WO2009130830A1 - Content reproduction device, content recording device, and program - Google Patents

Abstract

A musical composition database (2) in which a track path indicating the place where additional information for identifying a track (music) and music data are recorded is registered for each track is generated. An order list (3) in which the additional information is listed in the reproduction order (or recording order) of the track from the musical composition database (2) is generated. The music data recorded on recording media (5) is reproduced (or recorded) according to a track path acquired from the musical composition database (2) in the reproduction order (or recording order) of the order list (3).

Description

Content playback device, content recording device, and program

The present invention relates to a content reproduction device that reads and reproduces content data such as music from a recording medium, a content recording device that records content data such as music on a recording medium, and a program that causes a computer to function as these devices.

As a conventional content reproduction apparatus, for example, there is an automatic performance apparatus disclosed in Patent Document 1. In this apparatus, the data holding structure of the storage means is a directory structure, and a plurality of song data representing songs and song order data representing the order of reproduction of the plurality of song data are stored in one directory. Play music data in the order specified by the data.

Further, Patent Document 2 discloses a music playback device that simplifies the process of registering song order data. The playlist data that defines the playback order of song data handled by this apparatus is composed of item data corresponding to each song data, and the item data is composed of number data, check mark data, and the like. The song data is played in the playback order defined by the number data of the item data, and the user can specify whether or not the song data can be played by simply specifying the check mark data presented via the display unit. .

JP 2001-109470 A JP 2006-196058 A

Conventional devices handle music data recorded on different types of recording media such as CD (Compact Disc), USB (Universal Serial Bus), hard disk devices, etc. There is a problem in that it is not possible to execute data reproduction and recording, or to arbitrarily set the reproduction or recording order of song data recorded on a plurality of types of recording media.

For example, Patent Document 1 reproduces music data stored in one directory in the order defined by the music order data, and does not consider music data recorded on recording media of different types. Also in Patent Document 2, it is not possible to perform unified control of the reproduction order of music data recorded on different types of recording media.

The present invention has been made to solve the above-described problems, and by uniformly handling a plurality of types of recording media, it is possible to reproduce or reproduce content data such as music without being conscious of the type of recording media. It is an object of the present invention to obtain a content playback device, a content recording device, and a program that allows a computer to function as these devices.

The content reproduction apparatus according to the present invention extracts the additional information from a plurality of types of recording media on which content data and additional information for specifying the content are recorded, and records the additional information and the content data for each content. Database generating means for generating a content database in which path information indicating a place is registered, order list control means for generating an order list in which the additional information is listed from the content database in the order of reproducing the contents, and the order of reproducing the order list Content reproduction means for reproducing content data recorded on the recording medium based on the path information acquired from the content database.

According to the present invention, a content database in which additional information for specifying content and path information indicating the recording location of content data are registered for each content is generated, and the additional information is listed from the content database in the order of content playback. The generated order list is generated, and the content data recorded on the recording medium is reproduced based on the path information acquired from the content database in the order of reproduction of the order list. By doing this, there is an effect that content data such as music can be reproduced without being conscious of the type of recording medium.

It is a block diagram which shows the structure of the content reproduction apparatus by Embodiment 1 of this invention. It is a figure which shows the structural example of the music database in FIG. It is a figure which shows the structural example of a track table. It is a figure which shows the structural example of a track name table. It is a figure which shows the structural example of an artist name table. It is a figure which shows the structural example of a playlist name table. It is a figure which shows the structural example of a folder table. It is a figure which shows the hierarchical relationship of a folder. It is a figure which shows the structural example of an order list production | generation track table. It is a figure which shows the structural example of a playlist table. It is a figure which shows the structural example of an order list production | generation playlist table. It is a figure which shows the structural example of an order list. It is a block diagram which shows the internal structure of the order list control means in FIG. 1, and its periphery structure. 6 is a flowchart showing a flow of order list generation processing according to the first embodiment. It is a figure which shows the selection screen of the information which should be an order list. FIG. 16 is a diagram showing a case where an item “Artist name” in FIG. 15 is selected. It is a figure which shows the example of a display of an order list. It is a block diagram which shows the internal structure of the order list control means in FIG. 1, and its periphery structure. 5 is a flowchart showing a flow of setting processing of reproduction order in the order list according to the first embodiment. It is a figure which shows the selection screen of the reproduction | regeneration order of an order list. It is a figure which shows an example of the selection screen of the reproduction | regeneration order of an order list. It is a figure which shows the other example of the selection screen of the reproduction | regeneration order of an order list. It is a block diagram which shows the internal structure of the order list control means in FIG. 1, and its periphery structure. It is a figure which shows the selection screen of the random reproduction | regeneration of an order list. It is a figure which shows the other example of the selection screen of random reproduction | regeneration of an order list. FIG. 2 is a block diagram showing an internal configuration of track reproducing means in FIG. 1 and its peripheral configuration. It is a figure which shows the display screen during the reproduction | regeneration processing by the reproduction | regeneration means in FIG. It is a figure which shows the other example of the display screen in the process of reproduction | regeneration. It is a block diagram which shows the structure of the content recording device by Embodiment 2 of this invention. It is a block diagram which shows the internal structure of the track recording means in FIG. 29, and its periphery structure.

Hereinafter, the best mode for explaining the present invention in more detail will be described with reference to the accompanying drawings.
Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of a content reproduction apparatus according to Embodiment 1 of the present invention, and shows a case where the present invention is applied to a music reproduction apparatus that reproduces music as content. 1, the content playback apparatus according to the first embodiment includes an order list control unit 1, a music database 2, a music database generation unit 4, a media access time detection unit 6, a track playback unit 7, and an HMI unit 8.

The order list control means 1 searches and extracts the additional information of the music data from the music database 2 based on the contents of each table 2a, and generates the order list 3 in which the additional information of the extracted music data is listed. The reproduction order of the song data is controlled by the order control of the list items in the order list 3.

In the present invention, music and video such as audio data, video data, karaoke data, ringtone melody data, podcast data, and mixed data including music data (for example, MP3 music data) are reproduced and recorded. Content data is called content. Further, the list data representing the reproduction order and the recording order of the contents like the music order data is referred to as an order list 3.

The music database (content database) 2 is a database composed of a table 2 a in which additional information of music data recorded on various types of recording media 5 is registered. Search extraction is possible. The table 2a is table data in which additional information recorded on the recording medium 5 along with the song data is registered as attribute information of the song data.

As the additional information of the song data, information described in a song information tag incorporated in the song data file can be considered. In the case of MP3 (MPEG audio layer 3) data, there is information such as “artist, creation year, song name” described in an ID3 tag (ID3v1 tag, ID3v1.1 tag, ID3V2 tag, etc.).

Specifically, the track (song data) genre (Genre), track name (Track Title), track name reading (ruby) (Track Title YOMI), artist name (Artist Name), artist name Reading (Artist YOMI), album (playlist) name (Playlist Name), playlist name reading (Playlist YOMI), track number (Tracks) in the album containing the track, date the album was published Information such as (Album Year) and album genre (Album Genre) is read out.

The music database generation means (database generation means) 4 registers the additional information of the music data read from each recording medium 5 in the table 2a in association with the track path indicating the storage location of the music data (track). Thus, the music database 2 is generated. The item information registered in the music database 2 includes, for example, a track ID (Track ID) that is index information to each table constituting the table 2a relating to the track, a track path (Track Path) indicating a track storage location, and a directory structure. Folder number (Folder No) for specifying a folder corresponding to each track in the playlist (album), and folder depth (Folder Depth) indicating the depth of the directory hierarchy from the root folder.

Examples of the recording medium 5 include a music medium A in which music data is recorded on a hard disk device (HDD), a music medium B in which music data is recorded in a USB memory, and a music medium C in which music data is recorded on a CD or DVD. Here, the recording medium 5 also includes drive devices and interfaces for the music media A to C.

Media access time detection means (access time detection means) 6 detects the access time required to access the music data recorded on the music media A to C via the drive device and interface of the recording medium 5. For example, the access time for music data recorded on the music medium C depends on the pickup (head) of a CD or DVD disk drive device and the position on the disk where the music data (music file) exists. It also depends on the folder depth of the folder where the song data exists. As the access time, a media average access time, a minimum access time, and a maximum access time in a predetermined access can be considered.

The track playback means (content playback means) 7 specifies the music media song data defined by the track path according to the playback order of the tracks (songs) set in the order list 3, and plays back each track. The HMI means 8 is a human machine interface (HMI) for exchanging information between the content reproduction apparatus and the user using an input device and a display device (not shown). For example, under the control of the order list control means 1 or the track playback means 7, the registration information of the music database 2, the information of the order list 3 and the information of the track (song data) being played are displayed on the display screen of the display device. To do. Further, by providing a voice recognition device as the HMI means 8, information may be input by voice uttered by the user.

The above-described order list control means 1, music database generation means 4, media access time detection means 6, track reproduction means 7 and HMI means 8 cause a computer to read a program for constructing a content reproduction apparatus according to the gist of the present invention, for example. By controlling the operation, it can be realized as a specific means in which software and hardware cooperate on this computer.

The music database 2 and the order list 3 may be constructed on a storage area of a storage device (HDD) mounted on the computer. From the order list control means 1, the music database generation means 4, and the track playback means 7. It may be constructed on a storage area of an external device capable of data communication.

FIG. 2 is a diagram showing a configuration example of the music database in FIG. When creating a database in units of tracks, the music database 2 includes a track table 2a-1, a track name table 2a-2, an artist name table 2a-3, a playlist name table 2a-4, a folder, as shown in the upper part of FIG. Table 2a-5, and these tables 2a-1 to 2a-5 are composed of an order list generation track table 2a-6 associated with a lower hierarchy. Tables 2a-1 to 2a-5 are three IDs of track ID (Track ID), artist name ID (Artist Name ID), and playlist ID (Playlist ID) managed by the order list generation track table 2a-6. Associated.

The track table 2a-1 manages additional information other than the track name (song name). In this table, a track ID (Track ID) that is index information to each table constituting the music database 2, a track path (Track Path) indicating a storage location of the track, and a track in an album in which the track (song) is recorded. A number (Tracks) and a track genre (Genre) are registered.

The track name table 2a-2 manages additional information of track names (song names). In this table, a track name ID (Track Title ID) that becomes index information to each table constituting the music database 2 by being associated with the track ID, a track name (Track Title) specified by the track name ID, and a track The name reading (ruby) (Track Title YOMI) is registered.

The artist name table 2a-3 manages additional information of artist names. In this table, an artist name ID (Artist Name ID) which is ID information for specifying an artist name in the music database 2, an artist name (Artist Name) specified by the artist name ID, and an artist name reading (ruby) (Artist YOMI) is registered.

The playlist name table 2a-4 manages additional information of playlist (album) names. This table includes a playlist name ID (Playlist Name ID), which is ID information for specifying a playlist name in the music database 2, a playlist name (Playlist Name) specified by the playlist name ID, and a playlist name. Reading (ruby) (Playlist YOMI) is registered.

The folder table 2a-5 manages additional information related to the folder corresponding to the playlist. This table 2a-5 includes a folder number (Folder No) for specifying a folder corresponding to the playlist, and a root folder (0 hierarchy (depth = 0)) of folders managed hierarchically in the directory structure. The folder depth (Folder Depth) indicating the depth (hierarchy depth) is registered.

The order list generation track table 2a-6 is table data for managing tracks (songs) and generating an order list for each track. In this table, a track ID, an artist name ID, and a playlist ID are registered. The track table 2a-1 and the track name table 2a-2 are associated with track IDs managed by the order list generation track table 2a-6.

The artist name table 2a-3 is associated with the artist name ID managed by the order list generation track table 2a-6. The playlist name table 2a-4 and the folder table 2a-5 are associated with playlist IDs managed by the order list generation track table 2a-6.

The tables 2a-1 to 2a-5 in which the additional information of the music data is classified in this way are associated with the three ID information registered in the order list generation track table 2a-6. Thereby, based on the information items of the tables 2a-1 to 2a-5, the search target information can be searched and specified. Even if there is a change in the additional information of the song data, it is possible to cope with the change of the additional information by specifying the corresponding table in order from the ID information of the order list generation track table 2a-6.

Further, when creating a database in units of albums (playlists), the music database 2 includes an artist name table 2a-3, a playlist name table 2a-4, a folder table 2a-5, a playlist, as shown in the lower part of FIG. A table 2a-7, and these tables 2a-3 to 2a-5 and 2a-7 are composed of an order list generation playlist table 2a-8 associated with a lower hierarchy. The tables 2a-3 to 2a-5 and 2a-7 are associated with two IDs, that is, a playlist ID and an artist name ID managed by the order list generation playlist table 2a-8.

The playlist table 2a-7 manages additional information other than the playlist (album) name. This table includes a playlist ID (Playlist ID), which is ID information for identifying a playlist in the music database 2, a year (Album Year) when the album (playlist) was issued, and an album genre (Album Genre). Is registered.

The order list generation playlist table 2a-8 is table data for managing a playlist (album) and generating an order list for each playlist. In this table, a playlist ID and an artist name ID are registered.

The playlist table 2a-7, playlist name table 2a-4, and folder table 2a-5 are associated with playlist IDs managed by the order list generation playlist table 2a-8. The artist name table 2a-3 is associated with the artist name ID managed by the order list generation playlist table 2a-8.

Each table 2a-3 to 2a-5, 2a-7 in which additional information of music data is classified is associated with two pieces of ID information registered in the order list generation play list table 2a-8. As a result, the search target information can be searched and specified from the additional information of the song data by the information items of the tables 2a-3 to 2a-5 and 2a-7. Further, even if there is a change in the additional information of the song data, it is possible to cope with the change of the additional information by specifying the corresponding table in order from the ID information of the order list generation playlist table 2a-8.

Next, the operation will be described.
(1) Music Database Generation Processing First, the HMI means 8 is used to select a folder associated with music data recorded on the HDD (music media A), and a USB memory (music media B) is connected to the USB connector. Alternatively, a CD or DVD (music media C) is loaded into the disk drive device so that the music media A to C can be accessed by the music database generation means 4.

When the music media A to C are set in an accessible state, the music database generation means 4 has a music information tag (such as an ID3 tag of MP3 data) incorporated in a music data file recorded on the music media A to C. ) Is extracted and the description information is searched, and the additional information described in the music information tag is read out. The music database generation means 4 extracts information such as a track path, a folder number, and a folder depth from the library information of the music data from which the music information tag is read.

When the music media A to C are set in an accessible state, the music database generating means 4 displays a selection screen listing the song names specified by the music information tags read from the music media A to C. The songs displayed on the display screen and selected by the user using the input device may be selected.

Next, the music database generating means 4 generates the music database 2 by classifying and registering the information read out as described above into the information items of the table 2a. Referring to the music database 2 shown in FIG. 2, of the information read from the music information tag, information on the track (song) is classified into the tables 2a-1 and 2a-2 associated by the track ID, Information related to the artist name is classified in the table 2a-3 associated with the artist name ID, and information related to the playlist is classified and registered in the tables 2a-4 and 2a-5 associated with the playlist ID.

Here, as indicated by an arrow in FIG. 2, the track table 2a-1 is associated with the track ID of the track list 2a-1 and the track ID of the order list generation track table 2a-6. It is associated with the track name ID (Track Title ID) in the table 2a-2. In the order list generation track table 2a-6, since the track ID and the playlist ID are associated with each other, in the track table 2a-1, as shown in FIG. 3, the track ID, the track name ID, and the artist name ID , Playlist ID, track number (Tracks), genre, and track path are associated with each other.

From this table 2a-1, it can be seen that the information corresponding to the track ID = 4 is, for example, track name ID = 3, track number = 2, genre = 1, track path = ¥ system_0 ¥ folder_2 ¥ Track_2. The track table 2a-1 has attribute information of the track (song) and information on the position (storage location) of the track.

Further, the track name table 2a-2 constitutes table data in which track name ID, track name, and track reading are registered as shown in FIG. Note that the character information constituting the table is expressed using, for example, UTF-8 which is a Unicode character encoding method.

From this table 2a-2, for example, it is understood that the information corresponding to the track name ID = 3 is track name = “mountain” and track reading = “yama”. In the track name table 2a-2, the track names are uniquely registered without duplication. However, even if the tracks are different, the same name is not distinguished. For this reason, the same ID is registered as the track name ID.

Similarly, the artist name table 2a-3 comprises table data in which artist name ID, artist name (album artist or track artist), and artist reading are registered as shown in FIG. For example, it can be seen that the information corresponding to the artist name ID = 1 is artist name = “AAA” and artist name reading = “aaa”. In this table 2a-3, artist names are uniquely registered without duplication. However, even if they are different artists, there is no distinction between the same name and the same name. Therefore, the artist name ID is registered with the same ID.

Further, the playlist name table 2a-4 constitutes table data in which playlist name ID, playlist name, and playlist reading are registered as shown in FIG. Here, it is understood that the information corresponding to the playlist ID = 3 is the playlist name = “Namiki Michi” and the playlist reading = “Namikimichi”. In this table 2a-4, playlist names are registered uniquely without duplication. However, even if the playlists are different, there is no distinction between the same names. For this reason, the playlist name ID is registered with the same ID.

Further, as indicated by an arrow in FIG. 2, the playlist name ID of the playlist name table 2a-4 and the folder number of the folder table 2a-5 are associated with the playlist ID of the order list generation track table 2a-6. Thus, the folder table 2a-5 is associated with the playlist name ID in the playlist name table 2a-4. As a result, as shown in FIG. 7, the folder table 2a-5 associates the folder number, playlist ID, and folder depth.

FIG. 8 is a diagram showing the hierarchical relationship of folders associated with song data. A folder table 2a-5 shown in FIG. 7 is structured as a table of the relationship shown in FIG. In the folder table 2a-5, it can be seen that the information corresponding to the folder number = 2 is the playlist ID = 1 and the folder depth = 2. In this way, by referring to the registered contents of the folder table 2a-5, the hierarchical relationship between folders, the position of the folder, whether the folder includes a track (song), that is, whether it corresponds as a playlist, etc. Judgment can be made.

When the music database generating unit 4 generates the tables 2a-1 to 2a-5 as described above, the music database generating unit 4 associates the track ID, artist name ID, and playlist ID with each other, and uses the ID information as the order list generating track table 2a. Register to -6. As a result, in the music database 2, the tables 2a-1 to 2a-6 are associated with the three pieces of ID information.

Referring to the order list generation track table 2a-6, as shown in FIG. 9, it is understood that the information corresponding to the track ID = 3 is artist name ID = 1 and play list ID = 2. Further, by referring to the track table 2a-1 and the order list generation track table 2a-6 shown in FIG. 3, information corresponding to the track name = 1 through the track ID is track number = 1, genre = 1, track It can be seen that the path = \ system_0 \ folder_2 \ Track_1.

Further, by referring to the artist name table 2a-3 and the order list generation track table 2a-6 shown in FIG. 5, it is possible to recognize artist name = “AAA” and artist reading = “aaa” through the artist name ID. it can. Further, by referring to the playlist name table 2a-4 and the order list generation track table 2a-6 shown in FIG. 6, the information corresponding to the playlist name ID = 2 is obtained through the playlist ID. You can see that “to loved ones” and “playlist reading” are “to loved ones”.

On the other hand, when creating a database in units of albums (playlists), the music database generating unit 4 includes information related to the playlist among the information read from the music information tag, in the table 2a-7 associated with the playlist ID. , 2a-4, 2a-5, and information on artist names is classified and registered in the table 2a-3 associated with the artist name ID.

Here, as shown by the arrows in FIG. 2, the playlist ID of the playlist table 2a-7 and the playlist ID of the order list generation playlist table 2a-8 are associated with each other, so that the playlist table 2a -7 is associated with the playlist name ID (Playlist Name ID) in the playlist name table 2a-4. Further, in the order list generation playlist table 2a-8, the playlist ID and the artist name ID are associated with each other. Therefore, in the playlist table 2a-7, as shown in FIG. , Artist name ID, album publication year, and album genre are associated with each other.

In the example of FIG. 10, according to the playlist table 2a-7, information corresponding to playlist ID = 2 is playlist name ID = 2, artist name ID = 2, album issue year = 2004, and album genre = 1. I understand that. Thus, in the playlist table 2a-7, attribute information of the playlist is registered.

When the music database generating unit 4 generates the tables 2a-3 to 2a-5 and 2a-7 as described above, the music database generating unit 4 associates the playlists with the playlist ID and the artist name ID, and uses the ID information as the order list generation playlist. Register in Table 2a-8. Thus, in the music database 2, the tables 2a-3 to 2a-5 and 2a-7 are associated with each other with the two ID information.

Referring to the order list generation playlist table 2a-8, it can be seen that the playlist ID = 4 corresponds to the artist name ID = 2 as shown in FIG. Further, by referring to the playlist table 2a-7 and the order list generation playlist table 2a-8 shown in FIG. 10, the information corresponding to the playlist name ID = 4 through the playlist ID is the album publication year = 2005. It can be seen that the album genre = 1.

Further, by referring to the artist name table 2a-3 and the order list generation playlist table 2a-8 shown in FIG. 5, through the artist name ID, the artist reading corresponding to artist name = “BBB” is “bbb”. I can recognize that. Further, by referring to the playlist name table 2a-4 and the order list generation playlist table 2a-8 shown in FIG. 6, the playlist reading corresponding to the playlist name = “universe” is read through the playlist name ID “ You can see that it is “Uchu”.

As described above, in the music database 2, the additional information of the music data recorded on the various recording media 5 is associated with each other using the three ID information of the track ID, artist name ID, and playlist ID. It is classified and registered in various tables. Thereby, the additional information of the music data recorded on the various recording media 5 is managed in a unified manner without depending on the type of the recording media 5 in the music database 2.

Further, in the music database 2, when the information to be searched is specified, searched, and registered in the order list 3, by referring to the items in the various tables constituting the table 2a, the correspondence between the information is followed. The above processes can be easily executed without being conscious of the type of the recording medium 5. Further, even if there is a change in the additional information of the song data, it is only necessary to change the related information in the table.

(2) Order List Generation Processing The order list 3 is generated by combining the tables 2a-1 to 2a-5 and 2a-7 shown in FIGS. The order list 3 has a list structure as shown in FIG. 12, and is a set of information related to tracks and playlists corresponding to music data to be reproduced. In the order list 3 shown in FIG. 12, the track ID is an index into the various tables 2a-1 to 2a-5 in which information on the track (song) is registered, and the playlist ID is information on the playlist (album). This is an index to the various registered tables 2a-3 to 2a-5 and 2a-7.

FIG. 13 is a block diagram showing the internal configuration of the order list control means in FIG. 1 and its peripheral configuration, and extracts information to be made into the order list 3 from the music database 2 among the constituent elements of the order list control means 1. The components are extracted. In FIG. 13, the order list control means 1 includes an order list extraction priority means 9 and an order list extraction means 10 as components for extracting information to be made into the order list 3 from the music database 2.

The order list extraction priority means 9 determines the priority level for extracting additional information from the music database 2 in consideration of the access time for each recording medium 5 detected by the medium access time detection means 6 for the same content track. To do. The order list extraction means 10 generates an order list 3 by listing additional information from the music database 2 in the order of reproduction of the music data, and extracts the order list for the same track recorded on different types of recording media 5. The additional information to be listed is selected based on the priority level determined by the priority unit 9.

Next, details of order list generation processing will be described.
As pre-processing for order list generation, the media access time detection means 6 detects the media access time for each recording medium 5 when the music database generation means 4 accesses the various recording media 5 to generate the music database 2. To do. For example, the media access time detection means 6 measures the disk access time including the head operation in the music media A and C and the access time of the USB memory in the music media B.

Note that the media access time detection means 6 may detect the media access time during the order list generation processing by the order list control means 1 instead of as pre-processing for order list generation. The access time for each recording medium 5 detected in this way is output from the media access time detection means 6 to the order list extraction priority means 9.

FIG. 14 is a flowchart showing the flow of the order list generation process according to the first embodiment, and the details of the order list generation process by the components in FIG. 13 will be described along this figure. In order to generate the order list 3, it is necessary to show the additional information of the music data to the user and search and extract information to be the order list 3.

Therefore, the order list extraction means 10 reads the additional information registered in the table 2a of the music database 2 and registers it in the music database 2 as shown in FIG. 15 on the display screen of the display device constituting the HMI means 8. A selection screen is displayed on which the attribute information of the selected song (track) or album (playlist) can be selected. In the example of FIG. 15, on the display screen of the display device, “Song Title”, “Artist Name”, and “Genre” are selected as the HMI that can be selected by an input device (not shown), and A selection screen with “”, “artist name”, “genre”, and “release date” as selection items is displayed.

In this selection screen, various tables of the music database 2 based on the “song name”, “artist name”, “genre” of the song, “album name”, “artist name”, “genre”, “release date” of the album Information can be extracted by searching 2a independently, and it is also possible to select and search a plurality of items. For example, a plurality of additional information classified into the same item can be selected by clicking a downwardly projecting black triangle symbol 8a displayed in each item column in FIG.

FIG. 16 is a diagram for explaining a case where the music database is searched by the “artist name” of the music. A state in which the convex black symbol 8a is clicked below the “artist name” item in FIG. Show. As shown in FIG. 16, by clicking and selecting the triangle symbol, all artist names registered in the music database 2 are displayed in the window frame.

Specifically, by selecting the triangle symbol 8a in the artist column, the order list extracting means 10 extracts the artist name column in the artist name table 2a-3 shown in FIG. 5, and the artist name table 2a. All artist names registered in -3 are displayed on the selection screen.

This is expressed in the database language as follows.
SELECT Artist Name
FROM Artist Name Table;
By displaying Artist Name () obtained here on the display device, the selection screen of FIG. 16 can be formed. If the artist name is too large to fit on the screen, it may be displayed in a window having a scroll function.

When an artist name is specified by the user using an input device (not shown), the order list extraction unit 10 reads all additional information associated with the specified artist name from the music database 2. For example, when “AAA” is selected, the order list extracting means 10 extracts “AAA” registered in the artist name of the artist name table 2a-3 shown in FIG. By referring to the list generation track table 2a-6 (or the order list generation playlist table 2a-8) and following the association by the ID information, information in various tables corresponding to the artist name “AAA” is searched and extracted. The

Also, a voice recognition device may be provided as the HMI means 8, and the artist name as described above may be input by recognizing the voice uttered by the user with this voice recognition device. The process so far corresponds to step ST1.

Next, the order list extraction means 10 determines whether or not the instance of the same track extracted from the music database 2 is information from a plurality of recording media 5 (step ST2). For example, when the artist name “AAA” is selected on the selection screen shown in FIG. 16, it is determined whether or not the information corresponding to the artist name is information from a plurality of recording media 5. At this time, if the instances from the plurality of recording media 5 are not extracted, the order list extracting means 10 generates the order list 3 using the information extracted in step ST1.

More specifically, first, the order list extraction means 10 selects “AAA” as the artist name on the selection screen shown in FIG. 16, and stores information in various tables corresponding to the artist name “AAA” from the music database 2. When retrieved and extracted, an order list generation track table 2a-6 as shown in FIG. 9 is generated using the extracted information.
This can be expressed as follows in database language.
CREATE TrackOrderControlTable AS
SELECT
TrackTable.TrackID TrackID,
TrackTable.ArtistNameID ArtistNameID,
TrackTable.PlaylistID PlaylistID,
FROM TrackTable, ArtistNameTable
WHERE ArtistNameTable.ArtistName IN (“AAA”)
AND ArtistNameTable.ArtistNameID = TrackTable.ArtistNameID;

Subsequently, when the order list extraction unit 10 generates the order list generation track table 2a-6 as described above, each ID information of the order list generation track table 2a-6 is generated using the instance extracted in step ST1. FIG. 12 shows a track table 2a-1, a track name table 2a-2, an artist name table 2a-3, a playlist name table 2a-4, and a folder table 2a-5 that are associated with each other. Such an order list 3 is generated.

In FIG. 12, among the information registered in the track table 2a-1, the track name table 2a-2, the artist name table 2a-3, the playlist name table 2a-4, and the folder table 2a-5, the track ID and playlist The order list 3 is generated with the attribute items such as ID, track name, track name reading, genre, artist name, artist name reading, album publication year, playlist name, playlist name reading, folder number, and folder depth. . In the following description, it is assumed that the order list 3 is generated with the attribute item information.
This can be expressed as follows in database language.
CREATE OrderList AS
SELECT
TrackTable.TrackID TrackID,
TrackTable.PlaylistID PlaylistID,
TrackTitleTable.TrackTitle TrackTitle,
TrackTitleTable.TrackTitleYOMI TrackTitleYOMI,
TrackTable.Genre Genre,
ArtistNameTable.ArtistName ArtistName,
ArtistNameTable.ArtistYOMI ArtistYOMI,
PlaylistTable.AlbumYear AlbumYear,
PlaylistNameTable.PlaylistName PlaylistName,
PlaylistNameTable.PlaylistYOMI PlaylistYOMI,
FolderTable.FolderNo FolderNo,
FolderTable.FolderDepth FolderDepth
FROM
TrackTable,
TrackTitle,
PlaylistTable,
ArtistNameTable,
PlaylistNameTable,
FolderTable,
PlaylistOrderControlTable,
TrackOrderControlTable
WHERE TrackOrderControlTable. TrackID = TrackTable.TrackID
AND TrackOrderControlTable. TrackTitleID = TrackTitleTable. TrackTitleID
AND TrackOrderControlTable. ArtistNameID = ArtistTable. ArtistNameID
AND TrackOrderControlTable. PlaylistID = PlaylistTable. PlaylistID
AND TrackOrderControlTable. PlaylistID = FolderTable. PlaylistID

When the order list extraction means 10 generates the order list 3 as described above, the order list screen as shown in FIG. 17 is displayed on the display screen, so that the contents of the generated order list 3 can be displayed to the user. Present.

In step ST2, when instances from a plurality of recording media 5 are extracted, the order list extraction priority unit 9 is based on the access times of the music media A to C input from the media access time detection unit 6. The priority level of the extraction process is determined for the instance from each recording medium 5. Here, the order list extraction priority unit 9 gives priority levels to the instances of the recording medium 5 in the order of short access time (step ST3).

Next, the order list extraction means 10 compares the priority levels given by the order list extraction priority means 9 among the instances from the plurality of recording media 5 and extracts only the highest priority instance. Used for generation (step ST4). Note that the order list 3 generation process itself is the same as the above-described process.

In step ST1, when the user designates a desired artist name, the artist name is configured using an input device (not shown) instead of selecting from the listed artist names as shown in FIG. By inputting a part of the character string, the corresponding artist name may be searched and extracted.

For example, when “A” is input as a character input from the user, the above-described search can be expressed as follows in the database language. Thereby, the process of extracting the artist name corresponding to “A” and extracting information related thereto is the same as described above.
CREATE TrackOrderControlTable AS
SELECT
TrackTable.TrackID TrackID,
TrackTable.ArtistNameID ArtistNameID,
TrackTable.PlaylistID PlaylistID,
FROM TrackTable, ArtistNameTable
WHERE ArtistNameTable.ArtistName LIKE '% A%'
AND ArtistNameTable.ArtistNameID = TrackTable.ArtistNameID;

Further, in step ST1, a plurality of items may be selected, and the corresponding information may be extracted from the music database 2 by combining them. For example, when extracting the information by combining the artist name “AAA” and the song name “dream”, the information can be expressed as follows when expressed in a database language. The process of extracting information from the music database 2 is the same as described above.
CREATE TrackOrderControlTable AS
SELECT
TrackTable.TrackID TrackID,
TrackTable.ArtistNameID ArtistNameID,
TrackTable.PlaylistID PlaylistID,
FROM TrackTable, ArtistNameTable, TrackTitleTable
WHERE ArtistNameTable.ArtistName IN (“AAA”)
AND ArtistNameTable.ArtistNameID = TrackTable.ArtistNameID;
AND TrackTitleTable.TrackTitle LIKE '% dream%'
AND TrackTitleTable.TrackTitleID = TrackTable.TrackTitleID;

In the above description, the order list 3 is generated by searching and extracting information on the track (song) from the music database 2. However, the order list 3 is generated by searching and extracting information by album (playlist). The same applies to the case. For example, by searching for information in units of albums (playlists), extracting information from the music database 2, and using the extracted information to generate an order list generating playlist table 2a-8 as shown in FIG. 11, An order list 3 can be generated.

(3) Order List Playback Order Setting Processing FIG. 18 is a block diagram showing the internal configuration of the order list control means and its peripheral configuration in FIG. 3 are extracted from the constituent elements for setting the playback order of the tracks within 3. In FIG. 18, the order list control means 1 includes an order list order generation priority means 11 and an order list order generation means 12 as components for setting the track reproduction order of the order list 3.

The order list order generation priority unit 11 considers the media access time for each recording medium 5 input from the media access time detection unit 6 when determining the playback order for each track (song) in the order list 3 for each track. The priority level of the playback order is determined. The order list order generation means 12 inquires of the music database 2 about the registered contents of the order list 3, and determines the playback order in ascending or descending order according to the attribute items of the song data.

Next, the details of the reproduction order setting process in the order list will be described.
As pre-processing for setting the reproduction order, the media access time detection means 6 detects the access time for each recording medium 5 when the music database generation means 4 accesses the various recording media 5 to generate the music database 2.

It should be noted that the media access time detection means 6 may detect the access time during the order list reproduction order setting process by the order list control means 1 instead of as pre-processing. The access time for each recording medium 5 detected in this way is output from the media access time detection means 6 to the order list order generation priority means 11.

FIG. 19 is a flowchart showing the flow of processing for setting the playback order in the order list according to the first embodiment. The details of the processing for setting the playback order by the components shown in FIG. 18 will be described with reference to FIG.
First, when the order list order generation means 12 inputs the order list 3 generated by the order list extraction means 10, the order list order generation means 12 searches the music database 2 with information on items registered in the order list 3, and the reproduction order of the list items. Are arranged in ascending or descending order according to items in the music database 2 (step ST1a).

In step ST1a, the order list order generation means 12 displays a selection screen for selecting the track reproduction order of the order list 3 as shown in FIG. 20 on the display screen of the display device, and the user desires using an input device (not shown). It is also possible to select and specify the order. In FIG. 20, “Song Title”, “Artist Name”, “Genre”, “Album Name”, and “Release Date” are displayed as the attribute information of the order list 3, and the playback order of the tracks is determined based on these information. Selectable in ascending or descending order. In this selection screen, the playback order may be set by selecting each attribute information of “Song Title”, “Artist Name”, “Genre”, “Album Name”, and “Release Date” independently. Some of them may be handled in combination to set the playback order.

The process for setting the playback order as specified by the user will be described in detail with reference to FIG.
In FIG. 20, the ascending order of the release time is selected by clicking on the item column of “release time” and selecting “upwardly convex black triangle symbol”. Thereafter, the descending order of the song title is selected by clicking the item column of “Song Title” and selecting “Symbol of black triangle protruding downward”. Here, the original reproduction order of the order list 3 may be restored by clicking the triangle symbol again on the selection screen and setting it to “no mark”.

In FIG. 20, the order determination in ascending order at release time> descending order by song title affects the release date and song title in the order list 3. This is expressed in the database language as follows.
SELECT *
FROM OrderList
ORDER BY AlbumYear ASC, TrackTitleName DESC

Also, a priority level for determining the playback order may be set for each item of attribute information and displayed on the selection screen. Specifically, the user designates a priority level for giving priority to the reproduction order for each item via the HMI means 8. The order list order generation means 12 displays the priority level for each item designated by the user on the selection screen.

The priority level is displayed by identifying each item column by color (for example, the priority level is in the order of blue> green> yellow> orange> pink> red). Also good. In this case, when the items displayed in blue are selected in ascending order and the items displayed in red are selected in descending order, the order list order generation means 12 rearranges the tracks in ascending order of the items displayed in blue and plays them in the playback order. Set.

Further, as shown in FIG. 21, the ascending order and descending order of the reproduction order may be represented by arrow symbols 8b1 and 8b2, and priority levels (priority levels 1 and 2) may be described in the arrow symbols 8b1 and 8b2. Also in this case, the original reproduction order is restored by deleting the symbols by clicking again on the arrow symbols 8b1 and 8b2 on the selection screen.

Furthermore, as shown in FIG. 22, the ascending order of the reproduction order may be represented by the mark 8c1 of the character U, the descending order may be represented by the mark 8c2 of the character D, and the height of the priority level may be represented by the size of the mark. In this case, when the large character U mark 8c1 is selected and the small character D mark 8c2 is selected, the order list order generation unit 12 arranges the tracks in ascending order of the items in which the large character U mark 8c1 is described. Change the playback order. Note that the original reproduction order may be restored by deleting the symbols by clicking the marks 8c1 and 8c2 again on the selection screen.

The order list order generation means 12 determines whether or not there is a track of the same playback order in the order list 3 after setting the playback order of the order list 3 as described above (step ST2a). At this time, if there is no track having the same reproduction order, the order list order generation means 12 sets the order list 3 in which the reproduction order is set in step ST1a as a final list.

On the other hand, when tracks with the same playback order exist, the order list order generation priority unit 11 uses the access times of the music media A to C input from the media access time detection unit 6 to instance instances of the tracks with the same playback order. Give priority level to. Here, the order list order generation priority means 11 assigns a higher priority level in order of shorter access time (step ST3a).

Next, the order list order generation means 12 compares the priority levels given by the order list order generation priority means 11 between the tracks having the same playback order, and uses the highest priority track as the track at the playback order. 3 is set (step ST4a). Note that the process of setting the playback order of the order list 3 is the same as the process described above.

(4) Order list playback order setting processing (random playback)
In the playback order setting process described above, the order in the music database 2 is set or the order specified by the user is set. However, the playback order of the tracks in the order list 3 is played back in a random order. May be.

FIG. 23 is a block diagram showing the internal configuration of the order list control means in FIG. 1 and its peripheral configuration. Among the components of the order list control means 1, the track playback order of the order list 3 is set to a random order. The components to be extracted are extracted. In FIG. 23, the order list control unit 1 includes a random space setting unit 13, a random target setting unit 14, and an order list random order generation unit 15 as components for setting the track reproduction order of the order list 3 to a random order. .

The random space setting means 13 inquires the music database 2 for an attribute item including the track registered in the order list 3, and the space specified by all or part of the information corresponding to the attribute item in the music database 2 Set as the target space for random playback. For example, a space having a coordinate axis as attribute item information such as a folder structure, a genre of music, and a publication year is set as a random reproduction target space.

The random target setting means 14 inquires the music database 2 for attribute items including tracks registered in the order list 3, and sets the attribute items to be arranged in a random order in the order list 3. The order list random order generation means 15 belongs to the random reproduction target space set by the random space setting means 13 and adds additional information corresponding to attribute items set as targets to be arranged in a random order by the random target setting means 14. The order list 3 is arranged in a random reproduction order using random numbers or the like.

Next, details of the random playback setting process in the order list will be described.
First, the random space setting unit 13 or the random target setting unit 14 displays a selection screen for random reproduction as shown in FIG. 24 on the display screen of the display device. Here, by clicking and selecting one of the “all” and “designate” buttons provided in the random space frame in FIG. 24, all tracks registered in the order list 3 or orders A track designated from the list 3 can be set as a range to be randomly reproduced. In the example of FIG. 24, the button “all” is selected, and the information space defined by all item information registered in the order list 3 is selected as the range of random reproduction.

When the “designate” button provided in the random space frame in FIG. 24 is selected, a selection screen for allowing the random space setting means 13 to select item information defining the information space to be randomly reproduced is displayed. An information space displayed on the display device and defined by item information selected using an input device (not shown) is set as a random reproduction range. The item information defining the information space set as the random reproduction range is output from the random space setting means 13 to the order list random order generation means 15.

Subsequently, when the attribute song name item (for example, “song”) provided in the random target frame in FIG. 24 is clicked and selected, the random target setting unit 14 is set by the random space setting unit 13. In the information space, the attribute item “song” is set as a target to be reproduced in a random order, and is output to the order list random order generation means 15. In the example of FIG. 24, the attribute items “Song Title”, “Artist Name”, “Genre”, “Album Name”, and “Release Date” can be selected as random playback targets.

In addition, when the entire range of the order list 3 is set to random reproduction by the random space setting means 13 and all items of the additional information are not registered in the order list 3, the random space setting means 13 Other items not registered in the order list 3 are inquired and output to the random target setting means 14, and the random target setting means 14 can select an additional information item including the above items as a random playback target. May be displayed on the display device.

In addition, the random target setting unit 14 inquires of the music database 2 and causes the display device to display a selection screen on which additional information items including items not registered in the order list 3 can be selected as random playback targets. It may be.

In this way, when a range and a target to be played back in a random order are selected, the order list random order generating unit 15 randomly selects a playback order of tracks corresponding to the selected range and the target using a random number or the like. The order of reproduction of the order list 3 is rearranged.

In the case of FIG. 24, all tracks registered as a range in the order list 3 are selected, and a song name is selected as a target. In this case, the playback order is determined by setting a random playback order based on the song names in the order list 3. This can be expressed in the database language as follows.
SELECT *
FROM OrderList
ORDER BY TrackTitleName RAND ()

In addition, instead of displaying a plurality of item information as a target of random reproduction as shown in FIG. 24, information on folder numbers and folder depths registered in the order list 3 is used as shown in FIG. Then, the hierarchical structure of the folder may be displayed on the selection screen, and the playlist included in the selected folder may be the target of random reproduction.

In the example of FIG. 25, a hatched folder is selected as a random playback range, and the order list random order generation unit 15 selects a random track as a random playback target for the playlist track included in the selected folder. The reproduction order is determined, and the reproduction order of the order list 3 is rearranged.

(5) Content Playback Processing FIG. 26 is a block diagram showing the internal configuration of the track playback means in FIG. 1 and its peripheral configuration. In FIG. 26, the track reproducing means 7 includes a track access path storing means 16, a media access adjusting means 17, and a reproducing means 18. The track access path storage means (path information storage means) 16 acquires the track path (access path) from the music database 2 for the tracks (songs) registered in the order list 3 and stores them.

The media access adjusting means (access adjusting means) 17 inputs the access time to the music data recorded on the various recording media 5 detected by the media access time detecting means 6, and the end point of the track being reproduced by the reproducing means 18 Then, the access time is adjusted, and the track path of the music data stored in the track access path storage means 16 is output to the reproduction means 18 as the access path of the track to be reproduced next time.

The reproduction means 18 reproduces music data for each track from the recording medium 5 based on the track path acquired from the track access path storage means 16. In FIG. 26, the same components as those in FIG.

Next, details of the reproduction process will be described.
The order list 3 generated by the order list control unit 1 and set in the reproduction order is stored in a memory (not shown) in the order list control unit 1. When a reproduction request is made by the user via the HMI means 8, the track access path storage means 16 inputs information for each track in the order of reproduction in the order list 3, and the music database 2 is stored with the track ID corresponding to the track. The track path corresponding to the track is retrieved from the track table 2a-1 of the music database 2 and stored. When this is expressed in a database language, it can be expressed as follows.
SELECT
TrackTable. TrackPath TrackPath
FROM TrackTable, Orderlist
WHERE Orderlist.rowid = 1
AND Orderlist.TrackID = TrackTable.TrackID;

The reproducing means 18 accesses the music data of the track from the corresponding recording medium 5 based on the track path input from the track access path storage means 16 and executes the reproducing process. Thus, in the case of the order list 3 shown in FIG. 12, the track name “love” at the head of the list is reproduced in order. At this time, the reproduction means 18 displays the additional information and the reproduction status of the music data being reproduced on the display screen of the display device.

FIG. 27 is a diagram showing a display screen during the reproduction process by the reproduction means in FIG. In the case of FIG. 27, “Love” is displayed as the song name (track name), “AAA” as the artist name, “1” as the playback order, and “HDD” as the content location. Further, the playback means 18 displays a playback time “00:15” and a “playback mark” indicating that playback is in progress on the display device as playback status.

On the other hand, the media access adjusting means 17 reads the track path that the track access path storage means 16 has obtained and stored for the next playback, and detects the access time of the recording medium 5 defined by this track path as the media access time detection. Obtained from means 6.

Subsequently, the media access adjusting means 17 calculates the end time from the playback time etc. of the currently playing song while the playback means 18 is playing back the song data, and from this end time, the song to be played next time is calculated. The access time of the recording medium 5 on which the data is recorded is adjusted, and the track path of the music data to be reproduced next time is output from the track access path storage means 16 to the reproduction means 18.

For example, the track path of the song data to be reproduced next time is sent to the reproducing means 18 at the time earlier by the access time of the recording medium 5 on which the song data to be reproduced next is recorded from the time when the reproduction of the current song ends. The media access adjustment unit 17 controls the output of the track path from the track access path storage unit 16 to the reproduction unit 18 so as to output. In this way, music data can be efficiently reproduced without being conscious of the type of the recording medium 5.

Also, as shown in FIG. 28, the reproducing means 18 reproduces additional information (song name, artist name, genre, album name, release date) regarding the song being reproduced in addition to the information shown in FIG. The additional information of the music may be displayed in the order of reproduction of the order list 3. In this case, the reproduction means 18 reads the track path from the next time onward from the track access path storage means 16 in advance. Here, the reproduction means 18 skips the reproduction order in the order list 3 when the additional information is selected and input via the HMI means 8 as the next reproduction object among the additional information of the music to be reproduced next time. Play the corresponding song data.

In FIG. 27, the name of the currently playing song and the name of the artist are displayed. In FIG. 28, the item column for the song name and the artist name is displayed in a different color from the other item columns. The name of the currently playing song and the name of the artist are presented.

Furthermore, not only the name and artist name of the currently playing song, but also all the attribute information related to the currently playing song may be presented by changing and displaying the colors of all the item fields. In the example of FIG. 28, the item columns of “Song Title”, “Artist”, “Genre”, “Album Name”, and “Release Date” are displayed in a selected color (a color different from the item column of other songs). .

As described above, according to the first embodiment, the additional information for specifying the track (song) and the track database indicating the recording location of the song data are generated for each track, and the song database 2 is registered. An order list 3 in which additional information is listed from the music database 2 in the order of playback of the tracks is generated, and the music data recorded on the recording medium 5 based on the track path acquired from the music database 2 in the order of playback of the order list 3 Play. In this way, a plurality of types of recording media can be handled in a unified manner, and content data such as music can be reproduced without being conscious of the type of recording media.

In the first embodiment, the case where music data such as MP3 (MPEG audio layer 3) data is handled has been described. However, the present invention is not limited to this. For example, music and video content such as audio data, video data, karaoke data, ringtone melody data, podcast data, and mixed data of any of these can be handled in the same manner.

Embodiment 2. FIG.
FIG. 29 is a block diagram showing a configuration of a content recording apparatus according to Embodiment 2 of the present invention, and shows a case where the present invention is applied to a music recording apparatus for recording music on a recording medium as content. In FIG. 29, the content recording apparatus according to the second embodiment has a configuration in which the track reproducing means 7 is replaced with the track recording means 19 in the configuration shown in the first embodiment.

The track recording means (content recording means) 19 specifies the music data of the music media defined by the track path in accordance with the recording order of the tracks (song data) set in the order list 3, and stores it in the recording media 5 for each track. Record. In FIG. 29, the constituent elements denoted by the same reference numerals as those in FIG. 1 operate in the same manner except that the recording order is set as the playback order in the first embodiment.

The order list control means 1, music database generation means 4, media access time detection means 6, track recording means 19 and HMI means 8 in FIG. 29 cause a computer to read a program for constructing a content recording apparatus according to the gist of the present invention. By controlling the operation, it can be realized as a specific means in which software and hardware cooperate on this computer.

Further, the music database 2 and the order list 3 may be constructed on a storage area of a storage device (HDD) mounted on the computer. From the order list control means 1, the music database generation means 4, and the track recording means 19. It may be constructed on a storage area of an external device capable of data communication.

FIG. 30 is a block diagram showing the internal configuration of the track recording means in FIG. 29 and its peripheral configuration. In FIG. 30, the track recording unit 19 includes a track access path storage unit 20, a media access adjustment unit 21, and a recording unit 22. The track access path storage means (path information storage means) 20 acquires the track path (access path) from the music database 2 for the tracks (songs) registered in the order list 3 and stores them.

The media access adjusting means (access adjusting means) 21 inputs the access time to the song data recorded on the various recording media 5 detected by the media access time detecting means 6, and the end point of the track being recorded by the recording means 22 Then, the access time is adjusted, and the track path of the music data stored in the track access path storage means 20 is output to the recording means 22 as the access path of the track to be recorded next time.

The recording means (recording means) 22 reads out and records music data for each track from the recording medium 5 based on the track path acquired from the track access path storage means 20. In FIG. 30, the same components as those in FIG.

Details of the recording process will be described next.
The order list 3 generated by the order list control unit 1 and set in the recording order is stored in a memory (not shown) in the order list control unit 1. When a recording request is made by the user via the HMI means 8, the track access path storage means 20 inputs information for each track in the order of recording in the order list 3, and stores the music database 2 with the track ID corresponding to the track. The track path is read from the track table 2a-1 and stored.

The recording means 22 reads the song data from the corresponding recording medium 5 based on the track path input from the track access path storage means 20 and executes the recording process. At this time, as shown in FIG. 27 and FIG. 28 of the first embodiment, information related to music data being recorded by the recording means 22 may be displayed.

On the other hand, the media access adjusting means 21 reads the track path acquired and stored for the next recording by the track access path storage means 20, and detects the access time of the recording medium 5 defined by this track path as the media access time detection. Obtained from means 6.

Subsequently, while the recording means 22 is recording the song data, the media access adjusting means 21 calculates the end time from the data capacity of the currently recorded song and the next song to be recorded from this end time. The access time of the recording medium 5 on which the data is recorded is adjusted, and the track path of the song data to be recorded next time is output from the track access path storage means 20 to the recording means 22.

For example, the track path of the song data to be recorded next time is sent to the recording means 22 at a time earlier by the access time of the recording medium 5 on which the song data to be recorded next is recorded from the time when the recording of the current song is completed. The media access adjusting unit 21 controls the output of the track path from the track access path storage unit 20 to the recording unit 22 so as to output. In this way, music data can be recorded efficiently without being conscious of the type of the recording medium 5.

As described above, according to the second embodiment, the additional information for specifying the track (song) and the track database indicating the recording location of the song data are generated for each track, and the song database 2 is registered. An order list 3 in which additional information is listed from the song database 2 in the order of recording of the tracks is generated, and the song data read from the recording medium 5 is recorded based on the track path acquired from the song database 2 in the order of recording of the order list 3 To do. In this way, a plurality of types of recording media can be handled in a unified manner, and content data such as music can be recorded without being conscious of the type of recording media.

In the second embodiment, the case of handling music data such as MP3 (MPEG audio layer 3) data has been described. However, the present invention is not limited to this. For example, music and video content such as audio data, video data, karaoke data, ringtone melody data, podcast data, and mixed data of any of these can be handled in the same manner.

As described above, the content reproduction apparatus according to the present invention generates a content database in which additional information for specifying content and path information indicating the recording location of content data are registered for each content, and the content database also includes the content database. An order list is generated that lists additional information in the order of playback, and content data recorded on the recording medium is played back based on the path information acquired from the content database in the order of playback of the order list. Content data such as music can be played back without being conscious of the type of media, and is suitable for use in a music playback device that plays back music as content.

Claims (8)

1. Content in which the additional information is extracted from a plurality of types of recording media on which content data and additional information for specifying the content are recorded, and path information indicating the recording location of the additional information and the content data is registered for each content Database generation means for generating a database;
   Order list control means for generating an order list in which the additional information is listed in the content reproduction order from the content database;
   A content playback apparatus comprising: content playback means for playing back the content data recorded on the recording medium based on the path information acquired from the content database in the order of playback of the order list.
2. An access time detecting means for detecting an access time to content data recorded on a recording medium;
   2. The content reproduction apparatus according to claim 1, wherein the order list control means determines the reproduction order of the contents listed in the order list according to the access time detected by the access time detection means.
3. The content reproduction means includes path information storage means for retrieving the path information of the content data corresponding to the additional information registered in the order list from the content database in the reproduction order, and storing the path information read from the path information storage means in the reproduction order. Based on the reproduction means for reproducing the content data recorded on the recording medium and the access time detected by the access time detection means, the pass information transfer timing from the path information storage means to the reproduction means is adjusted. 3. The content reproduction apparatus according to claim 2, further comprising an access adjustment unit configured to perform the access adjustment.
4. A program for causing a computer to function as the content reproduction apparatus according to claim 1.
5. Content in which the additional information is extracted from a plurality of types of recording media on which content data and additional information for specifying the content are recorded, and path information indicating the recording location of the additional information and the content data is registered for each content Database generation means for generating a database;
   Order list control means for generating an order list listing the additional information from the content database in the recording order of the content;
   A content recording device comprising: content recording means for recording content data read from the recording medium based on the path information acquired from the content database in the recording order of the order list.
6. An access time detecting means for detecting an access time to content data recorded on a recording medium;
   6. The content recording apparatus according to claim 5, wherein the order list control means determines the recording order of contents listed in the order list according to the access time detected by the access time detection means.
7. The content recording means includes path information storage means for extracting and storing path information of content data corresponding to the additional information registered in the order list from the content database in the recording order, and the path information read from the path information storage means in the recording order. Based on the recording means for reading out and recording the content data recorded on the recording medium, and the access time detected by the access time detecting means, the pass information is transferred from the path information storage means to the recording means. 7. The content recording apparatus according to claim 6, further comprising access adjusting means for adjusting the content.
8. A program for causing a computer to function as the content recording apparatus according to claim 5.

Images