US20070122119A1

US20070122119A1 - Recording medium and method and apparatus for reproducing and recording text subtitle streams

Info

Publication number: US20070122119A1
Application number: US11/699,032
Authority: US
Inventors: Kang Seo; Byung Kim; Jea Yoo
Original assignee: Individual
Current assignee: Individual
Priority date: 2004-02-26
Filing date: 2007-01-29
Publication date: 2007-05-31
Also published as: US7558467B2; WO2005081643A3; WO2005081643A2; KR20060129067A; EP1721453A2; US20050191032A1

Abstract

In one embodiment, a data structure recorded on the recording medium includes a text subtitle stream including one or more presentation segments. Each of the presentation segments specifies its own presentation start and end times. An initial value of a system time clock of the text subtitle stream is a presentation start time of the first presentation segment in the text subtitle stream.

Description

DOMESTIC PRIORITY INFORMATION

This is a continuation application of application Ser. No. 11/062,792 filed Feb. 23, 2005, the entire contents of which are hereby incorporated by reference.

FOREIGN PRIORITY INFOMRATION

This application claims the benefit of the Korean Patent Application No. 10-2004-0013098, filed on Feb. 26, 2004, and No. 10-2004-0018091, filed on Mar. 17, 2004, which are hereby incorporated by reference as if fully set forth herein.

BACKGROUND OF THE INVENTION

1. Field of the Invention
The present invention relates to a recording medium, and more particularly, to a recording medium and method and apparatus for reproducing and recording text subtitle streams. Although the present invention is suitable for a wide scope of applications, it is particularly suitable for recording the text subtitle stream file within the recording medium and effectively reproducing the recorded text subtitle stream.
2. Discussion of the Related Art
Optical discs are widely used as an optical recording medium for recording mass data. Presently, among a wide range of optical discs, a new high-density optical recording medium (hereinafter referred to as “HD-DVD”), such as a Blu-ray Disc (hereafter referred to as “BD”), is under development for writing and storing high definition video and audio data. Currently, global standard technical specifications of the Blu-ray Disc (BD), which is known to be the next generation technology, are under establishment as a next generation optical recording solution that is able to have a data significantly surpassing the conventional DVD, along with many other digital apparatuses.
Accordingly, optical reproducing apparatuses having the Blu-ray Disc (BD) standards applied thereto are also being developed. However, since the Blu-ray Disc (BD) standards are yet to be completed, there have been many difficulties in developing a complete optical reproducing apparatus. Particularly, in order to effectively reproduce the data from the Blu-ray Disc (BD), not only should the main AV data as well as various data required for a user's convenience, such as subtitle information as the supplementary data related to the main AV data, be provided, but also managing information for reproducing the main data and the subtitle data recorded in the optical disc should be systemized and provided.
However, in the present Blu-ray Disc (BD) standards, since the standards of the supplementary data, particularly the subtitle stream file, are not completely consolidated, there are many restrictions in the full-scale development of a Blu-ray Disc (BD) basis optical reproducing apparatus. And, such restrictions cause problems in providing the supplementary data such as subtitles to the user.

SUMMARY OF THE INVENTION

The present invention relates to a recording medium.
In one embodiment, a data structure recorded on the recording medium includes a text subtitle stream including one or more presentation segments. Each of the presentation segments specifies its own presentation start and end times. An initial value of a system time clock of the text subtitle stream is a presentation start time of the first presentation segment in the text subtitle stream.
For example, the presentation start and end times may be defined on the system time clock.
In one embodiment, each of the presentation segments contains at least one region of dialog text.
In another embodiment, the recording medium further includes a clip information file corresponding to the text subtitle stream. The clip information file includes a data field indicating a source packet number of a source packet where a STC-sequence starts. The STC-sequence represents a sequence of source packets where the system time clock is continuous.
The present invention also relates to a method of reproducing data recorded on a recording medium.
In one embodiment, the method includes reading a text subtitle stream including one or more presentation segments from the recording medium. Each of the presentation segments specifies its own presentation start and end times. An initial value of a system time clock of the text subtitle stream is set to a presentation start time of the first presentation segment in the text subtitle stream.
The present invention further relates to an apparatus for reproducing data recorded on a recording medium.
In one embodiment, the apparatus includes a controller controlling a text subtitle stream including one or more presentation segments to be read from the recording medium. Each of the presentation segments specifies its own presentation start and end times, and the controller sets an initial value of the system time clock to a presentation start time of the first presentation segment in the text subtitle stream.
The present invention may also relate to methods and apparatuses for creating a text subtitle stream.
Still further, the present invention may relate to methods and apparatuses for recording data on a recording medium.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and together with the description serve to explain the principle of the invention. In the drawings:
FIG. 1 illustrates a structure of data files recorded in a high density optical disc according to the present invention;
FIG. 2 illustrates data storage areas of the high density optical disc according to the present invention;
FIG. 3 illustrates a text subtitle and a main image presented on a display screen according to the present invention;
FIG. 4 illustrates a schematic diagram illustrating reproduction control of a text subtitle stream according to the present invention;
FIGS. 5A to 5C illustrate applications of the reproduction control information for reproducing the text subtitle stream according to the present invention;
FIG. 6 illustrates a dialog, which forms a text subtitle stream according to the present invention, and its relation with a presentation time;
FIG. 7 illustrates a structure of the text subtitle stream according to the present invention;
FIG. 8 illustrates a set of SubPath information among reproduction control file information for controlling reproduction of the text subtitle stream according to the present invention;
FIG. 9 illustrates a method of synchronizing the text subtitle stream and a main AV stream according to the present invention;
FIG. 10 illustrates a set of type information included in a general AV stream;
FIG. 11 illustrates a ClipInfo file among reproduction control file information for controlling reproduction of the text subtitle stream according to the present invention; and
FIG. 12 illustrates an optical recording and/or reproducing apparatus including a reproduction of the text subtitle stream file according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION

Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts. In addition, although the terms used in the present invention are selected from generally known and used terms, some of the terms mentioned in the description of the present invention have been selected by the applicant at his or her discretion, the detailed meanings of which are described in relevant parts of the description herein. Furthermore, it is required that the present invention is understood, not simply by the actual terms used but by the meaning of each term lying within.
In this detailed description, “recording medium” refers to all types of medium that can record data and broadly includes all types of medium regardless of the recording method, such as an optical disc, a magnetic tape, and so on. Hereinafter, for simplicity of the description of the present invention, the optical disc and, more specifically, the “Blu-ray disc (BD)” will be given as an example of the recording medium proposed herein. However, it will be apparent that the spirit or scope of the present invention may be equally applied to other types of recording medium.
In this detailed description, “main data” represent audio/video (AV) data that belong to a title (e.g., a movie title) recorded in an optical disc by an author. In general, the AV data are recorded in MPEG2 format and are often called AV streams or main AV streams. In addition, “supplementary data” represent all other data required for reproducing the main data, examples of which are text subtitle streams, interactive graphic streams, presentation graphic streams, and supplementary audio streams (e.g., for a browsable slideshow). These supplementary data streams may be recorded in MPEG2 format or in any other data format. They could be multiplexed with the AV streams or could exist as independent data files within the optical disc.
A “subtitle” represents caption information corresponding to video (image) data being reproduced, and it may be represented in a predetermined language. For example, when a user selects an option for viewing one of a plurality of subtitles represented in various languages while viewing images on a display screen, the caption information corresponding to the selected subtitle is displayed on a predetermined portion of the display screen. If the displayed caption information is text data (e.g., characters), the selected subtitle is often called a “text subtitle”. According to one aspect of the present invention, a plurality of text subtitle streams in MPEG2 format may be recorded in an optical disc, and they may exist as a plurality of independent stream files. Each “text subtitle stream file” is created and recorded within an optical disc. And, the purpose of the present invention is to provide a method and apparatus for reproducing the recorded text subtitle stream file. Most particularly, by synchronizing the text subtitle stream with the main data (AV stream), the present invention proposes a method of providing to the users a text subtitle stream synchronized with the main data (AV stream).
FIG. 1 illustrates a file structure of the data files recorded in a Blu-ray disc (hereinafter referred to as “BD”) according to the present invention. Referring to FIG. 1, at least one BD directory (BDMV) is included in a root directory (root). Each BD directory includes an index file (index.bdmv) and an object file (MovieObject.bdmv), which are used for interacting with one or more users. For example, the index file may contain data representing an index table having a plurality of selectable menus and movie titles. Each BD directory further includes four file directories that include audio/video (AV) data to be reproduced and various data required for reproduction of the AV data.
The file directories included in each BD directory are a stream directory (STREAM), a clip information directory (CLIPINF), a playlist directory (PLAYLIST), and an auxiliary data directory (AUX DATA). First of all, the stream directory (STREAM) includes audio/video (AV) stream files having a particular data format. For example, the AV stream files may be in the form of MPEG2 transport packets and be named as “*.m2ts”, as shown in FIG. 1. The stream directory may further include one or more text subtitle stream files, where each text subtitle stream file includes text (e.g., characters) data for a text subtitle represented in a particular language and reproduction control information of the text data. The text subtitle stream files exist as independent stream files within the stream directory and may be named as “*.m2ts” or “*.txtst”, as shown in FIG. 1. An AV stream file or text subtitle stream file included in the stream directory is often called a clip stream file.
Next, the clip information directory (CLIPINF) includes clip information files that correspond to the stream files (AV or text subtitle) included in the stream directory, respectively. Each clip information file contains property and reproduction timing information of a corresponding stream file. For example, a clip information file may include mapping information, in which presentation time stamps (PTS) and source packet numbers (SPN) are in a one-to-one correspondence and are mapped by an entry point map (EPM), depending upon the clip type. Accordingly, the ClipInfo file (*.clpi) related to the text subtitle stream according to the present invention will be described in detail in a later process with reference to FIG. 11.
Using the mapping information, a particular location of a stream file may be determined from a set of timing information (In-Time and Out-Time) provided by a PlayItem or SubPlayItem, which will be discussed later in more details. In the industry standard, each pair of a stream file and its corresponding clip information file is designated as a clip. For example, 01000.clpi included in CLIPINF includes property and reproduction timing information of 01000.m2ts included in STREAM, and 01000.clpi and 01000.m2ts form a clip.
Referring back to FIG. 1, the playlist directory (PLAYLIST) includes one or more PlayList files (*.mpls), where each PlayList file includes at least one PlayItem that designates at least one main AV clip and the reproduction time of the main AV clip. More specifically, a PlayItem contains information designating In-Time and Out-Time, which represent reproduction begin and end times for a main AV clip designated by Clip_Information_File_Name within the PlayItem. Therefore, a PlayList file represents the basic reproduction control information for one or more main AV clips. In addition, the PlayList file may further include a SubPlayItem, which represents the basic reproduction control information for a text subtitle stream file. When a SubPlayItem is included in a PlayList file to reproduce one or more text subtitle stream files, the SubPlayItem is synchronized with the PlayItem(s). On the other hand, when the SubPlayItem is used to reproduce a browsable slideshow, it may not be synchronized with the PlayItem(s). According to the present invention, the main function of a SubPlayItem is to control reproduction of one or more text subtitle stream files.
Accordingly, a main path refers to a path reproducing the main data by using at least one PlayItem included in a PlayList file, and a sub pat refers to a path reproducing the text subtitle stream as the supplementary data. More specifically, a main path must be included in a PlayList file, and at least one sub path for each attribute of a corresponding set of supplementary data is included, when the supplementary data exist. Thus, a reproduction using the main path and the sub path will be described in detail in a later process with reference to FIG. 4, and more specifically, a sub path syntax for reproducing the text subtitle stream according to the present invention will be described in detail with reference to FIG. 8.
Lastly, the auxiliary data directory (AUX DATA) may include supplementary data stream files, examples of which are font files (e.g., aaaaa.font or aaaaa.otf), pop-up menu files (not shown), and sound files (e.g., Sound.bdmv) for generating click sound. The text subtitle stream files mentioned earlier may be included in the auxiliary data directory instead of the stream directory.
FIG. 2 illustrates data storage areas of an optical disc according to the present invention. Referring to FIG. 2, the optical disc includes a file system information area occupying the inmost portion of the disc volume, a stream area occupying the outmost portion of the disc volume, and a database area occupied between the file system information area and the stream area. In the file system information area, system information for managing the entire data files shown in FIG. 1 is stored. Next, main data and supplementary data (i.e., AV streams and one or more text subtitle streams) are stored in the stream area. The main data may include audio data, video data, and graphic data. And, the supplementary data (i.e., the text subtitle) is independently stored in the stream area without being multiplexed with the main data. The general files, PlayList files, and clip information files shown in FIG. 1 are stored in the database area of the disc volume. As discussed above, the general files include an index file and an object file, and the PlayList files and clip information files include information required to reproduce the AV streams and the text subtitle streams stored in the stream area. Using the information stored in the database area and/or stream area, a user is able to select a specific playback mode and to reproduce the main AV and text subtitle streams in the selected playback mode.
Hereinafter, the structure of the text subtitle stream file according to the present invention will be described in detail. First of all, the control information for reproducing the text subtitle stream will be newly defined. Then, the detailed description of the method of creating the text stream file including the newly defined control information, and the method and apparatus of reproducing the text subtitle stream for reproducing the recorded stream file will follow. FIG. 3 illustrates a text subtitle and a main image presented on a display screen according to the present invention. The main image and the text subtitle are simultaneously displayed on the display screen when a main AV stream and a corresponding text subtitle stream are reproduced in synchronization. Accordingly, the text subtitle stream must be provided by being synchronized in the main data, and the method of synchronizing the text subtitle stream with the main data will be proposed in the present invention.
FIG. 4 is a schematic diagram illustrating reproduction control of a main AV clip and text subtitle clips according to the present invention. Referring to FIG. 4, a PlayList file includes at least one PlayItem controlling reproduction of at least one main AV clip and a SubPlayItem controlling reproduction of a plurality of text subtitle clips. More specifically, at least one PlayItem is included in the PlayList file as a main path for controlling reproduction of the main data (i.e., main clip). And, when a corresponding text subtitle stream exists within the main data, the text subtitle stream is controlled by a SubPlayItem as the sub path. For example, referring to FIG. 4, a text subtitle clip 1 (English) and a text subtitle clip 2 (Korean) are each reproduced and controlled by a single SubPlayItem. And, each of the text subtitle clip 1 and the text subtitle clip 2 is synchronized with the main data, thereby enabling the text subtitle and the main data to be displayed on a display screen simultaneously at a desired presentation time.
In order to display the text subtitle on the display screen, display control information (e.g., position and size information) and presentation time information, examples of which are illustrated in FIG. 5A to FIG. 5C, are required. Hereinafter, diverse information included in the text subtitle stream will be described in detail with reference to FIG. 5A to FIG. 7. And, the method of synchronizing the text subtitle stream with the main data will be described in detail with reference to FIG. 8 to FIG. 11.
FIG. 5A illustrates a dialog presented on a display screen according to the present invention. A dialog represents entire text subtitle data displayed on a display screen during a given presentation time, so as to facilitate reproduction control of the text subtitle stream. In general, presentation times of the dialog may be represented in presentation time stamps (PTS). More specifically, a PTS section for reproducing one dialog includes a “dialog_start_PTS” and a “dialog_end_PTS” for each dialog. Also, for example, presentation of the dialog shown in FIG. 5A starts at PTS (k) (i.e., dialog_start_PTS) and ends at PTS (k+1) (i.e., dialog_end_PTS). Therefore, when the dialog shown in FIG. 5A represents an entire unit of text subtitle data which are displayed on the display screen between PTS (k) and PTS (k+1), all of the text subtitle data is defined by the same dialog. Herein, a dialog includes a maximum of 100 character codes in one text subtitle.
In addition, FIG. 5B illustrates regions of a dialog according to the present invention. A region represents a divided portion of text subtitle data (dialog) displayed on a display screen during a given presentation time. In other words, a dialog includes at least one region, and each region may include at least one line of subtitle text. The entire text subtitle data representing a region may be displayed on the display screen according to a region style (global style) assigned to the region. The maximum number of regions included in a dialog should be determined based on a desired decoding rate of the subtitle data because the greater number of regions generally results in a lower decoding ratio. For example, the maximum number of regions for a dialog may be limited to two in order to achieve a reasonably high decoding rate.
FIG. 5C illustrates style information for regions of a dialog according to the present invention. Style information represents information defining properties required for displaying at least a portion of a region included in a dialog. Some of the examples of the style information are position, region size, background color, text alignment, text flow information, and many others. The style information may be classified into region style information (global style information) and inline style information (local style information).
Region style information defines a region style (global style) which is applied to an entire region of a dialog. For example, the region style information may contain at least one of a region position, region size, font color, background color, text flow, text alignment, line space, font name, font style, and font size of the region. For example, two different region styles are applied to region 1 and region 2, as shown in FIG. 5C. A region style with position 1, size 1, and blue background color is applied to Region 1, and a different region style with position 2, size 2, and red background color is applied to Region 2.
On the other hand, inline style information defines an inline style (local style) which is applied to a particular portion of text strings included in a region. For example, the inline style information may contain at least one of a font type, font size, font style, and font color. The particular portion of text strings may be an entire text line within a region or a particular portion of the text line. Referring to FIG. 5C, a particular inline style is applied to the text portion “mountain” included in Region 1. In other words, at least one of the font type, font size, font style, and font color of the particular portion of text strings is different from the remaining portion of the text strings within Region 1.
FIG. 6 illustrates a method of creating each dialog applied to each presentation time (PTS) section. For example, when 4 dialogs exist between PTS1 to PTS6, Dialog # 1 is displayed as text data Text # 1 between PTS1 and PTS2. And, Dialog # 2 includes 2 regions (Region 1 and Region 2) between PTS2 and PTS3, wherein Region 1 is displayed as text data Text # 1 and Region 2 is displayed as text data Text # 2. Further, Dialog # 3 is displayed as text data Text # 2 between PTS3 and PTS4, and Dialog # 4 is displayed as text data Text # 3 between PTS5 and PTS6. Referring to FIG. 6, text subtitle data does not exist between PTS4 and PTS5. In the method for creating each of the above-described dialog information, each of the dialogs must include timing information (i.e., PTS set) for displaying the corresponding dialog, style information, and actual text data (hereinafter referred to as “dialog data”).
Accordingly, as described above, the timing information (i.e., PTS set) being displayed is recorded as “dialog_start_PTS” and “dialog_end_PTS”. The style information is defined as the above-described Global_Style_Info and Local_Style_Info. However, in the present invention, the style information will be recorded as region_styles and inline_styles. Furthermore, text data that is displayed on the actual display screen is recorded in the dialog data. More specifically, since Dialog # 2 includes 2 regions (Region 1 and Region 2), a set of style information and dialog data is recorded for each of Region 1 and Region 2.
FIG. 7 illustrates a text subtitle stream file (e.g., 10001.m2ts shown in FIG. 1) according to the present invention. The text subtitle stream file may be formed of an MPEG2 transport stream including a plurality of transport packets (TP), all of which have a same packet identifier (e.g., PID=0x18xx). When a disc player receives many input streams including a particular text subtitle stream, it finds all the transport packets that belong to the text subtitle stream using their PIDs. Referring to FIG. 7, each sub-set of transport packets form a packet elementary stream (PES) packet. One of the PES packets shown in FIG. 7 corresponds to a dialog style segment (DSS) defining a group of region styles. All the remaining PES packets after the second PES packet correspond to dialog presentation segments (DPSs).
In the above-described text subtitle stream structure of FIG. 7, each of the dialog information shown in FIGS. 5A to 5C and FIG. 6 represent a dialog presentation segment (DPS). And, the style information included in the dialog information represents a set of information that links any one of the plurality of region style sets defined in the dialog style segment (DSS), which can also be referred to as “region_style_id”, and inline styles. A standardized limited number of region style sets is recorded in the dialog style segment (DSS). For example, a maximum of 60 sets of specific style information is recorded, each of which is described by a region_style_id.
FIG. 8 illustrates a syntax structure of a sub path and a SubPlayItem according to the present invention. Herein, the sub path and the SubPlayItem are not used to control reproduction of the text subtitle stream only. Rather, an object of the sub path and the SubPlayItem is to define and reproduce diverse supplementary data including the text subtitle stream, depending upon the sub path type, which will be described in a later process. Therefore, a specific field within the syntax structure of the sub path and the SubPlayItem will be defined to have a specific value, when the specific field is irrelevant to the text subtitle stream or when the specific field is used in the text subtitle stream.
More specifically, referring to FIG. 8, a SubPath( ) syntax designates a path of the supplementary data that is associated with the main data included in a single PlayList. The SubPath( ) syntax includes a SubPath_type field, an is_repeat_SubPath field, a number_of_SubPlayItems field, and a SubPlayItem(i) field. Herein, the SubPath_type field designates the type of a sub path. SubPath_type=2 represents a supplementary audio browsable slideshow, SubPath_type=3 represents an interactive graphic presentation menu, and SubPath_type=4 represents a text subtitle presentation. Therefore, the optical recording and reproducing apparatus according to the present invention can determined which type of clip is being controlled by each corresponding sub path through the SubPath_type field. Also, the number_of_SubPlayItems field represents the number of SubPlayItems included within the sub path. Herein, the optical recording and reproducing apparatus can verify the number of SubPlayItems that are being controlled in the specific sub path through the number_of_SubPlayItems field. The is_repeat_SubPath field represents a set of 1-byte flag information for verifying whether the corresponding SubPath is to be used repeatedly. More specifically, when is_repeat_SubPath=0b the SubPath is not used repeatedly, and when is_repeat_SubPath=1b the SubPath is used repeatedly.
Accordingly, when controlling reproduction of the text subtitle stream by using the SubPath, SubPath_type=4, number_of_SubPlayItems=1, and is_repeat_SubPath=0b. In other words, in the SubPath controlling the text subtitle stream, a single SubPlayItem controls reproduction of a plurality of text subtitle streams (e.g., as shown in FIG. 4), and the SubPath is not used repeatedly. Therefore, when reproducing the supplementary audio browsable slideshow as SubPath_type=2, and when reproducing the interactive graphic presentation menu stream as SubPath_type=3, the number_of_SubPlayItems field and the is_repeat-SubPath field may be defined differently and used.
In addition, a detailed syntax of the SubPlayItem(i) field will now be described. A Chip_Information_file_name field is used as information designating a file name of a stream that is controlled by the corresponding SubPlayItem, and a Clip_codec_identifier field represents a coding format of the designated clip. As described above, since the text subtitle information according to the present invention is encoded in an MPEG-2 format, the Clip_codec_identifier field is defined as Clip_codec_identifier=M2TS. Also, a SubPlayItem_IN_time field and a SubPlayItem_OUT_time field are used as information for designating the reproduction begin time and reproduction end time within the designated clip. Accordingly, as described in FIG. 1, the SubPlayItem_IN_time and the SubPlayItem_OUT_time are changed to a set of address information (also referred to as a source packet number (SPN)) within the designated ClipInfo file (*.clpi), so as to decide the reproduction section within the actual clip. Further, a ref_to_STC_id field represents information deciding a position of a seamless reproduction unit, which is applied to the reproduction section, within the designated clip, a detailed description of which will be described in detail with reference to FIG. 10.
An is_multi_clip_entries field is a set of 1-byte flag information representing a number of clip entries being controlled by the corresponding SubPlayItem. For example, referring to FIG. 4, since a plurality of clips exists when 2 text subtitle clips are controlled by a single SubPlayItem, is_multi_clip_entries=1b. Therefore, when is_multi_clip_entries=1b, at least 2 clip entries exist, and in this case, a subclip_entry_id is assigned to each clip entry, and a specific Clip_Information_file_name field, Clip_codec_identifier field and a ref_to_STC_id field for each subclip_entry_id are defined.
Finally, a set of information for a synchronization with the main data is included within the SubPlayItem syntax, wherein the information includes a sync_PlayItem_id field and a sync_start_PTS_of_PlayItem field. More specifically, the sync_PlayItem_id field and the sync_start_PTS_of_PlayItem field are used only when reproduction control of the text subtitle stream is performed by using the SubPlayItem. Therefore, when reproducing the supplementary audio browsable slideshow as SubPath_type=2, and when reproducing the interactive graphic presentation menu stream as SubPath_type=3, the sync_PlayItem_id field and the sync_start_PTS_of_PlayItem field become unnecessary information, and in this case, the corresponding field is set as ‘00h’.
In describing the sync_PlayItem_id field and the sync_start_PTS_of_PlayItem field, the sync information for reproducing the text subtitle stream according to the present invention will now be described with reference to FIG. 9. First of all, the text subtitle stream is synchronized with the main data, and the reproduction begin time of the text subtitle stream being synchronized with the main data is decided by the sync_PlayItem_id field and the sync_start_PTS_of_PlayItem field. More specifically, the sync_PlayItem_id field is a set of information designating a specific PlayItem among at least one PlayItems within the PlayList file. And, the sync_start_PTS_of PlayItem field is a set of information indicating the reproduction begin time of the text subtitle stream as a PlayItem PTS, within the designated specific PlayItem. For example, referring to FIG. 9, in the SubPlayItem for reproducing the text subtitle stream, as information for deciding the reproduction begin time of the text subtitle stream being synchronized with the main data, the sync_PlayItem_id field and the sync_start_PTS_of_PlayItem field may be defined as sync_PlayItem_id=0 and sync_start_PTS_of_PlayItem=t1. More specifically, reproduction of the text subtitle stream using the SubPlayItem begins at a specific point of “t1(PTS)” within PlayItem 1 (PlayItem_id=0).
Secondly, the text subtitle stream uses a counter of 90 kilohertz (khz) as a system time clock. And, an initial value of the counter is the dialog_start_PTS within the first dialog presentation segment (DPS #1), shown in FIG. 7. More specifically, unlike other streams, the text subtitle stream does not have a program clock reference (PCR) as the initial value. Accordingly, all PTS (dialog_start_PTS and dialog_end_PTS) values within subsequent dialog presentation segments (DPS) are decided by counting from the dialog_start_PTS within the first dialog presentation segment (DPS #1).
Therefore, reproduction of the text subtitle begins starting from the time decided by the sync_PlayItem_id field and the sync_start_PTS_of_PlayItem field. Afterwards, a system time clock counter of 90 kilohertz (khz), having an initial value identical to that of the dialog_start_PTS within the first dialog presentation segment (DPS #1), is used so as to reproduce each dialog in accordance with the PTS (dialog_start_PTS and dialog_end_PTS) value for each dialog defined within the dialog presentation segment (DPS) included in the text subtitle stream. Thereafter, reproduction ends at dialog_end_PTS within the last dialog presentation segment (last DPS) included in the text subtitle stream.
FIG. 10 illustrates a system time clock sequence (STC_sequence) and an arrival time clock sequence (ATC_sequence) within the clip according to the present invention. Accordingly, the STC_sequence refers to a continuous clip that is decided by a time reference. More specifically, a new STC_sequence is created starting from a packet, which includes a program clock reference (PCR) as the time reference, among the transport packets being inputted. In the example shown in FIG. 10, a total of 3 STC_sequences (i.e., STC # 0, STC # 1, and STC #2) exists. Therefore, a STC_discontinuity may occur between each STC_sequence. Also, at least one STC_sequence (e.g., STC # 0, STC # 1, and STC #2) configures a single ATC_sequence. More specifically, each of the clips within the optical disc is formed of an ATC_sequence including at least one STC_sequence.
However, the number of ATC_sequence is not limited to only one ATC_sequence, as described in the example shown in FIG. 10. In other words, the clip may include a plurality of ATC_sequences. Accordingly, in case of the text subtitle stream, the system time clock is decided by using the dialog_start_PTS within the first dialog presentation segment (DPS #1) as an initial value. Thus, the text subtitle stream is formed of an ATC_sequence including a STC_sequence.
FIG. 11 illustrates a set of information recorded within a ClipInfo file (*.clpi) according to the present invention and, more specifically, illustrates information included in a SequenceInfo( ) area. Referring to FIG. 11, a field for recording STC_sequence and ATC_sequence information of each corresponding clip is included in the SequenceInfo( ) area within the ClipInfo file (*.clpi). More specifically, information on the number of ATC_sequences is recorded in a number_of ATC_sequences field. And, in the present invention, one ATC_sequence is included in the text subtitle clip. Therefore, since only one ATC_sequence is included in the text subtitle clip, only an ATC ID exists as atc_id=0. Additionally, a number_of_STC_sequences(atc_id) field includes information on the number of STC_sequences within the ATC_sequence (e.g., atc_id=0). And, as described above, only one STC_sequence is included in the text subtitle clip according to the present invention. Further, a stc_id is assigned to each STC_sequence, and each stc_id includes a PCR_PIC field, a SPN_STC_start field, a presentation_start_time field, and a presentation_end_time field.
Herein, a set of information designating packet identification (PID) including a program clock reference (PCR), which is a time reference of the STC_sequence, is recorded in the PCR_PID field. And, a set of information designating a start source packet number (SPN) of the STC_sequence is recorded in the SPN-STC-start field. Accordingly, since a PCR does not exist in the text subtitle clip according to the present invention, either a dummy data having no meaning is recorded in the PCR_PID field, or the PCR_PID field is set as ‘00h’. Finally, a set of information designating the starting time and the ending time of each corresponding clip is respectively recorded in the presentation_start_time field and the presentation_end_time field. Accordingly, as described above, the presentation_start_time of the clip becomes the dialog_start_PTS within the first dialog presentation segment (DPS #1), and the presentation_end_time becomes the dialog_end_PTS within the last dialog presentation segment (last DPS).
FIG. 12 illustrates a detailed view of an optical recording and/or reproducing apparatus 10 according to the present invention, including the reproduction of the text subtitle data. The optical recording and/or reproducing apparatus 10 basically includes a pick-up unit 11 for reproducing main data, text subtitle stream and corresponding reproduction control information recorded on the optical disc, a servo 14 controlling the operations of the pick-up unit 11, a signal processor 13 either recovering the reproduction signal received from the pick-up unit 11 to a desired signal value, or modulating a signal to be recorded to an optical disc recordable signal and transmitting the modulated signal, and a microcomputer 16 controlling the above operations.
In addition, an AV decoder and text subtitle (Text ST) decoder 17 performs final decoding of output data depending upon the controls of the controller 12. And, in order to perform the function of recording a signal on the optical disc, an AV encoder 18 converts an input signal into a signal of a specific format (e.g., an MPEG-2 transport stream) depending upon the controls of the controller 12 and, then, provides the converted signal to the signal processor 13. Accordingly, the AV decoder and text subtitle (Text ST) decoder 17 is included in the present invention as a single decoder, for simplicity of the description. However, it is apparent that only the text subtitle (Text ST) decoder can be independently included as an element of the present invention.
A buffer 18 is used for preloading and storing the text subtitle stream in advance, in order to decode the text subtitle stream according to the present invention. The controller 12 controls the operations of the optical recording and/or reproducing apparatus. And, when the user inputs command requesting a text subtitle of a specific language to be displayed. Then, the corresponding text subtitle stream is preloaded and stored in the buffer 18. Subsequently, among the text subtitle stream data that is preloaded and stored in the buffer 18, the controller 12 refers to the above-described dialog information, region information, style information, and so on, and controls the text subtitle decoder 17 so that the actual text data are displayed with a specific size and at a specific position on the screen.
More specifically, the text subtitle decoder 17 reproduces the text subtitle stream preloaded in the buffer 18. However, the text subtitle decoder 17 includes a counter 17 a, so as to set the dialog_start_PTS within the first dialog presentation segment (DPS #1) as an initial value, so as to create the system time clock (e.g., by using a frequency of 90 khz). Furthermore, the text subtitle decoder 17 verifies a synchronization point of the text subtitle stream with the main data from the SubPlayItem within the PlayList file associated with the reproduction of the text subtitle clip. For example, information included in the sync_PlayItem_id field and the sync_start_PTS_of_PlayItem field within the above-described SubPlayItem is read, and based upon the read information, the text subtitle stream is reproduced starting from a specific time within a specific PlayItem.
As described above, the recording medium and method and apparatus for reproducing and recording text subtitle streams have the following advantages. The text subtitle stream is synchronized with the main data, and therefore, the text subtitle stream and the main data are reproduced simultaneously.
It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Thus, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

Claims

1. A recording medium comprising:

a text subtitle stream including one or more presentation segments, each of the presentation segments specifying its own presentation start and end times, wherein an initial value of a system time clock of the text subtitle stream is a presentation start time of the first presentation segment in the text subtitle stream.

2. The recording medium of claim 1, wherein the presentation start and end times are defined on the system time clock.

3. The recording medium of claim 1, wherein each of the presentation segments contains at least one region of dialog text

4. The recording medium of claim 1, further comprising:

a clip information file corresponding to the text subtitle stream, the clip information file including a data field indicating a source packet number of a source packet where a STC-sequence starts, the STC-sequence representing a sequence of source packets where the system time clock is continuous.

5. The recording medium of claim 4, wherein the text subtitle stream includes only one STC-sequence.

6. The recording medium of claim 4, wherein the clip information file specifies presentation start and end times of the text subtitle stream,

wherein the presentation start time of the text subtitle stream points to the presentation start time of the first presentation segment in the text subtitle stream and the presentation end time of the text subtitle stream points to a presentation end time of the last presentation segment in the text subtitle stream.

7. A method of reproducing data recorded on a recording medium, the method comprising:

reading a text subtitle stream including one or more presentation segments from the recording medium, each of the presentation segments specifying its own presentation start and end times; and

setting an initial value of a system time clock of the text subtitle stream to a presentation start time of the first presentation segment in the text subtitle stream.

8. The method of claim 7, further comprising;

presenting at least one presentation segment in the text subtitle stream in accordance with its presentation start and end times referring to the system time clock.

9. The method of claim 7, wherein each of the presentation segments contains at least one region of dialog text and the at least one region of dialog text is presented in accordance with its presentation start and end times referring to the system time clock.

10. The method of claim 7, wherein the text subtitle stream includes only one STC-sequence, the STC-sequence representing a sequence of source packets where the system time clock is continuous.

11. The method of claim 7, wherein the text subtitle stream is presented between presentation start and end times of the text subtitle stream which are specified by a clip information file corresponding to the text subtitle stream,

12. An apparatus for reproducing data recorded on a recording medium, the apparatus comprising:

a controller controlling a text subtitle stream including one or more presentation segments to be read from the recording medium, each of the presentation segments specifying its own presentation start and end times, and the controller setting an initial value of the system time clock to a presentation start time of the first presentation segment in the text subtitle stream.

13. The apparatus of claim 12, wherein the controller controls at least one presentation segment in the text subtitle stream to be presented in accordance with its presentation start and end times referring to the system time clock.

14. The apparatus of claim 12, wherein the text subtitle stream includes only one STC-sequence, the STC-sequence representing a sequence of source packets where the system time clock is continuous.

15. The apparatus of claim 12, wherein the controller refers to only one system time clock in the text subtitle stream.

16. The apparatus of claim 12, wherein the controller controls the text subtitle stream to be presented between presentation start and end times of the text subtitle stream which are specified by a clip information file corresponding to the text subtitle stream,

17. The apparatus of claim 12, further comprising:

a reading unit reading data from the recording medium, wherein the controller controls the reading unit to read the text subtitle stream from the recording medium.

18. A method of creating a text subtitle stream, the method comprising:

creating the text subtitle stream including one or more presentation segments from the recording medium, each of the presentation segments specifying its own presentation start and end times which are defined on a system time clock of the text subtitle stream,

wherein an initial value of the system time clock is a presentation start time of the first presentation segment in the text subtitle stream.

19. The method of claim 18, wherein the text subtitle stream is created to include only one STC-sequence, the STC-sequence representing a sequence of source packets where the system time clock is continuous.

20. The method of claim 18, further comprising:

creating a clip information file corresponding to the text subtitle stream, the clip information file specifying presentation start and end times of the text subtitle stream,

21. An apparatus for creating a text subtitle stream, the apparatus comprising:

a controller creating the text subtitle stream including one or more presentation segments from the recording medium, each of the presentation segments specifying its own presentation start and end times which are defined on a system time clock of the text subtitle stream,

22. The apparatus of claim 21, wherein the controller creates the text subtitle stream to include only one STC-sequence, the STC-sequence representing a sequence of source packets where the system time clock is continuous.

23. The apparatus of claim 21, wherein the controller further creates a clip information file corresponding to the text subtitle stream, the clip information file specifying presentation start and end times of the text subtitle stream, wherein the presentation start time of the text subtitle stream points to the presentation start time of the first presentation segment in the text subtitle stream and the presentation end time of the text subtitle stream points to a presentation end time of the last presentation segment in the text subtitle stream.

24. A method of recording data on a recording medium, the method comprising:

creating a text subtitle stream including one or more presentation segments from the recording medium, each of the presentation segments specifying its own presentation start and end times which are defined on a system time clock of the text subtitle stream; and

recording the text subtitle stream on the recording medium,

25. The method of claim 24, wherein the text subtitle stream is created to include only one STC-sequence, the STC-sequence representing a sequence of source packets where the system time clock is continuous.

26. The method of claim 24, further comprising:

creating a clip information file corresponding to the text subtitle stream, the clip information file specifying presentation start and end times of the text subtitle stream, and recording the clip information file on the recording medium,

27. An apparatus for recording data on a recording medium, the apparatus comprising:

a controller creating a text subtitle stream including one or more presentation segments from the recording medium, each of the presentation segments specifying its own presentation start and end times which are defined on a system time clock of the text subtitle stream, and the controller controlling the text subtitle stream to be recorded on the recording medium,

28. The apparatus of claim 27, wherein the controller creates the text subtitle stream to include only one STC-sequence, the STC-sequence representing a sequence of source packets where the system time clock is continuous.

29. The apparatus of claim 27, wherein the controller further creates a clip information file corresponding to the text subtitle stream, the clip information file specifying presentation start and end times of the text subtitle stream, and controls the clip information file to be recorded on the recording medium,

30. The apparatus of claim 27, further comprising:

recording unit recording data on the recording medium, wherein the controller controls the recording unit to record the text subtitle stream on the recording medium.