JP2004005985A - Information recording medium, and device and method for reproducing information - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To correctly and smoothly reproduce a plurality of tunes in accordance with the attributes of each tune in consecutive reproduction of the tunes of different audio attributes when the tunes of different audio attributes are recorded on an information recording medium. <P>SOLUTION: An information reproducing device stores into a storing part either collective attribute information showing attributes about the entire audio information recorded on the information recording medium in advance, or a collective attribute information table prepared from the individual pieces of attribute information of the audio information recorded on the information recorder. When a user instructs a tune to be reproduced, the reproducing device sets an attribute that corresponds to the tune to reproduce the tune. When the attribute of the next tune to be reproduced is different from that of the present tune in consecutive reproduction of a plurality of tunes, the reproducing device immediately refers to the collective attribute information to change attribute setting and searches the next tune. After the reproducing device completes the change of the attribute setting, the reproducing device starts to reproduce the next tune. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention belongs to the technical field of an information recording medium such as a high-density optical disk capable of recording information such as video and audio represented by a DVD at high density, and a reproducing apparatus for reproducing information from the information recording medium. .
[0002]
[Prior art]
Conventionally, so-called LD (Laser Disk), CD (Compact Disk), and the like have been widely used as optical disks on which information such as video and audio is recorded.
[0003]
In these LDs, video information and audio information are recorded together with time information indicating the time at which each piece of information should be reproduced based on the reproduction start position of each LD. For this reason, in addition to general normal reproduction in which recorded information is reproduced in the recording order, for example, in a CD, only a desired music is extracted from a plurality of recorded music to be listened to. It is also possible to perform playback, such as listening to the music while changing the playback order at random.
[0004]
However, in the LD and the like, it is said that a viewer has a choice of a video to be displayed and a sound to be reproduced, and it is not possible to perform a so-called interactive change-rich reproduction such that the viewer selects and views them. There was a problem.
[0005]
That is, for example, when a foreign movie recorded on an LD is viewed, a language used for subtitles displayed on the screen is selected (for example, by selecting Japanese subtitles and original subtitles). ) When displaying or listening to music recorded on a CD, it is possible to select the sound of the music (for example, to select whether to listen to English lyrics or Japanese lyrics). You can't.
[0006]
On the other hand, at present, proposals and developments on DVDs, which are optical discs whose storage capacity has been improved by about 10 times without changing the size of the optical discs themselves, in comparison with the above-mentioned conventional CDs, have been actively pursued. If audio and the like are recorded in the plurality of subtitles and in a plurality of languages, the viewer can select it to enjoy the interactive and varied reproduction.
[0007]
[Problems to be solved by the invention]
In the DVD, when a plurality of pieces of music information are recorded, attributes such as an encoding method of the music information, a sampling frequency, the number of quantization bits, the number of channels, the presence or absence of emphasis, and the like (hereinafter, referred to as “audio attributes”). ) Can be mixed and recorded on a single disk.
[0008]
However, when reproducing music information having different audio attributes, the reproducing apparatus needs to perform a reproducing operation corresponding to the different audio attributes. For example, when music information is output from a speaker, it is necessary to perform digital / analog conversion on audio information recorded on a DVD and supply the analog information as an analog signal to an amplifier and further to a speaker. In this case, if the sampling frequencies of the music pieces to be continuously played back are different (for example, the first music piece is 48 kHz, the second music piece is 96 kHz, etc.), after the reproduction of the first music piece, the playback device starts receiving the data of the second music piece. When the change in the sampling frequency is noticed, the process of changing the clock frequency of the D / A converter to 96 kHz is started. However, since it takes a certain amount of time for the circuit (PLL circuit) to lock to the frequency after the change, the frequency change cannot be made in time for the start of the second song, and a problem may occur such that the head portion cannot be reproduced correctly. Such a problem can occur not only with a change in the sampling frequency but also with a change in various audio attributes such as a change in the number of quantization bits and the presence or absence of emphasis.
[0009]
The present invention has been made in view of the above points, and a problem thereof is that when a plurality of music pieces having different audio attributes are recorded, music pieces having different audio attributes are successively reproduced. It is an object of the present invention to provide an information recording medium on which the music information is recorded in a recording mode in which reproduction can be performed correctly and smoothly in accordance with an attribute.
[0010]
Another object of the present invention is to provide an information reproducing apparatus for reproducing information from an information recording medium on which music information is recorded in the above-described manner.
[0011]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 provides a plurality of unit audio information to be reproduced independently of each other, and aggregate audio information each including one or more of the unit audio information. And, unit attribute information indicating attributes of all the unit audio information included in the set audio information, and set attribute information including the unit attribute information corresponding to all the set audio information included in the recording medium, It is constituted so that it may have.
[0012]
According to the information recording medium configured as described above, a plurality of unit audio information and an aggregate audio information composed of an aggregate thereof are recorded. Also, unit attribute information indicating the attribute of each unit audio information is recorded, and unit attribute information corresponding to all the aggregate audio information on the recording medium is recorded as the aggregate attribute information. Therefore, by referring to the set attribute information, the attributes of all the unit audio information can be easily and quickly obtained.
[0013]
According to a second aspect of the present invention, in the information recording medium of the first aspect, the collective attribute information is arranged at a position where the set attribute information is read first on the information recording medium. Therefore, when the information recording medium is mounted on the reproducing apparatus, the collective attribute information is read first, and the reproduction control can be performed based on the information.
[0014]
According to a third aspect of the present invention, in the information recording medium according to the first aspect, the set attribute information includes at least a sampling frequency, a number of quantization bits, a number of channels, and an emphasis process when encoding the unit audio information. Is configured to include information on the presence or absence of Therefore, the playback device can easily acquire this information, and can perform quick playback.
[0015]
According to a fourth aspect of the present invention, there are provided a plurality of unit audio information to be reproduced independently of each other, an aggregate audio information each including one or more of the unit audio information, and all the audio data included in the aggregate audio information. A unit attribute information indicating an attribute of the unit audio information, and set attribute information including the unit attribute information corresponding to all the set audio information included in the recording medium, an information recording medium reproducing apparatus having: Reading means for reading information from the information recording medium, storage means for storing the set attribute information read by the reading means, and an input for receiving a reproduction instruction of unit audio information to be reproduced continuously specified by the user Means for setting an attribute for reproduction based on the set attribute information stored in the storage means; Playback means for playing back the unit audio information specified by the user, wherein the playback means stores an attribute corresponding to each of the plurality of specified unit audio information in the set attribute information in the storage means. Obtaining means for obtaining from the obtaining means, determining means for determining whether or not the attributes corresponding to the unit audio information to be continuously reproduced, obtained by the obtaining means, are the same; and If it is determined that they are different, immediately after the end of the reproduction of one unit of audio information, an attribute changing means for starting the attribute setting of the next one unit of audio information to be subsequently reproduced is provided.
[0016]
According to the invention of claim 8, a plurality of unit audio information to be reproduced independently from each other, a set audio information each including one or more unit audio information, and the set audio information A unit attribute information indicating attributes of all the unit audio information included in the information recording medium, and set attribute information including the unit attribute information corresponding to all the set audio information included in the recording medium, In the reproducing method, a storage step of reading the collective attribute information from the information recording medium and storing it in a storage unit; and an input step of receiving a reproduction instruction of a plurality of unit audio information to be reproduced continuously specified by a user. Setting an attribute for reproduction based on the set attribute information stored in the storage unit, and setting the attribute according to the attribute setting by the user. And a reproducing step of reproducing the specified unit audio information, wherein the reproducing step obtains an attribute corresponding to each of the plurality of specified unit audio information from the set attribute information in the storage unit. The obtaining step and the determining step of determining whether or not the attributes corresponding to the unit audio information to be continuously reproduced, which are obtained in the obtaining step, are the same. If it is determined, immediately after the end of reproduction of one unit audio information, an attribute changing step of starting attribute setting of the next one unit audio information to be subsequently reproduced is provided.
[0017]
According to the playback apparatus or the playback method configured as described above, first, the set attribute information is read from the information recording medium and stored in the storage unit. Next, a reproduction instruction of a plurality of unit audio information to be continuously reproduced specified by the user is input, and an attribute for reproduction is set based on the set attribute information stored in the storage unit. The unit audio information specified by the user is reproduced according to the settings. In the reproduction, the attribute corresponding to each of the specified plurality of unit audio information is obtained from the set attribute information in the storage unit, and the unit to be reproduced continuously obtained in the obtaining step is obtained. It is determined whether the attributes corresponding to the audio information are the same. Then, when it is determined that the attributes are different, immediately after the end of the reproduction of one unit audio information, the attribute setting of the next one unit audio information to be subsequently reproduced is started.
[0018]
Therefore, even if the attributes of the unit audio information to be reproduced continuously are different and the corresponding setting needs to be changed in the reproducing apparatus, the attribute of the unit audio information to be reproduced next is quickly obtained from the set attribute information. The setting of the reproducing apparatus can be easily and quickly changed.
[0019]
The invention according to claim 5, wherein a plurality of unit audio information to be reproduced independently of each other, aggregate audio information each including one or more unit audio information, and all units included in the aggregate audio information Reading means for reading information from the information recording medium, and all the sets included in the recording medium by the reading means. A table creating unit that acquires the unit attribute information corresponding to the audio information and creates a set attribute information table; a storage unit that stores the created set attribute information table; Input means for receiving a reproduction instruction for a plurality of unit audio information to be reproduced, and a set attribute stored in the storage means. Reproducing means for setting an attribute for reproduction based on the information table and reproducing the unit audio information specified by the user according to the attribute setting, wherein the reproducing means comprises the plurality of specified unit audios. Acquisition means for acquiring an attribute corresponding to each piece of information from the set attribute information table in the storage means, and an attribute corresponding to the unit audio information to be reproduced continuously obtained by the acquisition means are the same. And if the discriminating means determines that the attributes are different, immediately after the end of the reproduction of one unit of audio information, the next one of the next unit of audio information to be reproduced. And attribute changing means for starting attribute setting.
[0020]
According to a ninth aspect of the present invention, a plurality of unit audio information to be reproduced independently from each other, an aggregate audio information each including one or more of the unit audio information, and a group audio information included in the aggregate audio information are included. Reading the unit attribute information corresponding to all the set audio information included in the recording medium, wherein the unit attribute information indicates the attribute of all the unit audio information to be read. A table creation step of creating an information table, a storage step of storing the set attribute information table created by the table creation step in a storage unit, and a plurality of unit audio information designated by a user to be continuously played back Input step of receiving a reproduction instruction, and based on a set attribute information table stored in the storage unit. Setting an attribute for reproduction, and reproducing the unit audio information specified by the user according to the attribute setting, the reproducing step corresponding to each of the specified plurality of unit audio information. Obtaining the attribute to be performed from the set attribute information table in the storage unit, and determining whether the attribute obtained in the obtaining step and corresponding to the unit audio information to be reproduced continuously is the same. If it is determined that the attributes are different from each other in the determination step of determining the attribute, the attribute setting of the next unit audio information to be subsequently reproduced is started immediately after the reproduction of one unit audio information is completed. And an attribute changing step.
[0021]
According to the playback device or the playback method configured as described above, first, the unit attribute information corresponding to all the aggregate audio information included in the recording medium is read from the information recording medium, and the aggregate attribute information table is read. It is created and stored in the storage unit. Next, a reproduction instruction of a plurality of unit audio information to be reproduced continuously specified by the user is input, and an attribute for reproduction is set based on the set attribute information table stored in the storage unit. The unit audio information specified by the user is reproduced according to the attribute setting. In the reproduction, the attribute corresponding to each of the specified plurality of unit audio information is obtained from the set attribute information table in the storage unit, and the attribute to be reproduced continuously is obtained in the obtaining step. It is determined whether the attributes corresponding to the unit audio information are the same. Then, when it is determined that the attributes are different, immediately after the end of the reproduction of one unit audio information, the attribute setting of the next one unit audio information to be subsequently reproduced is started.
[0022]
Therefore, even if the attributes of the unit audio information to be reproduced continuously are different and the corresponding setting needs to be changed in the reproducing apparatus, the attribute of the unit audio information to be reproduced next is quickly obtained from the set attribute information. The setting of the reproducing apparatus can be easily and quickly changed.
[0023]
According to a sixth aspect of the present invention, in the playback device according to the fourth or fifth aspect, the playback unit is configured to store the next one unit of audio information on the information recording medium immediately after the end of the playback of the one unit of audio information. The reading means is moved to the recording position of (i), and after a predetermined standby time has elapsed from the start of the movement, a search means for starting reading of the next unit audio information from the moved recording position is provided.
[0024]
According to a tenth aspect of the present invention, in the reproducing method according to the eighth or ninth aspect, the information recording medium of the next one unit audio information immediately after the end of the reproduction of the one unit audio information. The reading means is moved to the upper recording position, and after a lapse of a predetermined standby time from the start of the movement, a movement search step of starting reading of the next unit audio information from the moved recording position is provided.
[0025]
According to the playback apparatus and method configured as described above, when the playback of one unit of audio information is completed, the reading unit is moved to the recording position of the next unit of audio information to be played back, and a predetermined time from the start of the movement. After the elapse of the standby time, the reproduction of the unit audio information is started. Therefore, even when the attribute of the unit audio information to be reproduced next changes, it is ensured that the reproduction is started after the change of the attribute corresponding to the attribute changes.
[0026]
According to a seventh aspect of the present invention, in the playback device of the sixth aspect, the standby time is longer than a time required for changing the attribute setting by the attribute changing unit. According to an eleventh aspect of the present invention, in the reproduction method of the tenth aspect, the standby time is longer than a time required for changing an attribute setting in the attribute changing step. Therefore, when unit audio information having different attributes is continuously reproduced, the reproduction of the next unit audio information does not start before the attribute setting change on the reproducing apparatus is completed, and the reproduction of the information to be reproduced is not performed. The transition is smooth.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described. The embodiment described below is an embodiment in which the present invention is applied to the DVD.
[0028]
In the following embodiment, each example of each component in the claims shown on the left side of the following list is constituted by the element shown on the right side of the following list.
[0029]
Unit audio information: track (compatible with PGC)
Collective audio information: Group (corresponding to VTS)
Unit attribute information: audio attribute information in each VTS
Collective attribute information: Audio attribute information in audio intensive information
(I)Embodiment of information recording medium
DVD physical and logical formats
First, a physical and logical configuration and operation of a DVD which is an embodiment of an information recording medium according to the present invention will be described with reference to FIGS.
[0030]
First, a recording format (physical recording format) of video information and audio information (including music information; the same applies hereinafter) on a DVD will be described with reference to FIG.
[0031]
First, as shown in FIG. 1, the DVD 1 according to the embodiment has a lead-in area LI at the innermost periphery and a lead-out area LO at the outermost periphery, during which video information and audio Information is divided and recorded in a plurality of VTSs (Video @ Title @ Set) 3 (VTS # 1 to VTS # n) each having an ID (identification) number. Here, the VTS is a related title (having the same number of audio information and sub-picture information, the same attributes such as specifications and supported languages, etc.). ), And more specifically, for example, for a single movie, a plurality of movies having dialogues in different languages or the like are recorded as titles, respectively, or Even if the movie is the same, the movie version and the special version are recorded as different titles. The video manager 2 is recorded at the head of the area where the VTS 3 is recorded. The information recorded as the video manager 2 includes, for example, a menu indicating the name of each title, information for preventing illegal copying, or an access table for accessing each title, and the like, and the video recorded on the DVD 1. Information relating to the entire information and audio information is recorded.
[0032]
One VTS 3 is divided into a plurality of VOBs 10 each having an ID number and recorded, with the control data 11 at the head. Here, a portion constituted by a plurality of VOBs 10 is called a VOB set (VOBS). This VOB set is a VOB set for the actual part in order to distinguish between control data 11 which is another data constituting the VTS 3 and a plurality of VOBs 10 which are entities of video information and audio information. .
[0033]
The control data 11 recorded at the head of the VTS 3 includes information such as PGCI (Program @ Chain @ Information) which is various information related to a program chain which is a logical division of a plurality of cells (cells will be described later). Is recorded. In addition, in each VOB 10, a substantial part of video information and audio information (video or audio itself other than the control information) is recorded in addition to the control information.
[0034]
Further, one VOB 10 includes a plurality of cells 20 each having an ID number. Here, one VOB 10 is configured to be completed by a plurality of cells 20, and one cell 20 does not straddle two VOBs 10.
[0035]
One cell 20 is composed of a plurality of VOB units (VOBU) 30 each having an ID number. Here, the VOB unit 30 is any one of video information, audio information, and sub-video information (refers to sub-video information such as subtitles in a movie) or one unit composed of only a navi-pack described later. .
[0036]
One VOB unit 30 includes a navigation pack 41 storing control information for controlling video information and the like included in the VOB unit 30, a video pack 42 including video data as video information, An audio pack 43 includes audio data as audio information, and a sub-picture pack 44 includes sub-picture data as sub-picture information. Here, only video data is recorded as video data, and only audio data is recorded as audio data. In addition, only graphic data such as characters and graphics as sub-pictures is recorded as sub-picture data. It is standardized that eight types of audio can be recorded on the DVD 1 and 32 types of sub-video can be recorded.
[0037]
The reproduction time corresponding to one VOB unit 30 (reproduction time corresponding to data recorded between one navigation pack 41 and a navigation pack 41 adjacent to the one navigation pack 41) is 0.1. Recorded to have a length of 4 seconds or more.
[0038]
Further, in one VOB unit 30, the navigation pack 41 always exists at the head thereof, but each of the video pack 42, the audio pack 43, and the sub-picture pack 44 does not necessarily need to exist in the VOB unit 30. Even if they exist, their numbers and order can be set arbitrarily.
[0039]
Here, each section of the video pack 42, the audio pack 43, and the sub-picture pack 44 shown in FIG. That is, in one VOB unit 30, video data, audio data, and sub-picture data are divided into packs P and recorded. These packs P are recording units set in accordance with the pack process in the MPEG2 system used when recording recording information on the DVD 1 of the present embodiment.
[0040]
Further, the pack header recorded at the beginning of each pack P has a playback time axis from which data contained in each pack P is read from a track buffer in a playback device described later and input to each buffer is started. Read start time information called SCR (System @ Clock @ Reference) indicating the above read start time, a start code indicating the start of the pack P, and the like are recorded. In each of the packs P, video data, audio data, and sub-picture data are usually recorded for each packet which is a recording unit obtained by further subdividing the pack P. In the DVD 1 according to the present embodiment, generally, One pack P is composed of one packet.
[0041]
Finally, the navigation pack 41 uses search information (specifically, an address on the DVD 1 in which the video or audio or the like to be reproduced and displayed is recorded) for searching for a video or audio or the like to be displayed or displayed. It is composed of certain DSI (Data Search Information) data 51 and PCI (Presentation Control Information) data 50 which is information relating to reproduction display control when reproducing or displaying a video or audio retrieved based on the DSI data 51. At this time, the DSI data 51 and the PCI data 50 are recorded as a packet PT constituting a DSI packet and a PCI packet, respectively.
[0042]
Further, all the video packs 42 included in one VOB unit 30 are constituted by one or a plurality of GOPs (Group @ Of @ Picture). The GOP is the smallest image that can be played back alone defined in the MPEG2 (Moving Picture Experts Group2) standard, which is an image compression scheme adopted when recording video information on DVD1 in the present embodiment. Is a unit.
[0043]
In the above-described recording format having the hierarchical structure shown in FIG. 1, the creator of the recording information to be recorded in the DVD 1 (hereinafter, simply referred to as the creator) freely sets the division according to the intention. Is recorded. By performing reproduction based on a logical structure described later for each of these sections, various types of reproduction can be realized.
[0044]
Next, a logical format (logical structure) combining information recorded by the physical divisions shown in FIG. 1 will be described with reference to FIG. Note that the logical structure shown in FIG. 2 does not actually record information on the DVD 1 in that structure, but combines the data (particularly the cells 20) shown in FIG. 1 with the logical structure shown in FIG. Information for reproduction (such as access information or time information) is recorded on the DVD 1, especially in the control data 11.
[0045]
For the sake of clarification of the description, the description will be given from the lower hierarchy of FIG. 2. By selecting and combining a plurality of cells 20 in the physical structure described in FIG. Logically configured based on the creator's intention. The program 60 is also a minimum logical unit that can be accessed by a command by a system controller in a playback device to be described later that identifies a section. The creator can also define one or a plurality of the programs 60 as a minimum unit that can be freely selected and viewed by the viewer, and this unit is called PTT (Part @ Of @ Title).
[0046]
Also, since one program 60 is logically configured by selecting a plurality of cells 20, one cell 20 is used in a plurality of programs 60, that is, one cell 20 is used in a plurality of different programs 60. It is also possible for the maker to reuse the so-called cell 20 for reproduction.
[0047]
Here, the number of one cell 20 is handled as a cell ID number when the cell 20 is handled in the physical format shown in FIG. 1 (shown as cell ID # in FIG. 1) and shown in FIG. When handling in the logical format, they are handled as cell numbers in the order of description in PGCI described later.
[0048]
Next, one PGC (Program @ Chain) 61 is logically constructed based on the intention of the producer by combining a plurality of programs 60. The above-described PGCI is defined in units of the PGC 61, and the PGCI includes a reproduction order of the cells 20 for each program 60 at the time of reproducing each program 60 (a program unique to each program 60 by this reproduction order). Numbers are assigned.), The address of the recording position of each cell 20 on the DVD 1, the number of the first cell 20 to be reproduced in one program 60, the reproduction method of each program 60, and various commands (for each PGC 61 or each cell 20). Contains commands that can be specified by the producer. The recording position of the PGCI on the DVD 1 is in the control data 11 (see FIG. 1) as described above, but if the PGCI is a PGCI related to a menu in the video manager 2, the recording position of the PGCI is , Control data included in the video manager 2 (see FIG. 4).
[0049]
In addition, one PGC 61 includes, in addition to the PGCI, data such as substantial video and audio as a combination of the programs 60 (in other words, as a combination of the cells 20).
[0050]
Further, in one PGC 61, the cell 20 shown in the description of the program 60 can be reused (that is, the same cell 20 can be used by different PGCs 61). Regarding the cells 20 to be used, in addition to the method of reproducing the cells 20 in the order stored in the DVD 1 (reproduction of continuously arranged cells), the cells 20 are reproduced regardless of the order stored in the DVD 1 (for example, later) The creator can select a method (for example, reproducing the recorded cell 20 first) (reproduction of the non-continuously arranged cells).
[0051]
Next, one or more PGCs 61 logically constitute one title 62. The title 62 is, for example, a unit corresponding to one movie in video information and one album in music information, and is complete information that the producer wants to provide to the viewers of the DVD 1.
[0052]
One or a plurality of titles 62 logically constitute one VTS 63. The titles 62 included in the VTS 63 have common attributes. For example, a movie in a different language for the same movie, a plurality of albums by one music artist, and the like are included in each title 62. Would be equivalent.
[0053]
Further, information corresponding to one VTS 63 shown in FIG. 2 corresponds to information included in one VTS 3 shown in FIG. That is, all information logically included in the VTS 63 shown in FIG. 2 is collectively recorded as one VTS 3 on the DVD 1.
[0054]
By specifying the information divided in the physical structure by the producer based on the logical format described above, a video or music to be viewed by the viewer is formed.
[0055]
Since it is necessary to record information of various layers as described above, the recording information having the above-described recording format is not limited to recording a single movie as in the case of the above-mentioned DVD1, and also includes audio corresponding to the movie. Or, for subtitles and the like, it is particularly suitable for an information recording medium having a large storage capacity capable of recording voices or subtitles in a plurality of languages on the same optical disc.
Audio DVD contents
As described above, video information, character information, audio information, and the like can be mixedly recorded on a DVD. When a movie or the like is recorded on a DVD, video information of the movie and audio information corresponding to the movie are recorded as a pair, and subtitles and the like are recorded as sub-picture information as necessary. On the other hand, there are cases where only audio information is recorded on a DVD like a CD, in which case video information is basically not recorded on the DVD (hereinafter, such a DVD is referred to as “audio DVD”). ). In this case, more specifically, the VOB unit 30 shown in FIG. 1 includes a navigation pack 41 and a plurality of audio packs 43, and basically does not include a video pack and a sub-picture pack (however, music selection and It could include textual information for song introductions and some video information for advertising etc.). Since the present invention particularly relates to audio information, in the following embodiments, it is assumed that only audio information is recorded on a DVD.
[0056]
Before describing the details of the embodiment, a recording mode of audio information on an audio DVD will be roughly described. Audio DVDs have a considerably larger recording capacity than CDs, and can record music information corresponding to a plurality of CDs in one DVD. A group of audio information corresponding to one CD on an audio DVD is called a “group”. For example, it is assumed that there is an audio DVD in which a plurality of original albums of the Beatles are collected. In this case, the audio DVD includes a plurality of (for example, four) albums such as "Let It Be" and "Abby Road". Audio information corresponding to each album is recorded as an individual title set (VTS3, see FIG. 1). For example, "let it be" is recorded in VTS # 1, and "abbey road" is recorded in VTS # 2. Therefore, in this case, each set of audio information corresponding to each album corresponds to a “group”.
[0057]
In the above example, one album corresponds to one group, but a group can be formed by a set of audio information collected based on another theme. For example, in addition to a plurality of original albums on the DVD, "John Lennon Vocals" (for example, VTS # 5), which is a collection of songs that lead by John Lennon, or "Paul McCartney Vocals" Assuming that a music collection such as VTS # 6 is recorded, each of these also forms a "group", each of which corresponds to one VTS. However, in this case, only the songs belonging to the plurality of original albums are reproduced as actual songs, and the songs in the plurality of original albums overlap in VTS # 5 and # 6 as audio information on the DVD. It is not recorded. Therefore, as the information in VTS # 5 and # 6, only the reproduction control information such as the address and attribute of the audio information recorded in VTS # 1 and # 2 is recorded, and the reproduction of the music refers to the control information. Then, it is performed based on the substantial audio information belonging to VTS # 1 and # 2. A collection of audio information (such as a collection of XX) created based on a certain theme or the like as described above is also referred to as a “collection”. Therefore, it can be said that the “collection” is a group including substantive information recorded in a group (VTS) different from itself.
[0058]
The “group” can be considered to correspond to a group of songs recognized by the user. In the example described above, four original albums and two collections are recorded on one DVD. In this case, the content list attached to the DVD includes a total of six different albums. Actually, the substantive information of the two collections is composed of the songs included in the four original albums, and the substantive audio information is not recorded in duplicate, but the user is aware of such circumstances. Instead, it recognizes that six different albums are recorded on one DVD. Therefore, regardless of the recording state of the substantial audio information on the DVD, the group can be considered as a set of music pieces recognized by the user.
Audio attribute information
Next, among the recorded information on the DVD, audio attribute information particularly related to the present invention will be described. The audio attribute information refers to attributes of audio information recorded on a DVD, specifically, an encoding method, a sampling frequency, the number of quantization bits, the number of channels, presence / absence of emphasis, and the like. In the present invention, the audio attribute information is recorded in the audio pack 43, in the control data 11 in each VTS 3, and in the control data in the video manager 2 in order from the lower layer shown in FIG. . Hereinafter, these will be described in detail.
[0059]
As described above, the audio information is stored in the audio pack 43, but the audio attribute information is first recorded in the audio pack 43. FIG. 3 shows the structure of information in the audio pack. As a type of audio information, there are a case where compressed audio data is recorded and a case where uncompressed audio data is recorded. Here, the case of uncompressed audio data (linear PCM system) is exemplified. I do. That is, FIG. 3 shows the contents of the audio pack 43 when the type (encoding method) of the audio data is linear PCM.
[0060]
As shown, the audio pack 43 includes a pack header 64 and an audio packet APT. In the pack header 64, read start time information as control information at the time of reproducing data in each pack P, a start code indicating the start of the pack P, and the like are recorded. The audio packet APT is a packet header 65 including information indicating that the data included in the audio pack 43 is audio data and the like, and audio data in which the audio data included in the audio pack 43 is compressed. Or sub-stream ID information 66 including information indicating whether the audio data is uncompressed as in the linear PCM method, and audio frame information 67 in which audio frame number information and the like are described.
[0061]
Further, the audio pack 43 has audio attribute information 68 which is information relating to the attribute of audio data included in the audio pack 43. In the case of linear PCM audio data, the audio attribute information 68 indicates that the sampling frequency and the number of quantization bits, the number of channels included as audio data (one channel is constituted by audio data output from one speaker). For example, when audio data to be output from the left and right speakers is included, the number of channels is “2”), and information such as the presence or absence of emphasis of the audio data. The audio pack 43 further has audio data 43a which is a substantial part as audio information and is composed of a plurality of audio frames AF. In the above configuration, a portion of the audio pack 43 other than the pack header 64 forms an audio packet APT.
[0062]
The audio attribute information is also recorded in the control data 11 in each VTS. FIG. 4 shows the audio attribute information 12 in the control data 11. As described above, the attribute information of the audio information included in the VTS is recorded in the control data 11 for all the VTSs. An example of the audio attribute information 12 is shown in FIG. As shown in FIG. 5, the audio attribute information includes an audio information encoding method 15h, multi-channel information 15i, an audio type 15j, an application type 15k, a quantization bit number 15m, a sampling frequency 15n, a channel number 15o, and emphasis information. Presence / absence 15p is included. The encoding method 15h specifies an encoding method such as Dolby AC3 or linear PCM, and the audio type 15j specifies whether or not the audio information includes a language (such as lyrics). The application type 15k indicates their use when the audio information is multi-channel, and includes karaoke, surround, and the like. The number of quantization bits 15m and the sampling frequency 15n indicate the number of quantization bits and the sampling frequency in the encoding of the audio information, respectively. The number of channels 15o indicates the number of channels of the audio information, and the presence / absence of emphasis 15p indicates whether emphasis is turned on in the audio information.
[0063]
Further, the audio attribute information is recorded in the control data in the video manager 2 as a part of the audio centralized information. FIG. 6 shows an example of the audio concentration information. As can be seen from FIG. 6, it can be said that the audio centralized information 13 in the control data 11 in the video manager 2 is a set of audio management information described in the control data 11 in each VTS. In the example of FIG. 6, the DVD has three groups, each of which corresponds to a VTS. As described above, the group corresponds to one album such as a CD, and the user recognizes that three different albums are recorded on one DVD. Tracks correspond to songs. Note that the group 3 in FIG. 6 is a group corresponding to the above-described collection. In other words, the album is apparently recognized by the user as an album different from the groups 1 and 2, but is actually constituted by a set of substantial audio information included in the groups 1 and 2.
[0064]
The content of the audio concentration information 13 further includes a start address and an end address of each track. These are the absolute addresses on the DVD. Further, as the audio attribute information, among the audio attribute information 12 recorded in the control data 11 in each VTS described above, at least the sampling frequency, the number of quantization bits, the number of channels, the presence or absence of emphasis, etc. Essential attribute information is included. In the audio concentration information, the reproduction time of each track and the reproduction time of each group for recording the reproduction time are recorded.
[0065]
As described above, the audio attribute information 12 is recorded in the control data 11 for each group (VTS), and by referring to this, the music in each group can be reproduced. In order to obtain the audio attribute information 12, it is necessary to access the control data 11 in each VTS 3 and read its contents. Here, since the DVD can record audio information having different attributes for each group (VTS), a plurality of songs belonging to different groups and therefore having different attributes may be reproduced successively. This situation occurs when the user first selects songs in different groups by manual selection. It also occurs when a group called a collection such as group 3 in FIG. 6 is reproduced. This is because, in a collection, the substantial audio information of each track belongs to a plurality of groups, and tracks having different audio attributes are generally mixed.
[0066]
Therefore, in such a case, since the audio attributes such as the sampling frequency and the number of quantization bits change, it takes time for the reproducing apparatus to cope with the changes. Assuming that the audio centralized information 13 is not prepared in the video manager 2, when a track having a different audio attribute is reproduced after the reproduction of a certain song, the audio attribute information in the VTS corresponding to the group including the track is reproduced. Until the search is performed and the attribute of the song corresponding to the next song is acquired, the playback device does not know that the attribute changes. Therefore, when the search for the next song and the track jump (that is, the movement of the pickup) are completed in a relatively short time, the reproducing apparatus recognizes the change in the attribute and changes the frequency of the D / A converter. The reproduction of the next tune starts before the processing of is completed, and a problem may occur that the beginning of the tune cannot be reproduced correctly. Normally, the playback device is not configured to report the completion of the setting change such as the frequency change to the controller that controls the reading of the DVD, so that such a problem is highly likely to occur.
[0067]
Therefore, as described above, in the present invention, the audio management information in the control data 11 of each VTS is further collected, and this is included in the audio centralized information 13 and described in the video manager 2. Then, when the DVD is set in the playback device, the audio centralized information 13 in the video manager 2 is read and stored in a memory or the like in the system controller. Thus, when tracks having different audio attributes are continuously played, such as in the case of collection playback, the audio attributes of the next song to be played can be known in advance by referring to the audio attribute information in the audio concentrated information. Can be. Thus, the above-described problem can be avoided. The actual processing of the playback device will be described later.
(II)Embodiment of recording device
Next, an embodiment of a recording apparatus for recording audio concentration information including the above-described audio attribute information on the DVD 1 will be described with reference to FIG. First, the configuration of the recording apparatus of the present embodiment will be described.
[0068]
As shown in FIG. 7, the recording device S1 according to the embodiment includes an audio source 70, a memory 71, a signal processing unit 72, hard disk devices 73 and 74, a controller 75, a multiplexer 76, a modulator 77 and a mastering device 78 as recording means.
[0069]
Next, the operation will be described.
[0070]
In the audio source 70, recording information R, which is a material of audio information to be recorded on the DVD 1, is temporarily recorded for each piece of information. Then, the recording information R temporarily recorded in the audio source 70 is output to the signal processing unit 72 in response to a request from the signal processing unit 72.
[0071]
The signal processing unit 72 performs A / D conversion on the recording information R output from the audio source 70, performs a compression process as necessary, and outputs the result as an audio signal Sr. The output audio signal Sr is temporarily stored in the hard disk device 73.
[0072]
In parallel with these, the memory 71 stores control information for controlling the reproduction of the recording information R (the video manager 2, the control data 11, the navigation pack 41, and the respective audio packs 43 in FIG. 1). The control information is temporarily stored in advance based on a cue sheet ST on which each control information such as a pack header is described, and is output as a control information signal Si based on a request from the signal processing unit 72.
[0073]
Based on the time code Tt output from the audio source 70 and the control information signal Si output from the memory 71, the signal processing unit 72 refers to the time code Tt to generate an access information signal Sac corresponding to the audio signal Sr. The access information Sac is generated and output, and the access information Sac is temporarily stored in the hard disk device 74. The above processing is performed for the entire recording information R.
[0074]
When the above processing is completed for all the record information R, the controller 75 reads the audio signal Sr from the hard disk device 73 and the access information signal Sac from the hard disk device 74, generates additional information Da based on these, and It is stored in the hard disk drive 74 as the information signal Sa. The specific contents of the audio centralized information 13 in the present embodiment are determined in advance by the DVD maker for each group (VTS), and are stored in the hard disk 74. Then, under the control of the signal processing unit 72, the audio concentration information 13 and the audio attribute information 12 are included in the additional information Da. That is, the audio information 68 (see FIG. 3) is included in the additional information Da as information recorded in each audio pack, and the audio attribute information 12 (see FIG. 4) is information recorded in the control data 11 in each VTS 3. In the additional information Da. Further, the audio concentration information 13 (see FIG. 6) is included in the additional information Da as information recorded in the video manager 2.
[0075]
On the other hand, the controller 75 manages the time of each operation of the signal processing unit 72 and the hard disk devices 73 and 74, outputs the additional information signal Sa corresponding to the additional information Da read from the hard disk device 74, and outputs the audio signal Sr And an information selection signal Scc for time-division multiplexing the data and the additional information signal Sa with each other.
[0076]
Thereafter, the audio signal Sr and the additional information signal Sa are read from the hard disk device 73 or 74, are time-division multiplexed by the multiplexer 76 based on the information selection signal Scc from the controller 75, and output as the information additional multiplexed signal Sap. . At the stage of the information-added multiplex signal Sap, the information to be recorded is composed of control information and audio information by a switching operation of the controller 75 using the information selection signal Scc, and the physical structure (physical structure) shown in FIGS. Format). Each audio pack 43 has the structure shown in FIG.
[0077]
After that, the modulator 77 adds an error correction code (ECC) such as Reed-Solomon code and modulates such as 8-16 modulation to the output information addition multiplex processing signal Sap to generate a disk recording signal Sm. , To the mastering device 78.
[0078]
Finally, the mastering device 78 records the disc recording signal Sm on a stamper disc that becomes a master (cutting die) when manufacturing an optical disc. Then, an optical disk as a generally available replica disk is manufactured by a replication device (not shown) using the stamper disk.
[0079]
As described above, the audio attribute information 68 is included in the audio pack 43, the audio attribute information 12 is included in the control data 11 in each VTS, and the audio centralized information 13 is included in the video manager 2. A DVD is created.
(III)Embodiment of playback device
Next, an embodiment of a reproducing apparatus for reproducing the information recorded on the DVD 1 by the recording apparatus S1 will be described with reference to FIGS.
[0080]
As shown in FIG. 8, the reproducing apparatus S2 according to the embodiment includes a pickup 80, a demodulation and correction unit 81, stream switches 82 and 84, a track buffer 83, a system buffer 85, a demultiplexer 86, a VBV (Video @ BufferVerifier) buffer 87, video decoder 88, sub-picture buffer 89, sub-picture decoder 90, mixer 91, audio buffer 92, audio decoder 93, PCI buffer 94, PCI decoder 95, It comprises a highlight buffer 96, a highlight decoder 97, an input section 98, a display 99, a system controller 100, a drive controller 101, a spindle motor 102, and a slider motor 103. Note that the configuration shown in FIG. 8 describes only a portion related to video and audio playback in the configuration of the playback device S2, and includes a servo for servo-controlling the pickup 80, the spindle motor 102, the slider motor 103, and the like. The circuit and the like are the same as those in the related art, and the description and detailed description are omitted.
[0081]
Next, the operation will be described.
[0082]
The pickup 80 includes a laser diode (not shown), a beam splitter, an objective lens, a photodetector, and the like, irradiates the DVD 1 with a light beam B as reproduction light, and receives reflected light of the light beam B from the DVD 1. Then, a detection signal Sp corresponding to the information pit formed on the DVD 1 is output. At this time, a method similar to that of the prior art is applied to an objective lens (not shown) so that the light beam B is accurately irradiated on the information track on the DVD 1 and accurately focused on the information recording surface on the DVD 1. Performs tracking servo control and focus servo control.
[0083]
The detection signal Sp output from the pickup 80 is input to a demodulation and correction unit 81, where demodulation processing and error correction processing are performed to generate a demodulated signal Sdm, which is output to a stream switch 82 and a system buffer 85.
[0084]
The opening and closing of the stream switch 82 to which the demodulated signal Sdm has been input is controlled by a switch signal Ssw1 from the drive controller 101. When the stream switch 82 is closed, the input demodulated signal Sdm is passed through as it is and output to the track buffer 83. On the other hand, when the stream switch 82 is open, the demodulated signal Sdm is not output, and unnecessary information (signal) is not input to the track buffer 83.
[0085]
The track buffer 83 to which the demodulated signal Sdm is input is constituted by a FIFO (First @ In @ First @ Out) memory or the like, and temporarily stores the input demodulated signal Sdm, and when the stream switch 84 is closed, The stored demodulated signal Sdm is continuously output. The track buffer 83 compensates for the difference in the data amount for each GOP in the MPEG2 system and, when reading data divided into interleaved units IU, causes discontinuity due to the track jump in the seamless reproduction. To continuously output the demodulated signal Sdm to be input to the, and eliminate the interruption of reproduction due to the discontinuity.
[0086]
The stream switch 84 to which the demodulated signal Sdm is continuously input is used in the demultiplexer 86 so as to prevent the subsequent buffers from overflowing or becoming empty and interrupting the decoding process in the demultiplexing process. Opening / closing is controlled by a switch signal Ssw2 from the controller 100.
[0087]
On the other hand, the system buffer 85 to which the demodulated signal Sdm is input in parallel with the track buffer 83 is first detected when the DVD 1 is loaded, and management information (such as the video manager 2) on the entire information recorded on the DVD 1 or The control data 11 for each VTS 3 is stored and output to the system controller 100 as control information Sc, and the DSI data 51 for each navigation pack 41 is temporarily stored during playback and output to the system controller 100 as control information Sc. .
[0088]
In the demultiplexer 86 to which the demodulated signal Sdm is continuously input via the stream switch 84, video data, audio data 43a, sub-picture data, and PCI data for each navi-pack are extracted from the demodulated signal Sdm for each pack. Then, the video signal Sv, the sub-picture signal Ssp, the audio signal Sad, and the PCI signal Spc are output to the VBV buffer 87, the sub picture buffer 89, the audio buffer 92, and the PCI buffer 94, respectively.
[0089]
At this time, the demultiplexer 86 extracts the pack header 64, the packet header 65, and the like from each pack (including the audio pack 43) and the packet (including the audio packet APT), and converts the information included in each of them into the header signal Shd. Is output to the system controller 100. The header signal Shd includes a pack header 64, a packet header 65, substream ID information 66, audio frame information 67, audio data information 68, and the like of the audio pack 43 separated by the demultiplexer 86.
[0090]
The audio signal Sad includes audio data 43a divided into the audio packs 43 in the form shown in FIG. 3, and each audio pack 43 includes a plurality of audio frames AF as shown in FIG. Have been.
[0091]
The VBV buffer 87 to which the video signal Sv is input is composed of a FIFO memory or the like, temporarily stores the video signal Sv, and outputs the video signal Sv to the video decoder 88. The VBV buffer 87 is for compensating a variation in the data amount of each picture (see FIG. 2) in the video signal Sv compressed according to the MPEG2 system. Then, the video signal Sv in which the data amount variation is compensated is input to the video decoder 88, demodulated by the MPEG2 method, and output to the mixer 91 as a demodulated video signal Svd.
[0092]
On the other hand, the sub-picture buffer 89 to which the sub-picture signal Ssp is input temporarily stores the input sub-picture signal Ssp and outputs it to the sub-picture decoder 90. The sub-picture buffer 89 is for outputting the sub-picture data 44 included in the sub-picture signal Ssp in synchronization with the video data 42 corresponding to the sub-picture data 44. Then, the sub-picture signal Ssp synchronized with the video data 42 is input to the sub-picture decoder 90, demodulated, and output to the mixer 91 as a demodulated sub-video signal Sspd.
[0093]
The demodulated video signal Svd output from the video decoder 88 and the demodulated sub-video signal Sspd (synchronized with the corresponding demodulated video signal Svd) output from the sub-picture decoder 90 are mixed by the mixer 91, The final video signal Svp to be displayed is output to a display unit such as a CRT (Cathode Ray Tube) (not shown).
[0094]
The audio buffer 92 to which the audio signal Sad is input is configured by a FIFO memory or the like, temporarily stores the input audio signal Sad, and outputs the audio signal Sad to the audio decoder 93. The audio buffer 92 is for outputting the audio signal Sad in synchronization with the video signal Sv including the corresponding video information or the sub-video signal Ssp based on the header control signal Shc output from the system controller 100. The audio signal Sad is delayed according to the output status of the corresponding video information. Then, the audio signal Sad whose time has been adjusted so as to synchronize with the corresponding video information is output to the audio decoder 93, and subjected to a reproduction process in the linear PCM system based on the header control signal Shc output from the system controller 100. Then, the signal is output as a demodulated audio signal Sadd to a speaker (not shown) or the like. In the case of an audio DVD including only music information, the synchronization processing with the video information is unnecessary. The processing in the audio decoder 93 will be described later in detail.
[0095]
When it is detected that the sound needs to be temporarily interrupted (paused) during reproduction or the like immediately after accessing the desired information, a pause signal Sca is output from the system controller 100 to the audio decoder 93, and the pause signal Sca is output to the audio decoder 93. The audio decoder 93 temporarily stops outputting the demodulated audio signal Sadd.
[0096]
The PCI buffer 94 to which the PCI signal Spc is input is configured by a FIFO memory or the like, temporarily accumulates the input PCI signal Spc, and outputs the PCI signal Spc to the PCI decoder 95. The PCI buffer 94 synchronizes the PCI data included in the PCI signal Spc with video data, audio data 43, sub-picture data, or the like corresponding to the PCI data, and converts the PCI data into the video data, audio data 43, sub-picture data, or the like. It is for applying data. Then, the PCI decoder 94 separates the highlight information included in the PCI data from the PCI signal Spc synchronized with the corresponding video data, audio data 43 or sub-picture data by the PCI buffer 94, and highlights the highlight information as the highlight signal Shi. In addition to being output to the buffer 96, a portion other than the highlight information of the PCI data is output to the system controller 100 as the PCI information signal Spci.
[0097]
The highlight buffer 96 to which the highlight signal Shi is input is composed of a FIFO memory or the like, and temporarily stores the input highlight signal Shi and outputs the same to the highlight decoder 97. The highlight buffer 96 accurately changes the display state of the selection item (selection button) corresponding to the highlight information in response to the sub-video signal Ssp including the video information for the highlight information. This is a buffer for performing time axis compensation to be performed. Then, the highlight signal Shi subjected to the time axis compensation is decoded by the highlight decoder 97, and information included in the highlight signal Shi is output to the system controller 100 as the demodulated highlight signal Shid. The demodulation highlight signal Shid contains information for setting a register in the system controller 100.
[0098]
Here, based on the demodulated highlight signal Shid, the system controller 100 outputs the above-described highlight control signal Sch in order to change the display state based on the highlight information. At this time, based on the validity period information indicating the validity period of the highlight information included in the demodulated highlight signal Shid, the system controller 100 validates the selection operation using a menu screen or the like based on the highlight information. The selection operation based on the input signal Sin from the input unit 98 is received, and the highlight control signal Sch is output.
[0099]
Further, the system controller 100 controls the control information Sc input from the system buffer 85, the header signal Shd input from the demultiplexer 86, the PCI information signal Spci input from the system PCI decoder 95, and the input from an input unit 98 such as a remote controller. The switch signal Ssw2, the stream selection signal Slc, the header control signal Shc, the pause signal Sca, and the highlight control signal Sch are output in order to perform correct reproduction corresponding to the input signals Sin based on the input signals Sin. A display signal Sdp is output to a display 99 such as a liquid crystal display device in order to display an operation state or the like of the reproducing device S2.
[0100]
Furthermore, when the system controller 100 detects from the DSI information signal Sdsi or the like that track jump processing such as search is necessary for seamless reproduction, the system controller 100 instructs the drive controller 101 to perform the track jump processing. And outputs a seamless control signal Scsl corresponding to.
[0101]
Then, the drive controller 101 to which the seamless control signal Scsl is input outputs a drive signal Sd to the spindle motor 102 or the slider motor 103. In response to the drive signal Sd, the spindle motor 102 or the slider motor 103 moves the pickup 2 so that the light beam B is irradiated to the recording position on the DVD 1 to be reproduced (see the broken arrow in FIG. 8), and rotates the DVD 1 The number is controlled by CLV (Constant \ Linear \ Velocity: constant linear velocity). In parallel with this, when the pickup 2 is moving and the demodulation correction unit 81 does not output the demodulation signal Sdm, the drive controller 101 outputs the switch signal Ssw1 based on the seamless control signal Scsl and opens the stream switch 82. When the demodulation signal Sdm starts to be output, the stream switch 82 is closed and the demodulation signal Sdm is output to the track buffer 83.
[0102]
Next, the configuration and operation of the audio decoder 93 particularly related to the present invention will be described. FIG. 9 shows the configuration of the audio decoder 93. As shown, the audio decoder 93 includes a signal processing unit 120 including a digital filter, a D / A converter 121, an analog output circuit 122 including an amplifier, a digital output circuit 123, and a system microcomputer 124 including a RAM 124a. And a clock circuit 125.
[0103]
The system microcomputer 124 exchanges the control signal Sca with the system controller 100 and controls the operation of the clock circuit 125, the signal processing unit 120, the D / A converter 121, and the analog output circuit 122. The system microcomputer 124 has a RAM 124a inside. The RAM 124a temporarily stores audio attribute information supplied as a control signal Sca from the system controller 100.
[0104]
The system microcomputer 124 refers to the audio attribute information stored in the RAM 124a, and supplies the contents to the clock circuit 125 and the signal processing unit 120. Specifically, the system microcomputer 124 supplies the sampling frequency information in the audio attribute information to the clock circuit 125. The clock circuit 125 has an oscillator and supplies a clock signal fs corresponding to the specified sampling frequency to the signal processing unit 120. Further, the system microcomputer 124 supplies information on the sampling frequency, the number of quantization bits, the number of channels, and the presence / absence of emphasis in the audio attribute information to the signal processing unit 120, and provides the D / A converter 121 with the information on the number of channels. Further, the system microcomputer 124 supplies information such as the degree of amplification of the signal of each channel to the analog output circuit 122. The information of the amplification degree for each channel can be supplied from the system controller 100 while being included in the audio attribute information.
[0105]
The signal processing unit 120 uses the clock signal fs from the clock circuit 125 to generate an audio buffer according to information such as an encoding method (such as linear PCM or Dolby AC3), a sampling frequency, and a quantization bit number obtained from the system microcomputer 124. It performs processing such as decoding and band limitation of the audio signal supplied from 92, and further performs de-emphasis processing according to information on the presence or absence of emphasis, and outputs the result to the D / A converter 121. The D / A converter 121 divides the input signal for each channel according to the channel information obtained from the system microcomputer 124, and outputs the signal to the analog output circuit 122 as an analog signal for each channel. The analog output circuit 122 performs an appropriate amplification process for each channel signal and outputs the analog audio signal to a not-shown speaker or the like as an analog audio signal.
[0106]
Further, the signal processing unit 120 outputs the digital audio signal Sadd to the outside via the digital output circuit 123.
[0107]
Next, the operation of the audio decoder 93 during reproduction will be described. When a track (song) to be reproduced next is specified, the reproducing device S2 refers to the audio attribute information in the audio centralized information 13 in the video manager 2, and according to the audio attribute information of the specified track, the audio decoder 93. Control of the operation. As shown in FIG. 6, address information on the DVD on which each track is recorded is also recorded in the audio centralized information 13 in the video manager 2. Therefore, based on this address information (start address), the system controller 100 sends a control signal Scsl to the drive controller 101 to move the pickup 80 to the start address. This process starts immediately after the user instructs the reproduction of the track. That is, the control in the audio decoder 93 is performed in time parallel.
[0108]
After moving the pickup 80 to the start address of the instructed track, the system controller 100 temporarily puts the pickup 80 in a standby state. That is, reading does not start immediately. This is to ensure that reading (track reproduction) is performed after the setting of the audio attribute in the audio decoder 93 is completed. The time required for the system controller 100 and the system microcomputer 124 in the audio decoder 93 to complete the setting of the audio attribute in the audio decoder 93 is almost constant in the same reproducing apparatus, but is output from the digital output circuit 123. The time during which an external digital amplifier and a DA converter (not shown) are locked to the digital output signal varies depending on the device, and is usually 1-2 seconds, and hardly exceeds 5 seconds. The time required to move the pickup 80 to the designated track varies according to the position (movement distance) of the destination track on the DVD. Therefore, when the pickup is moved to a relatively close address on the DVD, the movement is completed in a short time. In this case, if the reading (reproduction) is started immediately after the movement of the pickup, the setting of the audio attribute in the audio decoder 93 is not completed, and the audio signal cannot be reproduced correctly. A case may occur where the DA converter is not locked. For this reason, the system controller 100 moves the pickup 80 to the corresponding start address, waits for a predetermined time X, and then starts reading. The time required for setting the audio attribute in the audio decoder 93 is usually 1 second, the time for locking by the external digital amplifier and the DA converter is about 1-2 seconds, and it is almost impossible to exceed 5 seconds. The standby time can be determined by the user as a function of the DVD according to the processing speed of the system between 0.5 seconds and 5 seconds. Of course, default settings are also possible.
[0109]
Next, continuous playback control of a plurality of tracks (songs) will be described with reference to the flowchart of FIG. At the start of the flowchart in FIG. 10, it is assumed that a certain piece of music recorded on the same DVD has already been reproduced. The audio centralized information 13 shown in FIG. 6 is read in advance from the DVD video manager 2 and stored in the memory 100a in the system controller. The operation shown in FIG. 10 is mainly executed by the system controller 100 and the system microcomputer 124 in the audio decoder 93.
[0110]
First, the system controller 100 receives a song change instruction (step S1). There are various modes for receiving a song change instruction. For example, there is a case where a user selects one of a plurality of groups recorded on a DVD and reproduces it. For example, when the user selects the group 1 with reference to the audio concentration information in FIG. 6, the system controller 100 reproduces the tracks 1 to 6 of the group 1 in order. At this time, a song change instruction is given in order from track 1 to track 2 and track 3, and a song change instruction is given to the system controller 100 at the end of reproduction of each track.
[0111]
When the music change instruction is given, the system microcomputer 124 next sends a control signal to the signal processing unit 120 and outputs digital "0" data to the D / A converter 121 by an internal digital filter (step S3). . As a result, the output analog signal of the D / A converter becomes zero level, and as a result, the audio output is muted.
[0112]
Next, the system controller 100 refers to the audio concentration information 13 in the memory 100a and acquires an audio attribute of a track to be reproduced next (Step S5). The audio attribute information acquired in this case includes at least the sampling frequency, the number of quantization bits, the number of channels, and the presence or absence of emphasis. At the same time, the system controller 100 acquires the start address and end address of the next song from the audio centralized information 13.
[0113]
Next, the system controller 100 sends the acquired audio attribute information to the system microcomputer 124 in the audio decoder 93. The system microcomputer 124 compares the received audio attribute information with the audio attribute information of the track currently reproduced and stored in the internal RAM 124a at that time (step S7). If the two match, the audio attribute setting in the audio decoder 93 does not need to be changed, and the process proceeds to step S15 and thereafter.
[0114]
On the other hand, if they do not match, it is necessary to change the setting of the audio attribute in the audio decoder 93. Therefore, first, the system microcomputer 124 controls the clock circuit 125 to instruct to change the frequency fs of the sampling clock (step S9), and further controls the signal processing unit 120 to change the changed sampling frequency and quantization bit number. Is output to the D / A converter 121 (step S11). As a result, the D / A converter 121 changes the sampling frequency for D / A conversion by an internal PLL circuit or the like. Further, the system microcomputer 124 controls the signal processing unit 120 to issue an instruction to switch the presence / absence of emphasis and to switch the number of channels (step S13). Through the processing in steps S9 to S13, the instruction to change the audio attribute in the audio decoder 93 is completed. Note that the actual setting change processing in the audio decoder 93 usually requires about one second as described above, but the change is small due to a device-specific value. However, external digital amplifiers and DA converters to which digital outputs are connected have different lock times. The standby time X is determined in advance in consideration of this time. The standby time X can be set by the user as a function of the player.
[0115]
Next, the system controller 100 issues a search instruction to move the pickup 80 to the start address acquired in step S5 to the drive controller 101 (step S15), and measures the elapsed time (search time) T from issuing the instruction. Start (step S17). Next, it is determined whether or not the movement of the pickup is completed (step S19). When the movement is completed, the measurement of the above-described predetermined search time T ends (step S21).
[0116]
Next, the system controller 100 compares the measured search time T with the above-mentioned predetermined standby time X. If the search time T is longer than the standby time X (step S23: NO), it is considered that the change of the audio attribute in the audio decoder 93 and the lock of the external digital amplifier and the D / A converter have already been completed, and the corresponding track is considered. Is issued, and the mute of the audio output is released (step S27). Thereby, the reproduction of the track is started. On the other hand, when the search time T is shorter than the standby time X (step S23: YES), the system controller 100 issues a reproduction instruction of the track after waiting for a time corresponding to the difference (X-T) (step S27). As described above, the continuous reproduction of the music is executed.
[0117]
An example of a case where the audio attribute changes and a case where the audio attribute does not change in continuous reproduction of music will be described. Assuming that the user instructs the reproduction of tracks 1 to 6 of group 1 in order in the reproduction of the DVD having the audio concentration information of FIG. 6, the system controller 100 instructs the system controller 100 to change to the next track at the end of reproduction of each track. Is given. However, in this case, since the next track has the same audio attribute, step S7 becomes YES, and reproduction of the next track continues with the same audio attribute.
[0118]
On the other hand, it is assumed that the user instructs to reproduce tracks 1 to 5 of group 3 in order. Since group 3 is a collection group, the audio attributes of the tracks included therein may be different. For example, when the playback shifts from track 1 to track 2 and from track 4 to track 5 in group 3, the audio attribute changes, so step S7 is NO and the setting change to a new audio attribute in the audio decoder 93 is made. Is performed, and then reproduction is started.
[0119]
In this case, if the audio concentration information is not recorded in the video manager 2 of the DVD, when acquiring the attribute information of the next track in step S5, the system controller 100 transmits a plurality of pieces of information stored in the internal memory 100a. It is necessary to search the audio attribute information 12 (see FIG. 4) of the VTS including the corresponding music from the control data 11 for each VTS, and refer to this to acquire the same audio attribute information. Therefore, the time from the reception of the music change instruction to the completion of the change of the audio attribute in the audio decoder 93 becomes longer. Therefore, if the reproduction of the next song is started without waiting for the change of the audio attribute, the beginning of the song cannot be correctly reproduced. Further, even if the reproduction is started after the completion of the change of the audio attribute, there is a problem that the reproduction of the next music is delayed for a considerable time.
[0120]
In this regard, according to the present invention, since the audio attribute information is recorded as a part of the audio centralized information in the video manager 2, the audio attribute of the next music piece can be immediately obtained by referring to the audio attribute information. Thus, quick reproduction can be performed without causing the above-mentioned problems. Also, since the reproduction is not started during the predetermined standby time X after the instruction to change the music, the audio decoder is operated regardless of the time required for moving the pickup to the next track (search). The time for changing the audio attribute in 93 and the time for locking the external digital amplifier and D / A converter are secured, so that correct reproduction is guaranteed.
Playback of DVDs without centralized audio information in video manager
The above description has described the reproduction of a DVD in which audio centralized information is recorded in the video manager. However, even when the audio intensive information is not recorded in the video manager, quick reproduction can be performed without the above problem by the following alternative method.
[0121]
Normally, when the audio DVD is set in the playback device, the information in the video manager 2 and the control data 11 in each VTS is stored in the memory 100a in the system controller 100. Therefore, at this point, an audio centralized information table as shown in FIG. 6 is created using the audio attribute information 12 and the like in each VTS, and stored in the memory in the playback device. Specifically, the system controller 100 first obtains the recording address of each VTS by referring to the VTS information in the video manager 2, moves to the address, and sets the audio attribute included in the control data 11 in the VTS. Get information. Then, the contents are read out and formed in the internal memory 100a. Next, PGCI and PGC constituting the corresponding PTT are specified from the PTT search pointer recorded in the VTS, the recording address of the audio information (track) corresponding to the PTT on the DVD is detected, and 100a. By performing the above operation for all VTSs, the system controller 100 forms a centralized information table as shown in FIG. 6 in the memory 100a.
[0122]
Then, at the time of reproduction, when a music change instruction is received, similar reproduction is performed by referring to the contents of the audio centralized information table created in advance and stored in the memory 100a instead of the audio attribute information 12 in each VTS. Do. As a result, the same effect can be obtained even when a type of DVD in which audio concentrated information is not recorded in the video manager is reproduced.
[0123]
In the above description, as an example when the audio attribute changes, reproduction of a track in a group as a collection is taken as an example, but the application of the present invention is not limited to this. For example, when the user specifies a song to be played for each song, and when the user designates a certain track in group 2 as the next song while playing a certain track in group 1 in FIG. In addition, the audio attributes of tracks that are continuously reproduced may be different. The present invention is applicable to any case where a plurality of tracks (songs) are continuously reproduced. In addition, in an application in which music pieces having the same attribute are connected and reproduced and recorded at random, a function of keeping the music pieces constant is realized.
[0124]
【The invention's effect】
As described above, according to the first aspect of the present invention, the unit attribute information corresponding to all the collective audio information on the recording medium is recorded as the collective attribute information. Therefore, by referring to the set attribute information, the attributes of all the unit audio information can be easily and quickly obtained.
[0125]
According to the second aspect of the present invention, the collective attribute information is configured to be arranged at a position where the collective attribute information is read first on the information recording medium. The attribute information is read, and reproduction control based on the information becomes possible.
[0126]
According to the third aspect of the present invention, the set attribute information includes at least information on the sampling frequency, the number of quantization bits, the number of channels, and the presence / absence of emphasis processing when encoding the unit audio information. Therefore, the playback device can easily acquire this information, and can perform quick playback.
[0127]
According to the invention described in claim 4, 5, 8 or 9, the playback device refers to the set attribute information recorded on the information recording medium or the set attribute information table created from the unit attribute information. The reproduction of the unit audio information is performed while setting and changing the attribute.
[0128]
Therefore, even when the attributes of the unit audio information to be reproduced continuously are different and the corresponding setting change is required in the reproducing apparatus, the attribute of the unit audio information to be reproduced next is set attribute information or set attribute information. The setting can be quickly obtained from the table, and the setting of the reproducing apparatus can be easily and quickly changed.
[0129]
According to the invention as set forth in claim 6, when the reproduction of one unit audio information is completed, the reading means is moved to a recording position of the next unit audio information to be reproduced, and a predetermined waiting time from the start of the movement. After the passage of time, reproduction of the unit audio information is started. Therefore, even when the attribute of the unit audio information to be reproduced next changes, it is ensured that the reproduction is started after the change of the attribute corresponding to the attribute changes.
[0130]
According to the seventh or eleventh aspect, the waiting time is longer than the time required for changing the attribute setting in the attribute changing step. Therefore, when unit audio information having different attributes is continuously reproduced, the reproduction of the next unit audio information does not start before the attribute setting change on the reproducing apparatus is completed, and the reproduction of the information to be reproduced is not performed. The transition is smooth.
[Brief description of the drawings]
FIG. 1 is a diagram showing a physical structure (physical format) of recording information.
FIG. 2 is a diagram showing a logical structure (logical format) of recording information.
FIG. 3 is a diagram illustrating an example of the structure of an audio pack.
FIG. 4 is a diagram showing recording positions of audio attribute information and audio concentration information.
FIG. 5 is a diagram showing the contents of audio attribute information in a VTS.
FIG. 6 is a diagram showing an example of the content of audio concentration information.
FIG. 7 is a block diagram illustrating a schematic configuration of a DVD recording device.
FIG. 8 is a block diagram illustrating a schematic configuration of a DVD playback device.
FIG. 9 is a block diagram illustrating a schematic configuration of an audio decoder.
FIG. 10 is a flowchart showing control during continuous reproduction of music.
[Explanation of symbols]
1 ... DVD
2. Video manager
3, 63 ... VTS
10… VOB
11 ... Control data
12 ... Audio attribute information
13 ... Audio intensive information
20 ... cell
30… VOB unit
41 ... Navi Pack
60 ... Program
61, 61A, 61B ... PGC
62 ... Title
70 ... Audio source
71 ... Memory
72 ... Signal processing unit
73, 74: Hard disk drive
75 ... Controller
78 Mastering device
80… Pickup
83 ... Track buffer
85: System buffer
92 ... Audio buffer
93 ... Audio decoder
98 ... input section
99 ... Display
100 ... System controller
101 ... Drive controller
B: Light beam
S1: Recording device
S2: playback device

Claims (11)

A plurality of unit audio information to be reproduced independently of each other;
Collective audio information each composed of one or more unit audio information;
Unit attribute information indicating attributes of all the unit audio information included in the set audio information,
Collective attribute information including the unit attribute information corresponding to all the collective audio information included in the recording medium. 2. The information recording medium according to claim 1, wherein the set attribute information is arranged at a position where the set attribute information is read first on the information recording medium. 2. The information recording medium according to claim 1, wherein the collective attribute information includes at least information on a sampling frequency, a quantization bit number, a channel number, and presence / absence of emphasis processing when encoding the unit audio information. A plurality of unit audio information to be reproduced independently of each other, aggregate audio information each including one or more of the unit audio information, and attributes of all the unit audio information included in the aggregate audio information. In the information recording medium playback device having unit attribute information indicating, and set attribute information including the unit attribute information corresponding to all the set audio information included in the recording medium,
Reading means for reading information from the information recording medium;
Storage means for storing the set attribute information read by the reading means,
Input means for receiving a reproduction instruction of unit audio information to be reproduced continuously specified by the user;
A playback unit that sets an attribute for playback based on the set attribute information stored in the storage unit and plays back unit audio information specified by a user according to the attribute setting, wherein the playback unit includes:
Acquisition means for acquiring an attribute corresponding to each of the specified plurality of unit audio information from the set attribute information in the storage means,
Determining means for determining whether or not the attribute corresponding to the unit audio information to be continuously reproduced, obtained by the obtaining means, is the same;
An attribute changing unit configured to start attribute setting of the next unit audio information to be subsequently reproduced immediately after the end of reproduction of one unit audio information when the determination unit determines that the attribute is different. Playback device. A plurality of unit audio information to be reproduced independently of each other, aggregate audio information each including one or more of the unit audio information, and attributes of all the unit audio information included in the aggregate audio information. And a unit reproducing the information recording medium having:
Reading means for reading information from the information recording medium;
A table creating unit that acquires the unit attribute information corresponding to all the aggregate audio information included in the recording medium by the reading unit, and creates an aggregate attribute information table;
Storage means for storing the created set attribute information table;
Input means for receiving an instruction to reproduce a plurality of unit audio information to be reproduced continuously specified by the user;
Reproducing means for setting an attribute for reproduction based on the set attribute information table stored in the storage means, and reproducing unit audio information designated by a user according to the attribute setting; ,
Acquisition means for acquiring an attribute corresponding to each of the specified plurality of unit audio information from the set attribute information table in the storage means,
Determining means for determining whether or not the attribute corresponding to the unit audio information to be continuously reproduced, obtained by the obtaining means, is the same;
An attribute changing unit configured to start attribute setting of the next unit audio information to be subsequently reproduced immediately after the end of reproduction of one unit audio information when the determination unit determines that the attribute is different. Information playback device. The reproducing unit moves the reading unit to a recording position of the next one unit audio information on the information recording medium immediately after the end of the reproduction of the one unit audio information, and after a lapse of a predetermined standby time from the start of the movement. The reproducing apparatus according to claim 4, further comprising a search unit configured to start reading the next unit audio information from the recording position after the movement. 7. The reproducing apparatus according to claim 6, wherein the standby time is longer than a time required for changing the attribute setting by the attribute changing unit. A plurality of unit audio information to be reproduced independently of each other, aggregate audio information each including one or more of the unit audio information, and attributes of all the unit audio information included in the aggregate audio information. A unit attribute information indicating, and set attribute information including the unit attribute information corresponding to all the set audio information included in the recording medium, the information recording medium having a reproduction method,
A storage step of reading the collective attribute information from the information recording medium and storing the information in a storage unit;
An input step of receiving a reproduction instruction of a plurality of unit audio information to be reproduced continuously specified by the user;
A playback step of setting an attribute for playback based on the set attribute information stored in the storage unit and playing back unit audio information specified by a user according to the attribute setting, wherein the playback step comprises:
An acquisition step of acquiring an attribute corresponding to each of the specified plurality of unit audio information from the set attribute information in the storage unit;
A determining step of determining whether or not the attributes corresponding to the unit audio information to be continuously played back obtained by the obtaining step are the same;
If it is determined in the determining step that the attributes are different, immediately after the end of the reproduction of one unit of audio information, an attribute changing step of starting attribute setting of the next one unit of audio information to be subsequently reproduced is performed. Reproduction method to prepare. A plurality of unit audio information to be reproduced independently of each other, aggregate audio information each including one or more of the unit audio information, and attributes of all the unit audio information included in the aggregate audio information. And a unit attribute information indicating:
A table creation step of reading the unit attribute information corresponding to all of the collective audio information included in the recording medium, and creating a collective attribute information table;
A storage step of storing the set attribute information table created in the table creation step in a storage unit,
An input step of receiving a reproduction instruction of a plurality of unit audio information to be reproduced continuously specified by the user;
A playback step of setting an attribute for playback based on the set attribute information table stored in the storage unit, and playing back unit audio information specified by a user according to the attribute setting. ,
An acquiring step of acquiring an attribute corresponding to each of the specified unit audio information from the set attribute information table in the storage unit;
A determining step of determining whether or not the attributes corresponding to the unit audio information to be continuously played back obtained by the obtaining step are the same;
An attribute changing step of immediately starting the attribute setting of the next one unit audio information to be reproduced immediately after the end of the reproduction of one unit audio information when it is determined that the attribute is different in the determining step. Playback method. The regeneration step includes:
Immediately after the reproduction of the one unit audio information is completed, the reading unit is moved to a recording position of the next one unit audio information on the information recording medium, and after a predetermined standby time has elapsed from the start of the movement, the reading unit is moved from the recording position. The reproducing method according to claim 8, further comprising a movement search step of starting reading of the next one unit of audio information. The reproduction method according to claim 10, wherein the standby time is longer than a time required for changing an attribute setting in the attribute changing step.

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