JP4039154B2 - Recording apparatus, recording method, program, program recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording apparatus, a recording method in the recording apparatus, a program for realizing the recording method, and a recording medium on which the program is recorded.
[0002]
[Prior art]
Various types of audio visual devices owned by users are prevalent, and it is common to enjoy so-called music software and video software individually.
For example, a user owns an audio system corresponding to a disc recording medium such as a CD (Compact Disc), an MD (Mini Disc), or a DVD (Digital Versatile Disc), and the desired CD, MD, or DVD sold as a package media. Or the like, and playing back the content, or recording on a recordable medium with a favorite song selection.
[0003]
In addition, as an audiovisual device, a recording / reproducing apparatus that stores an audio data file and a video data file using a large capacity medium such as an HDD (hard disk) has been developed.
In such a recording / reproducing apparatus, a user can perform so-called ripping, for example, by dubbing and recording music content recorded on a package medium such as a CD on a large-capacity medium such as an HDD.
Further, the recording / reproducing apparatus can be connected to a network such as the Internet, and music contents can be downloaded from an external server and stored in the HDD.
In this way, by using a large-capacity recording medium such as an HDD in the recording / reproducing apparatus and making it possible to rip or download, for example, the user can record music on a large number of CDs, downloaded music, etc. Can be stored and enjoyed arbitrarily.
[0004]
Also, such a recording / reproducing apparatus using an HDD or the like can be used as a home server by using the HDD as a library of music contents. That is, there is a usage form in which content data stored in the HDD is transferred and recorded on another recording medium (secondary recording medium), and music or the like is enjoyed on the secondary recording medium side.
For example, a user attaches a secondary recording medium to a disk drive or the like provided in the recording / reproducing apparatus, or connects a recording apparatus of a secondary recording medium as an external device, and stores content data stored in the HDD. Copy (duplicate) to the next recording medium.
Then, content data such as music can be played back by a playback device corresponding to the secondary recording medium. For example, if the secondary recording medium is an MD or memory card, and the playback device corresponding to the secondary recording medium is a portable MD player or memory card player, the user can store music stored in the home server (the HDD recording / playback device). You can enjoy content on the go.
[0005]
By the way, for example, when considering the usage form of such content data, it is necessary to consider copyright protection for the content data. For example, if a user uses content data distribution services or purchases package media and accumulates content data in the HDD and then the content data can be copied to a secondary recording medium without restriction, the copyright A situation occurs in which the legitimate protection of the person is not taken. For this reason, various technologies and data processing agreements have been proposed that allow copyright protection to be maintained in the handling of content data as digital data, one of which is a standard called SDMI (SECURE DIGITAL MUSIC INITIATIVE). There is.
[0006]
According to the SDMI standard, content stored in an HDD can be copied to a secondary recording medium under a predetermined rule. Although detailed description is avoided, there are conditions such as authentication between devices at the time of copying, encrypted transmission, check-in / check-out rules, and the like.
Briefly describe check-in / check-out rules.
Copy transfer from a primary recording medium (HDD) to a secondary recording medium (MD, memory card, etc.) is called “checkout”. Conversely, a move transfer that returns data checked out to the secondary recording medium to the primary recording medium is called “check-in”. In the case of a move from the secondary recording medium to the primary recording medium, the content data is erased on the secondary recording medium.
As a transfer rule in SDMI, an upper limit number of times (checkout right number) in which checkout is permitted is determined such that, for example, up to three checkouts are permitted for one content data.
Therefore, for example, copying is permitted up to three secondary recording media. When the check-in is performed, the check-out permission count for the content data is restored by one. For this reason, even after copying to three secondary recording media, if the check-in is performed from one of the secondary recording media, the content can be copied to the secondary recording media again. . That is, content data is always allowed to coexist on a maximum of three secondary recording media, and conversely, further content diffusion is prohibited.
[0007]
[Problems to be solved by the invention]
By the way, SCMS (Serial Copy Management System) is conventionally known as a technique for copyright protection. This SCMS restricts digital copying of audio data and the like, thereby preventing the flooding of music content data due to unlimited digital copying and protecting copyright. For example, it is adopted in MD and CD.
Specifically, the digital copy from a digital data medium such as a CD is a system that permits only one generation of recordable media such as an MD, a CD-R, and a CD-RW. The music content data digitally copied to the MD or the like cannot be further copied to other media from the MD or the like.
[0008]
For convenience of explanation, data copied from a CD or the like to an MD or the like by the SCMS method is referred to as “SCMS data” or “SCMS content”.
Further, the data copied from the HDD or the like to the MD or the like by the above-mentioned checkout is called “checkout data” or “checkout content” to be distinguished.
[0009]
As described above, the HDD is used as a home server (library) and checkout / checkin management is performed on contents ripped from a CD or the like or contents downloaded from an external server.
Here, it is assumed that the user owns an MD or the like on which SCMS content is recorded. For this user, music as SCMS content is also stored in the HDD as a library and is desired to be used.
For example, if a user owns a portable memory card player, the user stores the SCMS content recorded on the MD in the HDD, checks out the HDD to the memory card, and I want to enjoy music on the go with a memory card player.
[0010]
However, further digital copying of SCMS content is prohibited, and copying to the HDD is also prohibited.
In other words, it is not appropriate to prepare a device that can copy the SCMS content to the HDD library because the prohibited copy is realized, which is contrary to the purpose of SCMS.
Eventually, for the user, the music owned as SCMS content cannot be used on the home server in spite of the range of private use that does not cause copyright infringement.
[0011]
[Means for Solving the Problems]
In the present invention, even if the second-generation digital copy is prohibited as in the case of SCMS content, the user registers it in the home server (music library) and performs checkout / checkin management. It is an object to improve the usability of the user by making it possible, and to ensure that the copyright protection function by SCMS or SDMI can be reliably maintained.
[0012]
  The recording apparatus of the present invention comprises a recording medium type identifying means for identifying the type of the first recording medium, a detecting means for detecting whether or not the data recorded on the first recording medium is erasable, Recording medium type identification meansIdentifies that the first recording medium is a recording medium that prohibits second-generation digital copying, andSaid detection meansWhen it is detected that the data recorded on the first recording medium is erasable,Data movement control means for executing reading of data recorded on the first recording medium and provisional recording for recording the read data on the second recording medium, and the first recording An erasure control means for erasing the data from the medium; and when the data is erased from the first recording medium under the control of the erasure control means, the temporarily recorded data is stored in the second recording medium. Recording control means for recording in a mediumThe detecting means further detects whether or not the data recorded on the first recording medium is data copied from the second recording medium, and the data movement control means When the means detects that the data recorded on the first recording medium is data copied from the second recording medium, the data recorded on the first recording medium is read. In addition, execution of temporary recording for recording on the second recording medium is prohibited for the read data.
  Further, the recording control means manages the data recorded on the second recording medium so as to have a right to copy to the other recording medium a predetermined number of times, and is recorded on the second recording medium. For the data, a re-movement control means for permitting data movement from the second recording medium to the first recording medium or another recording medium only when the right to duplicate is left for the predetermined number of times. And further.
[0013]
Further, the recording control means manages the data recorded on the second recording medium so as to have a right to copy to the other recording medium a predetermined number of times, and is recorded on the second recording medium. When copying the data to the third recording medium, the number of rights to be copied is managed to be decremented by one, and the data copied to the third recording medium is moved to the second recording medium In this case, the data moved to the second recording medium is managed so as not to have the right to copy to other recording media.
Further, the recording control means manages the data recorded on the second recording medium so as to have a right to copy to the other recording medium a predetermined number of times, and is recorded on the second recording medium. When copying the data to the third recording medium, the number of rights to copy is managed so as to be subtracted, and the data copied to the third recording medium is moved to the fourth recording medium. In this case, the data moved to the fourth recording medium is managed so as not to have the right to copy to other recording media.
[0014]
  The recording method of the present invention identifies the type of the first recording medium, detects whether or not the data recorded on the first recording medium can be erased, and performs the identification.Identifies that the first recording medium is a recording medium that prohibits second-generation digital copying, andDetection aboveDetects that the data recorded on the first recording medium is erasable, Reading data recorded on the first recording medium, and provisional recording for recording the read data on the second recording medium, so that the data is read from the first recording medium. When the data is erased from the first recording medium, the temporarily recorded data is controlled to be recorded on the second recording medium.At the same time, it is detected whether or not the data recorded on the first recording medium is data copied from the second recording medium, and the data recorded on the first recording medium is detected. Is detected as data copied from the second recording medium, the data recorded on the first recording medium is read and the second recording medium is read with respect to the read data. Prohibition of temporary recording for recordingTo control.
[0015]
The program of the present invention is a program for causing a recording apparatus to execute the recording method.
The program recording medium of the present invention is a program recording medium in which the above program is recorded.
[0016]
According to the present invention described above, data recorded on the first recording medium (for example, MD) is moved (moved) on the second recording medium (for example, HDD) according to the type of the recording medium, data attributes, and the like. It is possible. The conditions for permission to move at this time are that data can be erased on the first recording medium (move operation can be performed instead of copying), and copying of the first recording medium to the second generation such as SCMS is prohibited. This means that the media adopts the standard, and that the data is not checked out data.
Under such conditions, data can be moved from the first recording medium to the second recording medium, so that even if the user is prohibited from second-generation digital copying like SCMS content, , It becomes possible to register with the home server (music library) and manage check-out / check-in.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in the following order. As an embodiment of the recording apparatus of the present invention, a recording / reproducing apparatus including an HDD as a recording medium will be described.
1. System configuration
2. Configuration of recording / playback device
3. Mini-disc U-TOC
4). Move / Checkout / Checkin
5. Processing at the time of move request to HDD
6). Processing at the time of move request from HDD
7. Another example of checkout data move processing
[0018]
1. System configuration
FIG. 1 shows a system configuration example.
The recording / reproducing apparatus 1 according to the present embodiment includes an HDD 31 as a recording medium, and stores, for example, music content in the HDD 31, and the HDD 31 is a device that can use music data as a home server (library).
In the description of the embodiment, the HDD 31 corresponds to the second recording medium in the claims of the present invention. Of course, the recording medium used as the second recording medium in the recording / reproducing apparatus 1 is not limited to the HDD. For example, various media such as a medium such as an optical disk or a magneto-optical disk, a semiconductor memory built in a device, a portable semiconductor memory (memory card or the like) can be considered.
[0019]
The recording / playback apparatus 1 can communicate with the content server 91 via the communication network 110, thereby enabling downloading of content data such as music. Of course, there are a plurality of content servers 91, and the user of the recording / playback apparatus 1 can arbitrarily use various data download services.
The content data downloaded from the content server 91 to the recording / playback apparatus 1 is, for example, SDMI-compliant content data.
[0020]
The transmission path forming the network 110 may be a wired or wireless public line network, or may be a dedicated line for the recording / reproducing apparatus 1 and the content server 91. Specifically, as the network 110, for example, the Internet, a satellite communication network, an optical fiber network, and other various communication lines can be applied.
[0021]
Further, the recording / reproducing apparatus 1 includes an internal or external disk drive, and content data such as music reproduced from a medium 90 such as a CD, MD, DVD, or memory card can be stored in the HDD 31.
[0022]
When the recording / reproducing apparatus 20 as a separate device is connected, the recording / reproducing apparatus 1 can transfer the content data stored in the HDD 31 to the recording / reproducing apparatus 20.
Various specific examples of the connected recording / reproducing apparatus 20 can be considered. For example, a portable recording / reproducing apparatus is used.
The recording / reproducing apparatus 20 is an apparatus capable of recording and reproducing with respect to a recording medium such as an MD or a memory card. The content data transferred from the recording / reproducing apparatus 1 can be copied and recorded on a recording medium.
The operation of copying the content data recorded in the HDD 31 to the recording medium such as the MD or the memory card in the recording / reproducing apparatus 20 is an operation as a checkout.
By copying (checking out) the music content stored in the HDD 31 to an MD, a memory card, or the like in the recording / reproducing device 20, the user uses the recording / reproducing device 1 as a home server, for example, a recording / reproducing device that is a portable recording / reproducing device. Music content can be played using the device 20.
[0023]
In addition to memory cards using semiconductor memory such as mini-discs and flash memories, the media to be recorded and reproduced by the recording / reproducing apparatus 20 as the secondary recording medium side device are CD-R (CD Recordable), CD-RW (CD Rewitable), DVD-RAM, DVD-R, DVD-RW, and the like. Accordingly, the recording / reproducing apparatus 20 may be any recording / reproducing apparatus corresponding to these media.
[0024]
The recording / reproducing apparatus 1 and the recording / reproducing apparatus 20 are connected based on a transmission standard such as USB (Universal Serial Bus) or IEEE1394. Of course, content data or the like may be transferred via a wired transmission line of another transmission standard or a wireless transmission line.
[0025]
Further, when the recording / reproducing apparatus 1 itself includes a recording drive unit for a CD, MD, DVD, memory card, etc., the content data stored in the HDD 31 can be transferred to these media and copied.
The operation of copying the content data recorded in the HDD 31 to the recording medium such as the MD or the memory card in the recording / reproducing apparatus 1 is also an operation as a checkout.
Of course, when copying (checking out) to an MD, a memory card or the like in this way, the MD or the like can be reproduced by another portable player or the like.
[0026]
2. Configuration of recording / playback device
The configuration of the recording / reproducing apparatus 1 of this example will be described with reference to FIG.
The recording / reproducing apparatus 1 includes an HDD (hard disk drive) 31 illustrated as a large-capacity data file storage unit therein, and a CD (Compact Disc) or DVD (Digital Versatile Disc) as a drive function unit for package media. A CD / DVD drive 29 corresponding to the MD, an MD drive 36 corresponding to the MD (Mini Disc: magneto-optical disk), and a memory card slot 41 for the memory card.
[0027]
In the recording / reproducing apparatus 1, for example, music content reproduced from a CD, DVD, MD, or memory card can be taken into the HDD 31.
In this example, music content is taken as an example, but various contents such as video content, text data, application programs, and game software can be supported.
In addition to the CD / DVD drive 29, the MD drive 36, and the memory card slot 41 shown in the figure, drive devices corresponding to various media such as a magnetic disk may be configured.
[0028]
Further, in the recording / reproducing apparatus 1, a user can arbitrarily reproduce a file stored in the HDD 31 (for example, music or the like is stored as one file for each content unit). Therefore, for example, if a user having a large number of CDs stores all the songs on all CDs in the recording / playback apparatus 1 as a single file, the user can select the desired music, etc. without having to bother to select and load a CD or the like. Can be played.
[0029]
The recording / reproducing apparatus 1 may be a so-called radio-cassette-type device so as to be suitable for use as an audio device in a user's home. Of course, it may be a component type.
The recording / reproducing apparatus 1 is provided with various operation keys and operation knobs for the user to perform various operations, a rotary push type key called a jog dial, and the like on the device front panel.
Further, as an output part for the user, a speaker for outputting reproduced sound and a display unit for displaying and outputting various information are provided.
Further, a CD insertion part for inserting a CD / DVD owned by the user, an MD insertion part for inserting an MD, and a memory card insertion part for inserting a memory card are also provided.
[0030]
In FIG. 2, the CPU 21 performs overall control and calculation processing of the recording / reproducing apparatus 1 based on the activated program. For example, control processing such as input / output operation for a user, CD / DVD playback and ripping, communication operation with the content server 91, content download, file storage in the HDD 31 and creation / update of management information is performed.
The CPU 21 exchanges control signals and data with each circuit unit via the bus 22 shown in the figure.
[0031]
The memory unit 23 comprehensively shows RAM, ROM, flash memory, and the like used by the CPU 21 for processing.
The ROM in the memory unit 23 stores an operation program for the CPU 21, a program loader, and the like.
The flash memory in the memory unit 23 stores various calculation coefficients, parameters used in the program, and the like.
In particular, in the case of the present embodiment, the ROM 21 also stores a program for the CPU 21 to perform processing operations for move / checkout / checkin, which will be described later.
In addition, a data area and a task area for executing a program are temporarily secured in the RAM in the memory unit 23.
[0032]
The input unit 25 is an operation key, a jog dial, a touch panel, a remote commander, or other input devices provided on the casing of the recording / reproducing apparatus 1, and the user of the recording / reproducing apparatus 1 performs various operation inputs and data inputs. A keyboard or mouse may be provided as the input unit 25.
The information input by the input unit 25 is subjected to predetermined processing by the input processing unit 24 and is transmitted to the CPU 21 as an operation or data input. The CPU 21 performs necessary calculations and controls corresponding to the input information.
[0033]
The display unit 27 is a display device such as a liquid crystal panel, for example, and displays various information to the user.
When the CPU 21 supplies display information to the display processing unit 26 according to various operation states, input states, and communication states, the display processing unit 26 causes the display unit 27 to perform a display operation based on the supplied display data.
For example, when playing a CD, DVD, MD, memory card, or playing content stored in the HDD 31, the track number, performance time, operation state, volume state, etc. are displayed. If title information is stored corresponding to the content to be played back, various information such as a song name and an artist name can be displayed.
[0034]
The CD / DVD drive 29 includes an optical head, a spindle motor, a reproduction signal processing unit, a servo circuit, and the like, and performs a reproduction operation on the loaded CD or DVD. The CD / DVD drive control unit 28 controls a reproduction operation, an access operation, and the like for the CD or DVD in the CD / DVD drive 29. For example, when the user performs a CD playback operation from the input unit 25, the CPU 21 instructs the CD / DVD drive control unit 28 to play a CD. Then, the CD drive control unit 28 controls the CD / DVD drive 29 to execute reproduction / access.
The CD / DVD drive 29 decodes the signal read from the CD or DVD and sends the reproduction data to the bus 22 via the CD / DVD drive control unit 28.
In the CD / DVD drive 29, it is also possible to execute a high-speed read operation on a CD or DVD. When normal reproduction is set to 1 × speed, high-speed reading such as 2 × speed, 4 × speed, and 8 × speed is possible. For example, high-speed reading is executed when ripping to the HDD 31.
[0035]
As is well known, management information called TOC (Table Of Contents) is recorded on the innermost periphery of a CD, and tracks (contents) on the disc are accessed based on the TOC during CD playback. The DVD is similarly accessed based on the management information. Accordingly, the CD / DVD drive control unit 28 instructs the CD / DVD drive 29 to read management information when a CD / DVD is loaded, and obtains the read management information, thereby enabling playback control. .
[0036]
The MD drive 36 includes an optical head, a spindle motor, a reproduction signal processing unit, a servo circuit, and the like, and performs a reproduction operation on the loaded MD. The MD drive control unit 37 controls a reproduction operation, an access operation, and the like for the MD in the MD drive 36. Also in this case, the CPU 21 instructs the MD drive control unit 37 to perform MD playback when, for example, an MD playback operation is performed by the user via the input unit 25. In response to this, the MD drive control unit 37 controls the MD drive 36 to execute reproduction / access.
The MD drive 36 decodes the signal read from the MD and sends the reproduction data to the bus 22 via the MD drive control unit 37.
Also in this case, like the CD / DVD drive control unit 28 described above, the MD drive control unit 37 instructs the MD drive 36 to read the TOC when the MD is loaded, and the read management information (TOC MD) can be reproduced by obtaining (data).
[0037]
The memory card slot 41 is provided with a connection terminal portion for the memory card, and enables writing / reading access to the memory card.
The memory card control unit 42 executes an access operation to the memory card based on an instruction from the CPU 21, and performs writing, reading, encoding / decoding of data.
The memory card control unit 42 sends the reproduction data read and decoded from the memory card to the bus 22.
[0038]
The ATRAC encoding / decoding unit 38 performs encoding / decoding processing on the data input via the bus 22 by the ATRAC (Adaptive TRansform Acoustic Coding) compression method (for example, ATRAC1, ATRAC3, etc.) based on the control of the CPU 21. Then, the data subjected to the encoding / decoding process in this way is outputted to a required part based on the control of the CPU 21.
[0039]
The communication processing unit 32 performs transmission data encoding processing and reception data decoding processing based on the control of the CPU 21.
The network interface 33 transmits the transmission data encoded by the communication processing unit 32 to a predetermined external device via the network. In addition, a signal transmitted from an external device such as the server is transferred to the communication processing unit 34 via the network. The communication processing unit 34 transfers the received information to the CPU 21 and sends the received download content to the bus 22.
[0040]
The audio data processing unit 34 is constituted by, for example, an audio processing DSP, and performs various types of processing on the digital audio data input via the bus 22. For example, equalization processing, reverb processing, echo processing, noise addition processing, and the like can be performed as sound quality adjustment processing. Furthermore, processing for adjusting the volume is also possible.
These sound quality / volume adjustments are performed according to parameters set based on the operation of the input unit 25 by the user. The parameters include, for example, the level for each band in equalizing processing, the reverberation time and reverberation level (or reverb type) in reverb processing, the number of echo sound repeats and levels (or echo type) in echo processing, and the type and level of noise speech in noise processing. Etc.
[0041]
The audio output processing unit 39 performs processing such as D / A conversion and amplification on the digital audio data input via the bus 22 and outputs the processed data from the speaker unit 35.
[0042]
Based on the control of the CPU 21, the database management unit 30 executes a write / read access operation of the content file and management information for managing the content file with respect to the HDD 31.
For example, content in units of one track reproduced by the CD / DVD drive 29 is stored in the HDD 31 as one file (one music content), and management information is written / updated. In addition, the download content transferred from the communication processing unit 32 is stored in the HDD 31 and the management information is written / updated.
In response to an instruction from the CPU 21, the database management unit 30 can read a predetermined track file, transfer it to the audio output processing unit 34, and output the sound from the speaker unit 35.
The database management unit 30 performs check-in / check-out management of music content stored in the HDD 31.
Of course, the HDD 31 is not only used as a track file database as described above, but may also be used as a storage area for application programs started by the CPU 21 and various data.
[0043]
The external interface 40 is an interface with a peripheral device using a communication method such as USB or IEEE1394.
For example, the recording / reproducing apparatus 20 shown in FIG. 1 is connected by the external interface 40 to enable data transfer.
A wired interface of another standard or a wireless interface using infrared rays or radio waves may be used.
[0044]
Depending on such a recording / reproducing apparatus 1, for example, the following recording, reproducing, and communication operations can be performed.
[0045]
-Digital data reproduced from a CD or DVD can be copied and recorded (ripped) in the HDD 31.
Digital data downloaded from the content server 91 via the network 110 can be recorded in the HDD 31.
-SCMS data can be moved from the media such as MD, CD-R, CD-RW, etc. to the HDD 31 by the move process described later. Also, the data moved to the HDD 31 can be moved again to MD, CD-R, CD-RW, etc. according to the conditions.
CD, DVD, MD, media as a memory card, or digital audio data (music content) reproduced from the HDD 31 can be reproduced and output from the audio output processing unit 39.
[0046]
The digital audio data (music content) stored in the HDD 31 can be transmitted and output to an external device (for example, the recording / reproducing apparatus 20) connected by the external interface 40. That is, it is a checkout for a medium such as an MD or a memory card loaded in an external device. Check-in processing is also performed.
The digital audio data (music content) stored in the HDD 31 can be transferred to the MD drive 36 and copied and recorded on the MD. This is also a checkout for MD. A check-in process from the MD is also performed.
The digital audio data (music content) stored in the HDD 31 can be transferred to the memory card control unit 42 and copied and recorded on the memory card. This is also a checkout for the memory card. Check-in processing from the memory card is also performed.
[0047]
The configuration of the recording / reproducing apparatus 1 is not limited to the configuration shown in FIG.
For example, a terminal used for connection of a microphone or external headphones, a video output terminal, a line connection terminal, an optical digital connection terminal, and the like corresponding to DVD playback may be provided.
In addition, a PCMCIA slot or the like may be formed so that data can be exchanged with an external information processing apparatus or audio device.
[0048]
3. Mini-disc U-TOC
In the operation of this example, for example, SCMS copy or check-out copy may be performed on a mini-disc (MD). As will be described later, each track recorded in the MD is handled differently in the case of SCMS content by SCMS copy and in the case of checkout content copied by checkout. For this purpose, it must be possible to determine whether a track such as a song recorded on the MD is SCMS content or checkout content.
It is conceivable to use a mini-disc U-TOC for this determination.
Therefore, here, the U-TOC recorded on the mini-disc will be described.
[0049]
In a digital recording / reproducing system such as a mini-disc system, a TOC (Table of Contents) is recorded on a recording medium as management information for controlling data recording and reproducing operations. The TOC information is read from a recording medium such as a memory and stored in a memory, and during the recording / reproducing operation, the recording position and the reading position are grasped by referring to the TOC information, and an access operation for recording / reproducing is executed. I can do it.
In the case of a mini disc, P-TOC (pre-mastered TOC) recorded by pits as information that cannot be rewritten as TOC information is magneto-optically recorded so as to be rewritten in accordance with recording or erasing of music or the like. There is a U-TOC (user TOC).
In the U-TOC, content data such as audio data recorded on a disc is managed in units called tracks. That is, one track corresponds to, for example, one piece of music.
[0050]
FIG. 11 shows the structure of the U-TOC sector 0. The U-TOC sector 0 is management information recorded as a leading sector of the U-TOC at a predetermined position in the management area on the inner circumference side of the disc. The U-TOC sector 0 is a data area in which management data for content data (tracks) such as music recorded on the disc and a free area in which content data can be newly recorded is recorded.
[0051]
At the head position of the data area (4 bytes × 588 2352 bytes) of the U-TOC sector 0, a synchronization pattern formed by arranging all 0 or all 1 1 byte data is recorded. Subsequently, an address to be a cluster address (Cluster H) (Cluster L) and a sector address (Sector) is recorded over 3 bytes, and further 1 byte of mode information (MODE) is added.
Next, at the specified byte position, manufacturer code, model code, track number of the first track (First TNO), track number of the last track (Last TNO), sector usage status (Used sectors), disk serial number, disk ID, etc. Data is recorded.
[0052]
In addition, various pointers (P-DFA, P-) are used as pointer parts in order to identify the areas (free tracks, etc.) of tracks (music pieces, etc.) recorded by the user by associating them with the table parts described later. EMPTY, P-FRA, P-TNO1 to P-TNO255) are recorded.
[0053]
And 255 parts tables (01h) to (FFh) are provided as table parts to be associated with the pointers (P-DFA to P-TNO255), and each part table has a starting point for a certain part. Start address, end address to be terminated, and mode information (track mode) of the part are recorded. In addition, since the parts shown in each part table may be connected to other parts in succession, link information indicating the part table in which the start address and end address of the connected part are recorded can be recorded. Has been.
A part refers to a track portion in which temporally continuous data is physically continuously recorded in one track.
[0054]
Each part table from (01h) to (FFh) in the table part is changed as follows according to the pointers (P-DFA, P-EMPTY, P-FRA, P-TNO1 to P-TNO255) in the pointer part. The contents of are shown.
[0055]
The pointer P-DFA indicates a defect area on the magneto-optical disk 90, and designates a parts table in which the start address and end address of a track portion (= part) that becomes a defect area due to scratches or the like are indicated.
When there are other defective parts, other part tables are designated as link information in the parts table, and the defective parts are also indicated in the parts table.
[0056]
The pointer P-EMPTY indicates the head part table of one or more unused part tables in the table section. When there is an unused part table, the pointer P-EMPTY is (01h) to ( FFh) is recorded. When there are multiple unused part tables, the part tables are sequentially specified by link information from the part table specified by the pointer P-EMPTY, and all unused part tables are linked on the table part. .
[0057]
The pointer P-FRA indicates the free area (including the erase area) in which data can be written on the disk. The part table that shows the start address and end address of the track part (= part) that will be the free area is displayed. It is specified.
If there are other free area parts, the other parts table is designated as link information in the parts table, and the address of the free area parts is indicated by the parts table.
[0058]
Pointers P-TNO1 to P-TNO255 indicate tracks such as music recorded by the user on the disc. For example, the pointer P-TNO1 includes one or more parts in which data of the first track is recorded. A parts table showing the first part in time is specified.
When one track is composed of a plurality of parts, a parts table indicating addresses of the second and subsequent parts is sequentially specified by link information.
[0059]
Here, a 1-byte track mode is recorded in each part table, which is track attribute information.
Assuming that 8 bits constituting one byte are d1 (MSB) to d8 (LSB), this track mode is defined as follows.
d1 ... 0: Write protected (Overwrite erasure and editing prohibited)
1: Light permitted
d2 ... 0: Copyrighted, 1: No copyrighted
d3 ... 0: Original, 1: 1st generation or higher
d4... 0: audio data, 1: undefined
d5, d6... 01: normal audio, other: undefined
d7 ... 0: monaural, 1: stereo
d8 ... 0: Emphasis off, 1: Emphasis on
[0060]
For the SCMS copied track, the bit d3 is set to “1” to indicate that the track has been digitally copied instead of the original.
The bit d1 is not actually used. Therefore, the bit d1 is used to indicate whether or not the data is checked out.
In a normal track, bit d1 = “1”, but in the case of a track as a checked-out content, bit d1 = “0”.
[0061]
4). Move / Checkout / Checkin
The move, check-out, and check-in performed between the recording media will be described with a focus on the recording / reproducing apparatus 1 of this example. Digital data to be moved is an example of music content.
[0062]
A move is an operation in which digital data (music content, etc.) is moved from one recording medium to another. As a result of the move, the data is erased from the original recording medium. It is. This is different from a copy in which data is duplicated and the number of data increases. Therefore, basically, there is no flooding of data (copying of a large amount of data) that may cause copyright infringement depending on the move.
Regarding the check-out, when the HDD 31 is used as a music library, an upper limit number of times that the HDD 31 can be copied to another recording medium is defined, and the data is copied after the number of times is managed. For example, it is assumed that the upper limit number (checkout right) is set to 3 times. Of course, three times is an example.
Check-in means that data checked out to another recording medium is returned to the HDD 31, and the data is erased on the other recording medium side in the same manner as the move. However, since the data (data checked out in the past) is actually stored in the HDD 31, the data itself is not transferred. On the HDD 31 side, processing for restoring one check-out right is performed by one check-in.
[0063]
FIG. 3 schematically shows the move, check-out, and check-in in this example.
In FIG. 3, a medium 100 indicates a medium such as a CD or DVD in which music content is recorded as digital data. Hereinafter, it is expressed as “CD etc. 100”.
A medium 101 indicates an MD that is a writable medium employing SCMS. Hereinafter, it is described as “MD101”.
The medium 102 is a data writable medium such as a CD-R, a CD-RW, etc., and this is also a medium employing SCMS. Hereinafter, it is expressed as “CD-RW etc. 102”.
The medium 103 is a medium in which data can be written as a memory card incorporating a flash memory or the like. Hereinafter, it is referred to as “memory card 103”.
[0064]
As shown in FIG. 3 as “(7) Ripping”, music data recorded on the CD 100 or the like is copied and recorded (ripped) on the HDD 31 by loading the CD 100 or the like into the CD / DVD drive 29. Is possible.
Further, as shown as “(8) download”, the music content downloaded from the external content server 91 can be stored in the HDD 31.
For example, the HDD 31 can function as a music library by taking in music content in this way.
[0065]
With respect to the music contents that are taken into the HDD 31 and registered in the library, checkout rights are given three times, and checkout / checkin management is performed.
That is, the music content registered in the library can be checked out to the MD 101 or the memory card 103 as indicated by “(4) Checkout is possible”. In this case, the MD 101 is written with checkout data by the MD drive 36 or by an MD recorder as the recording / reproducing apparatus 20 connected to the external interface 40.
The memory card 103 is written into the memory card slot 41 by the memory card control unit 42 or by the memory card recorder as the recording / reproducing device 20 connected to the external interface 40. ,
[0066]
Also, as indicated by “(5) Check-in permitted”, the music content checked out to the MD 101 or the memory card 103 can be returned to the HDD 31. In this case, the check-in data is erased from the MD 101 by the MD recorder 36 as the recording / reproducing apparatus 20 connected to the MD drive 36 or the external interface 40.
In addition, for the memory card 103, the check-in data is erased by the memory card control unit 42 in the state of being inserted in the memory card slot 41 or by the memory card recorder as the recording / reproducing device 20 connected to the external interface 40. Done.
[0067]
Here, “(1) SCMS copy is possible” indicates data copying from the CD 100 or the like to the CD-RW 102 or the MD 101.
According to the SCMS rule, this is a copy that prohibits digital copying in the second generation and thereafter, and is a copy that is permitted from the original up to one generation.
Therefore, copying from the CD-RW 102 or the MD 101 to the HDD 31 corresponding to “(7) ripping” is not possible.
[0068]
Here, in this example, as indicated by “(2) Move is possible”, the CD-RW etc. 102 or the MD 101 is permitted to move to the HDD 31. Although this will be described in detail later, this move allows the SCMS content recorded in the CD-RW etc. 102 or MD 101 to be registered in the library in the HDD 31 so that the user can use it under check-out / check-in management. Become.
[0069]
“(3) Move possible with all checkout rights” indicates that music content moved from the MD 101 to the HDD 31 is moved again from the HDD 31 to the MD 101. In this case, the MD 101 may be an MD when first moved from the MD 101 to the HDD 31 or may be another MD. This (3) indicates that the MD 101 is moved, not checked out (4). This move is permitted with the checkout right being “3” which is the maximum value for the music content.
[0070]
“(6) Unmoveable” indicates that music content checked out to the MD 101 or the memory card 103 cannot be moved to the HDD 31. For example, the MD 101 in which the checkout data is recorded cannot execute the move (2) for the checkout data.
[0071]
The SCMS copy (1) and the move (2) will be described with reference to FIG.
As shown in FIG. 4A, it is assumed that the music content M1 is recorded on the CD 100 or the like. The music content M1 can be digitally copied to the MD101. As shown in the figure, the music content M1 is recorded on the MD 101 as SCMS content. That is, the music content M1 is duplicated. In the MD 101, the copied music content M1 is the digitally copied SCMS content with the above-described bit d3 set to “1” as U-TOC track mode information.
[0072]
According to the SCMS rule, the music content M1 recorded on the MD 101 cannot be further copied. Therefore, in this example, as shown in FIG. 4B, the HDD 31 can be moved. In this case, the music content M1 is registered in the library in the HDD 31, and the right to check out three times is given. In the figure, “◯” represents a check-out right, that is, a state in which three “○” s and three check-out rights are given.
In the MD 101, the music content M1 is deleted. Accordingly, copying exceeding the SCMS rule is not performed, and as a result, the same state as when the music content M1 recorded on the CD 100 or the like is recorded on the HDD 31 by the ripping of (7) in FIG. It becomes.
[0073]
Next, the check-out (4), check-in (5), and immovability of (6) will be described with reference to FIG.
FIG. 5A shows a state in which the music content M1 that has been moved and registered in the HDD 31 as shown in FIG.
As a result of the checkout, the music content M1 is recorded in the MD 101 as the checkout content. At this time, in the MD 101, the music content M1 copied by the checkout indicates that the above-described bit d1 is set to “0” as U-TOC track mode information, indicating that the content is checked out. It is.
Also, in the HDD 31, the music content M1 is managed so that one checkout right is consumed (indicated by “x”).
Such a checkout can be executed twice for the MD 101 and the memory card 103.
[0074]
FIG. 5B shows a case where the music content M1 checked out to the MD 101 as shown in FIG.
By the check-in, the music content M1 is erased in the MD 101, while the check-out right consumed in the check-out in FIG. 5A is recovered in the HDD 31.
By such checkout / checkin management, music contents registered in the library in the HDD 31 are allowed to coexist on a maximum of three recording media.
[0075]
FIG. 5C shows that the move to the HDD 31 or the like is not permitted for the checkout content as (6) in FIG.
For example, even if the music content M1 as the checkout content recorded in the MD 101 by the checkout in FIG. 5A is moved to the HDD 31, the operation is not permitted. That is, it is distinguished from the case of the music content M1 as the SCMS content in FIG.
The reason for this is that if the checkout content is moved and registered in the library as in the case of the SCMS content in FIG. 4B, the music content M1 that has been moved is shown in FIG. 4D. This is because the checkout right is given three times and eventually the checkout right is increased in the music content M1 having the same content. This is because the check-out method can be copied beyond the original check-out / check-in management, and a large amount of music content M1 can be copied.
That is, for the checkout content, the copyright protection function is maintained by prohibiting the movement as (6) in FIG.
[0076]
Next, referring to FIG. 6, the re-moving (3) will be described.
As shown in FIG. 6 (b), the music content M1 moved to the HDD 31 as shown in FIG. 4 (b) is only in the state where the checkout right is left three times as shown in FIG. Move to MD101 is permitted. As shown in FIG. 6C, the move is not permitted as long as even one checkout right is consumed.
When the move is performed as shown in FIG. 6B, the music content M1 is erased in the HDD 31. In the MD 101, the music content M1 that has been moved and recorded is managed as SCMS content, that is, content digitally copied from the original. Therefore, the digital copy of the music content M1 from the MD 101 is prohibited by the SCMS rule.
[0077]
The reason why the move is not permitted when the checkout right is consumed is as follows.
For example, in the state of FIG. 6C, the music content M1 is checked out to another recording medium, and the music content M1 exists in the other recording medium. Here, if the move from the HDD 31 to the MD 101 is permitted, the checked out music content M1 is recorded on another recording medium in addition to the music content M1 in the MD 101 shown in FIG. 6B. It becomes. This is the same as when data is copied beyond the SCMS rule, that is, as a result when the second generation or later digital copy is performed. In order to prevent such a situation from occurring, it is a permission condition that the move from the HDD 31 to the MD 101 has not been checked out once.
Of course, even if the user has checked out in the past, if the checkout right is recovered up to three times by check-in, the state shown in FIG.
[0078]
5. Processing at the time of move request to HDD
FIG. 7 shows the processing of the CPU 21 in the recording / reproducing apparatus 1 when a music content move request from the MD 101 or the like to the HDD 31 occurs as (2) and (6) in FIG.
In this case, the user selects one or a plurality of music contents recorded on the moving source medium, and performs an operation for requesting the HDD 31 to move.
In this case, MD101, CD-RW, and the like 102 are valid move sources. For example, the MD101 is an MD loaded in the MD drive 36 of the recording / reproducing apparatus 1 or a connected external recording. The MD is loaded in the playback device 20. The CD-RW 102 is a CD loaded in the CD / DVD drive 29 in the recording / reproducing apparatus 1 or a CD loaded in the connected external recording / reproducing apparatus 20.
[0079]
When a move request (library registration request) to the HDD 31 is generated by a user operation, the CPU 21 first determines the type of the media as the move source in step F101. Here, it is discriminated whether it is a CD or an MD. That is, it is possible to move the CD or MD as a medium adopting the SCMS rule.
If it is MD, the process proceeds from step F102 to F103, and MD media check processing is performed. If it is a CD, the process proceeds from step F102 to F104, and a CD media check process is performed.
If the media designated by the user as the move source is neither a CD nor an MD, the move request operation may be disabled in the first place. Alternatively, although not shown, when the medium is neither CD nor MD, the process may proceed from step F102 to F111.
[0080]
The MD media check process in step F103 is shown in FIG.
In this case, first, in step F201, it is determined whether or not the MD that is the move source is a recordable MD. As is well known, there is a reproduction-only disc (optical disc) on which music data is recorded by embossed pits as MD. In step F201, it is confirmed whether the MD can be recorded / reproduced on the magneto-optical disk, not on the reproduction-only disk. That is, it is confirmed that the medium can erase data.
[0081]
In step F202, it is confirmed whether or not the MD erroneous erasure prevention function is turned off. As is well known, the MD has a slide claw for preventing erroneous erasure on the cartridge, and the user can operate this to disable data erasure (erroneous erasure prevention function ON). In step F202, it is confirmed that such an erroneous erasure prevention function is turned off and data can be erased.
[0082]
In step F203, it is confirmed that the music content to be moved, that is, the music content recorded on the MD at this time and designated as data to be moved by the user, is not checked out from the HDD 31. This confirms that the bit d1 = “1” in the U-TOC track mode (not the checkout content).
[0083]
In steps F201, F202, and F203, if the moving source MD can confirm that the data to be moved can be erased and that the move data is not checkout content, the move is permitted in step F204.
On the other hand, if the moving source MD cannot erase the data to be moved, or if the data to be moved is a checkout content, the move is not allowed as step F205.
[0084]
The CD media check process in step F104 in FIG. 7 is as shown in FIG.
In this case, first, in step F301, it is determined whether or not the CD that is the moving source is a CD-R or a CD-RW. That is, it is confirmed that the music data is not a reproduction-only disc (CD-DA or the like) recorded with embossed pits but a data-erasable medium.
[0085]
In step F302, it is confirmed whether the CD-R and CD-RW are in an unfinalized state. As is well known, CD-R and CD-RW cannot be erased when they are finally finalized after data recording. That is, step F302 also confirms that data can be erased.
[0086]
In step F303, the music content to be moved, that is, the music content that has been recorded on the unfinalized CD-R or CD-RW at this time and is designated as data to be moved by the user is recorded on the CD-R, It is confirmed whether or not deletion or skip is possible in a CD-RW PMA (Program Memory Area). PMA is a management information area in which management information of written data is recorded in the unfinalized state. That is, the management information in the period until the final TOC data writing is performed in the finalizing process. Therefore, in step F303, it is confirmed whether or not data can be erased at present.
[0087]
If it is confirmed in steps F301, F302, and F303 that the moving source CD is a CD-R or CD-RW and the data to be moved can be erased, the move is permitted in step F304.
On the other hand, if the moving source CD cannot erase the data to be moved, step F305 disables the move.
[0088]
Note that the CPU 21 sends information to the MD drive control unit 37 or the CD / DVD drive control unit 28 in the media determination in step F101, the MD media check process in step F103 (FIG. 8), and the CD media check process in step F104 (FIG. 9). It becomes possible by requesting. Alternatively, in the case where the move source is a medium loaded in the external recording / reproducing apparatus 20, the CPU 21 can make a request / reception of information with the external recording / reproducing apparatus 20 via the external interface 40.
[0089]
In step F105 in FIG. 7, the process branches depending on whether or not the move is permitted in step F104 or F105.
If it is determined in step F104 or F105 that the move is not possible, the process proceeds to step F111, the move non-permission process is performed, and the process ends. For example, the display unit 27 displays to the user that the move cannot be performed and performs a process of canceling the move request by the user operation.
[0090]
On the other hand, if the move is permitted, the process proceeds to step F106 to start reading the data to be moved from the move source medium and writing to the HDD 31. In step F107, the data transfer from the move source to the HDD 31 is waited for.
The data writing to the HDD 31 as the data transfer is a temporary recording operation. That is, the data itself as the music content is recorded in the HDD 31, but the management information of the HDD 31 is not updated and the library is not yet registered (a state where it is not managed as a valid file on the HDD 31).
[0091]
When the data transfer is completed, the CPU 21 instructs the move source medium to delete (delete) the transfer data in step F108. For example, if the move source is a CD-R or CD-RW loaded in the CD / DVD drive 29, the CD / DVD drive control unit 28 is instructed to execute data deletion by updating the PMA of the disk.
When the move source is an MD loaded in the MD drive 36, the MD drive control unit 37 is caused to delete data by updating the U-TOC sector 0 of the MD.
If the move source is a medium loaded in the external recording / reproducing apparatus 20, the CPU 21 issues a data deletion command to the recording / reproducing apparatus 20.
[0092]
In step F109, it is confirmed whether or not the track as the move data has been deleted from the MD or CD-R / CD-RW of the move source. That is, the CPU 21 confirms the signal of the completion of deletion from the CD / DVD drive control unit 28, the MD drive control unit 37, or the recording / reproducing apparatus 20.
If the track deletion success is confirmed, in step F110, the temporarily recorded data is reflected in the management information of the HDD 31 to make a valid file. At this time, it is registered as one music content that forms a music library, and is in a management state in which three checkout rights are given.
[0093]
On the other hand, if the track deletion has failed in step F109, the process ends as error processing in step F112. For example, the display unit 27 displays to the user that the move could not be performed due to the inability to erase at the move source.
Since the data temporarily recorded by the data transfer is not reflected in the management information of the HDD 31, it becomes a file that does not exist in the HDD 31, and eventually no move is executed.
[0094]
7, 8, and 9, the move operation (2) described in FIG. 4 and the checkout content move prohibition operation (6) described in FIG. 5C are realized. . In particular, because of the move operation (2), it is confirmed that erasure is possible at the move source, and after the data transfer is confirmed that erasure is actually completed at the move source, it is registered in the HDD 31. Thus, the move operation is surely performed, and it is also possible to prevent a copy from being made as a result of a situation such as an inability to erase at the move source.
[0095]
Since the move operation (2) is enabled, the SCMS content can be registered and used in the music library in the HDD 31, and the convenience for the user is improved. Moreover, the copyright protection function is protected.
[0096]
Although it is assumed that the data is temporarily recorded in the HDD 31 at the time of data transfer in step F106, the data is temporarily recorded in a storage unit other than the HDD 31, and the data is actually recorded in the HDD 31 for the first time in the step F110. An update may be performed.
[0097]
6). Processing at the time of move request from HDD
Next, FIG. 10 shows the processing of the CPU 21 in the recording / reproducing apparatus 1 when a request for re-moving music content from the HDD 31 to the MD 101 occurs as (3) in FIG.
In this case, the user selects one or a plurality of music contents recorded in the HDD 31 and performs an operation for requesting the MD 101 to move.
[0098]
In step F401, the CPU 21 checks the number of checkout rights for the music content selected as the move target.
Here, if even one checkout right is consumed, the process proceeds from step F402 to F409, and the move to the MD 101 is not permitted for the music content. For example, the display unit 27 displays to the user that the move cannot be performed, performs a process of canceling the move request by the user operation, and finishes the process for the move request.
[0099]
On the other hand, if the music content selected as the move target has been left the full number of checkout rights, that is, three times, the move is permitted and the process proceeds to step F403 to check whether the move destination MD 101 is in a moveable state. To do. For example, the MD loaded in the MD drive 36 or the MD loaded in the connected recording / reproducing apparatus 20 is checked as the move destination MD 101.
In this case, it is checked that the move destination MD is not a read-only disc, that the erroneous erasure prevention function is off, and that the capacity for recording the move data remains. That is, it is confirmed that the music content to be actually moved can be recorded.
[0100]
If it is determined in the above check that move recording is possible on the MD 101 side, the process proceeds from step F404 to F405, and data transfer of music content from the HDD 31 to the MD 101 is started.
When the data transfer is completed, the process proceeds from step F406 to F407, where it is confirmed that writing has been completed in the move destination MD101. In this case, the completion of writing confirms that the transferred data is a valid track by updating the MD U-TOC. At the time of this U-TOC update, the track recorded by the move is set to d3 = “1” in the track mode. That is, it is handled as digitally copied data in the SCMS rules.
[0101]
When it is confirmed in step F407 that writing in the move destination MD 101 has been completed, the music content moved on the HDD 31 is deleted in step F408. That is, the management information of the HDD 31 is updated, the music content is deleted, and the operation as a move is performed.
[0102]
If it is determined in step F404 that the move is not possible, or if the completion of writing at the move destination cannot be confirmed in step F407, error processing is performed in step F410. For example, an error message is displayed on the display unit 27, and the process ends with a move failure.
[0103]
By the processing of FIG. 10, the re-moving of (3), that is, the movement to the MD 101 described with reference to FIG.
Since the re-moving of (3) is enabled, the music content once registered in the music library in the HDD 31 can be returned to the state of the SCMS content in the MD 101, and the data can be handled flexibly. Even in this case, it does not cause a situation where the copyright protection function is lowered.
[0104]
7. Another example of checkout data move processing
Incidentally, in the above example, as indicated by (6), it is prohibited to move the checkout content to the HDD 31.
This is because when the HDD 31 is moved and a new checkout right is given three times, the checkout right is effectively generated more than three times.
However, on the contrary, if the checkout right is not generated and the copy is prohibited, it can be said that there is no problem even if it is moved. For this reason, an example of processing that can permit the above movement (6) is also conceivable.
[0105]
FIG. 12 shows an example in which the checkout content can be moved to the HDD 31 or the memory card 103 as {circle over (6)}.
FIG. 12A shows a state in which the music content M1 in the HDD 31 is checked out to the MD 101 as shown in FIG. The right to check out music content in the HDD 31 is consumed once.
Here, as shown in (6) in FIG. 12B, when the music content M1 on the MD 101 as the checkout content is moved to the HDD 31, a checkout right is generated for the moved music content M1. If the file is managed as a copy-prohibited file, the storage location of the check-out content simply changes from the MD 101 to the HDD 31. The fact that the checkout right from the HDD 31 remains twice does not change.
At this time, if the music content M1 moved to the HDD 31 can be checked into the HDD 31, the check-out right of the music content M1 can be recovered as in FIG.
[0106]
In other words, even if the checkout content of the MD 101 is moved to the HDD 31, if the checkout right is not given as a library of the HDD 31 and the data storage medium is merely changed, the move is moved. There is no need to ban.
[0107]
Further, as shown in (6) in FIG. 12C, the music content M1 on the MD 101 which is the checkout content can be moved to another recording medium such as the memory card 103. Furthermore, there is no problem if it is managed so that it cannot be copied to other media.
If such control is performed, it is conceivable to allow the move for the checkout content.
[0108]
FIG. 13 shows the processing of the CPU 21 when the checkout content is allowed to move to the HDD 31 as indicated by (6) 'in FIG.
In addition, the same process as FIG. 7 attaches | subjects the same step number, and abbreviate | omits description.
In this case, as a process when a move request to the HDD 31 is generated, the MD media check process is different from the case of FIG. 7 as shown in step F103a. FIG. 14 shows the MD media check process in step F103a.
[0109]
FIG. 14 also gives the same step numbers to the same processing as in FIG.
In the process of FIG. 14, when it is determined in step F203 that the move target is checkout content, the process proceeds to step F206, and a process of permitting a move that does not grant the checkout right is performed.
[0110]
In FIG. 13, when the move is permitted according to the MD media check process result, the move execution process is performed by the processes of steps F105 to F106 to F109. That is, data transfer and data erasure at the move source.
When it is confirmed in step F109 that the data has been erased at the move source, in step F120, it is determined whether or not the current move is set as a move with no checkout right in step F206 in FIG. . If the move is not a move without a checkout right, the process proceeds to step F110, and the move (2) is completed as described in FIG.
On the other hand, if the move has no checkout right, the process proceeds to step F121, and the data temporarily stored in the HDD is managed as a file that is not managed in checkout / checkin, that is, a file that is not registered in the music library. In addition, management information is set so as to be managed as a copy-inhibited file.
[0111]
Although the case of moving to the HDD 31 is described here, the checkout content can also be moved to a medium such as the memory card 103 as shown in FIG. In that case, for example, the CPU 21 performs processing for moving the checkout content recorded in the MD 101 loaded in the MD drive 36 to the memory card 103 installed in the memory card slot 41. In the memory card 103, the moved data is controlled to be managed as copy-inhibited data.
The same applies to the case where the content checked out from the HDD 31 to the memory card 103 is moved from the memory card 103 to the MD 101.
[0112]
The example as the embodiment has been described above, but the present invention is not limited to the above example. Various modifications are conceivable, such as the configuration of the recording / reproducing apparatus 1, the processing procedure during the move, the media type of the move source, and the move destination.
[0113]
The program of the present invention is a program for realizing the move process in the recording / reproducing apparatus described above.
Furthermore, according to the program recording medium of the present invention on which such a program of the present invention is recorded, the provision of the program becomes easy, and the present invention can be widely provided. For example, it is suitable for designing a recording apparatus.
[0114]
The program of the present invention can be recorded in advance in the HDD 31 as a recording medium built in the recording / reproducing apparatus, the ROM in the memory unit 23, or the like.
Alternatively, temporarily or permanently stored in a removable recording medium such as a flexible disk, CD-ROM (Compact Disc Read Only Memory), MO (Magnet optical) disk, DVD (Digital Versatile Disc), magnetic disk, semiconductor memory, etc. (Record). Such a removable recording medium can be provided as so-called package software.
In addition to being installed from a removable recording medium, the program of the present invention can also be downloaded from a download site via a network such as a LAN (Local Area Network) or the Internet.
[0115]
【The invention's effect】
As can be seen from the above description, according to the present invention, the data recorded on the first recording medium (for example, MD) is stored in the second recording medium (for example, HDD) according to the type and data attributes of the recording medium. Can be moved. As a result, even if the second-generation digital copy is prohibited such as SCMS content, the user registers with the home server (music library) on the second recording medium (HDD) and performs checkout / checkin management. become able to. In other words, the range of data use can be appropriately expanded for the user, and usability is improved.
As a condition for permission of movement at this time, the data can be erased in the first recording medium, the move operation can be performed instead of copying, and the first recording medium is prohibited from copying to the second generation such as SCMS. By imposing that it is a medium adopting the above, the SCMS content is not duplicated as a copy. Therefore, checkout / checkin management can be performed while maintaining the purpose of the SCMS method. That is, the copyright protection function can be maintained.
Of course, when transferring data for movement, the data is temporarily set in a temporary recording state, and it is confirmed that the data has been erased on the primary recording medium and then the recording state is set. It is possible to “moving” and to maintain the copyright protection function with certainty.
[0116]
Further, the data recorded on the second recording medium (HDD) by the above movement is managed so as to have the right to be copied to another recording medium a predetermined number of times (that is, checkout / checkin management). For the data for which the right to perform the predetermined number of times is left, that is, the data that has not been checked out once, the data is moved from the second recording medium to the first recording medium or another recording medium. By permitting, the user can handle the data flexibly and no data duplication occurs, so the copyright protection function is maintained.
[0117]
Further, when the data recorded on the first recording medium (MD or the like) is checkout data copied from the second recording medium (HDD), the movement to the second recording medium is prohibited. As a result, it is possible to increase the number of check-out rights for one piece of music data and the like so as not to cause a situation where copyright protection is invalidated.
Alternatively, when the data recorded on the first recording medium (MD or the like) is checkout data copied from the second recording medium (HDD), the second recording medium or another fourth The movement to the recording medium is managed so as not to have the right to copy to another recording medium. If the management is performed so that copying is impossible, the situation where the copyright protection is invalidated does not occur, and by allowing the movement, the user can flexibly handle the data.
[0118]
Further, according to the program of the present invention, a recording apparatus that exhibits the above effects can be realized. The program recording medium of the present invention is suitable for realizing and widely providing a recording apparatus that achieves the above effects.
[Brief description of the drawings]
FIG. 1 is a block diagram of a system configuration according to an embodiment of the present invention.
FIG. 2 is a block diagram of the recording / reproducing apparatus according to the embodiment.
FIG. 3 is an explanatory diagram of move / check-out / check-in according to the embodiment;
FIG. 4 is an explanatory diagram of moving SCMS data to the HDD according to the embodiment;
FIG. 5 is an explanatory diagram of checkout / checkin management and prohibition of movement of checkout data according to the embodiment;
FIG. 6 is an explanatory diagram of management of moves from the HDD according to the embodiment;
FIG. 7 is a flowchart of processing when a move request to the HDD according to the embodiment occurs.
FIG. 8 is a flowchart of MD media check processing according to the embodiment;
FIG. 9 is a flowchart of a CD media check process according to the embodiment.
FIG. 10 is a flowchart of processing when a move request is issued from the HDD to another medium according to the embodiment;
FIG. 11 is an explanatory diagram of a U-TOC of a mini disc.
FIG. 12 is an explanatory diagram when the move-out of checkout data is permitted in the embodiment.
FIG. 13 is a flowchart of processing when a move request to the HDD is generated, including a case where move of checkout data is permitted in the embodiment; .
FIG. 14 is a flowchart of MD media check processing including a case where movement of checkout data is permitted in the embodiment;
[Explanation of symbols]
1,20 recording / reproducing apparatus, 21 CPU, 29 CD / DVD drive, 31 HDD, 32 communication processing unit, 34 audio data processing unit, 36 MD drive, 40 external interface, 41 memory card slot

Claims (7)

Recording medium type identifying means for identifying the type of the first recording medium;
Detecting means for detecting whether or not the data recorded on the first recording medium is erasable;
The recording medium type identifying means identifies that the first recording medium is a recording medium that prohibits second-generation digital copying, and the data recorded on the first recording medium by the detecting means Is detected to be erasable, the data recorded on the first recording medium is read, and the read data is temporarily recorded for recording on the second recording medium. Data movement control means,
Erasure control means for erasing the data from the first recording medium;
Recording control means for setting the temporarily recorded data on the second recording medium when the data is erased from the first recording medium under the control of the erasing control means ;
The detection means further detects whether or not the data recorded on the first recording medium is data copied from the second recording medium,
The data movement control means detects the first recording when the detection means detects that the data recorded on the first recording medium is duplicated from the second recording medium. A recording apparatus, wherein reading of data recorded on a medium and execution of temporary recording for recording on the second recording medium are prohibited for the read data . The recording control means manages the data recorded on the second recording medium so as to have a right to copy to the other recording medium a predetermined number of times,
The data recorded on the second recording medium is transferred from the second recording medium to the first recording medium or another recording medium only when the right to duplicate is left for the predetermined number of times. The recording apparatus according to claim 1, further comprising re-movement control means for permitting data movement. The recording control means manages the data recorded on the second recording medium so as to have a right to copy to the other recording medium a predetermined number of times,
When copying the data recorded on the second recording medium to the third recording medium, the number of rights to be copied is managed to be subtracted by one,
Further, when the data copied to the third recording medium is moved to the second recording medium, the data moved to the second recording medium has a right to be copied to another recording medium. The recording apparatus according to claim 1, wherein the recording apparatus is managed so as not to exist. The recording control means manages the data recorded on the second recording medium so as to have a right to copy to the other recording medium a predetermined number of times,
When copying the data recorded on the second recording medium to the third recording medium, the number of rights to be copied is managed to be subtracted by one,
Further, when the data copied to the third recording medium is moved to the fourth recording medium, there is no right to copy the data moved to the fourth recording medium to another recording medium. The recording apparatus according to claim 1, wherein the recording apparatus is managed as follows. Identifying the type of the first recording medium;
Detecting whether or not the data recorded on the first recording medium is erasable;
The identification identifies that the first recording medium is a recording medium that prohibits second-generation digital copying, and the data recorded on the first recording medium is erasable by the detection. When detected, the data recorded on the first recording medium is read, and the read data is temporarily recorded for recording on the second recording medium.
Controlling the data to be erased from the first recording medium,
When the data is erased from the first recording medium, the temporarily recorded data is controlled to be recorded on the second recording medium, and
Further, it is detected whether or not the data recorded on the first recording medium is data copied from the second recording medium,
When it is detected that the data recorded on the first recording medium is data copied from the second recording medium, the data recorded on the first recording medium is read. And a recording method for prohibiting execution of temporary recording for recording on the second recording medium for the read data . Identifying the type of the first recording medium;
Detecting whether or not the data recorded on the first recording medium is erasable;
The identification identifies that the first recording medium is a recording medium that prohibits second-generation digital copying, and the data recorded on the first recording medium is erasable by the detection. When detected, the data recorded on the first recording medium is read, and the read data is temporarily recorded for recording on the second recording medium.
Controlling the data to be erased from the first recording medium,
When the data is erased from the first recording medium, a process for controlling the temporarily recorded data to be recorded on the second recording medium is executed .
Further, it is detected whether or not the data recorded on the first recording medium is data copied from the second recording medium,
When it is detected by detection that the data recorded on the first recording medium is data copied from the second recording medium, the data recorded on the first recording medium is read. And a program for executing control for prohibiting execution of temporary recording for recording on the second recording medium with respect to the read data . Identifying the type of the first recording medium;
Detecting whether or not the data recorded on the first recording medium is erasable;
The identification identifies that the first recording medium is a recording medium that prohibits second-generation digital copying, and the data recorded on the first recording medium is erasable by the detection. When detected, the data recorded on the first recording medium is read, and the read data is temporarily recorded for recording on the second recording medium.
Controlling the data to be erased from the first recording medium,
When the data is erased from the first recording medium, a process for controlling the temporarily recorded data to be recorded on the second recording medium is executed .
Further, it is detected whether or not the data recorded on the first recording medium is data copied from the second recording medium,
When it is detected by detection that the data recorded on the first recording medium is data copied from the second recording medium, the data recorded on the first recording medium is read. And a program recording medium recording a program for executing control for prohibiting execution of provisional recording for recording on the second recording medium for the read data .

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