JP4055270B2 - RECORDED INFORMATION TRANSFER DEVICE, INFORMATION TRANSFER METHOD, AND INFORMATION TRANSFER SYSTEM - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording information transfer apparatus, an information transfer method, and an information transfer system suitable for providing information for recording on a recording apparatus (recording medium) from an information source such as music.
[0002]
[Prior art]
Various types of audiovisual devices owned by users are prevalent, and it is common to enjoy music software and video software individually.
For example, a user owns an audio system using a disc recording medium such as a CD (compact disc), MD (mini disc), etc., and purchases and plays a desired CD, MD, etc. sold as package media, Alternatively, an original disc is created by selecting a favorite song using an MD which is a recordable medium.
[0003]
In addition, as a new audiovisual device that has not been used so far, development of a recording / reproducing apparatus that accumulates audio data files and video data files using a large-capacity medium such as a hard disk is underway.
For example, music recorded on a package medium owned by a user such as a CD is dubbed and recorded on a hard disk or the like in the recording / reproducing apparatus. By using a large-capacity recording medium such as a hard disk, it is possible to store, for example, all music pieces on a large number of CDs owned by the user in the recording / reproducing system.
[0004]
When the user wants to play a certain piece of music, the user does not need to bother to search for a CD or the like on which the music is recorded and load it in the recording / playback device. That's fine. Therefore, it is very convenient especially for a user who owns a large amount of CDs. Also, since it is not necessary to replace a CD or the like, for example, music can be easily enjoyed by selecting music according to the mood and situation of the day.
[0005]
In addition, for example, if a portable recording / playback device that can move or copy data such as music from the hard disk of the recording / playback device is provided, the music that is desired to be listened to on that day can be selected from a large number of songs and copied. Thus, it can be played back by the portable recording / playback apparatus. In particular, even if the portable recording / reproducing apparatus uses a hard disk or flash memory as a recording medium, music data can be moved or copied instantly. For example, before the user goes out, A use form such as selecting a song in accordance with the mood and situation, moving or copying to the portable recording / reproducing apparatus, and enjoying the reproduction of the song on the portable recording / reproducing apparatus is also possible.
[0006]
[Problems to be solved by the invention]
Incidentally, dubbing music data selected by a user from a certain music data source to a predetermined recording medium is performed relatively frequently.
For example, dubbing music recorded on a CD to MD is one form, and music data is dubbed from a recording / playback device having a hard disk as a source of music data to a portable recording device as described above. Is also possible.
When performing dubbing in this way, the user usually selects music for each song or album and performs dubbing. However, even if all the selected songs are recorded on the recording medium of the dubbing destination, recording is still possible. In many cases, a large capacity (recordable time) is left. For example, when a user dubbs a music album having a total performance time of 55 minutes on a recording medium capable of storing 60 minutes of music data, a remaining time of 5 minutes that can be recorded is generated.
In this case, in order to effectively use the remaining capacity, the user often selects an appropriate song and dubs it.
[0007]
However, finding an appropriate song for the remaining capacity is quite troublesome for the user. For example, it is necessary to check the remaining time of the recording medium and search for a song whose performance time is within that time from a CD or the like on hand. Of course, if the performance time is not written on the CD jacket etc., you can't select from that CD, or you have to be prepared to dubb in the midst of recording being cut off (recording is impossible due to over capacity). Sometimes things happen.
Even if a song with an appropriate performance time is found, a song with a different atmosphere or genre from the previously dubbed song is not preferable.
[0008]
Also, in the CD system, when there is a recordable remaining time after dubbing from a certain CD to an MD or the like, it has been proposed that an appropriate song is selected from the CD and dubbed. In this case, a certain piece of music is duplicated and dubbed, so it is difficult to say that the capacity on the recording medium side is effectively used, and the user often thinks that such additional dubbing is unnecessary.
[0009]
[Means for Solving the Problems]
In view of such a problem, the present invention has an appropriate data amount corresponding to the remaining time (remaining capacity) for recording to the remaining time of the recording medium, and overlaps with information already recorded. The purpose is to simplify the user's work by enabling selection of no information. Further, it is assumed that the selected information is preferable for the user in relation to the previously recorded information.
[0010]
To this end, the recording information transfer apparatus of the present invention comprises a storage means capable of storing a plurality of data files , a transfer means for transferring a data file stored in the storage means to a connected recording apparatus, and the recording apparatus. Selecting from the storage means a confirmation means for confirming additional information of the data file that has been transferred to the recording apparatus, and another data file associated with additional information that matches the additional information of the data file that has been transferred to the recording device ; And transfer control means for transferring to the recording apparatus.
[0011]
The recording apparatus further includes a determining unit that determines a recordable capacity of the recording apparatus, wherein the transfer control unit is an amount of information that can be recorded with respect to the recordable capacity determined by the determining unit, and is transferred to the recording apparatus. already other data files that the additional information is associated matching the additional information of the data file selected from the storage unit, adapted to transfer to said recording apparatus.
Further, the transfer control means can record a predetermined data file among a plurality of data files stored in the storage means to the recordable capacity determined by the determination means after transferring the data file to the recording means. And selecting another data file associated with the additional information that matches the additional information of the data file that has been transferred to the recording device from the storage unit and transferring the selected data file to the recording device. The
Furthermore, the additional information includes a plurality of management information for managing the data file ,
The transfer control means selects from the storage device another data file associated with a plurality of management information that matches a plurality of management information of the data file that has been transferred to the recording device, and causes the storage device to transfer the selected data file . It is configured as follows.
Further, the transfer control unit is configured not to execute the transfer process of the other data file when the storable amount determined by the determination unit is less than a predetermined value.
Further, the transfer control means is configured so that when the storable amount determined by the determination means is smaller than the information amount of the data file having the minimum information amount in the storage means, It is configured not to execute data file transfer processing.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a recording / reproducing apparatus and a portable recording / reproducing apparatus as embodiments of the present invention will be described. First, an example of an information distribution system including the recording / reproducing apparatus will be described, and then a characteristic operation example of the recording / reproducing apparatus and the portable recording / reproducing apparatus will be described. The characteristic operation of the recording / reproducing apparatus of this example can be realized as an operation as an information distribution system described below, but can also be realized as a system including only a recording / reproducing apparatus and a portable recording / reproducing apparatus. Is.
The description will be given in the following order.
1. 1. Overview of information distribution system 2. Appearance example of recording / reproducing device and portable device 3. Internal configuration of recording / reproducing apparatus 4. Internal configuration of portable device 5. File storage form of recording / reproducing apparatus 6. Operation example during dubbing Modification [0013]
1. Overview of Information Distribution System FIG. 1 shows an overview of an information distribution system including the recording / reproducing apparatus of this example.
This information distribution system basically includes a recording / reproducing apparatus 10 that a general user uses at home 2 and the like, and an information center 1 as an information service organization related to the use of the recording / reproducing apparatus 10.
The information center 1 and the recording / reproducing apparatus 10 can communicate various information using the communication line 3. The communication line 3 may be a public line network such as an ISDN line or a dedicated line network for the system, and the form of the line is not particularly limited.
Further, a satellite communication line using a communication satellite 4 or a parabolic antenna 5 installed in each home 2 may be configured so that information communication between the information center 1 and the recording / reproducing apparatus 10 is possible.
[0014]
As will be described in detail later, the recording / reproducing apparatus 10 of this example used by a general user includes a large-capacity data file storage unit (for example, the hard disk drive 15 in FIG. 3) and a package medium such as a CD or MD. It has a drive function, data input function from other devices, data input function via communication line, etc., audio data and video data reproduced from media purchased by users such as CD, CD-ROM, MD Various other data and various data input from other devices and communication lines can be stored as files.
[0015]
The stored file (for example, music or the like is stored as one file in units of music) can be arbitrarily reproduced by the user. Therefore, for example, if a user having a large number of CDs stores all the music pieces of all CDs as one file in the recording / reproducing apparatus 10, a desired music piece or the like can be obtained without having to bother to select and load a CD or the like. Can be played.
[0016]
The information center 1 can provide various kinds of information to the recording / reproducing apparatus 10 for a fee or free of charge.
For example, as information (additional information) related to a file such as a song stored in the recording / reproducing apparatus 10, text data such as a song name, artist name, and lyrics, image data such as a song image or an artist image, an artist's Internet homepage Address (URL: Uniform Resource Locator), information on copyright, names of related parties (songwriter, composer, producer, etc.), etc. can be provided. For example, the recording / reproducing apparatus 10 can perform various operations such as storing information provided from these information centers in association with music files and using them for display output.
[0017]
In some cases, the information center 1 transmits audio data itself, that is, music, etc. to the recording / reproducing apparatus 10 and stores it as a file, so that a sales / provision system for music, etc., which is different from a CD as a so-called package media. It is also possible to construct
[0018]
In this system example, there is a portable recording / reproducing apparatus 50 (hereinafter referred to as a portable apparatus) that can be connected to the recording / reproducing apparatus 10 as an apparatus used by a user.
Although the portable device 50 will be described later in detail, the portable device 50 includes a data file storage unit (for example, a solid-state memory (or hard disk drive) 54 in FIG. 4) that can store files such as audio data.
When connected to the recording / reproducing apparatus 10, a file (music piece or the like) stored in the recording / reproducing apparatus 10 can be copied or moved to a data file storage unit in the portable device 50. Of course, it is also possible to copy or move the file stored in the data file storage unit in the portable device 50 to the data file storage unit in the recording / reproducing device 10.
[0019]
The user can use the file on the portable device 50 by moving or copying any file stored in the recording / reproducing device 10 to the portable device 50. For example, when the portable device 50 is used, it is possible to listen to the music on the go, for example, by moving the file of the music that the user wishes to listen to on that day.
[0020]
2. Example of Appearance of Recording / Reproducing Device and Portable Device FIG. 2 shows an example of appearance of the recording / reproducing device 10 and the portable device 50. It should be noted that what is described here is merely an example, and various other examples include the appearance of each device, the user interface configuration (configuration for operation and display), the connection form of the recording / playback device 10 and the portable device 50, and the like. Can be considered.
[0021]
As shown in FIG. 2, the recording / reproducing apparatus 10 is a so-called radio-cassette-type device so as to be suitable for use in a user's home, for example. Of course, it may be a component type.
In the recording / reproducing apparatus 10, operation keys, operation knobs, rotary push type keys called jog dials, and the like are provided on the front panel of the device as various operation elements Ka for the user to perform various operations. .
Further, as an output part for the user, a speaker 35 for outputting reproduced sound and a display unit 24 for displaying and outputting various information are provided. The display unit 24 is formed of, for example, a liquid crystal panel.
[0022]
In addition, a CD type disc (audio CD, CD-ROM, CD text, etc.) owned by the user is reproduced by the recording / reproducing apparatus 10 or data dubbing to an internal hard disk to be described later is performed. A CD insertion part 17 for inserting the CD is provided.
Similarly, an MD disc is inserted in order to reproduce / reproduce the MD disc (audio MD, MD data, etc.) owned by the user on the recording / reproducing apparatus 10 or to perform data dubbing on the internal hard disk. An MD insertion portion 18 is provided.
[0023]
Various terminals ta for connection with other devices are also prepared. These are parts used for connection of microphones and headphones, and are line connection terminals, optical digital connection terminals, interface connectors, and the like that can be connected to other audiovisual devices, personal computers, and the like.
[0024]
In addition to the operation element Ka, a keyboard 90 and a remote commander 91 can be used as means for user operation input.
The keyboard 90 is used by being connected via a keyboard connector as a terminal ta, or when an infrared transmitter is mounted on the keyboard 90, operation information from the keyboard 90 is output by an infrared wireless system, and a light receiver 21 can be input to the recording / reproducing apparatus 10.
The remote commander 91 outputs operation information by, for example, an infrared method. The operation information by the infrared signal is input from the light receiving unit 21 to the recording / reproducing apparatus 10. The operation information output when the keyboard 90 is a wireless system and the operation information output from the remote commander 91 may be radio waves instead of infrared rays.
[0025]
Further, an input pen 93 that forms input means together with the display unit 24 is provided. That is, an operation image is displayed on the display unit 24 as a so-called GUI, and an operation input corresponding to the image is performed as a touch pen input by applying the input pen 93 to the image on the display unit 24. It is what you want to do.
[0026]
Further, the PCMCIA slot 39 is formed in the recording / reproducing apparatus 10 so that data can be exchanged with a PCMCIA card attached.
[0027]
The portable device 50 is a small and lightweight device that is suitable for a user to carry and use.
The portable device 50 is provided with operation keys and the like as various operation elements Kb for the user to perform various operations. Although not shown, of course, a jog dial or the like may be provided.
In addition, as an output part for the user, a speaker 68 for outputting reproduced sound and a display unit 57 for displaying and outputting various information are provided. The display unit 57 is formed of, for example, a liquid crystal panel.
[0028]
Various terminals tb for connecting to other devices are prepared. These are parts used for connection of microphones and headphones, and are line connection terminals, optical digital connection terminals, interface connectors, and the like that can be connected to other audiovisual devices, personal computers, and the like.
For example, when a user carries music and listens to music or the like, the user can listen to music or the like using the headphone 92 by reproducing sound from the speaker 68 and connecting the headphone 92 to the headphone terminal of the terminal tb. it can.
[0029]
By connecting the recording / reproducing device 10 and the portable device 50, various data communication (actual file data such as audio data, control data for processing at the time of communication, etc.) between the recording / reproducing device 10 and the portable device 50 Communication).
In this example, a mounting unit MT having a connector 27 is provided in the recording / reproducing apparatus 10, and both devices are connected by loading the portable device 50 into the mounting unit MT. When the portable device 50 is loaded in the mounting portion MT, the connector 60 provided at the lower portion of the portable device 50 and the connector 27 in the mounting portion MT are connected, and both devices are connected via the connectors 60 and 27. Data communication between the two.
Note that the connection between the recording / reproducing device 10 and the portable device 50 may be a line connection method using a communication cable, or a wireless connection method using infrared rays or the like.
[0030]
3. Internal Configuration of Recording / Reproducing Device Next, an example of the internal configuration of the recording / reproducing device 10 will be described with reference to FIG.
This recording / reproducing apparatus 10 is provided with a push-type or rotary-type operation element as the panel operation unit 20. The operator referred to here corresponds to the various operators Ka shown in FIG. In other words, these are various operators formed on the device casing.
When this panel operation unit 20 is operated, an operation signal for executing various operations of the recording / reproducing apparatus 10 is sent out, and the recording / reproducing apparatus 10 is operated in accordance with the operation signal.
[0031]
In addition, although the input pen 93 is shown in FIG. 2, an input detection unit 42 is provided to detect that an input with the input pen 93 is performed on the operation key display on the display unit 24. A pen driver 41 for driving the input pen 93 is provided.
As an input method using the input pen 93, for example, a capacitance detection type can be considered. That is, an electrode is provided at the tip of the input pen 93 and is driven by the pen driver 41, and the input detector 42 is arranged in a matrix form in a range corresponding to the display surface of the display unit 24. Then, since the position touched by the pen driver 41 can be detected as a capacitance change position by the matrix electrode, it can be determined that the operation input as the operation image displayed at the position has been performed.
As another example, a mechanical configuration in which matrix-like switch electrodes are arranged as two layers as the input detection unit 42 and contact of the switch electrodes is detected at a position pressed by the input pen 93 is also conceivable. . In such a case, the pen driver 41 is unnecessary, and the input pen 93 does not need to be dedicated.
[0032]
Further, for example, the keyboard 90 and the remote commander 91 can be used as described above in order to make it easy to input the song name, artist name, etc. corresponding to the recorded audio information, but the USB (universal serial bus) terminal By connecting the keyboard 90 to ta6, the keyboard 90 can be used for input. That is, an input signal (operation signal) from the keyboard 90 can be taken into the recording / reproducing apparatus 10 by being supplied to the USB driver via the USB terminal ta6. Note that each of the various terminals ta1 to ta7 in FIG. 3 corresponds to one of the terminals ta illustrated in FIG.
[0033]
The infrared operation signal from the remote commander 91 (and the operation signal when the keyboard 90 performs infrared output) is photoelectrically converted by the light receiving unit 21 and supplied to the infrared interface driver 22. The data can be taken into the recording / reproducing apparatus 10.
Note that data transfer output may be performed via the infrared interface driver 22 or the USB driver 23.
[0034]
The recording / reproducing apparatus 10 includes a RAM 13, a ROM 12, and a flash memory 14, which are ordinary personal computer configurations, and the CPU 11 controls the overall operation of the recording / reproducing apparatus 10.
In addition, file data and control data are exchanged between the blocks via the bus B1.
[0035]
Operation input signals input from the panel operation unit 20, input pen 93, remote commander 91, keyboard 90, etc. are transferred to the CPU 11. Then, the CPU 11 executes a predetermined process corresponding to the operation.
Therefore, the ROM 12 stores a program for controlling the operation of the recording / reproducing apparatus 10 in accordance with an input signal input by operating the panel operation unit 20 or the like.
The RAM 13 and the flash memory 14 are temporarily secured with a data area and a task area for executing a program. Alternatively, the ROM 12 stores a program loader, and the program itself can be loaded into the flash memory 14 by the program loader.
[0036]
A CD-type optical disk (audio CD, CD-ROM, CD text, etc.) is loaded into the CD-ROM drive 17 from the CD insertion portion 17 and is optical at 1 × speed or higher speed, for example, 16 × speed or 32 × speed. Information stored on the optical disc is read out by the pickup.
[0037]
The MD drive 17 is loaded with an MD optical disk or magneto-optical disk (audio MD, MD data, etc.) from the MD insertion portion 18 and information stored on the disk is read out by an optical pickup. Alternatively, information can be recorded on the loaded disc.
[0038]
In this example, the CD-ROM drive 17 and the MD drive 18 are provided. However, only one of them is provided, or another medium (for example, called an MO disk) is used as a medium for storing information. A drive corresponding to a magneto-optical disk, an optical disk of another system, a magnetic disk, a memory card, etc.) may be provided.
[0039]
As a large-capacity storage means inside the recording / reproducing apparatus 10, a hard disk drive (hereinafter referred to as HDD) 15 for recording / reproducing information on / from a hard disk is provided. For example, audio information read from the CD-ROM drive 17 or the MD drive 18 can be stored in the HDD 15 in file units (for example, one song is one file).
[0040]
Also, an encoder 28 that performs ATRAC2 (Adaptive Transform Acoustic Coding 2) compression encoding on audio data, and a decode 29 that performs decoding on the ATRAC2 compression on audio data are provided.
The encoder 28 and the decoder 29 perform encoding and decoding related to the supplied audio data under the control of the CPU 11.
A buffer memory 16 is provided for temporarily storing audio data to be processed. The buffer memory 16 performs data writing / reading under the control of the CPU 11.
[0041]
For example, when audio data read from a disk by the CD-ROM drive 17 is stored in the HDD 15, the audio data read from the disk is temporarily stored in the buffer memory 16 as preprocessing for storing the audio data in the HDD 15. At the same time, the audio data is supplied to the encoder 28 to perform ATRAC2 encoding. Further, the data encoded by the encoder 28 is temporarily stored again in the buffer memory 16, and finally the audio information encoded in the HDD 15 is accumulated.
[0042]
In this example, the audio data encoded by the ATRAC2 method by the encoder 28 is stored in the HDD 15. However, for example, data read from the CD-ROM drive 17 may be stored in the HDD 15 as it is. Absent.
[0043]
The encoder 28 not only encodes data read from the medium loaded in the CD-ROM drive 17 but also an audio signal input via the amplifier 32 from the microphone terminal ta3 to which the microphone is connected, or others. An audio signal input from a line input terminal ta2 to which a device such as a CD player is connected is input via an A / D converter 31, and the input audio data is also encoded by an encoder. 28 can be encoded.
Further, data input from an external device (for example, a CD player) connected to the optical digital terminal ta4 is input to the encoder 28 via the IEC958 (International Electrotechnical Commission 958) encoder 30, and thus Data input by the optical digital method can also be encoded by the encoder 28.
[0044]
In addition, after the data input from the external device is encoded by the encoder 28 as described above, the encoded data can be stored in the HDD 15 in units of files.
[0045]
As the encoding algorithm of the encoder 28, ATRAC2 (trademark) is used. However, any encoding algorithm that compresses information may be used. ATRAC (trademark), MPEG (moving picture coding experts group), PASC (precision adaptive sub-band coding) ), TwinVQ (trademark), RealAudio (trademark), LiquidAudio (trademark), or the like.
[0046]
The recording / reproducing apparatus 10 includes a modem 19 as an interface connectable to the Internet, a TEL network, a cable TV, a wireless network, or the like, which is an external network connected to the communication terminal ta5, as the communication line 3.
Then, a request signal for requesting some service is sent to the remote server via the modem 19, or media information, user ID, user information, user billing information, etc. mounted on the CD-ROM drive 17 are transmitted.
[0047]
On the external network server (server that can communicate with the communication line 3) side, verification processing by user ID, billing processing, additional music information from the disc information, such as song title, artist name, composer, songwriter, lyrics, jacket An image or the like is searched, and an operation of returning predetermined additional information requested by the user to the recording / reproducing apparatus 10 side becomes possible.
Here, an example in which additional related information for music is returned has been shown, but music information requested by the user may be directly downloaded from an external network. Alternatively, the music information may be returned in response to the media information so that a bonus track of a predetermined medium is acquired by distribution.
[0048]
The audio information stored in the HDD 15 can be decoded by the decoder 29 and reproduced and output by the speaker 35 via the D / A converter 33 and the amplifier 34. Alternatively, by connecting a headphone to the headphone terminal ta1, it is possible to reproduce and output from the headphone.
Here, the decoder 29 is assumed to perform ATRAC2 decoding, but any decoding algorithm corresponding to the encoding algorithm of the encoder 28 may be used.
Further, it may be software processing by the CPU 11 without hardware for encoding and decoding.
[0049]
Further, as shown in FIG. 2, a display unit 24 is provided as an interface for the user to manage and control files such as audio data stored in the HDD 15. Display driven.
The display unit 24 displays necessary characters, symbols, operation icons, and the like based on the control of the CPU 11.
Further, the display unit 24 displays a folder or a jacket image corresponding to an audio file (a file in which audio data such as music is recorded is referred to as an audio file for explanation) or the like, and a pointing device such as the input pen 93. The operation by is enabled. For example, an operation in which an audio file instructed by the user on the display is reproduced is possible.
Of course, a click operation using a mouse or a touch operation method such as a user touching with a finger is also conceivable.
[0050]
Further, by using the display on the display unit 24, it is possible to control deletion of the selected audio file, copying to an external device (for example, the portable device 50), movement, and the like.
Alternatively, the display unit 24 can display html (hyper text) as related information retrieved from a WWW (world wide web) site on the Internet based on TOC (table of contents) information of the media loaded in the CD-ROM drive 17. markup language) The document is configured to be displayed graphically, and can also be used as a normal Internet browser.
[0051]
The recording / reproducing apparatus 10 takes in audio information from various devices and systems connected to the terminal ta7, for example, IRD for satellite broadcasting, MD player, DVD player, DV player, etc. via the IEEE 1394 interface 37 and the IEEE 1394 driver 36. It is configured to be.
As a further additional function, a PCMCIA (Personal Computer Memory Card International Association) slot 39 is provided via a PCMCIA driver 38, and a PCMCIA card can be attached. External storage devices, other media drives, modems, terminal adapters, It is easy to expand various peripheral devices such as capture boards.
[0052]
Further, as described with reference to FIG. 2, the recording / reproducing apparatus 10 is provided with a connector 27 for connection to the portable device 50. By connecting the connector 27 and the connector 60 on the portable device 50 side, the CPU 11 can perform various data communications with the portable device 50 side via the interface driver 26. For example, an audio file stored in the HDD 15 can be transferred.
[0053]
4). Internal Configuration of Portable Device Next, an example of the internal configuration of the portable device 50 is shown in FIG.
The recording / reproducing apparatus 10 and the portable device 50 are electrically connected by connecting the connector 27 and the connector 60. In this state, the interface driver 26 of the recording / reproducing apparatus 10 and the portable device 50 are connected. An interface driver 59 is connected to enable data communication between the two devices.
[0054]
The portable device 50 is provided with push-type and rotary keys as the panel operation unit 56. That is, the various operation elements Kb shown in FIG. 2 correspond to the panel operation unit 56. When the operation element Kb as the panel operation unit 56 is operated, an operation signal for instructing the operation of the portable device 50 is sent to the control bus B2, and the portable device 50 performs an operation according to the operation signal.
[0055]
Similarly to the recording / reproducing apparatus 10, the portable device 50 is provided with a RAM 53 and a ROM 52, which are ordinary personal computer configurations, and the entire operation of the portable device 50 is controlled by the CPU 51. Also, file data and control data are transferred between the blocks via the bus B2.
[0056]
The ROM 52 stores a program to be executed by the portable device 50 in response to an operation signal input by operating the panel operation unit 56, and the RAM 53 stores a data area for executing the program, A task area is temporarily reserved. Note that a flash memory may be mounted in the same manner as the recording / reproducing apparatus 10, and the bus configuration is not limited.
[0057]
As a storage means inside the portable device 50, a solid-state memory 54 (flash memory or the like) for recording and reproducing information with respect to the hard disk is provided. For example, audio information transferred from the recording / reproducing apparatus 10 can be stored in file units (for example, one song is one file) in the solid-state memory 54. Note that a hard disk drive (HDD) may be used as the storage means instead of the solid-state memory.
[0058]
Similarly to the recording / reproducing apparatus 10, an encoder 61 that performs ATRAC2 encoding on audio data and a decode 62 that performs ATRAC2 decoding on audio data are provided.
The encoder 61 and the decoder 62 perform encoding and decoding related to the supplied audio data under the control of the CPU 51.
A buffer memory 55 is provided for temporarily storing audio data to be processed. The buffer memory 55 performs data writing / reading under the control of the CPU 51.
[0059]
For example, when audio data not encoded in the ATRAC2 system is supplied from the recording / reproducing apparatus 10 via the interface driver 59 and stored in the solid-state memory 54, a buffer memory is used as a pre-process for storing the audio data in the solid-state memory 54. The audio data is temporarily stored in 55 and the audio data is supplied to the encoder 61 to perform ATRAC2 encoding. Further, the encoded data is temporarily stored again in the buffer memory 55, and finally the encoded audio information is accumulated in the solid-state memory 54.
[0060]
In this example, the HDD 15 in the recording / reproducing apparatus 10 stores an audio file or the like encoded by the ATRAC2 method. Therefore, the audio file stored in the HDD 15 is supplied via the interface driver 59 and is stored in the HDD 15. When the data is stored in the solid-state memory 54 (that is, when a data file such as a song is copied or moved), the processing in the encoder 61 is not necessary. However, audio data (uncompressed data) read from a medium loaded in the CD-ROM drive 17 or the like of the recording / reproducing apparatus 10 may be directly input via the interface driver 59. In this case, as a process for recording the audio data in the solid-state memory 54, the encoding by the encoder 61 is performed as described above.
[0061]
In this example, the audio data encoded by the encoder 61 in the ATRAC2 system is stored in the solid-state memory 54. However, for example, data that has not been subjected to compression processing may be stored in the solid-state memory 54 as it is. Good.
[0062]
In addition to the interface driver 59, a microphone terminal tb3, a line input terminal tb2, an optical digital terminal tb4, and the like are provided as parts for supplying audio data to the encoder 61 for compression processing. Note that each of the various terminals tb1 to tb4 in FIG. 4 corresponds to one of the terminals tb illustrated in FIG.
[0063]
In the encoder 61, an audio signal input from the microphone terminal tb3 to which the microphone is connected via the amplifier 65 or an audio signal input from the line input terminal tb2 to which another device such as a CD player is connected is The audio data is input via the D converter 64, and the input audio data can also be encoded by the encoder 28.
Furthermore, data input from an external device (for example, a CD player) connected to the optical digital terminal tb4 is input to the encoder 61 via the IEC958 encoder 63, and thus input in an optical digital system. The encoded data can also be encoded by the encoder 61.
[0064]
Then, after the data input from the external device is encoded by the encoder 61 as described above, the encoded data can be stored in the solid memory 54 in units of files.
[0065]
The encoding algorithm of the encoder 61 is not limited to ATRAC2, and other information compression algorithms such as ATRAC, MPEG, PASC, TwinVQ, RealAudio, LiquidAudio, etc. may be used.
[0066]
The audio information stored in the solid-state memory 54 is decoded by the decoder 62 and can be reproduced and output by the speaker 68 via the D / A converter 66 and the amplifier 67. Alternatively, by connecting a headphone to the headphone terminal tb1, it is possible to reproduce and output from the headphone.
Here, the decoder 62 is assumed to perform ATRAC2 decoding, but any decoding algorithm corresponding to the encoding algorithm of the encoder 61 may be used.
Further, the encoding and decoding processing may be software processing by the CPU 51 without hardware.
[0067]
Further, as shown in FIG. 2, a display unit 57 is provided as an interface for the user to manage and control files such as audio data stored in the solid-state memory 54. The display unit 57 is a display driver. The display is driven by 58.
The display unit 57 displays required characters, symbols, icons, and the like based on the control of the CPU 51.
In addition, a folder or jacket image corresponding to an audio file or the like is displayed on the display unit 57 and can be operated by a pointing device that corresponds to the panel operation unit 20 such as touching with a mouse, a pen, or a user's finger. You may be made to do. For example, an operation in which an audio file designated by the user on the display is read from the solid-state memory 54 and reproduced from the speaker 35 or the like is possible.
Further, by using the display on the display unit 57, it is possible to control the deletion of the selected audio file on the solid-state memory 54, copying, movement to an external device (for example, the recording / reproducing apparatus 10), and the like.
[0068]
As described with reference to FIG. 2, the portable device 50 can be exchanged with the recording / reproducing device 10 by being attached to the attachment unit MT of the recording / reproducing device 10, but may be a non-contact type interface. For example, IrDA or the like may be used.
Although not shown, the recording / reproducing apparatus 10 includes a charging current supply unit, and supplies a charging current to the portable device 50 to be attached, and serves as an operating power source for the portable device 50. May be configured to be charged.
[0069]
5. FIG. 5 shows an example of a file storage form in the HDD 15 in the recording / reproducing apparatus 10.
For example, the user loads his own CD into the CD-ROM drive 17 and records (i.e., copies) each recorded song as a file on the HDD 15.
For example, if storage is performed in units of media such as CDs, a management file is formed in units of media such as dubbed CDs, and each piece of music is stored as one audio file.
[0070]
FIG. 5 shows a state where n CDs are dubbed to the HDD 15, and management files AL (AL1 to AL (n)) are formed corresponding to the respective CDs. The music recorded on each CD is stored as an audio file in a state corresponding to the management file AL.
In FIG. 5, each file shown in one line is shown as a file dubbed from one CD. For example, dubbing data (each music piece) from a certain CD corresponds to the management file AL1 and is an audio file AL1. -Stored as M1, AL1-M2, AL1-M3. Further, dubbing data (each music piece) from another CD is stored as audio files AL2-M1, AL2-M2, AL2-M3... Corresponding to the management file AL2. That is, these are actual music data.
Thus, when dubbing from one CD is performed, audio files for the number of songs dubbed are formed together with one management file.
[0071]
In addition, when dubbing a certain CD or the like, the user can input data or obtain additional information retrieved from a database as will be described later, and such information is stored as a related information file. For example, the related information file AL1ad is formed corresponding to the management file AL1.
As described above, the data stored as the related information file AL (*) ad includes text data such as a song name, artist name, and lyrics, image data such as a song image and an artist image, an address of an artist's Internet homepage ( URL), information on copyright, names of related parties (songwriter, composer, producer, etc.), etc.
[0072]
The management file has various types of management information regarding the corresponding one or plural audio files and related information files, and is used when each audio file or related information file is reproduced, moved, copied, edited, etc. Become.
For example, the management file AL1 relates to a file group that is dubbed and stored from a medium such as a CD, the entire management information, management information about each audio file AL1-M1, AL1-M2, AL1-M3. Management information relating to the related information file AL1ad is recorded.
[0073]
FIG. 6 shows an example of management information data recorded in the management file.
For example, as album information serving as management information for the entire group of files dubbed and stored from a medium such as a CD, the file type, the number of files, the album title, the data size, the total performance time as an album, the date and time information when the dubbing was performed, Name of the person concerned (album producer, songwriter, performer, etc.), copyright information, album ID, history information (eg, number of times played, date of reproduction, etc.), music genre, user memo (information entered by the user regarding this album) ) And other various management information. The album ID is an identification code uniquely assigned to each album (product title unit) as a medium such as a CD.
[0074]
In the management file, file information (# 1) to file information (#m) are recorded as management information individually corresponding to each corresponding audio file. The file information includes the file type of the corresponding file, the correspondence Address pointer indicating the recording position of the file to be recorded on the HDD 15, data size of the file, performance time of the song, title (song name), date and time information when the dubbing was performed, names of parties (songwriter, performer, etc.) , Copyright information, song ID, history information (for example, number of times played, date and time of reproduction), music genre, user memo (information input by the user regarding this song), and other various management information.
[0075]
Further, the management file records related file information as management information for managing the corresponding related information file. The related file information includes the file type and the number of files of the corresponding related information file, the HDD 15 of the corresponding related information file. The address pointer indicating the recording position above, the data size of the related information file, the date and time information when the recording was performed, the name of the person concerned, the copyright information, the related file ID, and other various management information are recorded.
[0076]
By recording such management information in the management file, for example, the recording / reproducing apparatus 10 can perform various processes such as reproduction, movement, copying, editing and the like of a specific music piece, and can also perform operations such as music reproduction. In addition, it is possible to output images and text as related information.
[0077]
The content of the management information shown in FIG. 6 is merely an example, and the file storage form in FIG. 5 is also an example. Actually, it is only necessary to adopt a file storage form and a management form suitable for various processing of audio files as actual data to be stored.
Also, in this example, an audio file such as a music piece will be described as an example of the file of the embodiment, but moving image data, still image data, text data, a program as game software, etc. as actual files (that is, It is of course possible to store it as a separate file (not as a related information file).
[0078]
6). Example of Operation during Dubbing The recording / reproducing apparatus 10 and the portable apparatus 50 configured as described above can mutually copy (copy) or move (move) stored files (audio data such as music). it can.
That is, a file stored in the HDD 15 of the recording / reproducing device 10 is copied or moved to the solid-state memory 54 of the portable device 50, and conversely, a file stored in the solid-state memory 54 of the portable device 50 is transferred to the recording / reproducing device 10. It can be copied or moved to the HDD 15.
[0079]
Here, copying refers to a process of making a file co-existing in the copy source HDD and the copy destination HDD when the copy is made, that is, a state in which the file can be played back by both the recording / playback device 10 and the portable device 50. On the other hand, “move” refers to processing for making reproduction impossible from the copy source HDD. That is, when moving, in addition to dubbing of audio file data, a process for making the audio file unplayable at the move source (for example, a process for setting a playback prohibition flag) is performed.
[0080]
In particular, the user selects a desired audio file (musical piece) from a large number of audio files stored in the HDD 15 of the recording / reproducing apparatus 10 and dubbes it on the portable device 50 (hereinafter, moving or copying all at once). And dubbing), the music dubbed by the portable device 50 can be heard.
When dubbing is performed in this way, a remaining capacity may be generated on the portable device 50 side, that is, on the solid-state memory 54.
For example, “A” in FIG. 12 is the total capacity of the solid-state memory 54.
Here, it is assumed that the user designates a music album containing six songs from the HDD 15 and dubbes all the songs. For example, in the file structure of FIG. 5, it is assumed that audio files AL (x) -M1 to AL (x) -M6 are dubbed. When this is recorded in the solid memory 54 as music # 1 to # 6 as shown in FIG. 12, if the capacity corresponding to the total performance time is “B”, the remaining capacity of AB = C is appear.
In this example, an appropriate audio file is selected from the HDD 15 serving as a music data source for the remaining capacity C, and additional dubbing is performed.
[0081]
The processing of the CPU 11 during this dubbing is shown in FIGS.
First, among the audio files stored in the HDD 15 as the music information source, the user designates one or a plurality of songs (although not necessarily in album units), for example, in units of albums, and the like. Assume that an operation for dubbing is performed.
Then, the CPU 11 advances the process to steps F101 to F102, starts the process of transferring the designated audio file to the portable device 50 and recording it in the solid-state memory 54.
[0082]
Specifically, the processes in steps F101 and F102 are as follows. Of course, the processing can be executed in a state where the portable device 50 is connected to the recording / reproducing apparatus 10.
For example, among the folders indicating audio files displayed on the display unit 24, an audio file selected by the user using a predetermined pointing device is further instructed by the user to move or copy to the portable device 50. CPU11 starts the dubbing process to the portable apparatus 50 as the designation | designated of music and the dubbing instruction | indication were performed by the user. As the file transfer process, the designated audio file (song) is sequentially transferred from the HDD 15 to the solid-state memory 54 via the interface drivers 26 and 59 and recorded.
[0083]
When dubbing of the audio file specified by the user is started, the process waits for completion of dubbing of the n songs designated in step F103.
Since the data transfer between the HDD 15 and the solid-state memory 54 is performed between high-speed access media and the encoding / decoding process such as ATRAC2 is unnecessary, the transfer process can be completed instantaneously. The process of moving the specified audio file as can be completed in a very short time.
[0084]
When the dubbing of the designated audio file is completed, the CPU 11 determines the remaining capacity (recordable remaining time) C in the solid-state memory 54 of the portable device 50 in step F104. That is, the amount of “C” (capacity value or recordable time value) shown in FIG. 12 is determined. In the case of audio data, if the encoding method is not changed, the capacity value and the time value (recordable performance time amount) are equivalent to each other.
[0085]
The free space of the solid-state memory 54 is determined by communication with the CPU 51. For example, the solid-state memory 54 can be directly accessed by the CPU 11, and in this case, the operation control and file management of the solid-state memory 54 are performed. By making the execution possible on the CPU 11 side, it becomes possible to determine the free capacity of the solid-state memory 54 directly on the CPU 11 side.
[0086]
When the remaining time C of the solid memory 54 is determined, it is subsequently checked in step F105 whether the remaining time C is less than a predetermined value (for example, less than 30 seconds). If it is less than 30 seconds, there is almost no remaining capacity, and it is determined that the solid-state memory 54 is effectively used in the current state (and there are not so many short-time songs such as less than 30 seconds). The series of dubbing processes is finished. That is, in this case, only the designated music is dubbed, and additional dubbing is not performed to the capacity as the remaining time C.
[0087]
On the other hand, if the remaining time C is 30 seconds or more, the user is asked whether or not to perform additional recording in the remaining time portion. For example, if the remaining recordable time C is 3 minutes and 35 seconds, the remaining time is presented on the display unit 24 as shown in FIG.
On the other hand, the user performs an “YES” or “NO” operation with the input pen 93 or the like, but if there is an “NO” operation, the series of dubbing processes is terminated from step F107. Become. That is, no additional dubbing is performed.
[0088]
However, if there is an “YES” operation, the process proceeds from step F107 to F108, and the process for additional dubbing is performed.
First, in step F108, a narrowing condition L is set from the additional information.
This confirms the additional information about the audio file that has been previously specified and dubbed, and sets a narrowing condition for additional dubbing that does not give a sense of incongruity even if it is continuously played back as music, for example.
Therefore, for an audio file that has been designated and dubbed, if the artist information is added to the management file of FIG. 6, the same artist may be set as a narrowing condition. Of course, other additional information such as genre, song composer, number of playbacks, recording date and time, user definition, etc. may be set as filtering conditions, or multiple filtering conditions can be set as AND conditions, You may enable it to set by an OR condition, a knot condition, etc.
[0089]
For this reason, for example, a narrow-down condition as a default is set in step F108, and the narrow-down condition is displayed to the user in step F109 as shown in FIG. 10, for example.
The user can input various settings on this screen, and can change or add refinement conditions and set conditional expressions. When the user inputs such as changing or adding a narrowing condition, the process proceeds from step F110 to F111, the narrowing condition L is updated, and the process returns to step F109.
[0090]
When the user is satisfied with the presented (or changed) narrowing-down conditions, the user performs a “search” operation from the screen as shown in FIG.
Then, the processing of the CPU 11 proceeds from step F112 to step F113 in FIG. 8, and the audio file stored in the data source (HDD 15 in this example) is searched. First, the performance time t is 30 seconds ≦ t ≦ C. Extract what becomes. As a result, an audio file that can be additionally recorded with respect to the remaining time C is extracted from all the audio files.
Here, it is assumed that only the performance time t as one song is 30 seconds ≦ t ≦ C, and the remaining time C is not included when a plurality of songs are combined.
[0091]
Subsequently, in step F114, the audio file is narrowed down by the set narrowing condition L. That is, audio files that do not meet the filtering condition L are excluded. For example, when the same artist is selected, only the music of the same artist as the music dubbed specified in step F101 is left among the audio files that can be additionally recorded for the remaining time C.
[0092]
Further, in step F115, the currently designated and dubbed music, that is, the music specified and dubbed in step F101 is excluded.
With the above processing, a song (audio file) that can be recorded in the remaining time and is different from the already dubbed song and further meets the set narrowing conditions is extracted.
[0093]
Subsequently, in step F116, the extracted audio files are sorted in the order of the performance time and displayed as a list on the display unit 24.
For example, it is presented to the user as a candidate song that can be additionally dubbed as shown in FIG. Also, necessary operation icons are displayed.
On the other hand, the user selects a song and gives an instruction to perform dubbing, or the search result does not like the search result. For example, the search condition is changed and the additional dubbing is canceled because there is no good song. Do what you want to do.
[0094]
When the user performs a cancel operation, a series of dubbing processes are finished from step F119, and no additional dubbing is executed.
When the user performs an operation to instruct re-search, the process returns from step F118 to step F109 in FIG. 7 so that the search can be performed again from the setting of the narrowing-down condition.
[0095]
When the user selects a certain piece of music and performs the dubbing operation, the process proceeds from step F117 to F120, where the selected audio file is dubbed, that is, read from the HDD 15 and supplied to the portable device 50, and the solid memory The process of recording in 54 is performed.
When the additional dubbing is finished, a series of dubbing processes are finished from step F121.
[0096]
In this example in which the above processing is performed, the recordable amount (remaining time C) of the solid memory as the state after recording of the audio file designated by the user is determined, and recording can be performed for the remaining time C. An audio file that is not a specified and dubbed song is obtained by searching the HDD 15 and additional dubbing is performed, so that the user has troublesome work of selecting a song to be dubbed according to the remaining time. Can be dubbed appropriately according to the capacity. Of course, since the first designated and dubbed music is excluded, the same music is not additionally dubbed. That is, it is possible to effectively use the capacity of the solid-state memory 54 in a preferable state with no operation for the user.
[0097]
Further, a narrowing condition is set according to the additional information of the music specified and recorded at the time of the search. Thereby, it is possible to search for a song to be additionally dubbed in a state limited to the same genre or the same artist as the already recorded song. This can avoid a situation where the atmosphere of the additional dubbed music is different from that of the other music during playback.
Of course, if you want to do such additional dubbing, you can set narrowing conditions to avoid the same genre and the same artist.
[0098]
In addition, it is possible to simplify the search process and the recording process by sending only one selected information as the additional recording information among the information obtained by searching the information source. That is, in the search of step F113, the search is performed as the performance time t of one song. For example, the search process is simple by not including the case where 30 songs ≦ t ≦ C when two songs are combined. And can be done quickly.
In addition, when the retrieved information is presented to the user as a list, the user can simply select one as the selection operation in step F117, and the operation becomes easy.
If the remaining recordable time C is considerably long, it may be possible to additionally dubb a plurality of songs. Therefore, when the remaining time C is equal to or longer than the predetermined time, a search may be performed in consideration of the performance time in combination.
[0099]
In step F105, the process is terminated in a situation where additional recording is not very meaningful, such as the remaining time being less than 30 seconds, so that it is possible to avoid searching or additional recording forcibly. That is, appropriate processing according to the situation is realized. For example, it is possible to prevent a search or an additional recording process from being performed when it is not particularly necessary, or delaying the completion of the process.
In the above example, the time is set to less than 30 seconds. Of course, various time settings are possible. For example, it may be less than 1 minute.
[0100]
7). Modifications The configuration and processing examples of the embodiment have been described above, but various modifications as the present invention can be considered.
First, modifications will be described with respect to the processing of FIGS.
[0101]
In the above process, after the dubbing of the song designated at step F103 is completed, the processing related to the additional dubbing after step F104 is started, but it is not always necessary to wait for the dubbing completion of the designated song. In other words, if the standby process in step F103 is eliminated and the dubbing of the designated song in step F102 is started, the process may proceed immediately after step F104.
This is because when the song to be dubbed is designated by the user, the CPU 11 can determine the total performance time. Therefore, if the capacity of the solid-state memory 54 is detected before dubbing the designated song, the CPU 11 can determine the total performance time. This is because the remaining time C can also be calculated.
Therefore, it is possible to set a narrowing condition, search for additional dubbed music, select a user, etc. during dubbing of the designated music, and to perform additional dubbing immediately after completion of dubbing of the designated music. In this way, time can be used efficiently, and the user's operation can be continued with the initial song designation and dubbing instruction. For example, the user can specify the dubbing instruction for the designated song, setting or searching for narrowing down conditions. When the additional dubbing music extracted by the above is selected at a time, it is possible to leave the place.
In the above example, the operation is performed between the HDD 15 and the solid-state memory 54 that can perform dubbing at a very high speed. Therefore, as described above, an operation for additional dubbing may be obtained after the dubbing of the designated song is completed. , The user will not feel much trouble, but for example, if the music source side is a CD and the dubbing destination is an MD, such as between media that takes a considerable amount of time to dub the song, It is preferable to be able to do it right after the start.
[0102]
In the above example, additional dubbing is not performed when the remaining time C is less than a predetermined value, such as less than 30 seconds, due to step F105 in FIG. 7. Of course, such processing in step F105 is not provided. Also good. That is, if there is any remaining, it may be allowed to proceed to a process for additional dubbing.
If the remaining time C is not the predetermined value such as 30 seconds, for example, the remaining time C is shorter than the performance time of the minimum information (the audio file with the shortest performance time) in the HDD 15, the additional recording information transmission process is not executed. You may do it. That is, the reference value to be compared with the remaining time C in step F105 is set as the minimum performance time value of the audio file in the HDD 15. That is, when an appropriate audio file cannot be extracted as additional recording, useless operation can be prevented by not performing the additional recording processing itself.
[0103]
In steps F106 and F107, the user's intention is confirmed with respect to the execution of the additional dubbing. However, such intention confirmation is not performed, and there is a remaining time C (or the remaining time C is a predetermined value / minimum value). If larger, the process may automatically proceed to additional dubbing processing.
[0104]
In steps F108 to F112, the narrowing conditions are set. However, if the purpose is to simplify the user operation, the narrowing conditions may not be set.
Of course, the narrowing setting method may be simply prepared with choices, and the conditional expression may not be set.
[0105]
In step F113 in FIG. 8, the HDD 15 is used as a data source to search for an audio file having a performance time suitable for the remaining time C, but the data source is not limited to the HDD 15 first.
That is, when a system configuration as shown in FIG. 1 is considered, if a library as an audio file is prepared in the information center 1, an audio file can be searched and extracted therefrom.
Of course, a CD, MD or the like loaded in the CD-ROM drive 17 or MD drive 18 can also be used as a data source.
[0106]
In this search process, the search is performed with a performance time of 30 seconds as a lower limit. However, by setting the lower limit, the number of candidates, that is, the number of audio files to be extracted can be limited to some extent. Therefore, when the scale of the data source is large, an appropriate lower limit setting is useful. Therefore, the lower limit value may be a value that specifies a certain range from the remaining time C that is the upper limit value. For example, if the lower limit value = (C−30 seconds), when the remaining time is 3 minutes and 10 seconds, an audio file corresponding to a performance time in the range of 2 minutes 40 seconds to 3 minutes 10 seconds is extracted, that is, solid. The most suitable audio file in terms of time with respect to the remaining time C of the memory 54 is searched.
[0107]
In step F116, the extracted audio files are sorted and presented to the user in the order of performance time, but may be sorted and presented under other conditions such as by artist or by genre. In addition, the recording date and time (storage date and time in the HDD 15) may be arranged in order from the latest one, or arranged in the descending order of the number of reproductions (that is, the order of the songs that the user likes). In any case, the audio files extracted so as to be easily selected by the user may be sorted and displayed in a list.
[0108]
As mentioned above, although the modified example of the said process was described, of course, the modified example of a process other than this can be considered.
Moreover, although the recording / reproducing apparatus and the portable apparatus were mentioned as embodiment, this invention is applicable also when a CD changer apparatus and MD recorder are integrated or connected, for example. That is, the present invention can be applied if there is a part as a transferable music source and a part as a recordable recorder.
In addition, although dubbing of music data has been described as an example, the present invention can of course be applied to video data dubbing and text data copying.
Further, although it is not a recording operation, for example, an applied operation in which a reproduction time is determined and a music corresponding to the reproduction time is automatically searched and reproduced is possible. This also provides a function as a timer that informs the user of the passage of a certain time.
[0109]
【The invention's effect】
As can be seen from the above description, in the present invention, the recording information transfer device determines the recordable amount of the recording medium of the recording device as the state after recording of the information designated by the user (designated recording information). Information that is recordable with respect to the recordable amount and that is not designated record information is obtained by searching the information source, and is sent to the recording device as additional record information. Therefore, when the remaining time is generated in the recording medium on the recording apparatus side, information of an appropriate data amount (such as a song having an appropriate performance time) is automatically selected and used for additional recording. As a result, it is possible to make it possible to record the appropriate information according to the capacity while eliminating the troublesome work of the user selecting the information to be recorded according to the capacity. In addition, since the designated recording information is excluded from the search, the same information (the same song) is not additionally recorded, which is preferable for the user.
[0110]
Further, according to the present invention, the search process and the recording process can be simplified by transmitting only one selected information as the additional recording information among the information obtained by searching the information source. In other words, the search target of the information source should be selected as one unit of information that is appropriate for the remaining capacity, and in consideration of complicated cases such as when the capacity becomes appropriate when a plurality of pieces of information are combined. The search process can be simplified and speeded up.
Of course, when the retrieved information is presented to the user as a list, by asking the user to select only one piece of information, the user can simply select one item, and the operation becomes easy.
[0111]
In the present invention, when searching for an information source, a search condition is set according to designated record information and the search is performed. As a result, information related to the designated recording information can be additionally recorded. For example, when classical music is dubbed by the user's specification, narrowing down by the music genre as a classic, additional heavy metal music is recorded in the remaining part, and the mood and atmosphere of the user are significantly impaired during playback Can also be avoided. It is also preferable to set narrowing-down conditions such as the music of the same artist as the specified recording information. Of course, it is possible to search for additional recorded information according to the user's wishes by setting the narrowing-down conditions.
[0112]
Further, according to the present invention, when the recordable amount determined by the determination unit is less than a predetermined value, the additional recording information transmission control unit does not execute the additional recording information transmission process, for example, a remaining time of 30 seconds. In situations where additional recording does not make much sense, such as less than, it is possible to avoid performing a search or additional recording, that is, appropriate processing according to the situation is realized. For example, it is possible to prevent a search or an additional recording process from being performed when it is not particularly necessary, or delaying the completion of the process.
[0113]
In the present invention, the additional recording information transmission control means does not execute the additional recording information transmission processing when the recordable amount determined by the determination means is smaller than the minimum information amount in the information source. I have to. That is, when appropriate information cannot be extracted as additional recording, useless operation can be prevented by not performing the additional recording processing itself.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of an information distribution system including a recording / reproducing apparatus according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram of a recording / reproducing device and a portable device according to the embodiment.
FIG. 3 is a block diagram of the recording / reproducing apparatus of the embodiment.
FIG. 4 is a block diagram of a portable device connected to the recording / reproducing device of the embodiment.
FIG. 5 is an explanatory diagram of a file storage form in the hard disk of the recording / reproducing apparatus of the embodiment.
FIG. 6 is an explanatory diagram of the contents of a management file in the hard disk of the recording / reproducing apparatus of the embodiment.
FIG. 7 is a flowchart of dubbing processing according to the embodiment.
FIG. 8 is a flowchart of dubbing processing according to the embodiment.
FIG. 9 is an explanatory diagram of a display example of the embodiment.
FIG. 10 is an explanatory diagram of a display example of the embodiment.
FIG. 11 is an explanatory diagram of a display example of the embodiment.
FIG. 12 is an explanatory diagram of remaining capacity in the recording medium of the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Information center, 3 Communication line, 10 Recording / reproducing apparatus, 11 CPU, 12 ROM, 13 RAM, 14 Flash memory, 15 HDD, 16 Buffer memory, 17 CD-ROM drive, 18 MD drive, 19 Modem, 20 Panel operation part , 22 Infrared interface driver, 23 USB driver, 24 display unit, 25 display driver, 26 interface driver, 27 connector, 28 encoder, 29 decoder, 30 IEC958 encoder, 31 A / D converter, 32 microphone amplifier, 33 D / A Converter, 34 amplifier, 35 speaker, 36 IEEE1394 driver, 37 IEEE1394 interface, 38 PCMCIA driver, 39 PCMCIA slot, 41 pen driver, 42 input detection unit, 51 CPU, 5 2 ROM, 53 RAM, 54 HDD, 55 Buffer memory, 56 Panel operation section, 57 Display section, 58 Display driver, 59 Interface driver, 60 Connector, 61 Encoder, 62 Decoder, 63 IEC958 encoder, 64 A / D converter, 65 Microphone amplifier, 66 D / A converter, 67 amplifier, 68 Speaker, 90 Keyboard, 91 Remote commander, 93
Input pen

Claims (18)

Storage means capable of storing a plurality of data files ;
Transfer means for transferring a data file stored in the storage means to a connected recording device;
Confirmation means for confirming additional information of the data file transferred to the recording device;
The other data files that the additional information is associated matching the additional information of the transferred data file in the recording device selected from the storage means, recorded information composed of a transfer control means for transferring to said recording apparatus Transfer device. The recorded information transfer device according to claim 1 further includes:
A discriminating means for discriminating a recordable capacity of the recording apparatus;
The transfer control means has an amount of information that can be recorded with respect to the recordable capacity determined by the determination means, and additional information that matches the additional information of the transferred data file is associated with the recording device . A recording information transfer apparatus, wherein another data file is selected from the storage means and transferred to the recording apparatus. Said transfer control means is given after the data file was transferred to the recording means capable of recording information to the determined recordable capacity by said discriminating means among the plurality of data files stored in said storage means an amount, and select the other data files that the additional information is associated matching the additional information of the transferred data file in the recording device from the storage means and thereby transferred to the recording device The recorded information transfer apparatus according to claim 1. The additional information includes a plurality of management information for managing data files ,
The transfer control means selects from the storage device another data file associated with a plurality of management information that matches a plurality of management information of the data file that has been transferred to the recording device, and causes the storage device to transfer the selected data file . The recorded information transfer apparatus according to claim 1. The recording information transfer apparatus according to claim 2, wherein the transfer control unit does not execute the transfer process of the other data file when the storable amount determined by the determination unit is less than a predetermined value. . The transfer control unit does not execute the transfer process of the other data file when the storable amount determined by the determination unit is smaller than the information amount of the data file having the minimum information amount in the storage unit. The recorded information transfer apparatus according to claim 2. An information transfer method for transferring a plurality of data files stored in a storage means to a connected storage device,
A confirmation step of confirming the additional information of the data file transferred to the recording device;
A selection step of selecting from the storage means another data file associated with additional information that matches the additional information of the data file already transferred to the recording device ;
An information transfer method comprising: a selection information transfer step of transferring another data file selected in the selection step to the storage device. The information transfer method according to claim 7 further includes:
A determination step of determining a recordable capacity of the recording apparatus;
The selection step includes an amount of information that can be recorded with respect to the recordable capacity determined in the determination step, and additional information that matches the additional information of the data file that has been transferred to the recording device. An information transfer method comprising: selecting a data file from the storage means. The information transfer method described in claim 7 further includes:
A transfer step of transferring a predetermined data file among the plurality of data files stored in the storage means to the recording means;
In the information transfer method, the selecting step selects from the storage unit another data file associated with additional information that matches the additional information of the data file that has been transferred to the recording device . In the information transfer method described in Claim 7,
The additional information includes a plurality of pieces of management information for managing data files, and the selecting step is associated with a plurality of pieces of management information corresponding to a plurality of pieces of management information of data files transferred to the recording device. The data file is selected from the storage device. In the information transfer method described in Claim 8,
In the selection information transfer step, when the storable amount determined in the determination step is less than a predetermined value, the transfer process of the other data file is not executed. In the information transfer method described in Claim 8,
The selection information transfer step executes the transfer process of the other data file when the storable amount determined in the determination step is smaller than the information amount of the data file having the minimum information amount in the storage unit. An information transfer method characterized by not. An information transfer system in which a recording information transfer device and a recording device are connected so that various data files can be transmitted and received,
The recording device comprises:
A recording means for recording the data file ;
The recorded information transfer device comprises:
Storage means capable of storing a plurality of data files ;
Transfer means for transferring a data file stored in the storage means to the connected recording device;
Confirmation means for confirming additional information of the data file transferred to the recording device;
And information composed of said recording apparatus other data files that the additional information is associated matching the additional information of the transferred data file selected from the memory means, the transfer control means for transferring to said recording apparatus Transfer system. An information transfer system according to claim 13,
The recorded information transfer device further includes:
A discriminating means for discriminating the recordable capacity of the recording means of the recording apparatus;
The transfer control means has an amount of information that can be recorded with respect to the recordable capacity determined by the determination means, and additional information that matches the additional information of the transferred data file is associated with the recording device . Another data file is selected from the storage means and transferred to the recording device. Said transfer control means, after transferred to the recording means a predetermined data file of the plurality of data files stored in the storage means, the additional information that matches the additional information of the transferred data file in the recording device 14. The information transfer system according to claim 13, wherein another data file associated with is selected from the storage unit and transferred to the recording device. The additional information includes a plurality of management information for managing data files ,
The transfer control means selects from the storage device another data file associated with a plurality of management information that matches a plurality of management information of the data file that has been transferred to the recording device, and causes the storage device to transfer the selected data file . information transfer system according to claim 13, it features that. The information transfer system according to claim 14, wherein the transfer control unit does not execute the transfer process of the other data file when the storable amount determined by the determination unit is less than a predetermined value. The transfer control unit does not execute the transfer process of the other data file when the storable amount determined by the determination unit is smaller than the information amount of the data file having the minimum information amount in the storage unit. The information transfer system according to claim 14.

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