JP3926276B2 - Backup disk creation method, program, recording medium, and information recording system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a backup disk creation method, a program and a recording medium, and an information recording system. More specifically, the present invention relates to a method for creating a backup disk of a hybrid disk and a program used in an information processing apparatus for controlling the information recording apparatus. The present invention also relates to a recording medium, and an information recording system including an information recording apparatus and an information processing apparatus.
[0002]
[Prior art]
Personal computers (hereinafter abbreviated as “personal computers”) have become capable of handling AV (Audio-Visual) information such as music and video as their functions improve. Since the amount of AV information is very large, large-capacity optical discs such as CDs (compact discs) and DVDs (digital versatile discs) are attracting attention as recording media. 2. Description of the Related Art Optical disk devices have become widespread as information recording devices for recording information on optical disks.
[0003]
Conventionally, so-called content information such as application software, still images, and moving images is generally recorded (stamped) on a medium such as a CD-ROM and distributed or sold. In recent years, as a CD-type optical disk, for example, as shown in FIG. 9, it has a read-only area (hereinafter also referred to as “ROM section”) and a writable area or rewritable area (hereinafter also referred to as “RAM section”). A hybrid disk has been developed, and it has been proposed to distribute or sell the CD-ROM as an alternative medium in a state where the content information is written in advance in the ROM portion of the hybrid disk. In the following, in order to distinguish from a hybrid disc, existing CD-type optical discs such as CD-ROM, CD-R (CD-recordable), CD-RW (CD-rewritable) are collectively referred to as “existing” for convenience. CD ".
[0004]
Some hybrid discs stamp the first session as a ROM portion and handle the subsequent area as a RAM portion in order to ensure compatibility with an existing CD. As a result, even in a system that cannot recognize a hybrid disc, the hybrid disc can be handled as an existing CD recorded by the multi-session method, so that at least read compatibility can be ensured. In addition, as one method for distinguishing between a hybrid disc and an existing CD, a method of stamping information indicating that the disc is a hybrid disc at a predetermined position of the hybrid disc has been proposed.
[0005]
In addition, when a user purchases media containing content information, a copy (backup disk) of the purchased media (hereinafter also referred to as “original media”) is created in preparation for a situation where the content information cannot be reproduced due to, for example, damage to the media. In many cases, original media is stored without being used.
[0006]
Therefore, various methods and apparatuses for creating a copy of the media have been proposed (see, for example, Patent Documents 1 to 3).
[0007]
[Patent Document 1]
JP 11-328846 A
[Patent Document 2]
JP 2001-118331 A
[Patent Document 3]
JP 2002-190157 A
[0008]
[Problems to be solved by the invention]
However, when a hybrid disk is used as a backup disk for the hybrid disk, a recorded medium is copied to a partially recorded medium. In the methods and apparatuses described in Patent Document 1 to Patent Document 3, Since such a case is not taken into consideration, there is a possibility that the backup disk cannot link information between the ROM portion and the RAM portion, and the information cannot be reproduced correctly.
[0009]
When a CD-R or CD-RW is used as a backup disk, for example, when the content information is protected using board information (disc information) unique to a hybrid disk that cannot be copied, a backup disk is created. Even in this case, content information cannot be played back.
[0010]
The present invention has been made under such circumstances, and a first object thereof is to provide a backup disk creation method and an information recording system capable of creating a normal copy of a hybrid disk.
[0011]
A second object of the present invention is a program that can be executed by an information processing apparatus that constitutes an information recording system together with an information recording apparatus, and that can create a normal copy of a hybrid disc, and a recording in which the program is recorded To provide a medium.
[0012]
[Means for Solving the Problems]
The invention according to claim 1 is a method for creating a backup disk of a hybrid disk having a read-only area and a writable or rewritable area, and a judgment criterion and a backup that are preset based on substrate information of the hybrid disk This is a backup disk creation method including a first step of determining whether or not the information recording medium is suitable for a backup disk based on the substrate information of the information recording medium for use.
[0013]
According to this, for example, regarding the board information related to protection, when the board information of the backup information recording medium matches the board information of the hybrid disk, it is determined that the information recording medium is suitable for the backup disk. In such a way, a criterion is set in advance. Then, prior to copying the content information recorded on the hybrid disc, when it is determined whether the backup information recording medium is suitable for the backup disc (first step), the substrate information specific to the hybrid disc is added to the content information. Even if the used protection is applied, it is possible to select a backup information recording medium that can normally reproduce the content information. That is, as a result, a normal copy of the hybrid disk can be created.
[0014]
In this case, various criteria can be considered as the determination criteria. For example, as in the backup disk creation method according to claim 2, the determination criteria include substrate information of the hybrid disc and substrate information of the information recording medium. In the above, when the predetermined information included in each of the substrate information matches each other, the information recording medium can be a criterion for determining that the information recording medium is suitable for a backup disk.
[0015]
In this case, the predetermined information includes at least one of a lead-in start time, a lead-out start time, and a recording strategy parameter, as in the backup disk creation method according to claim 3. Can do.
[0016]
In each of the backup disk creation methods according to claims 1 to 3, when the information recording medium has a read-only area and a write or rewritable area as in the backup disk creation method according to claim 4, As a result of the determination, when it is determined that the information recording medium is suitable for a backup disk, the information recording medium is recorded in each read-only area in the read-only area of the hybrid disk and the read-only area of the information recording medium. A second step of determining whether or not the specified information matches each other; and as a result of the determination in the second step, when the specified information recorded in the read-only areas match each other, the hybrid disc The information recorded in the writable or rewritable area is written or written on the information recording medium. It can be further containing; a third step of copying the example region.
[0017]
In this case, when the specific information recorded in each read-only area does not match each other as a result of the determination in the second step, as in the backup disk creation method according to claim 5, the information recording medium A fourth step of determining whether the information recorded in the read-only area is predetermined dummy data; and as a result of the determination in the fourth step, the information is recorded in the read-only area of the information recording medium. A fifth step of copying the information recorded in the read-only area and the writable or rewritable area of the hybrid disc to the writable or rewritable area of the information recording medium, respectively, when the stored information is predetermined dummy data; Can be further included.
[0018]
The invention according to claim 6 is a program used in an information processing apparatus that constitutes an information recording system together with an information recording apparatus, and is a request for creating a backup disk for a hybrid disk having a read-only area and a write or rewritable area. In response, a first procedure for obtaining substrate information of a backup information recording medium; based on a criterion set in advance based on the substrate information of the hybrid disc and the substrate information of the information recording medium, And a second procedure for determining whether or not an information recording medium is suitable for a backup disk.
[0019]
According to this, when the program of the present invention is loaded into the main memory and the head address thereof is set in the program counter, the information processing apparatus is a hybrid disk backup disk having a read only area and a write or rewritable area. In response to the creation request, the substrate information of the information recording medium for backup is acquired, and the information recording medium is based on the judgment criterion set in advance based on the substrate information of the hybrid disk and the substrate information of the information recording medium. Determine if it is suitable for the backup disk. That is, according to the program of the present invention, it is possible to cause the information processing apparatus to execute the backup disk creation method according to the first aspect of the invention, thereby creating a normal copy of the hybrid disk. Become.
[0020]
In this case, various criteria can be considered as the judgment criteria. For example, as in the program according to claim 7, the judgment criteria are the substrate information of the hybrid disc and the substrate information of the information recording medium. When predetermined information included in each board information matches each other, it can be a criterion for determining that the information recording medium is suitable for a backup disk.
[0021]
In each of the programs according to claims 6 and 7, when the information recording medium has a read-only area and a writable or rewritable area as in the program according to claim 8, as a result of the determination, the information If it is determined that the recording medium is suitable for a backup disk, whether the specific information recorded in the read-only areas of the hybrid disk and the read-only area of the information recording medium match each other. A third procedure for judging whether or not; if the specific information recorded in each of the read-only areas coincides with each other as a result of the judgment in the third procedure, recording in the writable or rewritable area of the hybrid disc And a fourth procedure for copying the recorded information to a writable or rewritable area of the information recording medium. It may be possible to further perform the information processing apparatus.
[0022]
In this case, if the specific information recorded in each of the read-only areas does not match each other as a result of the determination in the third procedure as in the program according to claim 9, the read-only of the information recording medium A fifth procedure for determining whether or not the information recorded in the area is predetermined dummy data; and the information recorded in the read-only area of the information recording medium as a result of the determination in the fifth procedure; A sixth procedure of copying information recorded in the read-only area and the write or rewritable area of the hybrid disc to the write or rewritable area of the information recording medium, respectively, in the case of predetermined dummy data; The information processing apparatus can be further executed.
[0023]
A tenth aspect of the present invention is a computer-readable recording medium on which the program according to any one of the sixth to ninth aspects is recorded.
[0024]
According to this, since the program according to any one of claims 6 to 9 is recorded, a normal copy of the hybrid disk can be created by causing the computer to execute the program.
[0025]
The invention according to claim 11 is an information recording system for recording information, an information recording device for recording information; an input means for inputting various requests to the information recording device; and the input In response to a request for creating a backup disk of a hybrid disk having a read-only area and a writable or rewritable area input via the means, a judgment criterion set in advance based on the substrate information of the hybrid disk and a backup disk Appropriateness determining means for determining whether or not the information recording medium is suitable for a backup disk based on substrate information of the information recording medium, and permitting the backup disk creation request based on a determination result of the appropriateness determining means. An information processing system comprising: processing means for determining whether or not It is a non.
[0026]
According to this, when a hybrid disk backup disk creation request is input via the input means, the suitability determining means determines whether or not the backup information recording medium is suitable for the backup disk. Then, it is determined by the processing means whether to permit the backup disk creation request based on the determination result by the suitability determining means. Therefore, for example, with respect to the board information related to protection, when the board information of the backup information recording medium and the board information of the hybrid disk coincide with each other, it is determined in advance that the information recording medium is suitable for the backup disk. Set judgment criteria. When the suitability is determined, it is possible to select a backup information recording medium that can normally reproduce the content information even if the content information is protected using the board information unique to the hybrid disc. it can. That is, as a result, a normal copy of the hybrid disk can be created.
[0027]
In this case, as in the information recording system according to claim 12, the information recording medium has a read-only area and a writable or rewritable area, and the processing means is a result of the judgment by the suitability judging means. When it is determined that the information recording medium is suitable for a backup disk, the specific information recorded in each read-only area in the read-only area of the hybrid disk and the read-only area of the information recording medium is A first judging means for judging whether or not they coincide with each other; and if the specific information recorded in each of the read-only areas coincides with each other as a result of the judgment by the first judging means, the backup disk First copy means for permitting the creation request;
[0028]
In this case, as in the information recording system according to claim 13, when the processing unit does not match the specific information recorded in each of the read-only areas as a result of the determination by the first determination unit. And second determination means for determining whether or not the information recorded in the read-only area of the information recording medium is predetermined dummy data; and as a result of the determination by the second determination means, the information And a second copying unit that permits the backup disk creation request when the information recorded in the read-only area of the recording medium is predetermined dummy data.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows a schematic configuration of an information recording system 10 according to an embodiment of the present invention.
[0030]
The information recording system 10 shown in FIG. 1 includes an optical disc device 20 as an information recording device, and a host 80 as an information processing device that controls the optical disc device 20. In addition, the connection line in FIG. 1 shows the flow of a typical signal and information, and does not represent all the connection relationships of each block.
[0031]
The optical disc device 20 includes a spindle motor 22 for rotating the optical disc 15 as an information recording medium, an optical pickup device 23, a laser control circuit 24, an encoder 25, a motor driver 27, a reproduction signal processing circuit 28, a servo controller 33, A buffer RAM 34, a buffer manager 37, an interface 38, a ROM 39, a CPU 40, a RAM 41, and the like are provided. In addition, the connection line in FIG. 1 shows the flow of a typical signal and information, and does not represent all the connection relationships of each block. The optical disk device 20 is assumed to be compatible with an information recording medium that conforms to a CD standard as an example.
[0032]
The optical pickup device 23 is a device for irradiating the recording surface on which the spiral or concentric tracks of the optical disk 15 are formed with laser light and receiving reflected light from the recording surface. As shown in FIG. 2 as an example, the optical pickup device 23 includes a light source unit 51, a collimator lens 52, a beam splitter 54, an objective lens 60, a detection lens 58, a light receiver 59, and a drive system (focusing actuator, tracking actuator). And a seek motor (both not shown).
[0033]
The light source unit 51 includes a semiconductor laser (not shown) as a light source that emits a light beam having a wavelength of 780 nm. In the present embodiment, the maximum intensity emission direction of the light beam emitted from the light source unit 51 is the + X direction.
[0034]
The collimating lens 52 is disposed on the + X side of the light source unit 51 and makes the light beam emitted from the light source unit 51 substantially parallel light. The beam splitter 54 is disposed on the + X side of the collimating lens 52 and branches the return light from the optical disk 15 in the −Z direction. The objective lens 60 is disposed on the + X side of the beam splitter 54, collects the light beam that has passed through the beam splitter 54, and forms a light spot on the recording surface of the optical disk 15.
[0035]
The detection lens 58 is disposed on the −Z side of the beam splitter 54 and condenses the return light branched by the beam splitter 54 on the light receiving surface of the light receiver 59. The light receiver 59 outputs a plurality of signals including wobble signal information, reproduction data information, focus error information, track error information, and the like to the reproduction signal processing circuit 28, as in a normal optical pickup device.
[0036]
As shown in FIG. 3, the reproduction signal processing circuit 28 includes an I / V amplifier 28a, a servo signal detection circuit 28b, a wobble signal detection circuit 28c, an RF signal detection circuit 28d, a decoder 28e, and the like.
[0037]
The I / V amplifier 28a converts a current signal, which is an output signal of the light receiver 59, into a voltage signal. The servo signal detection circuit 28 b detects a servo signal (focus error signal or track error signal) based on the output signal of the I / V amplifier 28 a and outputs it to the servo controller 33. The wobble signal detection circuit 28c detects a wobble signal based on the output signal of the I / V amplifier 28a. The RF signal detection circuit 28d detects an RF signal based on the output signal of the I / V amplifier 28a.
[0038]
The decoder 28e extracts ATIP (Absolute Time In Pregroove) information and a synchronization signal from the wobble signal detected by the wobble signal detection circuit 28c. The ATIP information extracted here is output to the CPU 40, and the synchronization signal is output to the encoder 25. The decoder 28e performs decoding processing, error correction processing, and the like on the RF signal detected by the RF signal detection circuit 28d, and then stores it as reproduction data in the buffer RAM 34 via the buffer manager 37. When the reproduction data is music data, the signal from the decoder 28e is output to an external audio device or the like via a D / A converter (not shown).
[0039]
Returning to FIG. 1, the servo controller 33 generates a control signal for correcting the focus shift based on the focus error signal from the reproduction signal processing circuit 28, and corrects the track shift based on the track error signal. Generate a control signal. Each control signal is output from the servo controller 33 to the motor driver 27.
[0040]
The motor driver 27 drives the tracking actuator and the focusing actuator of the optical pickup device according to each control signal from the servo controller 33. That is, tracking control and focus control are performed by the servo signal detection circuit 28b, the servo controller 33, and the motor driver 27. The motor driver 27 drives the spindle motor 22 and the seek motor of the optical pickup device based on instructions from the CPU 40.
[0041]
The encoder 25 takes out the data stored in the buffer RAM 34 through the buffer manager 37 based on an instruction from the CPU 40, performs data modulation and addition of an error correction code, and generates a write signal to the optical disc 15. At the same time, it is output to the laser control circuit 24 in synchronization with the synchronizing signal from the reproduction signal processing circuit 28.
[0042]
The laser control circuit 24 outputs a control signal for controlling the semiconductor laser output of the optical pickup device 23 based on a write signal from the encoder 25 and an instruction from the CPU 40.
[0043]
The interface 38 is a bidirectional communication interface with the host 80 and conforms to standard interfaces such as ATAPI (AT Attachment Packet Interface), SCSI (Small Computer System Interface), and USB (Universal Serial Bus).
[0044]
The ROM 39 stores a program written in a code readable by the CPU 40. The CPU 40 controls the operation of each unit according to the program stored in the ROM 39 and temporarily stores data necessary for the control in the RAM 41.
[0045]
The host 80 includes a main control device 82, a RAM 83, a hard disk (HDD) 84 as a recording medium, an input device 85 as an input means, a display device 86, an interface 87, and the like. Each is connected through a common bus 89.
[0046]
The main control device 82 includes a microcomputer (hereinafter referred to as “MPU”) 82a, a main memory 82b, and the like, and controls the entire host 80 and temporarily stores data necessary for control in the RAM 83. save.
[0047]
The interface 87 is a communication interface that conforms to the same standard as the interface 38 of the optical disc apparatus, and is connected to the interface 38. The connection form between the interfaces may be not only a cable connection using a communication line such as a communication cable (for example, a SCSI cable) but also a wireless connection using infrared rays.
[0048]
The HDD 84 is written in a code readable by the MPU 82a and includes a program according to the present invention (hereinafter also referred to as “backup disk creation program”) that is activated in response to a hybrid disk backup disk creation request to be described later. Is stored.
[0049]
The display device 86 includes a display unit (not shown) using, for example, a CRT, a liquid crystal display (LCD), a plasma display panel (PDP), and the like, and displays various information based on instructions from the MPU 82a.
[0050]
The input device 85 includes, for example, at least one input medium (not shown) of a keyboard, a mouse, a tablet, a trackball, a light pen, and a touch panel, and notifies the MPU 82a of information input from the user. Note that information from the input medium may be input in a wireless manner. Further, as an example in which the display device 86 and the input device 85 are integrated, there is a CRT with a touch panel, for example.
[0051]
On the optical disc 15, lead-in start time, lead-out start time, recording strategy parameters, etc. are recorded in advance as substrate information. The lead-in start time is set as a vendor code as a vendor-specific time, and the lead-out start time is set to a value corresponding to the recording capacity. The board information cannot be copied to another optical disk. In the case of a hybrid disc, information indicating that the disc is a hybrid disc is described in a disc application code included in the ATIP information as one of the board information.
[0052]
Here, in the information recording system 10 configured as described above, a processing operation when data is recorded on the optical disc 15 in response to a user request will be briefly described.
[0053]
When the user specifies data via the input device 85 and instructs a recording request, the MPU 82a issues a command for requesting recording (hereinafter abbreviated as “recording request command”). This recording request command is transmitted to the optical disc apparatus 20 via the interface 87.
[0054]
When the optical disc apparatus 20 receives a recording request command from the host 80 via the interface 38, the optical disc apparatus 20 shifts to a recording operation. The outline of the recording operation in the optical disc apparatus 20 will be described below.
[0055]
The CPU 40 outputs a control signal for controlling the rotation of the spindle motor 22 based on the recording speed to the motor driver 27 and notifies the reproduction signal processing circuit 28 that the recording request command has been received. Further, the CPU 40 instructs the buffer manager 37 to store data received from the host 80 (hereinafter also referred to as “user data” for convenience) in the buffer RAM 34.
[0056]
When the rotation of the optical disk 15 reaches a predetermined linear velocity, the reproduction signal processing circuit 28 detects a track error signal and a focus error signal based on the output signal of the light receiver 59 and outputs it to the servo controller 33. Thereby, the track shift and the focus shift are corrected as described above. Note that the correction of the focus shift and the track shift is performed as needed until the recording process is completed. Further, the reproduction signal processing circuit 28 acquires ATIP information based on the output signal of the light receiver 59 and notifies the CPU 40 of it. The reproduction signal processing circuit 28 acquires ATIP information at every predetermined timing until the recording process is completed, and notifies the CPU 40 of the ATIP information.
[0057]
The CPU 40 outputs a signal for controlling the seek motor to the motor driver 27 so that the optical pickup device 23 is positioned at the writing start point based on the ATIP information. Further, when the CPU 40 receives a notification from the buffer manager 37 that the amount of user data stored in the buffer RAM 34 has exceeded a predetermined amount, the CPU 40 instructs the encoder 25 to generate a write signal.
[0058]
When the optical pickup device 23 reaches the writing start point, the CPU 40 notifies the encoder 25. As a result, user data is written to the optical disc 15 via the encoder 25, the laser control circuit 24, and the optical pickup device 23. When all user data received from the host 80 is written, the recording process is terminated.
[0059]
Next, a processing operation when the information recording system 10 reproduces file data recorded on the optical disc 15 in response to a user request will be briefly described.
[0060]
When the user specifies a file via the input device 85 and instructs a playback request, the MPU 82a issues a command requesting playback (hereinafter abbreviated as “playback request command”). The reproduction request command is transmitted to the optical disc apparatus 20 via the interface 87.
[0061]
When the optical disk device 20 receives a reproduction request command from the host 80 via the interface 38, the optical disk device 20 shifts to a reproduction operation. An outline of the reproducing operation in the optical disc apparatus 20 will be described below.
[0062]
The CPU 40 outputs a control signal for controlling the rotation of the spindle motor 22 based on the reproduction speed to the motor driver 27 and notifies the reproduction signal processing circuit 28 that a reproduction request command has been received.
[0063]
When the rotation of the optical disk 15 reaches a predetermined linear velocity, track deviation and focus deviation are corrected in the same manner as described above. Note that the correction of the focus shift and the track shift is performed as needed until the reproduction process is completed.
[0064]
The CPU 40 outputs a signal for controlling the seek motor to the motor driver 27 so that the optical pickup device 23 is positioned at the read start point based on the ATIP information output from the reproduction signal processing circuit 28 at every predetermined timing.
[0065]
When the optical pickup device 23 reaches the reading start point, the CPU 40 notifies the reproduction signal processing circuit 28. As a result, the reproduction signal processing circuit 28 detects the RF signal from the output signal of the light receiver 59, performs decoding processing, error correction processing, and the like, and then stores them in the buffer RAM 34 as reproduction data. The buffer manager 37 transfers the reproduction data stored in the buffer RAM 34 to the host 80 via the interface 38 when the reproduction data is prepared as sector data.
[0066]
That is, the optical disc apparatus 20 records designated information in a designated area of the optical disc 15 in response to a recording request command from the host 80, and also places it in a designated area of the optical disc 15 in response to a playback request command from the host 80. The recorded information is reproduced and notified to the host 80.
[0067]
Next, a processing operation when creating a backup disk of a hybrid disk in response to a user request in the information recording system 10 will be described with reference to FIGS. Each flowchart in FIGS. 4 and 5 corresponds to a series of processing algorithms executed by the MPU 82a. When the user instructs creation of a backup disk via the input device 85, a program corresponding to the flowcharts of FIGS. 4 and 5 is loaded from the HDD 84 to the main memory 82b, and the head address thereof is set in the program counter of the MPU 82a. The process starts.
[0068]
In the first step 401, a message for prompting the user to insert the optical disk to be backed up (hereinafter also referred to as “replication source disk” for convenience) into the optical disk device 20 is displayed on the display device 86.
[0069]
In the next step 403, it is determined whether or not the copy source disk is inserted in the optical disk device 20. When the notification that the copy source disk has been inserted is received from the optical disk apparatus 20, the determination here is affirmed and the routine proceeds to step 405.
[0070]
In this step 405, the disc information recorded on the copy source disc is obtained via the optical disc apparatus 20.
[0071]
In the next step 407, the disk information of the copy source disk is referred to and it is determined whether or not the copy source disk is a hybrid disk. If the copy source disk is not a hybrid disk, the determination in step 407 is denied, a message indicating that the copy source disk is not a hybrid disk is displayed on the display device 86, and the process ends. That is, no backup disk is created. On the other hand, if the copy source disk is a hybrid disk, the determination in step 407 is affirmed and the process proceeds to step 409.
[0072]
In this step 409, lead-in start time as information (referred to as R1) recorded in the ROM portion of the copy source disk via the optical disc device 20, information (referred to as RA) recorded in the RAM portion, and substrate information. (K1) is read.
[0073]
In the next step 411, the copy source disk is ejected from the optical disk device 20, and a message for prompting the user to insert the backup destination optical disk (hereinafter also referred to as “replication destination disk” for convenience) is displayed. Display on device 86.
[0074]
In the next step 413, it is determined whether or not the copy destination disk is inserted in the optical disk device 20. When the notification that the copy destination disk has been inserted is received from the optical disk apparatus 20, the determination here is affirmed and the routine proceeds to step 415.
[0075]
In this step 415, the disc information recorded on the duplication destination disc is obtained via the optical disc apparatus 20.
[0076]
In the next step 417, the disk information of the copy destination disk is referred to and it is determined whether or not the copy destination disk is a hybrid disk. Here, if the replication destination disk is not a hybrid disk, the determination in step 417 is denied, a message indicating that the replication destination disk is not a hybrid disk is displayed on the display device 86, and the process is terminated. That is, no backup disk is created. On the other hand, if the copy destination disk is a hybrid disk, the determination in step 417 is affirmed and the process proceeds to step 421.
[0077]
In this step 421, the lead-in start time (K2) is acquired as the substrate information of the replication destination disk via the optical disk device 20.
[0078]
In the next step 423, it is determined whether the read-in start time K1 of the copy source disk is equal to the read-in start time K2 of the copy destination disk. Here, if the lead-in start times are different from each other, the determination in step 423 is denied, a message indicating that the copy destination disk is inappropriate is displayed on the display device 86, and the process is terminated. That is, it is determined that the replication destination disk is not suitable for the backup disk, and no backup disk is created. On the other hand, if the lead-in start times are equal to each other, the determination in step 423 is affirmed, and the process proceeds to step 425. That is, it is determined that the copy destination disk is suitable for the backup disk.
[0079]
In this step 425, information (referred to as R2) recorded in the ROM portion of the copy destination disk is read via the optical disk device 20.
[0080]
In the next step 427, it is determined whether R1 and R2 are equal to each other. Here, if R1 and R2 are equal to each other, the determination in step 427 is affirmed, and the routine proceeds to step 429.
[0081]
In this step 429, the RA is recorded in the RAM unit via the optical disc device 20. That is, the information recorded in the RAM portion of the copy source disk is copied to the RAM portion of the copy destination disk. Then, a message indicating that the creation of the backup disk has been completed normally is displayed on the display device 86, and the process is terminated.
[0082]
On the other hand, if R1 and R2 are not equal to each other in step 427, the determination in step 427 is denied and the process proceeds to step 433.
[0083]
In step 433, it is determined whether or not R2 is predetermined dummy data. Here, if R2 is not the predetermined dummy data, the determination in step 433 is denied, a message indicating that backup is impossible is displayed on the display device 86, and the process is terminated. That is, no backup disk is created. On the other hand, if R2 is predetermined dummy data, the determination at step 433 is affirmed and the routine proceeds to step 435.
[0084]
In this step 435, R1 and RA are recorded in the RAM unit via the optical disc apparatus 20. That is, the information recorded in the ROM part and RAM part of the copy source disk is copied to the RAM part of the copy destination disk. Then, a message indicating that the creation of the backup disk has been completed normally is displayed on the display device 86, and the process is terminated.
[0085]
As is clear from the above description, in the information recording system according to the present embodiment, the suitability determining means, the first determining means, the first copying means, the second copying means, the MPU 82a and the program executed by the MPU 82a. Judging means and second copying means are realized. In other words, the suitability determination means is determined by the process of step 423 in FIG. 5, the first determination means is determined by the process of step 427, the first copy means is determined by the process of step 429, and the second determination means is determined by the process of step 433. The second copying means is realized by the processing of step 435, respectively. However, it goes without saying that the present invention is not limited to this. That is, the above embodiment is merely an example, and at least a part of each component realized by processing according to the program by the MPU 82a may be configured by hardware, or all the components are configured by hardware. It's also good.
[0086]
Then, the first process of the backup disk creation method according to the present invention is performed by the process of step 423 in FIG. 5, the second process is performed by the process of step 427, and the third process is performed by the process of step 429. The fourth process is performed by the process of step 433, and the fifth process is performed by the process of step 435.
[0087]
In this embodiment, the backup disk creation program is configured by a program corresponding to the process shown in the flowcharts of FIGS. 4 and 5 among the programs installed in the HDD 84.
[0088]
As described above, according to the information recording system of the present embodiment, in the host 80, when a hybrid disk backup disk creation request is received from the user, the MPU 82a executes a backup disk creation process. In this backup disk creation process, if the read-in start time of the replication source disk and the read-in start time of the replication destination disk coincide with each other, it is determined that the replication destination disk is suitable for the backup disk. Therefore, even when the protection using the substrate information unique to the hybrid disc is applied to the content information of the copy source disc, it can be normally reproduced on the backup disc.
[0089]
In addition, according to the present embodiment, after it is determined that the copy destination disk is suitable for the backup disk, it is determined whether or not the information in each ROM unit matches each other. Usually, the time required for determining whether or not the copy destination disk is suitable for a backup disk (hereinafter also referred to as “appropriateness determination” for convenience) is determined by determining whether or not the information in each ROM unit is consistent with each other (hereinafter referred to as For the sake of convenience, it is much shorter than the time required for “ROM judgment”. Therefore, when the copy destination disk is not suitable for the backup disk, the backup can be performed in a very short time compared with the case where the suitability judgment is performed after the ROM judgment. A message indicating that it is impossible can be displayed on the display device 86.
[0090]
In the above embodiment, when the information amount or recording capacity of the ROM portion is small, the suitability determination may be performed after the ROM determination.
[0091]
In the above embodiment, when the ROM information does not match each other in the ROM determination, it is determined whether R2 is predetermined dummy data (hereinafter also referred to as “dummy data determination” for convenience). As described above, when it is clear that R2 is not the predetermined dummy data, the dummy data determination may not be performed. That is, in step 427, if R1 and R2 are not equal to each other, a message indicating that backup is impossible is displayed on the display device 86, and the process may be terminated. Further, if the copy destination disk does not have enough RAM capacity to copy R1 and RA, the dummy data determination may not be performed in the same manner.
[0092]
In the above-described embodiment, the case where there is one optical disk device constituting the information recording system has been described. However, the present invention is not limited to this, and a plurality of optical disk devices may be provided. As an example, an information recording system 10 ′ provided with two optical disk devices 20a and 20b is shown in FIG. In this case, by separately using the optical disk device for the replication source disk and the optical disk device for the replication destination disk, it is not necessary to replace the disk during the backup disk creation process. The backup disk creation process at this time will be briefly described with reference to the flowcharts of FIGS. Here, the optical disk device for the replication source disk is referred to as an optical disk device 20a, and the optical disk device for the replication destination disk is referred to as an optical disk device 20b. The optical disk device 20a and the optical disk device 20b have functions equivalent to those of the optical disk device 20.
[0093]
In the first step 501, a message for prompting the user to insert the copy source disk into the optical disk device 20 a is displayed on the display device 86.
[0094]
In the next step 503, it is determined whether or not the copy source disk is inserted in the optical disk device 20a. When the notification that the copy source disk has been inserted is received from the optical disk device 20a, the determination here is affirmed and the routine proceeds to step 505.
[0095]
In this step 505, the disc information recorded on the copy source disc is obtained via the optical disc apparatus 20a.
[0096]
In the next step 507, the disk information of the copy source disk is referred to and it is determined whether or not the copy source disk is a hybrid disk. If the copy source disk is not a hybrid disk, the determination in step 507 is denied, a message indicating that the copy source disk is not a hybrid disk is displayed on the display device 86, and the process ends. That is, no backup disk is created. On the other hand, if the copy source disk is a hybrid disk, the determination in step 507 is affirmed and the process proceeds to step 509.
[0097]
In the next step 509, a message for prompting the user to insert the copy destination disk into the optical disk device 20 b is displayed on the display device 86.
[0098]
In the next step 511, it is determined whether or not the copy destination disk is inserted in the optical disk device 20b. When the notification that the copy destination disk has been inserted is received from the optical disk apparatus 20b, the determination here is affirmed and the routine proceeds to step 513.
[0099]
In this step 513, disk information recorded on the copy destination disk is obtained via the optical disk device 20b.
[0100]
In the next step 515, the disk information of the copy destination disk is referred to and it is determined whether or not the copy destination disk is a hybrid disk. If the copy destination disk is not a hybrid disk, the determination in step 515 is denied, a message indicating that the copy destination disk is not a hybrid disk is displayed on the display device 86, and the process ends. That is, no backup disk is created. On the other hand, if the copy destination disk is a hybrid disk, the determination in step 515 is affirmed and the process proceeds to step 521.
[0101]
In this step 521, the read-in start time K1 of the duplication source disk is obtained via the optical disc apparatus 20a, and the read-in start time K2 of the duplication destination disk is obtained via the optical disc apparatus 20b.
[0102]
In the next step 523, it is determined whether or not K1 and K2 match. Here, if K1 and K2 are different from each other, the determination in step 523 is denied, a message indicating that the copy destination disk is inappropriate is displayed on the display device 86, and the process is terminated. That is, it is determined that the replication destination disk is not suitable for the backup disk, and no backup disk is created. On the other hand, if the lead-in start times are equal to each other, the determination in step 523 is affirmed, and the process proceeds to step 525. That is, it is determined that the copy destination disk is suitable for the backup disk.
[0103]
In this step 525, information R1 recorded in the ROM portion of the copy source disk is acquired via the optical disc device 20a, and information R2 recorded in the ROM portion of the copy destination disk is read via the optical disc device 20b. .
[0104]
In the next step 527, it is determined whether R1 and R2 are equal to each other. Here, if R1 and R2 are equal to each other, the determination in step 527 is affirmed, and the routine proceeds to step 529.
[0105]
In this step 529, the information RA recorded in the RAM portion of the copy source disk is read via the optical disk device 20a.
[0106]
In the next step 531, the RA is recorded in the RAM portion of the copy destination disk via the optical disk device 20 b. Then, a message indicating that the creation of the backup disk has been completed normally is displayed on the display device 86, and the process is terminated.
[0107]
On the other hand, if R1 and R2 are not equal to each other in step 527, the determination in step 527 is denied and the process proceeds to step 533.
[0108]
In step 533, it is determined whether R2 is predetermined dummy data. If R2 is not predetermined dummy data, the determination in step 533 is denied, a message indicating that backup is impossible is displayed on the display device 86, and the process is terminated. That is, no backup disk is created. On the other hand, if R2 is predetermined dummy data, the determination in step 533 is affirmed, and the routine proceeds to step 535.
[0109]
In this step 535, the information RA recorded in the RAM portion of the copy source disk is read via the optical disk device 20a.
[0110]
In the next step 537, R1 and RA are recorded in the RAM part of the copy destination disk via the optical disk device 20b. Then, a message indicating that the creation of the backup disk has been completed normally is displayed on the display device 86, and the process is terminated.
[0111]
Also in this case, if it is clear that R2 is not predetermined dummy data, the dummy data determination may not be performed. That is, in step 527, if R1 and R2 are not equal to each other, a message indicating that backup is impossible is displayed on the display device 86, and the process may be terminated. Further, if the copy destination disk does not have enough RAM capacity to copy R1 and RA, the dummy data determination may not be performed in the same manner.
[0112]
Further, in the above embodiment, R1, RA, and K1 are read together in step 409 so that the number of disk replacements is one. However, when the number of disk replacements need not be one. May read R1, RA and K1 when necessary.
[0113]
Further, in the above embodiment, whether or not the information R1 recorded in the ROM part of the copy source disk and the information R2 recorded in the ROM part of the copy destination disk match each other in step 427 of the backup disk creation process. However, if the determination result is not affected, it may be determined whether or not the specific information included in R1 and R2 matches.
[0114]
In the above-described embodiment, the case where the lead-in start time is used as the substrate information has been described. However, the present invention is not limited to this. For example, one of the lead-out start time and the recording strategy parameter may be used. Furthermore, a plurality of pieces of information including at least one of a lead-in start time, a lead-out start time, and a recording strategy parameter may be used as the substrate information.
[0115]
In the above embodiment, it is determined in step 417 of the backup disk creation process whether the replication destination disk is a hybrid disk. However, the replication destination disk has a predetermined compatibility with the replication source disk. It may be determined whether or not.
[0116]
In the above-described embodiment, the case where the optical disc apparatus is compatible with an information recording medium conforming to the CD standard has been described, but the present invention is not limited to this. For example, it may be an optical disc apparatus compatible with both an information recording medium compliant with a CD standard and an information recording medium compliant with a DVD standard.
[0117]
In the above embodiment, the backup disk creation program is recorded in the HDD 84, but may be recorded in other recording media (CD-ROM, magneto-optical disk, flash memory, flexible disk, etc.). In this case, a drive device corresponding to each recording medium is added, and a backup disk creation program is installed from each drive device. In short, the backup disk creation program may be loaded into the main memory 82b.
[0118]
【The invention's effect】
As described above, according to the backup disk creation method and information recording system of the present invention, there is an effect that a normal backup disk of a hybrid disk can be created.
[0119]
Further, according to the program and the recording medium of the present invention, there is an effect that a normal backup disk of the hybrid disk can be created by being executed by the information processing apparatus that constitutes the information recording system together with the information recording apparatus.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of an information recording system according to an embodiment of the present invention.
2 is a block diagram for explaining a detailed configuration of the optical pickup device in FIG. 1; FIG.
3 is a block diagram for explaining a detailed configuration of a reproduction signal processing circuit in FIG. 1. FIG.
4 is a flowchart (part 1) for explaining a backup disk creation process in the information recording system of FIG. 1; FIG.
FIG. 5 is a flowchart (No. 2) for explaining a backup disk creation process in the information recording system of FIG. 1;
FIG. 6 is a block diagram showing a schematic configuration of an information recording system including two optical disk devices.
7 is a flowchart (No. 1) for explaining a backup disk creation process in the information recording system of FIG. 6;
FIG. 8 is a flowchart (part 2) for explaining a backup disk creation process in the information recording system of FIG. 6;
FIG. 9 is a schematic diagram for explaining the configuration of a hybrid disk.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Information recording system, 15 ... Optical disk (information recording medium), 20 ... Optical disk apparatus (information recording apparatus), 80 ... Host (information processing apparatus), 82a ... MPU (Appropriateness judgment means, 1st judgment means, 1st Copying means, second judging means, second copying means), 84... Hard disk (recording medium), 85... Input device (input means).

Claims (13)

A method of creating a backup disk of a hybrid disk having a read-only area and a writable or rewritable area,
A first step of determining whether or not the information recording medium is suitable for a backup disk based on a criterion set in advance based on the substrate information of the hybrid disk and the substrate information of an information recording medium for backup Backup disk creation method including The determination criterion is that the information recording medium is suitable for a backup disk when predetermined information included in the substrate information matches each other in the substrate information of the hybrid disk and the substrate information of the information recording medium. The backup disk creation method according to claim 1, which is a criterion for determination. 3. The backup disk creation method according to claim 2, wherein the predetermined information includes at least one of a lead-in start time, a lead-out start time, and a recording strategy parameter. The information recording medium has a read-only area and a writable or rewritable area,
As a result of the determination, when it is determined that the information recording medium is suitable for a backup disk, the information recording medium is recorded in each read-only area in the read-only area of the hybrid disk and the read-only area of the information recording medium. A second step of determining whether the specific information is consistent with each other;
As a result of the determination in the second step, when the specific information recorded in each read-only area matches each other, the information recorded in the writable or rewritable area of the hybrid disc is stored in the information recording medium. The backup disk creation method according to any one of claims 1 to 3, further comprising: a third step of copying to a writable or rewritable area. As a result of the determination in the second step, when the specific information recorded in each read-only area does not match each other, the information recorded in the read-only area of the information recording medium is predetermined dummy data A fourth step of determining whether or not;
As a result of the determination in the fourth step, when the information recorded in the read-only area of the information recording medium is predetermined dummy data, it is recorded in the read-only area and the writable or rewritable area of the hybrid disc. 5. The backup disk creation method according to claim 4, further comprising: a fifth step of copying the stored information to a writable or rewritable area of the information recording medium. A program used in an information processing apparatus constituting an information recording system together with an information recording apparatus,
A first procedure for acquiring substrate information of an information recording medium for backup in response to a request for creating a backup disk of a hybrid disk having a read-only area and a writable or rewritable area;
A second procedure for determining whether or not the information recording medium is suitable for a backup disk on the basis of a criterion set in advance based on the substrate information of the hybrid disk and the substrate information of the information recording medium; A program for causing the information processing apparatus to execute. The determination criterion is that the information recording medium is suitable for a backup disk when predetermined information included in the substrate information matches each other in the substrate information of the hybrid disk and the substrate information of the information recording medium. The program according to claim 6, wherein the program is a criterion for determination. The information recording medium has a read-only area and a writable or rewritable area,
As a result of the determination, when it is determined that the information recording medium is suitable for a backup disk, the information recording medium is recorded in each read-only area in the read-only area of the hybrid disk and the read-only area of the information recording medium. A third procedure for determining whether or not the specified information matches each other;
As a result of the determination in the third procedure, when the specific information recorded in each read-only area matches each other, the information recorded in the writable or rewritable area of the hybrid disc is stored in the information recording medium. The program according to claim 6 or 7, further causing the information processing apparatus to execute a fourth procedure of copying to a writable or rewritable area. When the specific information recorded in the read-only areas does not match each other as a result of the determination in the third procedure, the information recorded in the read-only area of the information recording medium is predetermined dummy data A fifth procedure for determining whether or not;
As a result of the determination in the fifth procedure, when the information recorded in the read-only area of the information recording medium is predetermined dummy data, it is recorded in the read-only area and the writable or rewritable area of the hybrid disc. The program according to claim 8, further causing the information processing apparatus to execute a sixth procedure of copying the stored information to a writable or rewritable area of the information recording medium. The computer-readable recording medium with which the program as described in any one of Claims 6-9 was recorded. An information recording system for recording information,
An information recording device for recording information;
In response to a request for creating a backup disk of a hybrid disk having an input means for inputting various requests to the information recording apparatus, a read-only area and a write or rewritable area input via the input means, Suitability judging means for judging whether or not the information recording medium is suitable for a backup disk based on judgment criteria set in advance based on the substrate information of the disk and the substrate information of the information recording medium for backup, An information processing apparatus comprising: a processing unit that determines whether to permit the backup disk creation request based on a determination result of the suitability determination unit. The information recording medium has a read-only area and a writable or rewritable area, and the processing means includes:
When the information recording medium is determined to be suitable for a backup disk as a result of the determination by the suitability determining means, each read-only area in the read-only area of the hybrid disk and the read-only area of the information recording medium First determination means for determining whether or not the specific information recorded in the area matches each other;
First copy means for permitting the backup disk creation request when the specific information recorded in the read-only areas match each other as a result of the determination by the first determination means. The information recording system according to claim 11, wherein When the specific information recorded in each of the read-only areas does not match each other as a result of the determination by the first determination unit,
Second judging means for judging whether or not the information recorded in the read-only area of the information recording medium is predetermined dummy data;
Second copying means for permitting the backup disk creation request when the information recorded in the read-only area of the information recording medium is predetermined dummy data as a result of the determination by the second determining means; The information recording system according to claim 12, further comprising:

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