecUon Information Table).
- the transport packet of the still image is transmitted from the transport buffer TB1 to the multiplexing buffer MB at a constant rate RX, further transmitted to the elementary stream EB at a constant rate RbXi, and is decoded by the decoder D1. It is read and output. Moreover, the transport packet of the sub-picture information, transponder - from Tosutori one Mubaffa TB 2, is transmitted to the buffer B 2 at a constant rate Rx 2, which is decoded by the decoder D 2 is output.
- the transport packet of the system information is transmitted from the transport buffer TB sys 1 to the buffer B sys 1 at a constant rate RX sys , and is decoded and output by the decoder D sys 1.
- the audio PID filter 38 distributes the input audio transport stream to the decoder of each subsequent elementary stream according to the PID (bucket ID) and outputs it. That is, the transport packets of the audio is transmitted from the transponder one Tobaffa TB 4 in the main buffer B 4 at a constant, single DOO RX 4, which is decoded by the decoder D 4 output.
- the transport packet of the audio TS system information is transmitted from the transport buffer TB sys 2 to the buffer B sys 2 at a fixed rate RX sys , and further transmitted to the decoder D sys 2 at a fixed rate R sys and decoded. Output.
- An audio switch (Audio SW) 39 is provided between the audio PID filter 38 and the transport stream buffers TB4 and TBsys.
- the audio switch 39 is used for reproducing a time-based mode slide show as shown in FIG. 25, for example, and in a browserable mode (BrowsaMe mode) as shown in FIG. 23 or FIG. 24, for example. The switching is controlled between when the slide show of) is played.
- the audio switch 3 9 includes a time base mode sweep rate Tutsi SW T which is connected to the main PID filter 3 7 Isseki de from main TS read buffer 3 3 is fed, Li for Odo one Doba' file 3 It has a browser pull mode switch SW B connected to an audio PID filter 38 to which data from 4 is supplied, and switches it to supply an audio stream to the transport buffer TB 4. I have.
- the audio switch 39 is located on the side of the browserable mode switch SW B , and in that case, the audio stream is transmitted from the audio TS read buffer 34 to the audio PID.
- the signal is supplied to the audio decoder D4 via the filter 38.
- TBn, MB, EB, 833, 853, 1 ⁇ 11, 10 ⁇ 11, 1 ⁇ 33, 011 and 1) 33 is based on ISO / IEC 13818-1 (MPEG2 Systems standard) It is the same as that defined in T-STD (System Target Decoder). That is, it is as follows.
- TBsys Input buffer for decrypting program system information
- Rx n transmission, single bets which data is removed from TBn
- Rbx n transmission, single bets PES packet payload is removed from MBn (exists only for the video strip's one arm)
- Rx sys Transmission rate at which data is removed from TBsys
- Dsys Decoder for system information of the program being decrypted
- FIGS. 3OA and 30B are block diagrams showing the main player 35 and the audio player 36, respectively.
- R MAX is the pit rate of the source packet stream of the main TS file.
- Arrival time clock counter 42 is a binary counter that counts 27 MHz frequency pulses output from a pulse oscillator (27 MHz X-tal) 43. Then, the arrival time clock counter outputs the count value Arriva at time t (i) and time-clock (i).
- the main TS and the audio TS are composed of a data string in units of a source packet having a transport packet and its corresponding time stamp, and one source packet has one transport port node. ,. It has a packet and its arrival-time-stamp (ATS).
- arrival_time_stamp is a time stamp indicating the time when the corresponding transport packet arrives at the decoder in the main TS or the media TS.
- the time axis created based on the arriving time stamp of each source packet making up each stream is called the arrival time base, and its clock is called ATC (Arrival Time Clock).
- ATC Arriv Time Clock
- the current software packet read from such main TS When the arrival time stamp equals the 30-bit value of the least significant bit (LSB) of arrival—time—clock (i) of the arrival time clock counter 42, the transformer of the source bucket The port packet is output from the source depacketizer 41.
- R TS — m is the bit rate of the main TS.
- the source packet data read from the audio TS read buffer 34 at the preceding stage is input to the source depacketizer 44 at the bit rate RA.
- Bit rate Ichito R A is the bit rate of the source packet stream of O over Do TS file.
- the arrival time clock counter 45 and the pulse oscillator 46 operate in the same manner as the main player 35.
- the source depacketizer section 44 functions in the same manner as the main player 35. That is, &] of the current source packet: 1 "31_ 1116-31 & Immediate Arrival time clock count 45
- the value of arrival-time-clock (i) is equal to the LSB 30-bit value of clock (i).
- transport bucket bets is output from the source one Sudepakketaiza portion 44.
- R TS _ a is the bit rate of the audio TS.
- 3 1 is a shows to view the concept of buffer models browsable mode Slideshow is.
- the main TS is a file of still images
- Playltem refers, when reading from the drive alternately time-division audio TS file referenced by SubPlayltem at a rate R UD, source packet stream of the main TS It needs a bit rate bit rate of the source packet scan bird Ichimu of R MAX and audio TS R a is ensured Therefore, for example, in the still image encoder 14 and the audio encoder 11 shown in Fig. 10, when encoding the main TS and the audio TS, respectively, the upper limit of each bit rate must be limited. No.
- FIGS. 32A and 32B show the bit occupancy of the elementary stream buffer EB (video code buffer) and the bit occupancy of the audio code buffer B4 in the slideshow temporary mode in the browserable mode shown in FIG. 29, respectively.
- Graph showing an example of quantity It is. 32A and 32B, the vertical axis indicates the buffer occupancy of the video code buffer and the audio code buffer, respectively, and the horizontal axis indicates the system time clock STC of the main TS and the audio TS, respectively.
- the start-up delay is defined as the time (t v ) at which the first video packet is input until the I-picture is buffered in the elementary stream buffer EB ( DTS: Decoding Time Stamp).
- the input of the first video packet starts when the user skips to the next slide.
- the slope k EB indicates the input rate to the video buffer EB
- the slope k B4 indicates the input rate of the audio buffer B4 .
- the time during which the slope k EB is zero and the video code occupancy is constant indicates the time during which graphics and sub-image information such as subtitles are being read.
- the video decoder D 1 shown in a subsequent stage of FIG. 29 it is possible to decode a still image in time for a predetermined decoding timing. Also, if it is possible to guarantee that the source packet stream of the audio stream TS is read at the bit rate R A , the audio data is decoded in the audio decoder D 4 shown in FIG. 29 so that the audio data can be decoded in a predetermined decoding time. You can do it.
- FIG. 33 is a schematic diagram showing a model of a method for simultaneously reading the main TS and the audio TS in the slide show of the browser mode.
- main T S and the audio T S are sequentially arranged on the disc.
- main TS and the audio TS are read alternately as follows.
- the data amount X read from the main TS in one read action is the required size of the main TS read buffer 33.
- the data amount Y read from the audio TS in one read action is the required size of the audio TS read buffer 34.
- the following shows the formula for calculating the size required for the main TS read buffer 33 and audio TS read buffer 34.
- y Size required for audio TS read buffer 3 4 amount of data read from audio TS in one read action
- R UD Read bit rate from drive
- R A Bit rate of source packet stream of audio TS
- bit rate of the source packet stream of the main TS R MAX 20 Mbps
- bit rate of the source packet stream of the audio TS R A 64 kbps
- FIG. 34 shows an example of multiplexing an MPEG2 I-picture (intra-frame coded image) into a transport stream.
- FIG. 34 is a diagram showing PlayList, CI ip Information file, and a data structure recorded on a recording medium when an I picture (intra-picture) is used as still image data. . Compared with the case shown in Fig.
- the only difference is that the data format of the still image is I picture (intra-frame coded image), and the relationship between PlayList, EP_map, and transport stream is the same.
- a SubPlayltem indicating an audio playback path may be added to a PlayList indicating a still image playback path.
- the data format of the still image is JPEG and PNG, but any other data format of a still image such as MPEG2 I-picture, GIF, and JPEG2000 may be used.
- the audio may be multiplexed in the transport stream file (still image file) in the same manner as in the case shown in FIG.
- the PAT and PMT which are the system information of the MPEG-2 transport stream, are multiplexed before the packet containing the first byte of the sequence header.
- the bucket containing the PAT is pointed to by EPjnap.
- the I-picture and the graphics and subtitles overlaid on it are transports 1
- the first structure is a structure in which a sequence end code immediately follows one I picture.
- the second structure is a case where a still image is encoded as a video sequence, and a plurality of pictures equal to the playback time of Playltem are encoded. In other words, it has a structure consisting of an I picture, a plurality of P pictures (inter-frame forward predictive coded images), and B pictures (bidirectional predictive coded images) that follow.
- P-pictures and B-pictures are pictures predicted from I-pictures, but still pictures are encoded as video, so P-pictures and B-pictures have no prediction data, and so-called MPEG2 skipped macroblocks. It is encoded using In both the first structure and the second structure, a sequence header is provided before the I picture.
- Playltem for the slide show in the present embodiment and the Playltem for the moving image reproduction described in the above-mentioned conventional example 2 may be mixed in one PlayList. This allows the user to seamlessly enjoy the playback of a moving image and the playback of a still image in the playback of one PlayList.
- a recording apparatus configured in the same manner as the first embodiment can be used. That is, as shown in FIG. 10, the information processing apparatus 1 receives a still image via a terminal 13, and inputs a still image to the still image encoder 14 for encoding the still image via a terminal 10.
- the audio encoder 11 that encodes this, the information about the slide show playback content is input via the terminal 15, and the image attribute information from the still image encoder 14 and the audio encoder 11, respectively.
- audio attribute information, and a controller 16 that generates the PlayList and Clip Information described above, and a PlayList and Clip Information from the controller 16 and supplies them to a recording medium (eg, Blu-ray Disc).
- a recording unit 17 for recording a still image and audio data in a predetermined format on a recording medium.
- the controller 16 sends the information related to the slide show As shown in FIG. 20, when the reproduction start time of each still image is determined in advance, information on the reproduction start time of each still image and its reproduction time (display time) is received. Also, as shown in FIG. 25, when audio is played back in synchronization with such a slide show, the playback start time of the audio signal that is played back in synchronization with each still image and Receive the playback time (display time). Also, as shown in Fig. 21 above, in the case of a slide show in which the playback start time of each still image is not determined and only its playback order is determined, the playback order of each still image and its default Receiving playback time information, and as shown in Fig.
- such a slide show means that in the case of asynchronous audio playback, in addition to the playback order of each still image and its default playback time, the audio Receives information indicating the playback section in one session. Further, the controller 16 is supplied with the playback time (PTS—start) of each image and the corresponding source bucket number (SPN_srt) as image attribute information from the still image encoder 14, and FIG. Create a Clip Iniormatioin corresponding to the indicated EP-map.
- PTS—start the playback time
- SPN_srt source bucket number
- the controller 16 refers to the playback time (PTS-start) of each image described in this Clip Informatioin from the supplied information and creates a PlayList indicating the playback path of the still image and the audio described above. I do.
- an audio data having a table (EP_map for audio) showing a correspondence relationship between the playback time of audio data and the address of the minimum access unit of the audio stream (access point).
- EP_map for audio
- the recording unit 17 records the Clip Iniormatioii and Play Item on the recording medium 18 and records data according to the information.
- FIG. 37 is a flowchart illustrating a PlayList creation method in the recording operation of the information processing apparatus according to the present embodiment.
- the still image encoder 14 encodes a still image supplied via the terminal 13 to generate image data, supplies the image data to the recording unit 17, and supplies the image attribute information to the controller 16.
- the audio encoder 11 encodes audio data supplied via the terminal 10. The audio stream is generated by encoding and supplied to the recording unit 17, and the stream attribute information is supplied to the controller 16.
- the controller 16 acquires the reproduction content of the slide show (step S21). That is, as described above, when the slide show and the audio are AV-synchronized, information on the reproduction start time and reproduction time of each still image and the reproduction time of the audio reproduced in synchronism with this is transmitted to the terminal. Receive via 1-5. Also, when the slide show and the audio are not AV-synchronized, information on the playback order of each still image, its default playback time, and the playback time of the video are received via the terminal 15.
- the controller 16 receives image attribute information such as EP-map from the still image encoder 14 (step S22), and receives audio stream attribute information such as EP_map for audio from the audio encoder 11 (step S23). ). Then, the controller 16 creates Clip Information as ancillary information on the transport stream file (still image file) according to the image attribute information (step S24). That is, the reproduction time (PTS-start) of the image reproduced in the slide show and the corresponding source packet number (SPN_start) are registered in the EP-map.
- image attribute information such as EP-map from the still image encoder 14
- audio stream attribute information such as EP_map for audio from the audio encoder 11
- the controller 16 creates Clip Information as ancillary information on the transport stream file (still image file) according to the image attribute information (step S24). That is, the reproduction time (PTS-start) of the image reproduced in the slide show and the corresponding source packet number (SPN_start) are registered in the EP-map.
- a PlayList indicating the playback section (playback path) of the slide show is created based on the supplied external information, and A play list indicating the audio playback path is created (step S25). Further, the controller 16 instructs the recording unit 17 to record the Play List and the Clip Information.
- the recording unit 17 records the Play List and Clip Information created by the controller 16 on the recording medium 18 and also records the image data and audio data generated by the still image encoder 14 and the audio encoder, respectively. Record the evening on a recording medium. At this time, the recording unit 17 records the transport stream file (still image file) so as to be continuously arranged on the recording medium 18.
- one or more still images are collectively managed as one transport stream file (still image file), and each file included in this file is managed.
- Manage still images EP-ma information is managed as Clip Information, and Playltem that specifies playback of each still image in the slide show is used. Therefore, it is possible to record data for realizing a slide show while maintaining compatibility with the moving image recording device described in Conventional Example 2 and the like. That is, a transport stream file of a still image is prepared instead of an AV stream file of a moving image.
- a Clip Information file for referencing the still images in this transport stream file is prepared, and its playback is specified by PlayList, so that it can be shared with Clip (Information file), PlayList, etc. in the video data format. Can be achieved.
- the information processing device as a recording device can also be configured in the same manner as in the first embodiment. That is, as shown in FIG. 14, the information processing device 20 includes a reading unit 21 for reading data from the recording medium, and a controller 22 to which the PlayList and ClipIniormaUon read by the reading unit 21 are supplied. A still image decoder 23 and an audio decoder 26 to which the still image data and audio data read by the reading unit 21 are supplied, and a frame buffer 24 for temporarily holding the decoded still image, respectively. And a processor 25 for controlling reproduction of a still image.
- the controller 22 obtains the IN-Ume of the still image data to be reproduced with reference to the PlayList, and causes the still image decoder 23 to read out the still image elementary data indicated by the obtained IN-time of the obtained still image data. And decrypt.
- the reproduction time of the still image to play slide Dosho one that is set to infinite the the controller 22, the user - Inta - is supplied instruction from the user via the face 2 7, the user With the timing of the instruction from the user, the IN-time of the next still image to be reproduced next can be acquired and the reading operation can be performed. If there is no instruction from the user, when the playback time of the still image described in the PlayList has elapsed, the IN-time of the next still image to be played is acquired and the read operation is performed. .
- the controller 22 obtains the playback time of the audio data to be played back with reference to the Play List, and obtains the audio playback time.
- the address of the audio stream corresponding to the reproduction time is acquired, and the reading unit 21 is instructed to read the corresponding audio data.
- FIG. 38 is a flowchart showing a reproducing operation in the information processing apparatus according to the present embodiment.
- the PlayList and Clip Information are read by the reading unit 21 and supplied to the controller 22.
- the controller 22 acquires the IN-time for identifying the still image of the PlayItem indicating the playback path of the still image of the PlayList (step S31).
- the controller 22 identifies the still image file indicated by the IN-time of the still image with reference to EPjnap of the Clip Information, and reads the still image file from the transport stream file by the reading unit 21. (Step S32).
- the controller 22 obtains the audio playback time according to the PlayItem indicating the audio playback path in the PlayList (step S33). Then, by referring to the CI ip Information of the sub audio stream (Auxiliary audio stream), address information for starting decoding of the stream in the audio stream file is obtained, and a reading unit is obtained based on the information. 21. Control is performed so that the audio data is read from the audio stream file (step S34).
- the still image decoder 23 decodes the still image data read in step S32 (step S35), and inputs the decoded image to the frame buffer 24.
- the audio decoder 26 decodes the audio data read out in step S14 (step S36) and outputs the decoded audio.
- the controller 22 issues a predetermined instruction to the processor 25, and the frame buffer 24 reproduces the stored image at a predetermined timing according to the instruction (step S37).
- step S31 at the next timing xl or X2, the controller 22 acquires the IN_time of the still image of Playltem to be reproduced next. That is, when the default playback time of the still image of the Playltem currently being played has elapsed This is the timing X2 at which the instruction to switch the still image is received from the user x1 or the user interface 27.
- the controller 22 ends the reproduction of the PlayList.
- the controller 22 performs the above-mentioned timing xl, that is, the next time after the finite defaul of the play item and the duration elapses.
- the INjime of the still image of Playltem to be reproduced is read, and the reading of the corresponding still image can be instructed to the reading unit 21.
- the infinite default-duration is set as shown in FIG.
- the above-mentioned timing X2 that is, the still image from the user or the like In the evening of the switching instruction, the IN_time of the still image of Playltem to be reproduced next can be read, and the reading of the corresponding still image can be instructed.
- the present invention is not limited to only the above-described embodiment, and it is needless to say that various changes can be made without departing from the gist of the present invention.
- the recording device and the reproducing device are recorded as separate devices, but the recording and reproducing device may be used.
- the hardware configuration has been described.
- the present invention is not limited to this.
- an information processing apparatus can be realized by executing a computer program.
- the computer program can be provided by being recorded on a recording medium, or can be provided by being transmitted via the Internet or another transmission medium.
- INDUSTRIAL APPLICABILITY As described in detail above, an information processing apparatus according to the present invention provides attribute information creating means for creating image attribute information for managing each still image of a still image group including one or more still images. Playback control information creating means for creating playback control information indicating a playback path designating playback of at least a part of the still image group; the still image group; and the image attribute information and playback control corresponding thereto.
- the reproduction control information creating unit includes the image attribute information. Since the above-described reproduction control information is created by using, the image attribute information and the reproduction control information are recorded separately from the still image group on the recording medium. The image attribute information and the reproduction control information are read out first, and each still image of the still image group can be generated in a predetermined order, so that continuous reproduction of the still images (so-called slide show) can be easily realized.
Abstract
Description
Claims
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EP03777314.0A EP1575288B8 (en) | 2002-12-18 | 2003-12-05 | Information processing device, information processing method and program, and recording medium |
EP13004414.2A EP2675156B1 (en) | 2002-12-18 | 2003-12-05 | Information processing apparatus, information processing method and recording medium |
CA2476550A CA2476550C (en) | 2002-12-18 | 2003-12-05 | Information processing apparatus, information processing method and recording medium |
KR1020047012724A KR101030697B1 (ko) | 2002-12-18 | 2003-12-05 | 정보처리장치, 정보처리방법 및 프로그램과, 기록매체 |
US10/503,129 US8064746B2 (en) | 2002-12-18 | 2003-12-05 | Information processing device, information processing method and program, and recording medium |
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US13/240,744 US20120014676A1 (en) | 2002-12-18 | 2011-09-22 | Informatiion Processing Apparatus, Information Processing Method and Recording Medium |
US13/243,568 US8942546B2 (en) | 2002-12-18 | 2011-09-23 | Information processing apparatus, information processing method and recording medium |
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EP1678713A1 (en) * | 2003-10-15 | 2006-07-12 | Lg Electronics Inc. | Recording medium having data structure for managing reproduction of auxiliary presentation data and recording and reproducing methods and apparatuses |
CN100440199C (zh) * | 2004-12-27 | 2008-12-03 | 索尼株式会社 | 信息处理设备和方法 |
US7729595B2 (en) | 2003-07-25 | 2010-06-01 | Lg Electronics Inc. | Recording medium having a data structure for managing reproduction of text subtitle data recorded thereon and recording and reproducing methods and apparatuses |
US7729594B2 (en) | 2004-03-18 | 2010-06-01 | Lg Electronics, Inc. | Recording medium and method and apparatus for reproducing text subtitle stream including presentation segments encapsulated into PES packet |
US7769277B2 (en) | 2003-07-24 | 2010-08-03 | Lg Electronics Inc. | Recording medium having a data structure for managing reproduction of text subtitle data recorded thereon and recording and reproducing methods and apparatuses |
US8032013B2 (en) | 2003-10-14 | 2011-10-04 | Lg Electronics Inc. | Recording medium having data structure for managing reproduction of text subtitle and recording and reproducing methods and apparatuses |
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CA2476550C (en) | 2015-03-31 |
US20120014677A1 (en) | 2012-01-19 |
EP1575288B8 (en) | 2014-07-23 |
CA2476550A1 (en) | 2004-07-01 |
TW200425739A (en) | 2004-11-16 |
CA2802364C (en) | 2015-01-27 |
US8064746B2 (en) | 2011-11-22 |
EP2675156A2 (en) | 2013-12-18 |
KR20050083554A (ko) | 2005-08-26 |
CA2802371A1 (en) | 2004-07-01 |
EP2675156B1 (en) | 2019-07-03 |
AU2003289220A1 (en) | 2004-07-09 |
CA2802371C (en) | 2015-01-13 |
CA2802364A1 (en) | 2004-07-01 |
EP1575288A1 (en) | 2005-09-14 |
EP2675155A3 (en) | 2014-12-24 |
US20050201718A1 (en) | 2005-09-15 |
EP1575288A4 (en) | 2010-07-07 |
KR101030697B1 (ko) | 2011-04-26 |
US8942546B2 (en) | 2015-01-27 |
EP1575288B1 (en) | 2014-03-19 |
TWI246329B (en) | 2005-12-21 |
JP2004336566A (ja) | 2004-11-25 |
JP3815458B2 (ja) | 2006-08-30 |
EP2675156A3 (en) | 2014-12-24 |
EP2675155B1 (en) | 2018-02-07 |
US20120014676A1 (en) | 2012-01-19 |
EP2675155A2 (en) | 2013-12-18 |
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