Patent Application
20100014837
1. Field of the Invention
The present invention relates to an information storage medium (or an information recording medium), an information reproduction device, and an information reproduction method.
2. Description of the Related Art
As such an information storage medium, there has been an optical disk called a digital versatile disk (DVD) capable of reproducing digital information using a focused light. Standards of the current DVD include read-only DVD-ROM standards, write-once DVD-R standards, rewritable-type (about 10000 times) DVD-RW, and rewritable-type (10000 times or more) DVD-RAM standards. Any standards have format standards which define a data structure recorded on an optical disk (information storage medium) of video information (video data, sub-picture data, and audio data, generically referred to as video objects) itself, and a data structure of management data for managing video information.
The read-only current DVD video standards simultaneously deal with a large number of languages, and multi-scene representation is possible such as multi-angle and multi-story. Additionally, there are varieties of menu screens, it is easy for users to directly access desired scenes, and the standards have formats capable of providing video content which is easily used by the users (see U.S. Pat. No. 5,636,200, and Japanese Patent No. 2,677,775, for example).
As described above, the read-only current DVD video standards have the formats capable of the video content easily usable by the users, but there has been a demand for improvements of the standards in order that the users may further easily use the content and content representing power may be further enriched for the users.
Moreover, there is a problem that authoring (preparation and edition of programs to be recorded in the DVD video disk) is complicated in order to provide the content easy to use by the users.
Parts of the current DVD video standards lacking in content representing power for the users, and parts difficult for the users to use or parts which are complicated in the authoring for providing the content easy to use by the users will be specifically listed.
[1] Difficult for the user to use.
Alternatively, the authoring has been complicated in order to prepare the content easy to use by the users.
(A) Disadvantages with respect to a reproduction start position at a time when reproduction of a title is interrupted halfway to perform another processing, and the reproduction of the title is restarted.
(A1) The reproduction of video is interrupted, display is switched to menu or another video, and the reproduction cannot be restarted from the interrupted position.
The reproduction of a specific video title is interrupted halfway during the reproduction to switch to the menu screen, bonus content is then reproduced halfway or to the end, and afterwards the video title interrupted halfway is to be reproduced. However, the content prepared by conventional DVD video standards cannot be reproduced only from a start position of the video title in many cases. This is because resume information (reproduction interrupted position information) of the previous specific video title is rewritten into position information of the bonus content in a stage in which the reproduction of the bonus content is started. A complicated authoring process is required in order to obtain the content such that the reproduction can be started from the interrupted position of the previous video title after the bonus content is reproduced halfway or to the end.
(A2) The reproduction cannot be started from a good place to start, when a game is to be resumed after the interruption of the reproduction in the game or the like.
In case of the “game” (e.g., role playing game) instead of the above-described video as the specific title, there is a request from a content provider that the game is to be started from an end of a chapter of the game, not from an interrupted position in a case where the game is resumed after returning to the menu screen. However, this request cannot be satisfied with the current DVD video standards.
(B) There is a portion difficult to use concerning language setting for display.
(B1) A menu description language code cannot be changed with a command which can be designated in the content, and the authoring is complicated.
In the current DVD video standards, the menu description language code M_LCD is set into SPRM(0) (0-th system parameter: 16 bits) of navigation data, and the value is stored in the memory of the information reproduction device. In the current DVD video standards, a command for changing the value of SPRM(0) does not exist in a command list which can be set in the content, and it is possible to change the value of SPRM(0) only by user designation under a special condition. Specifically, the value of SPRM(0) can be changed using a user operation function called Menu_Language_Select ( ) in user functions arranged in the information reproduction device, but there is a restriction that the user operation called Menu_Language_Select ( ) can be set only during the stopping of the operation of the information reproduction device. A screen for exclusive use is displayed to set the user operation using a remote controller.
The value of SPRM(0) cannot be changed with the command which can be set in the content in this manner. Therefore, a screen for selecting the menu description language code needs to be prepared with respect to a plurality of menu description language codes in the content (especially VOB data on menu information) so that any setting of the value of SPRM(0) can be handled. The authoring operation at the time of preparation of the content has been very difficult.
(B2) There is a danger that menu description language code information set by the user is deleted.
For example, supposing that a command capable of changing the value of SPRM(0) is newly added in order to solve problem (B1). Then, even when the user carefully sets a specific menu description language code (e.g., set Japanese to SPRM(0)), there is a danger that the value of SPRM(0) is automatically changed by the reproduction of the content. When the menu description language code is automatically changed by the command, the user feels dissatisfied. Additionally, a necessity to set the menu description language code again by the user is generated, and this causes a problem that burdens on the user increase.
[2] There is a place where a content representing power for the user is lacking.
(C) Disadvantage concerning seamless reproduction with respect to a still picture
(C1) A seamless reproduction between a moving picture and still picture is not possible with the current DVD video content.
The current DVD video assures the seamless reproduction of the moving picture (Movie Content), and connection/reproduction is seamlessly possible between different VOBs (or different titles) (without interrupting the screen of the moving picture halfway). On the other hand, for example, when the still picture displayed in a slide show (one display method with respect to the still picture, in which the displayed still picture is automatically switched) is switched to the moving picture, the seamless reproduction is not assured, and video or audio stands still halfway depending on the information reproduction device in some case. Reasons why the seamless connection is not assured at a time of the switching to the moving picture from the still picture with the current DVD video content are as follows.
i) In an extended system target decoder (E-STD) in which the seamless reproduction is assured, an access unit is defined in a moving picture object, and the values of a system time clock (STC: a clock value forming a standard) set to a separation unit, video decoder unit, sub-picture decoder unit, and audio decoder unit are switched in a boundary position of the access unit. On the other hand, the access unit cannot be defined with respect to the still picture in the current DVD.
That is, a picture continues to be output constantly continuously by a field unit of the moving picture, whereas the picture is only intermittently output in the still picture displayed, for example, in the slide show. In a data structure in a still picture object, a sequence end code (sequence_end_code) is arranged immediately after an I picture (intra picture) constituting a still picture in accordance with standards of moving picture experts group 2 (MPEG2). In the video decoder unit, when this sequence end code is detected, the decoding is stopped until the next I picture is input. Therefore, in the conventional DVD video, the access unit such as the moving picture cannot be set in a timing period in which the still picture is intermittently output.
ii) Switching between common parities has been permitted as a switching timing between the still pictures in the conventional DVD video. That is, after the previous still picture ends in a top field (or a bottom field), the next still picture is permitted to be started from the top field (or the bottom field). Therefore, when the still picture is switched to the moving picture halfway in a frame, the seamless connection is not performed, and there is a danger that the screen is disturbed at a switching end.
(C2) Multi-angle reproduction in which the still pictures are combined or multi-angle reproduction between the moving picture and still picture cannot be performed.
In the current DVD video, it is difficult to perform the multi-angle reproduction in which slide shows of still pictures (still picture content) are combined or the multi-angle reproduction in which the slide show of the still pictures is combined with the moving picture. When multi-angle reproduction handling content is forcibly prepared, the seamless reproduction is not assured with respect to the still picture. Therefore, multi-angled still pictures cannot be continuously reproduced (the still picture is stopped halfway without being continuously switched), or the screen stops halfway without being smoothly switched at the switching end between a screen of multi-scene and that of one sequential scene. In the moving picture, an interleaved unit (ILVU) is defined in which scattered arrangement is performed for each angle in an interleaved block, whereas the definition of the ILVU with respect to the still picture is not clarified in the current DVD video. A period until the switching of the screen is long in the still picture (the same still picture continues to be reproduced for a long time), and therefore there has not been a mechanism capable of displaying the corresponding still picture immediately after angle switching at present. Furthermore, as described in (C1), on detecting the sequence end code arranged immediately after the I picture corresponding to the still picture, a decode process of the video decoder unit is temporarily stopped until the next I picture comes. Therefore, the arrangement of the sequence end code is prohibited in video data in a cell constituting the interleaved block in the current DVD video standards.
(D) The seamless reproduction is not assured in VOB where the command by a cell unit is included.
In the DVD video of the current standard definition (SD), it is possible to designate the command by the cell unit in a program chain (PGC). This command information is recorded in a cell command region in program chain information (PGCI) which is a region where management information of the PGC is recorded. The cell command is executed at the time of the ending of the reproduction of the cell in which this cell command is set. Therefore, the reproduction of the next cell can be temporarily interrupted. Therefore, the seamless reproduction between the cells is not assured at the playback time of VOB including the cell command in the current SD DVD video.
(E) Disadvantage on highlight information
(E1) There is a deviation of a display period (set period) between highlight information and sub-picture.
A menu of the highlight information is displayed at the playback time of a video title image, and content can be prepared in such a manner that the user can perform an interactive operation. In this case, it is necessary to switch the highlight information or to change the content of the highlight information in accordance with the content of the video title image being reproduced, and therefore precision of a display period or executable period of the highlight information is important. In the DVD video content of the conventional SD, a button displayed in the screen comprises a combination of two types of different streams of a sub-picture stream presenting the image of the button and a video stream including the highlight information required for executing the command designated by the button.
The effective executable period of the highlight information is determined by time information of start and end (PTM: presentation time), and completely coincides with a display period of the sub-picture for use mainly in subtitles. There is a problem that menu selection ends, when the sub-picture ends. Therefore, when a content maker is to prepare the content of the subtitles simultaneously combined with the menu, there are restrictions as to the preparation of the content. For example, the user has to select the menu within an effective (display) period of the sub-picture. The content maker cannot prepare the content as imaged, a degree of freedom is limited, and the content supplied to the user are forced to be limited.
(E2) A selection item image of the menu is not multicolored.
Since only a combination of 16 colors can be represented in the current SD DVD video content, a degree of appeal to the user is low, and multicolored representation cannot be performed.
(E3) A designated region of the highlight information cannot be set to a shape other than a rectangular shape.
The shape other than the rectangular shape cannot be set as the designated region of the highlight information in the DVD video content of the current SD, and it has not been possible to prepare the content having varieties of highlight information such as a triangular shape and a star shape.
(E4) The same button cannot be set with respect to a plurality of regions distant from one another on the screen.
The same button can be set only in an integrated region in the DVD video content of the current SD.
On the other hand, it is easy to link the same URL to a plurality of regions in the screen of PC or a homepage screen of internet, and the current SD DVD video content has been inferior to the PC screen or the homepage screen of internet.
(F) There is a problem that a background music discontinues at the switching time of the menu screen.
In the current SD DVD video content, audio information (background music) at a menu screen display time is attached to each menu. Therefore, every time the menu screen changes, the audio information accordingly changes.
The DVD video content of the current SD cannot satisfy a content provider's request that the background music is to be reproduced continuously without being interrupted, even when the menu is switched.
In this manner, the conventional DVD video standards have been required to be improved so that the user can further easily use the content, and the content representing power to the user is further enriched.
Moreover, to provide the content easy to use by the user, there is a problem that the authoring (preparation and edition of the program to be recorded in the DVD video disk) is complicated.
According to an embodiment of the present invention, a representing power of read-only DVD video content to a user is enhanced, and it is possible to prepare content easy to use by the user by comparatively easy authoring. As a result, there can be provided a data structure based on format standards capable of enhancing an appeal of a DVD video to the user, an information storage medium in which the data structure is recorded, and an information reproduction device capable of reproducing the information storage medium.
According to an embodiment of the invention, an information storage medium records contents and sets for each of the contents a resume permission flag indicating whether or not reproduction resume is permitted by a reproduction resume command or a command of a reproduction device executed based on a user operation.
According to an embodiment of the invention, an information reproduction device comprises:
means for reproducing information from an information storage medium; and
means for recording resume information indicating an interrupted place at a time when reproduction by the reproducing means is interrupted, and holding the resume information until a control instruction comes with respect to a next resume information.
According to another embodiment of the invention, an information reproduction device reproduces information from an information storage medium which records contents and capable of recording a resume sequence to be executed immediately before resuming the reproduction, after interrupting reproduction of the contents, in reproduction control information of each content, the information reproduction device comprises:
means for determining presence/absence of the resume sequence at a time of resuming the reproduction; and
means, when there is not any resume sequence, for resuming the reproduction from an interrupted place based on resume information indicating the interrupted place, and when there is a resume sequence information, for resuming the reproduction from a place designated by the resume sequence information.
According to still another embodiment of the invention, an information reproduction method reproduces information from an information storage medium which records contents and capable of recording a resume sequence to be executed immediately before resuming the reproduction, after interrupting reproduction of the contents, in reproduction control information of each content, the information reproduction method comprises the following steps of:
determining presence/absence of the resume sequence at a time of resuming the reproduction; and
when there is not any resume sequence, resuming the reproduction from an interrupted place based on resume information indicating the interrupted place, and when there is a resume sequence information, resuming the reproduction from a place designated by the resume sequence information.
An embodiment of the present invention will be described hereinafter with reference to the drawings. First, whole subject matters of the present invention will be surveyed, and a relation between the subject matters will be described. Next, points concerning “resume information control” which is a main subject matter noted in the present specification will be described, and then specific embodiments will be described.
In the present specification, video data, sub-picture data, audio data, and graphic data are generically referred to as a video object, and the video object and video object management information are generically referred to as contents. To clarify differences, conventional DVD video content will be referred to as standard definition (SD) content, and content which is an object of an embodiment of the present invention having the following subject matter (A) to (F) will be referred to as high definition (HD) content.
[1] A problem that the content is difficult to use by a user or that authoring is complicated in preparing the content easy to use by the user is solved.
(A) Interrupted Position Information Control Method at Title Interruption Time
Storage/discharge rules in resume information are changed with respect to the current DVD video standards, and rewrite/change prohibition/discard process of contents of resume information recorded in a memory 122 of an information reproduction device shown in
When the resume information to be recorded in the memory 122 of the information reproduction device is rewritten, the information is held until a control instruction comes with respect to the next resume information. For example, in conventional DVD video standards, there has been a rule of deletion of contents of the resume information in a case where a JumpTT, JumpVTS_TT, or JumpVTS_PTT command is executed. This is changed in the present invention. Even after the above-described command is executed, the contents of the resume information are held, and a part of the problem described in (A1) is solved.
As measures against the problem shown in (A1), as shown in
For example, when the resume information is prohibited from being updated with respect to the PGC including bonus content in an example described in (A1), the resume information with respect to a specific video title interrupted before is held as the resume information recorded in the memory 122 of the information reproduction device (details will be described later in detail).
As the measures against the problem described in (A2), as shown in
When there is not any resume sequence information, the reproduction from the interrupted position is started based on the resume information.
If there is the resume sequence information, the reproduction is started from a place designated by the resume sequence information.
For example, as the measures against the problem described in (A2), a command to rewrite “position information of stop of game” into the resume information is set in the resume sequence information recorded in the program chain command table (PGC_CMDT) 51. Accordingly, immediately after returning from the menu screen, the reproduction can be started from the stop of the game (detailed contents will be described later).
A cell number which is information indicating a position where the reproduction has been interrupted; address information of a navigation pack arranged in a start position of a cell; PGC reproduction control situation; video title set (VTS) number; a title number TTN in a title domain (the value of the title number is stored as that of SPRM(4) as shown in
In an arrangement place of information for managing the resume information, in the first embodiment, as shown in
Moreover, in another embodiment (second embodiment), as shown in
Moreover, in the resume sequence information indicating the command string (continuous link order of the commands) executed immediately after returning to the PGC of the title as described in [Point 4] concerning the subject matter (A) which solves the problem of (A2), as shown in
The RSM permission flag (update permission flag of the resume information) indicates whether or not the content of the resume information is updated in a stage in which the reproduction of the corresponding HDVTS_PGC is started (the resume information is successively updated in accordance with reproduction situation of the corresponding PGC). That is, when the flag is “0b”, the resume information is updated. When the flag is “1b”, the resume information is not updated, and a process of holding the reproduction interrupted information of HDVTS_PGC (corresponding program chain in the video title set of the present invention) reproduced before is performed.
In the specific data structure in the RSM command (RSM_CMD) 514, as shown in
(B) Language Setting for Display
To solve the problem described in (B1), a screen in which a menu description language code can be set in the content is provided. Specifically, the setting of the menu description language code is allowed to be possible with first play PGC (FP_PGC) which can be first displayed immediately after the insertion of the information storage medium. To deal with the content capable of setting the menu description language code in the selection on the screen by the user, FP_PGC is set to have a video object (VOB), and this VOB is assumed to be usable only in a language selection menu.
When the content supports only a language or when the content automatically takes over the value of the current menu description language code, FP_PGC does not have the VOB for the menu screen in some case. In an example of the content which automatically takes over the value of the menu description language code, there is an embodiment in which the value of SPRM(0) owned by the information reproduction device is automatically compared with the language supported by the HD DVD video content, and the menu description language code is adapted to the value in case of agreement. In this case, the resume sequence information which is a command process sequence to be automatically compared is recorded in first play program chain information (FP_PGCI:
Furthermore, as a restrictive condition on the FP_PGC, a structure capable of holding one or less cell is constituted (one cell is defined when there is VOB; when the content which does not have a screen for selecting the menu description language code do not have any VOB, any cell is not included in FP_PGC). This FP_PGC permits only sequential reproduction of the program, and a parental block structure or a multi-scene structure is prohibited. Furthermore, the use of only one audio stream (one or zero) is permitted as a usable stream in the FP_PGC, further the use of sub-picture stream is prohibited, and, instead, the use of the graphic unit GU described later is introduced.
Therefore, in the embodiment of the present invention, screens for selecting the menu description language code do not have to be prepared in accordance with a plurality of menu description language codes, and an authoring operation at the time of preparation of the content is simplified. As a result, since an authoring operation time is shortened, the selling prices of the content can be reduced.
To solve the problem described in (B1), a new SetM_LCD command is defined as described later. The value of SPRM(0) can be changed by this SetM_LCD command. This SetM_LCD command is included in the command region of SetSystem as described later, and is usable only in FP_PGC. As a specific command content, the value of SPRM(0) is set as a language code by a general parameter or a specific value which can be designated in SetM_LCD.
To solve the problem described in (B2), as shown in
Moreover, the meaning of SPRM(0) is changed to a storage place of “current menu language being reproduced”. This SPRM(0) can be changed/set both by the user and by the command in the content. As a result, even when SPRM(0) is changed by the command described in (B2), the menu description language code set by the user can be held, and any discomfort or excessive burden is not applied to the user.
To describe a relation between SPRM(0) and SPRM(21), an example of the operation immediately after the insertion of the information storage medium into the information reproduction device (player) will be described. First, the value of the initial setting menu language SPRM(21) which is the menu description language code set to the information reproduction device by the user is copied to SPRM(0) before executing the process of the first play PGC (FP_PGC).
When the SetM_LCD command exists in FP_PGC, the value of SPRM(0) can be changed in accordance with the command, but in order to avoid the problem of (B2), the value copied from SPRM(21) is preferably held as the value of SPRM(0). If SPRM(0) is rewritten into a value different from that of SPRM(21) by the SetM_LCD command in the content recorded in the information storage medium, the value of SPRM(21) is held. Therefore, when another information storage medium is next inserted, the value of SPRM(0) is automatically rewritten to that of SPRM(21). Therefore, after the next information storage medium is inserted, the problem of (B2) is avoidable. For example, when VOB for the menu does not exist in FP_PGC, and exists in an HD video manager menu language unit (HDVMGM_LU) 312c shown in the language selection menu in
Regions in which system parameters SPRM “0” to “21” are stored as shown in
As shown in
As shown in
[2] Place where a content representing power to the user is lacking
(C) Seamless Reproduction of Still Picture
Seamless connection between moving pictures is assured even in the conventional DVD content. Therefore, to solve the problems described in the above (C1) and (C2), even in the video object set (VOBS) in which the still picture is recorded, the contents of VOB are defined by the same image as those of VOBS in which the moving picture is recorded. Accordingly, the seamless connection (C1) from the still picture to the moving picture in the same manner as in the seamless connection between the conventional moving pictures and the multi-angle reproduction (C2) of the still picture can be assured.
A concrete method for realizing a way of thinking in [Point 1] will be described hereinafter. To apply an extended system target decoder (E-STD) which assures the seamless reproduction, an “imaginary access unit” is set in a period between I pictures in which the still picture is recorded. In a method of setting the access unit, in the embodiment of the present invention, an interval between I picture and the next I picture to start the still picture by a unit of a period of a video frame or a period integer times the period of the video frame is imaginarily and finely time-divided for each period of the access unit. Moreover, the information reproduction device is imaginarily regarded as a device in which the still picture is repeatedly reproduced/displayed for each imaginary access unit. A decoding time stamp (DTS) indicating a timing at which the still picture is input into a decoder and a presentation time stamp (PTS) indicating a timing at which the still picture is displayed are set beforehand for each still picture. A video frame period is determined by a national television system committee (NTSC) system and a phase alternation by line (PAL) system, and therefore the timing of a boundary position of the “imaginary access unit” can be easily calculated. The problem of (C1) is solved even with respect to the still picture by setting the access unit. That is, the values of STC set in a separation unit 103, video decoder unit 111, sub-picture decoder unit 112, and audio decoder unit 114 shown in
When the seamless reproduction/connection to the moving picture from the still picture is assured, the user can comfortably enjoy the content, and further the representing power of the content provider to the user is enhanced. Moreover, the seamless connection/display to the moving picture from the still picture is possible only by the change in an imaginary definition without substantially changing the object structure of the conventional DVD video. Therefore, a most part of an authoring tool of the conventional DVD video is usable, and a rise in medium price in producing the present invention can be minimized.
As one of the points for solving the problem of (C1), definition (restriction) with respect to the VOBU including the still picture is modified in accordance with the contents of [Point 2] as follows. That is, as shown in
In
Moreover, the same VOBU has a structure in which VAU is surely (imaginarily) arranged before IVAU. By the structure in which VAU is (imaginarily) arranged in the start position of the VOBU, when the moving picture is switched to the still picture, it is possible to decode the I picture in the VAU at a high rate, and the seamless reproduction to the still picture from the moving picture is possible.
In
As means for solving the problem of (C2), the IVAU is imaginarily defined with respect to a still picture object, and it is further possible to dispose still picture data (still picture object) into an interleaved unit (ILVU) by the following method. That is, a restriction that “the sequence end code is prohibited from being arranged in the video data in the cell constituting the interleaved block (ILVB)” in the current DVD video as described in (C2) is relaxed. Moreover, when the VOB is used in ILVU, the reproduction period in one VOBU is set to be integer times that of the video frame with respect to the VOB including one or more sequence end codes, and a restriction is imposed that each VOBU has only one I picture as the video data or is structured not to have any video data. Furthermore, one sequence end code is arranged in the VOBU including the I picture, and the video data (I picture in which the still picture is recorded) is surely arranged in the first VOBU in ILVU. Immediately after the angle is switched by user instruction or the like, the start position of the ILVU having the corresponding angle is surely accessed.
Therefore, when the video data is surely arranged in the first VOBU of ILVU, a time can be shortened until the display of the still picture at the angle switching time.
The still picture data in which the imaginary access unit is defined is recorded in a video object region for title (HDVTSTT_VOBS) 43 in
The management information to manage the still picture data in which the imaginary access unit is defined exists in an HD video title set information region (HDVTSI) 41 of
(D) Seamless Reproduction of Cell Including Cell Command
[Point 1]
The seamless reproduction between the cells having cell commands is not assured in the conventional SD DVD video, whereas the seamless reproduction between the cells is assured even with respect to the cells which execute the cell commands in a case where there is not any branching point as in multi-angle. That is, the video reproduction of the next cell is started as continuously as possible as long as there is not any branching point as in the multi-angle in the video reproduction (even when the cell command is executed). As means for realizing this reproduction, a physical arrangement of contents or the like is devised in such a manner that the reproduction of the next cell can be started within 0.5 second after completion of the reproduction of the previous cell.
Moreover, the following is clearly described in the management information of the object (video data) concerning a place where the seamless reproduction between the cells is assured with respect to the cell in which the cell command is to be executed. Although not shown, a seamless reproduction flag, interleaved arrangement flag, STC discontinuous flag, and cell reproduction mod information exist in cell category information (C_CAT) in cell playback information (C_PBI) 530 shown in
Even with respect to the cell in which the cell command is to be executed, concerning a place where the seamless reproduction between the cells is assured, it is set with respect to the seamless reproduction flag that “the cell should be seamlessly reproduced”, it is set with respect to the interleaved arrangement flag that “the flag exists in a continuous block”, it is set with respect to the STC discontinuous flag that “the resetting of STC is unnecessary”, and “continuous reproduction” is set to the cell reproduction mode.
In the conventional SD DVD video, one command is selected and executed from a set of cell commands at the end of the reproduction of each cell. However, the restriction is abolished, and the execution of the cell command is not necessarily limited to the execution at the end of the reproduction of the cell. The execution of the cell command with respect to the cell is not limited to one command, and a plurality of commands can be sequentially executed. That is, as shown in
As shown in
(E) Measure against Unmatched Highlight Information and Sub-Picture
To solve the problem of (E1), an independent stream “graphic unit” is newly defined, both the highlight information and the graphic data (heretofore arranged in the “sub-picture”) are simultaneously arranged in the graphic unit, and the sub-picture information is separated. Accordingly, as described in the above (E1), a content maker can prepare the content as imaged without being influenced by the display period of the sub-picture information, a degree of freedom is enhanced, and, as a result, variety of contents can be presented to the user.
Moreover, five types of graphic units can be set in accordance with 16:9 HD image, 16:9 SD image, 4:3 SD image, letter boxed SD image, and pan scan SD image, and five types of sub-stream IDs can also be set for the respective types.
The highlight information is recorded in PCI recording region in the navigation pack in the conventional SD DVD video content, whereas the recording position of the highlight information is shifted into the graphic unit and 24 buttons at maximum can be simultaneously set in one screen in the HD DVD video content of the present invention. With respect to each button, 256 colors at maximum can be designated, it is possible to change the color by the highlight at the selection time. Furthermore, mixing of contrasts up to 256 gradations can also be represented.
To solve the problem described in (E2), instead of increasing the number of colors with respect to the conventional sub-picture stream, the number of usable colors is set to 256 (color representation by eight bits) with respect to the graphic data in the “graphic unit”. As a result, it is possible to display a graphic unit image having bright colors to the user, a display impact to the user is enhanced, and the user can easily select the menu.
To solve the problem described in (E3), the graphic data and mask data are arranged in the “graphic unit”, display patterns of both the data can be set in a bit map form, and accordingly an optional shape can be set. As a result, it is possible to prepare a star-shaped or elliptic highlight information designated region (optional button shape), and there can be provided a screen much more attractive than that of the DVD content of the conventional SD.
To solve the problem described in (E4), the mask data is arranged in the “graphic unit”, and it is possible to simultaneously set a plurality of regions (hot spots) apart from one another in the screen as the mask data. That is, masking data can be superposed upon and set to the respective buttons of the highlight information. As a result, there can be provided a menu screen which is not inferior to the PC screen including the same URL settable with respect to a plurality of regions apart from one another in the screen or to the homepage screen of internet and which is easy to use by the user.
The graphic units can be recorded in the following four places.
(1) The information is integrated in an HD_FPPGC.HDV file of
(2) The information is integrated in an HD_VMG01.HDV file of
(3) The information is integrated in a VTS00100.HDV file of
(4) The information is integrated in a VTS00101.HDV or VTS00102.HDV file of
As shown in
Moreover, as shown in
The control information on the structure of the graphic units to be arranged in the PGC is arranged in PGC graphic unit structure control table (PGC_GUST_CTLT) of
As the management information on the graphic unit included in the menu of the HD video manager, HDVMGM graphic unit stream number information (HDVMGM_GUST_Ns) and HDVMGM graphic unit stream attribute information (HDVMGM_GUST_ATR) are arranged in the HD video manager information management table (HDVMGI_MAT) 310 as shown in
Moreover, as shown in
The information in a PGC graphic unit stream control table (PGC_GUST_CTLT) in which the control information on the stream of the graphic units to be arranged in the PGC is recorded is recorded in separate regions in accordance with four types of images (16:9 HD image, 16:9 SD image, 4:3 SD image, and letter boxed SD image) as shown in
(F) Audio Data Reproduction at Menu Screen Switching Display Time
To solve the problem described in (F), a unique audio data storage place is set in accordance with the menu. The reproduction/display of the unique audio data is started simultaneously at a reproduction start time of the PGC in which the menu is displayed. The reproduction/display of the audio data is stopped simultaneously with the start of the reproduction of PGC (e.g., of VTS) which does not require the reproduction of the audio data, for example, with the completion of the display of a series of menu. The audio data is copied in the memory 122 of
Selection designation information of the audio data is arranged in PGCI which is the management information of PGC so as to make possible selective reproduction instruction between the audio data recorded in VOBS for video present in the DVD video for the conventional SD and the above-described unique audio data. As a result, the content provider can designate the selection of the audio data continuously displayed even with the switching of the menu or the audio data set to be optimum for each menu, and the representing power of the content provider to the user is enhanced.
As shown in
Management data with respect to the object of the HD menu audio object region (HDMENU_AOBS) 33 is recorded in an HD menu audio object set information table (HDMENU_AOBSIT) 318 in the HD video manager information region (HDVMGI) 31 as shown in
Moreover, in a place where information for referring to (designating) HD menu AOB (HDMENU_AOB) is set with respect to the whole menu in the embodiment of the present invention, as shown in
In another embodiment of the present invention, as shown in
Concerning the whole menu, as shown in
(1) Audio information number designating AOB number #n to be reproduced in HDMENU_AOBS (the number of the corresponding AOB in the AOBs for the menu (HDMENU_AOB) arranged in
(2) Audio information selection flag indicating selected information of audio information to be reproduced simultaneously with the screen display of the HD content menu, and start/continue/end trigger information of audio information reproduction.
This HDMENU_AOBI includes: HDMENU_AOB_PBI indicating playback information (playback time of music) of HDMENU_AOB; HDMENU_AOB_ATR indicating attributes (LPCM, AC-3, and the like) of the object; and HDMENU_AOB_SA, HDMENU_AOB_EA indicating a start address and an end address of HDMENU_AOB#n. An absolute or relative size of HDMENU_AOB#n is sometimes written with respect to the start or end address.
Moreover, the information of (1), (2) may also be represented by RSM&AOB_CAT in
As shown in
(G) The above-described subject matters are provided, and the representing power to the user is further enhanced. Moreover, the content easy to use by the user is managed in a directory (folder) separated from a place where the conventional DVD video content is recorded as shown in
On the other hand, in the content having the subject matters (A) to (F), the video and the management data for managing the video information are managed together in another directory (folder) named VIDEO_HD as shown in
In the HD content of the present invention, the HD_MENU0.HDA file exists in which the audio information to be output simultaneously with the menu display is recorded, but the file does not exist in the conventional DVD video content.
Moreover, the information reproduction device according to the present invention includes a graphic decoder unit 113 as shown in
<<Relation among Subject Matters>>
In the present invention, the content easy to use by the user by simple authoring is provided by a combination of subject matters (A), (B), the content representing power to the user is further enriched by a combination of subject matters (C) to (F), and the appeal of the DVD video to the user is further enhanced.
An effect of the combination of the subject matters (A) to (F) will be concretely described in accordance with two examples.
[I] Example of a Case where the User Selects an Optimum Language from the Menu and Thereafter Searches for a Place to See Using Another Menu
After the HD DVD video disk (information storage medium) is attached to the information reproduction device of the present invention, a screen for selecting the language by the user is displayed in a first displayed screen (FP_PGC) (B). At this time, a unique shape different from a conventional rectangular shape is displayed with respect to the highlight information indicating the language to be selected by the user in the screen (E), and accordingly the user can easily select the language. For example, when the language of each country is displayed in the screen, the shape of the corresponding country on the geographical map is displayed in a display range of the highlight information, and the user can only identify the shape of the display range of the highlight information without reading the language to be selected to designate the desired language. Japan is marked in red on the terrestrial globe or global map in many cases. Therefore, 256 display colors of the graphic units are arranged (E), each language is displayed in the corresponding color (Japanese is displayed in red), and the user can only identify the color to identify the corresponding language.
Moreover, after selecting the language, the user shifts to a thumbnail (reduced image indicating a top screen designating a playback start position) list of titles, and searches for a video place to see in many cases. Even in the conventional DVD video menu, a text indicating the playback start position is displayed under the thumbnail in many cases. At this time, the user can further easily search for the place to see using the graphic unit (E). That is, the display range of the highlight information is displayed in the “star shape” in a place indicating a large pause such as a large change of scene in a video title, the inside of the star is represented in conspicuous colors such as red. A place which belongs a lower class and which indicates a skip destination is displayed by a “round mark” and is represented in light yellow or blue and can be graphically displayed so that a large pause is eliminated.
Furthermore, when the subject matter described in (F) is used, the audio information can be output continuously without being interrupted in a period of a series of operation in which “the user shifts to the thumbnail list of the titles, after selecting the language, to search for the video place to see” (even when the menu screen for the language selection switches to the title thumbnail list screen). The user can readily switch the menu.
A concrete process method for realizing the above operation in the information reproduction device shown in
[II] Example of the Returning to the Video Title After Displaying the Menu Screen and Bonus Content Halfway in the Video Title Reproduction
The reproduction of the multi-angle comprising a plurality of types of slide shows for continuously reproducing the still pictures by the definition of the imaginary VAU (IVAU), or the multi-angle comprising the slide show of the still pictures and the moving pictures is seamlessly performed (C). The reproduction between the cells in which the cell command is executed can be seamlessly performed (D). By a method of setting an RSM permission flag in HDVTS_PGC_CAT (setting of “0b: permission”) shown, for example, in
Furthermore, a combination effect of these subject matters will be described in a case where the following process is performed as an example indicating versatile representation modes by a combination of these subject matters.
(1) Halfway in the display of painters' names (in sub-pictures) and continuously switching paintings with sound explanations,
(2) sound language for the explanation is switched at the menu screen. Furthermore,
(3) the menu screen is instructed so as to delete the painters' names simultaneously displayed in the sub-pictures.
(4) After the reproduction of bonus video in which a specific painting is explained in detail,
(5) the reproduction is continued from the painting immediately before the shifting to the menu screen.
In the conventional SD DVD video standards, when returning to the operation of (5), it is not easy to “continue the reproduction from the painting immediately before the shifting to the menu screen”. When returning to the operation of (5), the user needs to turn over the paintings from the beginning.
A complicated authoring process is required in a case where the forcible continuing of the reproduction from the painting just before is programmed. When (2) and (3) are performed, the continuous reproduction without interrupting the audio data is impossible in the conventional DVD video, and this is not possible until the subject matter (F) is achieved. A data structure in which the subject matters (A), (C), (D), and (F) can be simultaneously achieved is defined in the standards, accordingly the memory capacity of the memory 122 of the information reproduction device shown in
Moreover, the subject matter (E) is used in the stage of the operation of the subject matters (2) and (3), 256 colors are represented, and the display contour of the highlight information is constituted in a unique shape (other than the rectangular shape), so that the user can easily see and select the selection menu (this has been impossible in the conventional DVD video standards). By combining the subject matter (F), further comfort can be presented to the user.
Moreover, in the embodiment of the present invention, the sub-picture stream is prohibited from being arranged in FP_PGC, and instead the use of the graphic unit is defined. The 256 color representation in which the language selection menu screen to the user is defined by the graphic unit and the contour shape (not limited to the rectangular shape) of the screen region in which the highlight information is shown can be variously set. Therefore, the language selection menu screen to the user is further easily selected. For example, the user can select the language code by the shape or the color without reading characters by the following representation.
(a) “Japanese” is described, a screen region is formed in “a shape of Japanese map”, and the inside is marked in “red” often used in the terrestrial globe or the global map in a place where Japanese is selected.
(b) “English” is described, and the screen region is formed in “a star shape” while conscious of Stars and Stripes where English (American language) is selected.
(c) Furthermore, the inside of the star shape is marked in “blue” using the color of a part including the stars in Stars and Stripes.
Especially, as shown in
Similarly, as shown in
Contents of information to be recorded in a disc-shaped information storage medium 1 in the embodiment of the present invention will be described with reference to
In the information storage medium 1, a bridge structure of ISO9660 and UDF, and a part of the data region 12 has a volume/file structure information region 11 of ISO9660 and UDF. Mixed arrangement of a video data recording region 20 and general computer information recording region 22 is permitted in the data region 12. The video data recording region 20 comprises an HD video manager recording region (HDVMG: HD video manager) 30 in which management information on the whole HD DVD video content recorded in the video data recording region 20 is recorded; and HD video title set recording regions (HDVTS: HD video title set) 40 which are integrated for titles and in which the management information and video information (video object) are integrated/recorded for each title.
The HD video manager recording region (HDVMG: HD video manager) 30 comprises an HD video manager information region (HDVMGI: HD video manager information) 31 indicating the management information on the whole video data recording region 20; an HD video manager information backup region (HDVMGI_BUP) 34 for the backup, in which the same information as that of the HD video manager information region (HDVMGI: HD video manager information) 31 is recorded; and an HD menu video object region (HDVMGM_VOBS) 32 in which a top menu screen indicating the whole video data recording region 20 is recorded. Furthermore, in the embodiment of the present invention, an HD menu audio object region (HDMENU_AOBS) 33 in which the audio information to be output in parallel at the menu display time is recorded is newly arranged in the HD video manager recording region 30. In the embodiment of the present invention, a screen capable of setting the menu description language code is recorded in the region of the language selection menu VOBS for first play PGC (FP_PGCM_VOBS) 35.
The HD video title set recording region (HDVTS: HD video title set) 40 in which the management information and video information (video object) for each title are integrated and recorded comprises an HD video title set information region (HDVTSI) 41 in which the management information on all the contents in the HD video title set recording region (HDVTS: HD video title set) 40 is recorded; an HD video title set information backup region (HDVTSI_BUP) 44 in which the same information as that of the HD video title set information region (HDVTSI) 41 is recorded as the backup data; an HD menu video object region (HDVTSM_VOBS) 42 in which the information of the menu screen is recorded by a video title set unit; and a video object region for title (HDVTSTT_VOBS) 43 in which video object (video information of title) data in the video title set is recorded.
Each region constitutes a separate file in a file system including the bridge structure of ISO9660 and UDF. As shown in
That is, the recording place in the file structure of the HD menu audio object region 33 is a unique file which is an HD_MENU0.HDA file in the common directory (folder) of VIDEO_HD shown in
A detailed data structure in the HD video manager information region (HDVMGI) 31 shown in
The management data with respect to the object of the HD menu audio object region (HDMENU_AOBS) 33 is recorded in an HD menu audio object set information table (HDMENU_AOBSIT) 318 in the HD video manager information region (HDVMGI) 31 as shown in
Moreover, the HD video manager information region (HDVMGI) 31 includes HD video manager information management table (HDVMGI_MAT) information 310 in which the management information common to the whole HD DVD video content recorded in the video data recording region 20 is integrated and recorded; title search pointer table (TT_SRPT) information 311 in which information useful for searching for each title present in the HD DVD video content (playback start position detection) is recorded; HD video manager menu PGCI unit table (HDVMGM_PGCI_UT) information 312 in which the management information of the menu screen divided and arranged for each menu description language code displaying the menu is recorded; parental management information table (PTL_MAIT) information 313 in which information for managing video which can be shown or cannot be shown to children as parental information is recorded; HD video title set attribute information table (HDVTS_ATRT) information 314 in which attributes of the title set are integrated and recorded; text data manager (TXTDT_MG) information 315 in which text information displayed to the user is integrated and recorded; HD video manager menu cell address table (HDVMGM_C_ADT) information 316 in which information useful for searching for the start address of the cell constituting the menu screen is recorded; and HD video manager menu video object unit address map (HDVMGM_VOBU_ADMAP) information 317 in which address information of VOBU indicating a minimum unit of the video object constituting the menu screen is recorded.
A detailed data structure in the HD video manager information management table (HDVMGI_MAT) 310 of
As shown in
Additionally, in the HD video manager information management table (HDVMGI_MAT) 310, various information are recorded such as an HD video manager identifier (HDVMG_ID); end address (HDVMG_EA) of HD video manager; an end address (HDVMGI_EA) of HD video manager information; a version number (VERN) of HD-DVD video standards; an HD video manager category (HDVMG_CAT); a volume set identifier (VLMS_ID); adaptation identifier (ADP_ID); the number of HD video title sets (HDVTS_Ns); a provider unique identifier (PVR_ID); a POS code (POS_CD); an end address (HDVMGI_MAT_EA) of an HD video manager information management table; a start address (FP_PGCI_SA) of first play program chain information; a start address (HDVMGM_VOBS_SA) of HDVMGM_VOBS; a start address (TT_SRPT_SA) of TT_SRPT; a start address (HDVMGM_PGCI_UT_SA) of HDVMGM_PGCI_UT; a start address (PTL_MAIT_SA) of PTL_MAIT; a start address (HDVTS_ATRT_SA) of HDVTS_ATRT; a start address (TXTDT_MG_SA) of TXTDT_MG; a start address (HDVMGM_C_ADT_SA) of HDVMGM_C_ADT; a start address (HDVMGM_VOBU_ADMAP_SA) of HDVMGM_VOBU_ADMAP; an HDVMGM video attribute (HDVMGM_V_ATR); an HDVMGM audio stream number (HDVMGM_AST_Ns); an HDVMGM audio stream attribute (HDVMGM_AST_ATR); an HDVMGM sub-picture stream number (HDVMGM_SPST_Ns); and an HDVMGM sub-picture stream attribute (HDVMGM_SPST_ATR).
A data structure in the title search pointer table (TT_SRPT) 311 shown in
Moreover, in one piece of title search pointer (TT_SRP) information 311b, various information are recorded such as title playback type (TT_PB_TY) concerning the title indicated by this search pointer; angle number (AGL_Ns); the number (PTT_Ns) of Part_of_Title (PTT); Parental_ID_Field (TT_PTL_ID_FLD) information for the title; HDVTS number (HDVTSN); HDVTS title number (HDVTS_TTN); and the start address (HDVTS_SA) of the present HDVTS.
Next, a data structure in the HD video manager menu PGCI unit table (HDVMGM_PGCI_UT) 312 shown in
The HD video manager menu PGCI unit table (HDVMGM_PGCI_UT) 312 includes information on the number (HDVMGM_LU_Ns) of HD video manager menu language units; and end address (HDVMGM_PGCI_UT_EA) information of the HD video manager menu PGCI unit table (HDVMGM_PGCI_UT) 312 in the file (HD_VMG00.HDI) of HD video manager information region (HDVMGI).
Moreover, the information on the HD video manager menu language unit search pointer (HDVMGM_LU_SRP) 312b includes not only difference address information (HDVMGM_UT_SA) of the start position of the HD video manager menu PGCI unit table (HDVMGM_PGCI_UT) 312 to the start position of the corresponding HD video manager menu language unit (HDVMGM_LU) 312c in the file (HD_VMG00.HDI of
A detailed data structure in the HD video manager menu language unit #n (HDVMGM_LU #n) 312c (
The HD video manager menu language unit (HDVMGM_LU) 312c includes various information such as HD video manager menu language unit information (HDVMGM_LUI) 312c1 in which common management information on the menu in the HD video manager menu language unit (HDVMGM_LU) 312c is recorded; HD video manager menu program chain information (HDVMGM_PGCI) 312c3 including the structure shown in
The HD video manager menu language unit information (HDVMGM_LUI) 312c1 arranged in the first region (group) in the HD video manager menu language unit #n (HDVMGM_LU #n) 312c includes the information on the number of HDVMGM_PGCI_SRPs (HDVMGM_PGCI_SRP_Ns); and end address (HDVMGM_LU_EA) information of HDVMGM_LU. The information on HDVMGM_PGCI search pointer (HDVMGM_PGCI_SRP #1) 312c2 includes start address (HDVMGM_PGCI_SA) information of HDVMGM_PGCI; and HDVMGM_PGC category (HDVMGM_PGC_CAT) information.
In the HDVMGM_PGC category information (HDVMGM_PGC_CAT) in the HDVMGM_PGCI search pointer #n (HDVMGM_PGCI_SRP #n) 312c2, selection information of audio information produced simultaneously with the screen display of the menu of HD content in the present invention, and an audio information selection flag (audio information selection) indicating the start/end trigger of audio information reproduction are recorded. Either of the following can be selected as the audio data reproduced simultaneously with the screen display of the menu of the HD content in the present invention:
(1) audio data recorded in the HD menu video object region (HDVMGM_VOBS) 32 shown in
(2) audio data which exists in the HD menu audio object region (HDMENU_AOBS) 33 shown in
Here, when “00b” of the audio information selection flag (audio information selection) is selected, the audio data of (1) is reproduced, and sound reproduction is interrupted at the switching time of the menu. When “10b” of “11b” of the audio information selection flag (audio information selection) is selected, the audio data of the HD menu AOB (HDMENU_AOB) present in the HD menu audio object region (HDMENU_AOBS) 33 shown in (2) is reproduced. To reproduce the audio data shown in (2), when “11b” is designated, the reproduction of the audio data is started from the beginning every change of the menu screen. When “10b” is designated, the reproduction of the audio data is continued regardless of the switching of the menu screen. In the embodiment of the present invention, as shown in
As shown in
A data structure in the parental management information table (PTL_MAIT) 313 shown in
Moreover, the data structure in the parental management information (PTL_MAI) 313c shown in
As shown in
(a) HD video title set attribute table information (HDVTS_ATRTI) 314a including information of the number of HDVTS (HDVTS_Ns) and the end address (HDVTS_ATRT_EA) of HDVTS_ATRT;
(b) an HD video title set attribute search pointer (HDVTS_ATR_SRP) 314b in which the information of the start address (HDVTS_ATR_SA) of HDVTS_ATR is recorded; and
(c) an HD video title set attribute (HDVTS_ATR) 314c including each information of the end address (HDVTS_ATRT_EA) of HDVTS_ATR, category of the HD video title set (HDVTS_CAT), and attribute information of the HD video title set (HDVTS_ATRI).
As shown in
(a) text data manager information (TXTDT_MGI) 315a including information such as a text data identifier (TXTDT_ID), the number (TXTDT_LU_Ns) of TXTDT_LUs, and end address (TXTDT_MG_EA) of the text data manager;
(b) a text data language unit search pointer (TXTDT_LU_SRP) 315b in which various information such as a text data language code (TXTDT_LCD), character set (CHRS) and start address (TXTDT_LU_SA) of TXTDT_LU are recorded; and
(c) text data language unit (TXTDT_LU) 315c.
Furthermore, as shown in
(a) text data language unit information (TXTDT_LUI) 315c1 in which end address information (TXTDT_LU_EA) of TXTDT_LU is recorded;
(b) an item text search pointer search pointer for volume (IT_TXT_SRP_SRP_VLM) 315c2 in which start address (IT_TXT_SRP_SA_VLM) information of IT_TXT_SRP for volume is recorded;
(c) an item text search pointer search pointer for title (IT_TXT_SRP_SRP_TT) 315c3 including start address (IT_TXT_SRP_SA_TT) information of IT_TXT_SRP for title; and
(d) text data (TXTDT) 315c4.
As shown in
(a) text data information (TXTDTI) 315c41 including information of the number (IT_TXT_SRP_Ns) of IT_TXT_SRP;
(b) an item text search pointer (IT_TXT_SRP) 315c42 in which information of an item text identifier code (IT_TXT_IDCD) and start address (IT_TXT_SA) of IT_TXT are recorded; and
(c) item text (IT_TXT) 315c43.
As shown in
(a) HD video manager menu cell address table information (HDVMGM_C_ADTI) 316a including various information such as the number of VOBs (HDVMGM_VOB_Ns) in HDVMGM_VOBS and the end address (HDVMGM_C_ADT_EA) of HDVMGM_C_ADT; and
(b) HD video manager menu cell piece information (HDVMGM_CPI) 316b in which information is recorded such as VOB_ID number (HDVMGM_VOB_IDN) of HDVMGM_CP, Cell_ID number (HDVMGM_C_IDN) of HDVMGM_CP, start address (HDVMGM_CP_SA) of HDVMGM_CP, and end address (HDVMGM_CP_EA) of HDVMGM_CP.
As shown in
(a) HD video manager menu video object unit address map information (HDVMGM_VOBU_ADMAPI) 317a including information of the end address (HDVMGM_VOBU_ADMAP_EA) of HDVMGM_VOBU_ADMAP; and
(b) the start address (HDVMGM_VOBU_SA) of HDVMGM_VOBU.
In
In a data structure in the HD menu video object region (HDVMGM_VOBS) 32 shown in
In the embodiment of the present invention, a plurality of types of audio objects (audio data) for the menu can be recorded in the information storage medium. As described above, the recording place of the audio object (AOB) for the menu is the HD menu audio object region (HDMENU_AOBS) 33 in the HD video manager recording region (HDVMGI) 30 as shown in
The HD video title set information region (HDVTSI) 41 shown in
The management information common to the corresponding video title set is recorded in the HD video title set information management table (HDVTSI_MAT) 410. The common management information is arranged in the first region (management information group) of the HD video title set information region (HDVTSI) 41, therefore, the common management information in the video title set is immediately read. A reproduction control process of the information reproduction device is simplified, and a control process time is shortened.
The management information on the graphic unit included in HDVTS (HD video title set of the present invention) is recorded in the HD video title set information management table (HDVTSI_MAT) 410 (see
Moreover, in addition to the common management information in the video title set, as shown in
The data structure in the HD video title set PTT search pointer table (HDVTS_PPT_SRPT) 411 shown in
(a) PTT search pointer table information (PTT_SPRTI) 411a including the information such as the number (HDVTS_TTU_Ns) of HDVTS_TTUs and an end address (HDVTS_PTT_SRPT_EA) of HDVTS_PTT_SRPT;
(b) a title unit search pointer (TTU_SRP) 411b in which the information of the start address (TTU_SA) of TTU is recorded; and
(b) a PTT search pointer (PTT_SRP) 411c including the information of a program chain number (PGCN) and program number (PGN).
In a place where the information for managing resume information is arranged in the first embodiment of the present invention, as shown in
The RSM permission flag shown in
The data structure in the HD video title set menu PGCI unit table (HDVTSM_PGCI_UT) 413 shown in
(a) HD video title set menu program chain information unit table information (HDVTSM_PGCI_UTI) 413a including information such as the number (HDVTSM_LU_Ns) of HD video title set menu language units and the end address (HDVTSM_PGCI_UT_EA) of HDVTSM_PGCI_UT;
(b) an HD video title set menu language unit search pointer (HDVTSM_LU_SRP) 413b in which information is recorded such as an HD video title set menu language code (HDVTSM_LCD), presence/absence of HD video title set menu (HDVTSM_EXST), and the start address (HDVTSM_UT_SA) of HDVTSM_LU; and
(c) an HD video title set menu language unit (HDVTSM_LU) 413c.
Moreover, as shown in
(a) HD video title set menu language unit information (HDVTSM_LUI) 413c1 including the information such as the number (HDVTSM_PGCI_SRP_Ns) of HDVTSM_PGCI_SRP and the end address (HDVTSM_LU_EA) of HDVTSM_LU;
(b) HD video title set menu program chain information (HDVTSM_PGCI) 413c3 including the same data structure as that of
(c) an HDVTSM_PGCI search pointer (HDVTSM_PGCI_SRP) 413c2 in which the information is recorded such as an HDVTSM_PGC category (HDVTSM_PGC_CAT) and the start address (HDVTSM_PGCI_SA) of HDVTSM_PGCI.
A place where information to refer to (designate) the HD menu AOB (HDMENU_AOB) is set with respect to the menu by an HDVTS unit in the first embodiment of the present invention is the HDVTSM_PGC category information (HDVTSM_PGC_CAT) in the HDVTS_PGCI search pointer #n (HDVTSM_PGCI_SRP #n) 413c2 as shown in
Here, when the audio information selection flag (audio information selection) “00b” is selected, the audio data recorded in each video object for the menu is reproduced, and the sound reproduction is interrupted at the switching time of the menu. When the audio information selection flag (audio information selection) “10b” or “11b” is selected, the audio data of the HD menu AOB (HDMENU_AOB) existing in the HD menu audio object region (HDMENU_AOBS) 33 is reproduced. To reproduce the audio data for the menu (AOB), when “11b” is designated, the reproduction of the audio data is started from the beginning every change of the menu screen. When “10b” is designated, the reproduction of the audio data is continued regardless of the switching of the menu screen. In the embodiment of the present invention, as shown in
The data structure in the HD video title set time map table (HDVTS_TMAPT) 414 shown in
(a) HD video title set time map table information (HDVTS_TMAPTI) 414a in which various information is recorded such as the number (HDVTS_TMAP_Ns) of HDVTS_TMAP and the end address (HDVTS_TMAPT_EA) of HDVTS_TMAPT;
(b) an HD video title set time map search pointer (HDVTS_TMAP_SRP) 414b including the information of the start address (HDVTS_TMAP_SA) of HDVTS_TMAP; and
(c) an HD video title set time map (HDVTS_TMAP) 414c in which various information is recorded such as a length (TMU) of a time unit (second) constituting a standard in map entry, the number of map entries (MAP_EN_Ns), and map entry (MAP_EN).
The HD map entry (HDMAP_EN) comprises a “discontinuous flag” indicating a flag for judging whether or not the corresponding HDMAP_ENA and the next HDMAP_ENA exist in the same cell; and start address information (HDMAP_ENA) of VOBU including a playback time corresponding to the corresponding HD map entry (HDMAP_EN).
Moreover, as shown in
(a) HD video title set menu cell address table information (HDVTSM_C_ADTI) 415a including information such as the number (HDVTSM_VOB_Ns) of VOBs in HDVTSM_VOBS and the end address (HDVTSM_C_ADT_EA) of HDVTSM_C_ADT; and
(b) HD video title set menu cell piece information (HDVTSM_CPI) 415b in which various information is recorded such as VOB_ID number (HDVTSM_VOB_IDN) of HDVTSM_CP, Cell_ID number (HDVTSM_C_IDN) of HDVTSM_CP, start address (HDVTSM_CP_SA) of HDVTSM_CP, and end address (HDVTSM_CP_EA) of HDVTSM_CP.
As shown in
(a) HD video title set menu video object unit address map information (HDVTSM_VOBU_ADMAPI) 416a in which the information of the end address (HDVTSM_VOBU_ADMAP_EA) of HDVTSM_VOBU_ADMAP; and
(b) HD video title set menu video object unit address (HDVTSM_VOBU_AD) 416b including the information of the start address (HDVTSM_VOBU_SA) of HDVTSM_VOBU.
Moreover, the data structure in the HD video title set cell address table (HDVTS_C_ADT) 417 shown in
(a) HD video title set cell address table information (HDVTS_C_ADTI) 417a including information of the number (HDVTS_VOB_Ns) of VOBs in HDVTS_VOBS and the end address (HDVTS_C_ADT_EA) of HDVTS_C_ADT; and
(b) HD video title set cell piece information (HDVTS_CPI) 417b including various information such as VOB_ID number (HDVTS_VOB_IDN) of HDVTS_CP, Cell_ID number (HDVTS_C_IDN) of HDVTS_CP, start address (HDVTS_CP_SA) of HDVTS_CP, and end address (HDVTS_CP_EA) of HDVTS_CP.
Furthermore, the data structure in the HD video title set video object unit address map (HDVTS_VOBU_ADMAP) 418 shown in
(a) HD video title set video object unit address map information (HDVTS_VOBU_ADMAPI) 418a including information of the end address (HDVTS_VOBU_ADMAP_EA) of HDVTS_VOBU_ADMAP; and
(b) HD video title set video object unit address (HDVTS_VOBU_AD) 418b in which information of start address (HDVTS_VOBU_SA) by an HDVTS_VOBU unit.
RSM permission flag information which realizes the subject matter (A) and the audio information selection flag/audio information number which realize the subject matter (F) are arranged in the search pointer information of program chain information PGCI as shown in
[a] the HD video manager menu program chain information (HDVMGM_PGCI) 312c3 shown in
[b] the HD video title set menu program chain information (HDVTSM_PGCI) 413c3 shown in
[c] HDVTS_PGCI 412c (
As shown in
As shown in
As shown in
In addition to the above-described information, further in the program chain general information (PGC_GI) 50, various information is recorded such as PGC content (PGC_CNT); PGC playback time (PGC_PB_™); PGC user operation control (PGC_UOP_CTL); PGC audio stream control table (PGC_AST_CTLT); PGC sub-picture stream control table (PGC_SPST_CTLT); PGC navigation control (PGC_NV_CTL); PGC sub-picture palette (PGC_SP_PLT); start address (PGC_CMDT_SA) of PGC_CMDT; start address (PGC_PGMAP_SA) of PGC_PGMAP; start address (C_PBIT_SA) of C_PBIT; and start address (C_POSIT_SA) of C_POSIT.
The command information adapted for each PGC is integrated and arranged in the program chain command table (PGC_CMDT) 51 as shown in
In the embodiment of the present invention, the arrangement of cell commands (C_CMD) 513 described in
The RSM command (RSM_CMD) 514 indicates a part of the command procedure to be executed “immediately before the reproduction from halfway in PGC” whose reproduction is interrupted before, after returning to the corresponding PGC (e.g., from the menu screen). On the other hand, a pre-command (PRE_CMD) 511 means a command to be executed “immediately before reproducing the corresponding PGC from the beginning”. The command executed after reproducing the corresponding PGC is a post-command (POST_CMD) 512. In
As shown in
A concrete data structure in the RSM command (RSM_CMD) 514 recorded in the program chain command table (PGC_CMDT) 51 will be described hereinafter. Here, the concrete data structure in the RSM command (RSM_CMD) 514 will be described. The data structures in the pre-command (PRE_CMD) 511, post-command (POST_CMD) 512, and cell command (C_CMD) 513 are also the same as the concrete data structure in the RSM command (RSM_CMD) 514. In the concrete data structure in the RSM command (RSM_CMD) 514, as shown in
Detailed structures of the program chain program map (PGC_PGMAP) 52 and cell position information table (C_POSIT) 54 arranged in program chain information (PGCI) are shown in
Entry cell number 520 for program information in which an entry cell number (EN_CN) is recorded in accordance with each entry is arranged in the program chain program map (PGC_PGMAP) 52, and the number of pieces of information corresponding to the number of entry numbers are arranged. The cell position information table (C_POSIT) 54 has a structure in which cell position information (C_POSI) 540 comprising a set of VOB ID number (C_VOB_IDN) and cell ID number (C_IDN) of the cell is arranged in order.
It has been described with reference to
In a series cell command process procedure designated to the cell command #k (C_CMD #k) 513 from the cell command #1 (C_CMD #1) 513 shown in
Moreover, in the cell playback information (C_PBI) 530, information is recorded such as: a cell category (C_CAT) indicating whether the corresponding cell constitutes the interleaved block corresponding to the multi-angle or constitutes a part of a general continuous block, or corresponds to a top or last cell of the interleaved block in a case where the cell constitutes a part of the interleaved block for the multi-angle; a cell playback time (C_PBTM) indicating a playback time required at the time of the reproduction of the corresponding whole cell; start address position information of first VOBU of the cell (C_FVOBU_SA); end address position information of first ILVU of the cell (C_FILVU_EA); start address position information of last VOBU of the cell (C_LVOBU_SA); and end address position information of last VOBU of the cell (C_LVOBU_EA).
A system block diagram in the information reproduction device in the embodiment of the present invention is shown in
Next, an imaginary video access unit IVAU in the embodiment of the present invention will be described with reference to
The VOB of a moving picture (movie) in the conventional SD DVD video content is divided into video access units (VAU) as shown in
As shown in
Moreover, in the embodiment of the present invention, as shown in
Moreover, as shown in
A relation between the imaginary video access unit IVAU in the embodiment of the present invention shown in
The imaginary video access unit IVAU in the embodiment of the present invention is set in the still picture.
As shown in
In the embodiment of the present invention, as shown in
Therefore, in the embodiment of the present invention, the value of the HD video title set video object unit start address (HDVTS_VOBU_SA) sets the start address of the real VOBU existing in the preceding position (I picture, or VOBU in which the still picture data recorded in the format of JPEG exists). In an example of
Next, a relation between the imaginary video access unit IVAU in the embodiment of the present invention shown in
Since the VOBU including the playback time A apparently shows real VOBU #1, the value of HDMAP_ENA #1 is “α”. Additionally, all the VOBUs including the playback times “B”, “C”, “D” are imaginary VOBUs. Therefore, even if the start address of the imaginary VOBU can be defined, and the address is accessed, the still picture data cannot be acquired, because any still picture data is not included.
Therefore, in the embodiment of the present invention, in the same manner as in
A region in which the system parameter SPRM is stored as shown in
Moreover, information is stored in another system parameter: an audio stream number (ASTN) in a title domain is recorded in SPRM(1); a sub-picture stream number (SPSTN) and on/off flag in the title domain are recorded in SPRM(2); an angle number (AGLN) in the title domain is recorded in SPRM(3); a title number (TTN) in the title domain is recorded in SPRM(4); a VTS title number (VTS_TTN) in the title domain is recorded in SPRM(5); a title PGC number (TT_PGCN) in the title domain is recorded in SPRM(6); part_of_title number (PTTN) for one_sequential_PGC_title is recorded in SPRM(7); a highlight button number (HL_BTNN) for a selected state is recorded in SPRM(8); a navigation timer (NV_TMR) is recorded in SPRM(9); TT_PGCN for NV_TMR is recorded in SPRM(10); a player audio mixing mode for karaoke (P_AMXMD) is recorded in SPRM(11); a country code (CTY_CD) for parental management is recorded in SPRM(12); a parental level (PTL_LVL) is recorded in SPRM(13); a player configuration (P_CFG) for video is recorded in SPRM(14); a player configuration (P_CFG) for audio is recorded in SPRM(15); an initial language code (INI_LCD) for AST is recorded in SPRM(16); an initial language code extension (INI_LCD_EXT) for AST is recorded in SPRM(17); an initial language code (INI_LCD) for SPST is recorded in SPRM(18); an initial language code extension (INI_LCD_EXT) for SPST is recorded in SPRM(19); and a player area code is recorded in SPRM(20), and SPRM(22) and subsequent parameters are reserved.
Examples of commands for use in the HD DVD video content in the present invention are as follows.
Go To command group: command to change an execution order of commands.
Link command group: command to start the reproduction from a specific place in the identical domain.
Jump command group: command to start the reproduction from the specific place in a different domain.
Compare Go To command group: command to change the execution order of commands, when a comparison result is correct.
Compare Link command group: start the reproduction from the specific place in the identical domain, when the comparison result is correct.
Compare Jump command group: start the reproduction from the specific place in the different domain, when the comparison result is correct.
SetSystem command group: change command of management parameter value.
Set command group: command to calculate the value of a general parameter.
Compare SetSystem command group: command to change the management parameter value, when the comparison result is correct.
Compare Set command group: command to calculate the value of the general parameter, when the comparison result is correct.
SetSystem Link command group: command to start the reproduction from the specific place in the identical domain, after changing the management parameter value.
Set Link command group: command to start the reproduction from the specific place in the identical domain, after calculating the value of the general parameter.
Set Go To command group: change the execution order of commands, after calculating the value of the general parameter.
Set Jump command group: command to start the reproduction from the specific place in the different domain, after calculating the value of the general parameter.
As a concrete command example, a SetGPRMMD command to change the value of the general parameter or a SetM_LCD command to set the menu description language code to SPRM(0) is included in the SetSystem command group. A SetMove command or a Set Add command to set the value of the general parameter to a specific value or to add the specific value to the value of the general parameter is included in the Set command group.
Moreover, a Nop command to execute nothing is included in the Go To command group. A CallSS command to start the reproduction of PGC designated by the domain ID and to record the resume information is included in the Jump command group. A Resume command to record the resume information is included in the Link command group.
A JumpTT or JumpVTS_TT or JumpVTS_PTT command belongs to the Jump command group. This command is used to start the reproduction in a position designated in another domain. The player has to hold all GPRM values, when this command is processed.
JumpTT is a command for starting the reproduction of the designated title. Details of the process are as follows.
(1) The current reproduction is stopped.
(2) The resume information (if any), the value of the navigation timer, and TT_PGCN for the navigation timer in the system parameters are discarded. To stop the navigation timer, “0” is substituted into SPRM(9).
(3) SPRM(1) and SPRM(2) are set.
(4) The reproduction of the designated title is started from a pre-command phase.
JumpVTS_TT is a command for starting the reproduction of the title designated in the current VTS space. The details of the process are as follows.
(1) The current reproduction is stopped.
(2) The resume information (if any), the value of the navigation timer, and TT_PGCN for the navigation timer in the system parameters are discarded. To stop the navigation timer, “0” is substituted into SPRM(9).
(3) SPRM(1) and SPRM(2) are set.
(4) The reproduction of the designated title is started with VTS_TTN in the current VTS space.
JumpVTS_PTT is a command to start the reproduction of the designated PTT in the current VTS space. The details of the process are as follows.
(1) The current reproduction is stopped.
(2) The resume information (if any), the value of the navigation timer, and TT_PGCN for the navigation timer in the system parameters are discarded. To stop the navigation timer, “0” is substituted into SPRM(9).
(3) SPRM(1) and SPRM(2) are set.
(4) The command of the pre-command region of PGC in which designated PTTN exists is executed.
(5) The reproduction of PTT designated by VTS_TTN and PTTN is started in the current VTS space.
The HD DVD video content described in the present invention also conforms to a multiplexing rule of system layers of MPEG. That is, even the graphic unit data is divided for each pack of 2,048 bytes, and is separated/arranged. At a playback time, as shown in
As shown in
As shown in
Moreover, as shown in
Presentation time stamp (PTS) information is recorded beforehand in the graphic unit pack (to say correctly, in a packet header in the graphic unit packet included in the pack). A display time of the graphic unit and an effective time at which the execution (of the command) is possible (both start/end times completely coincide with each other) are set using this PTS information and graphic unit playback end time (GU_PB_E_PTM). Since PTS/PTM is used in the start/end time information, a time range can be set with a very good precision.
As shown in
In a screen displayed to the user, main picture (A) recorded in the video pack a4 of
As shown in
That is, in “m” satisfying 1≦m≦n, m-th mask data from the above corresponds to m-th button information from above. For example, when the user highlights (designates) the region designated by the m-th mask data on the screen, a button command b234 recorded in the m-th button information b23 is accordingly executed. Each button information #n is linked with individual mask data #n. To further facilitate access control to the mask data, the start address (address to the start position of the n-th mask data #n from the start position of the header information b1 on the lower left of
The data structure in the color pallet information b22 in the highlight information b2 of
Contents of a command and command data for use in a resume command sequence or cell command sequence in the embodiment of the present invention will be described. There are two types of parameters for use at the playback time of the contents of the HD DVD video in the information reproduction device (player) of the embodiment of the present invention: a system parameter (SPRM) in which contents of data to be recorded are determined for each parameter number as shown in
A command data size per navigation command is set to eight bytes, and the command is arranged in the following:
(1) a button command region in PCI;
(2) a cell command region in PGCI (
(3) a pre-command region in PGCI (
(4) a post-command region in PGCI (
(5) an RSM command region in PGCI (
There are two types of navigation commands: a single instruction command comprising one instruction (minimum unit of command); and a composite instruction command comprising two or three instructions.
It has been described with respect to
In the operation code, information such as command ID-1, command ID-2, setting flag (I-flag for Set), and I-flag for comparison are recorded in order from the MSB. The value of the same command ID-1 is set to be common for each command having similar contents, and the value of the command ID-1 is set to the region of three bits from the MSB. When 16 bits at minimum are simply reproduced from the MSB of the command information in the embodiment of the present invention, the contents of the operation code can be decoded, and the command can be identified. Furthermore, when several bits are only read from the MSB of the command information, the command ID-1 and command ID-2 can be decoded, and the contents of command can be roughly grasped. When the contents of the command information are structured as described above in the embodiment of the present invention, the decoding of the command and the processing by the command can be speeded up. The set places in the command are set using set values or variables such as the value of each command in the compare field, branch field, or set field as variable operands.
The data structure in the command information for each command for use in the HD DVD video content of the present invention will be described below.
(1) When the command information includes any of the go-to instruction, link instruction operand, and link sub-instruction, the instruction (or the sub-instruction) is set in the form of the instruction operand (or the sub-instruction operand) comprising two bytes, and the instruction operand (or the sub-instruction operand) is arranged in a bottom 2-byte position in the command information.
(2) When the command includes a jump instruction or SetSystem instruction, the instruction is set in the form of the instruction operand of four bytes, and the instruction operand is arranged in a middle byte (47 to 16 bits) which does not belong to the MSB or LSB byte in the command information.
(3) When the command includes a compare instruction or set instruction, the instruction operand unique to the instruction is not formed.
Furthermore,
(4) the contents of the composite instruction command enters the upper bit in the command information in the form of the operation code; and
(5) a place where a variable value or a variable required for executing the command is stored is indicated, and a variable operand is arranged in a bit position lower than that of the operation code.
In the embodiment of the present invention, regularities are imparted to the arrangement methods (1) to (5) in the data structure of all the command information, the decoding of the command information by the information reproduction device is accordingly simplified, and there is an effect that a command execution process for decoding/processing the command can be speeded up. That is, when the operation code is designated in the upper bit position as described above, the command content can be quickly understood. Further, in a position behind the upper bit position (lower bit region), information on one instruction constituting the composite instruction command is integrated and arranged in the form of “instruction operand”, so that the identifying of the corresponding instruction content is facilitated.
Furthermore, in the composite instruction command (command formed by a combination of a plurality of command processes) such as “Compare SetSystem” command to perform “SetSystem” after “Compare”, in addition to the arrangement methods (1) to (5), the following arrangements are used.
(6) When the instruction operand (or the sub-instruction) is arranged in the command information in accordance with either instruction, a variable operand or an instruction operand related to the other instruction is arranged in a remaining part of the command information.
(7) Especially, when the jump instruction operand or the SetSystem instruction operand is included, the variable operand or the instruction operand related to the other instruction is arranged in two lower bytes.
In this structure, the high-rate identification of the contents of command is facilitated, and a recognition process of the contents of command and the execution process in accordance with the command can be speeded up and simplified.
A TV game story is shown in
Seeing from the management information of the game, each step of the game is associated with each cell. As shown in
For example, as shown in
As shown in
Next, at the start time of Cell #3, 50 bonus scores are added to the user. Additionally, it is determined whether or not the user's scores are not less than 300 (after the addition of 50 scores). When the scores exceed 300, 100 super bonus scores are added, and therefore second and third cell commands are sequentially selected from the cell command sequence. In the conventional SD DVD video content, only one cell command has been selected with respect to one cell. On the other hand, in accordance with the embodiment of the present invention, a sequence of a plurality of cell commands can be selected in the HD DVD video content. Therefore, the process can be executed more dynamically than before, and powerful contents can be presented to the user.
As shown in
When the game ends in Cell #4, a CallSS command designated in the fifth cell command in the cell command sequence is executed, and the screen returns to the menu screen once.
A process flow based on a user instruction in the embodiment of the present invention is shown in
As described above, according to the present embodiment, a representing power of read-only DVD video content to the user is further enhanced, and comparatively simple authoring makes possible the preparation of the content easy to use by the user. As a result, there can be provided a data structure based on format standards capable of further enhancing an appeal of DVD video to the user, an information storage medium in which the data structure is recorded, and an information reproduction device capable of reproducing this information storage medium.
It is to be noted that this invention is not limited to the above-described embodiments as such, and constituting elements may be modified and embodied without departing from the scope in an implementation stage. Various inventions may be formed by an appropriate combination of a plurality of constituting elements described in the above-described embodiments. For example, some constituting elements may also be omitted from all the constituting elements described in the embodiments. Furthermore, the constituting elements in the different embodiments may be also appropriately combined.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2003-135057 | May 2004 | JP | national |
This application is a divisional of U.S. patent application Ser. No. 10/844,496, filed on May 13, 2004, and is based upon and claims the benefit of priority from prior Japanese Patent Application No. 2003-135057, filed May 13, 2003, the entire contents of both of which are incorporated herein by reference.
| Number | Date | Country | |
|---|---|---|---|
| Parent | 10844496 | May 2004 | US |
| Child | 12567406 | US |
