JP2004095114A - Medium, device and method for information recording and reproduction and data structure for information recording and reproducing medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information recording and reproducing medium which employs a data format to easily provide copying protection. <P>SOLUTION: The digital contents are divided to frame units, sync pattern information 23 or cipher key information 24 is inserted between the individual frames, and the resultant digital contents are recorded on the medium. Part of the divided digital contents is encrypted so as to be made restorable by using cipher key information 26 and is recorded as encrypted information data 27. When the information 26 and the data 27 are both normally read out of this medium, the digital contents are reproduced. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information recording / reproducing medium, an information recording / reproducing apparatus, an information recording / reproducing method, and a data structure of an information recording / reproducing medium, and more particularly, to an information recording / reproducing medium for restricting content copying, and information recording / reproducing. The present invention relates to an apparatus, an information recording and reproducing method, and a data structure of an information recording and reproducing medium.
[0002]
[Prior art]
Large-capacity optical discs represented by DVDs include read-only optical discs (DVD-ROM), write-once optical discs (DVD-R) that can be recorded only once, and rewritable optical discs (DVD-RW). In this medium, digital content such as video, music, or data is stored. Since the digital contents stored in these media have data format compatibility, for example, the contents recorded on a DVD-ROM can be copied in its entirety on a DVD-R as it is in principle.
[0003]
By the way, since the content recorded on the DVD-ROM is a digital content, no deterioration occurs even if copying is repeated. Therefore, if the content is illegally copied, the copyright of the content creator is significantly infringed. In order to prevent unauthorized copying and protect the copyright of the content creator, even if the entire content data of the DVD-ROM is copied onto a recordable medium such as a DVD-R or DVD-RW, A mechanism is adopted to prevent the reproduction of the data.
[0004]
Generally, a DVD is provided with a control data zone for recording information essential for recording or reproduction of a disc, and the content of the content matches the control information recorded in the control data zone. At times, reproduction of the content is permitted. In a conventional write-once DVD-R, predetermined information is fixedly recorded in a control data area before and after shipment of a medium, as a measure against illegal copying (copy protection). For this reason, for example, even when the entire contents data of the DVD-ROM is copied to the DVD-R, the contents of the contents data do not match the information recorded in the control information area, and the reproduction of the contents data is not performed. I can't.
[0005]
In a rewritable DVD-RW, unlike the above, an emboss is formed in the control data area in advance. In this case, even when normal control information is written in the control data area, the information causes interference with the emboss, and normal reading of the written control information becomes impossible. For this reason, even if the entire content data of the DVD-ROM is copied to the DVD-RW, the content data cannot be reproduced.
[0006]
[Problems to be solved by the invention]
Incidentally, in DVD-R and DVD-RW, guide grooves for tracking control of the optical head are formed. In a DVD-RW, an emboss formed in a control data area and a guide groove for tracking control are distinguished by the depth of both grooves (recesses). In the DVD-RW, since the emboss and the guide groove are formed at different depths as described above, when a stamper master is manufactured for manufacturing a DVD-RW, strong light is exposed at a portion where the emboss is formed. Therefore, it is necessary to form a groove deeply and to expose the part where the guide groove is to be formed by exposing weak light to a shallow groove. For this reason, there has been a problem that the manufacturing process of the disk becomes complicated. In addition, as described above, the DVD-R has a problem that productivity is poor because information must be recorded in the control data area on each disk after manufacturing the medium and before shipping. .
[0007]
The present invention solves the above-described problems, and enables an information recording / reproducing medium, an information recording / reproducing apparatus, an information recording / reproducing method, and an information recording / reproducing medium that can easily prevent reproduction of copied content data. The purpose of the present invention is to provide a data structure.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, an information reproducing medium according to the present invention is characterized in that a data signal recorded on the medium is divided into frames for each predetermined unit data, and a timing synchronization signal is inserted between the frames to be recorded. In the information reproducing medium, encryption key information is recorded in part or all of an area where the timing synchronization signal is recorded, and at least a part of the data signal can be restored by the encryption key information. Is recorded as follows.
[0009]
In the information reproducing medium of the present invention, a data signal such as digital content is recorded in units divided into a plurality of frames. In the conventional data structure (format), a sync pattern for timing synchronization is formed between a plurality of frames and recorded on the medium. In the present invention, however, a part of the area on the medium where the sync pattern is to be formed is formed. Alternatively, the encryption key information is recorded in all of them. At least a part of the digital content divided into frames is converted by the encryption key information so that it can be restored, and recorded on a medium. Digital content is recorded on the medium in a data format in which a sync pattern or encryption key information is inserted between frames. By adopting this data format, digital content recorded on a medium cannot be restored to the original data unless the encryption key information is read correctly. For this reason, even if digital content is copied from the information reproducing medium, it is impossible to correctly read the encryption key information from the copied medium, so that normal reproduction of the content becomes impossible, and the content is illegally copied. Even when it is done, the copyright of the copyright holder can be protected.
[0010]
The information data structure of the present invention is a recording data structure for a data signal recorded on an information recording / reproducing medium, and includes a data signal divided into frames for each predetermined unit data and inserted between the frames. A timing synchronization signal, and encryption key information inserted between the frames instead of part of the timing synchronization signal or added to at least a part of the timing synchronization signal, and at least one of the data signals. A part thereof is configured as data converted so as to be recoverable by the encryption key information.
[0011]
In the data structure of the present invention, at least a part of the divided digital content is composed of digital content divided into frames and a sync pattern for timing synchronization inserted between frames, or encryption key information. , And is converted into a format that can be restored to the original digital content by the encryption key information. Even if the content is recorded on a recording medium using this format, by preventing the encryption key information from being read correctly from the medium, the content cannot be normally reproduced, and Even when copied, the copyright of the copyright holder can be protected.
[0012]
In the information reproducing medium and the data structure of the present invention, the data signal may be configured as encrypted data which is encrypted so as to be recoverable by the encryption key information, or The configuration may be based on data obtained by cutting out a part of a data signal. Various combinations of the encryption key information and the data signal divided into frames are conceivable. Regardless of the combination, copy protection is realized by preventing normal reproduction of content unless encryption key information and a data portion corresponding to content data are read as a pair. I do.
[0013]
An information recording medium according to the present invention is an information recording medium adopting a recording format in which a data signal recorded on the medium is divided into frames for each predetermined unit data and a timing synchronization signal is inserted between the frames. A pre-pit is formed in a synchronization signal recording area where the synchronization signal is to be recorded, and the pre-pit has a function of inhibiting reproduction of a signal recorded in the synchronization signal recording area. .
[0014]
In the information recording medium of the present invention, a pre-pit (emboss) is formed in a synchronization signal recording area where a timing synchronization signal is recorded. The pre-pits are formed so as to interfere with a signal pattern when reproducing a signal recorded in an area where the pre-pits are formed, so as to prevent normal reading. For this reason, digital content in a data format in which content reproduction is permitted by normally reading a signal recorded in the synchronization signal recording area cannot be normally reproduced, and illegal duplication of the content is prevented. The copyright of the copyright holder. The pre-pits may be formed so as to prevent normal reading of signals recorded in an area where the pre-pits are formed, and not to make it impossible to read a sync pattern including long marks and spaces.
[0015]
In the information recording medium of the present invention, the pre-pits may include address information. Since the purpose of the prepit is to prevent reading of a signal recorded in an area where the prepit is formed, the prepit itself may have information such as an address signal on a disk, or the prepit itself may be used. Need not have any information.
[0016]
In the information recording medium of the present invention, it is preferable that the depth of the pre-pit is substantially the same as the depth of a guide groove for tracking control. Since the guide groove and the prepit do not interfere with each other, the concave portion of the prepit and the guide groove can be formed at the same depth. In this case, the guide groove and the pre-pit can be formed at one time, and the process required for manufacturing the information recording medium is simplified.
[0017]
The information reproducing apparatus of the present invention is an information reproducing apparatus for reproducing a data signal from the information reproducing medium of the present invention, wherein the information reproducing apparatus stores an algorithm for decrypting the data signal based on the encryption key information. I do.
[0018]
The information reproducing apparatus of the present invention stores an algorithm for restoring a data signal recorded so as to be restored based on the encryption key information to an original data signal. When digital content is reproduced from the information reproducing medium of the present invention, encryption key information is read from the information reproducing medium, and the read encryption key information is used to restore a data signal by a predetermined algorithm. Perform playback. When digital content having the data structure of the present invention is recorded on the information recording medium of the present invention, the information reproducing apparatus cannot correctly read the encryption key information and does not reproduce the digital content. . As described above, the information reproducing apparatus does not reproduce the digital content copied illegally, and the copyright of the copyright holder of the digital content is protected.
[0019]
The information recording device of the present invention is an information recording device that records a data signal on the information recording medium of the present invention, and when the data signal is recorded, the pre-pit has a pre-formed synchronization signal recording area. The encryption key information is recorded at least in part.
[0020]
In the information recording apparatus of the present invention, when recording digital content on the information recording medium of the present invention, encryption key information is recorded in at least a part of the area where the prepits are formed. In other words, at least a part of the encryption key information is recorded in the area where the pre-pit is formed. The prepits cause interference with a signal recorded in the area where the prepits are formed, and hinder normal reading of the signal. Therefore, even if the information recording medium recorded by the information recording device is reproduced by the information reproducing device, Digital content is not reproduced normally, and the copyright of the copyright holder of the digital content is protected.
[0021]
Further, an information recording apparatus according to another aspect of the present invention is an information recording apparatus that divides a data signal to be recorded on a medium into predetermined unit frames and records the divided data signal. Encrypting means for encrypting the data to be encrypted, and inserting at least one of a timing synchronization signal and encryption key information for restoring the encrypted data into at least a part between the frames, Recording means for recording.
[0022]
In an information recording apparatus according to another aspect of the present invention, the encryption unit encrypts at least a part of the digital content divided into frames. The recording unit records the digital content while inserting at least one of a sync pattern for timing synchronization and encryption key information between frames. By using this information recording device, a stamper master for manufacturing an information reproducing medium can be manufactured. By using this stamper master, contents can be recorded in a data format that realizes copy protection at low cost. Thus, an information reproducing medium can be obtained. Note that the encryption used in the present invention does not have to be for the purpose of concealing data, and the encryption includes a mode in which a data signal cannot be restored unless encryption key information is used.
[0023]
The information recording method of the present invention is the information recording method of recording a data signal on an information recording medium, wherein the data signal is divided into predetermined unit frames, and at least a part of the data signal for each unit frame is encrypted. The data signal is recorded as encrypted data while at least one of a timing synchronization signal and encryption key information for restoring the encrypted data is inserted into at least a part of the frames.
[0024]
In the information recording method of the present invention, digital content to be recorded is divided into predetermined frame units, at least a part of the divided digital content is converted by a predetermined algorithm, and a sync pattern for timing synchronization is provided between frames. Alternatively, recording is performed by inserting encryption key information for restoring the converted digital content to the original digital content. Digital content recorded by using this method cannot be reproduced unless the encryption key information is read correctly. Therefore, it is necessary to prevent illegal copying of digital content and protect the copyright of the copyright holder. Becomes possible.
[0025]
The information reproducing method according to the present invention is the information reproducing method for reproducing a data signal recorded by the information recording method according to the present invention, wherein the encrypted data and the encryption key information are read out and the encryption is performed based on a predetermined algorithm. Reproducing the data signal while restoring the encrypted data based on the encryption key information.
[0026]
In the information reproducing method of the present invention, when reproducing the digital content recorded by the recording method of the present invention, the digital content converted by a predetermined algorithm and the encryption key information are read, and the reverse of the predetermined algorithm is performed. According to the algorithm, the converted digital content is restored to the original digital content. When the encryption key information is not normally read, the digital content is not reproduced, so that illegal copying of the digital content can be prevented and the copyright of the copyright holder can be protected.
[0027]
According to another aspect of the information recording method of the present invention, in the information recording method for recording a data signal on an information recording medium, the data signal is divided into predetermined unit frames, and a timing synchronization The data signal is recorded while inserting at least one of a signal and creator ID information.
[0028]
An information reproducing method according to another aspect of the present invention is an information reproducing method for reproducing a data signal recorded by the information recording method according to another aspect of the present invention, wherein the data signal and the ID signal are transmitted from an information medium. When reading, the ID signal or ID information obtained based on the ID signal matches the stored regular ID information, the data signal is reproduced.
[0029]
Even when the ID signal is read from the information recording / reproducing medium properly, even if the data signal can be reproduced, the illegal copy of the digital content can be prevented and the copyright of the copyright holder can be protected. Becomes possible.
[0030]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in more detail based on embodiments of the present invention with reference to the drawings. FIG. 1 shows the data structure of one physical sector read from the optical disc of the first embodiment of the present invention. One physical sector of the optical disk (information reproducing medium) is composed of a plurality of (26) sync frames 22, 25 in the example of FIG. The plurality of sync frames include two types of sync frames. The first type of sync frame 22 includes sync pattern information 23 and information data 24. The second type of sync frame 24 includes encryption key information 25. And encrypted information data 26. In the example shown in the figure, of the 26 sync frames, the odd-numbered sync frame is configured as the first type of sync frame 22, and the even-numbered sync frame is configured as the second type of sync frame 24. Have been.
[0031]
Here, FIG. 2 shows a data structure of one physical sector of content data read from a conventional optical disc as a comparative example. In the conventional data structure, the sync pattern 43 and the information data 44 make up one sync frame 42, and the plurality of sync frames 42 make up one physical sector 41. One sync frame 42 is obtained by dividing content data into information data having a predetermined data length, and adding sync pattern information 43 for timing synchronization to the information data. As shown in FIG. 2, one physical sector 41 in the conventional data format includes only a sync frame 42 including sync pattern information 43, and does not include a sync frame having the encryption key information 26 as shown in FIG. Not.
[0032]
The sync frame including the sync pattern information of the data format shown in FIG. 1 and the sync frame including the encryption key information are obtained as follows. First, content data is divided into information data having a predetermined data length. Next, the content creator (provider) sets the encryption key information arbitrarily, and encrypts the information data to generate encrypted information data so that the information data can be decrypted (restored) by the set encryption key information. Then, encryption key information for decrypting the encrypted information data is added to the encrypted information data, and a sync frame including the encryption key information is obtained. The sync frame including the sync pattern information is obtained by adding the sync pattern information to the divided information data.
[0033]
FIG. 3 shows the configuration of an information recording apparatus that generates a stamper master used when recording content data in the data format of the first embodiment. The information recording device 30 includes an objective lens 31, an LD 32, an LD drive circuit 33, a code generation mechanism 34, and a spindle control circuit 35. The objective lens 31 irradiates the stamper master 36 with laser light output from the LD 32 controlled by the LD drive circuit 33. The spindle control circuit 35 controls the rotation of the stamper master 36.
[0034]
On the stamper master 36, content data is formed on a read-only optical disc such that the content data is recorded in the data format shown in FIG. The encryption generation mechanism 34 generates encryption information data based on the set encryption key information, and controls the LD drive circuit 33 to write the encryption information data and the encryption key information on the stamper master 36. Using the stamper master 36 obtained in this way, through a process such as injection molding, a read-only optical disk in which desired contents are recorded in the data format shown in FIG. 1 is obtained.
[0035]
FIG. 4 shows the configuration of the optical disk device for reading data stored on the optical disk of the first embodiment. The optical disk device 10 includes an objective lens 11, a laser diode (LD) 12, an LD drive circuit 13, a photodetector 14, a decoding circuit 15, and a spindle drive circuit 16. When reading one physical frame from the optical disk 20, the optical disk device 10 reads the encryption key information from the sync frame including the encryption key information included in the one physical frame, and uses the encryption key information to convert the encryption information data. Decrypt and play the content. As the optical disk 20 from which the optical disk device 10 reads data, a read-only optical disk, a write-once optical disk, or a rewritable optical disk can be used.
[0036]
The LD drive circuit 13 controls the output of the LD 12. The objective lens 11 irradiates the recording surface of the optical disc 20 with the laser light output from the LD 12. The spindle drive circuit 16 rotates the optical disc 20. The objective lens 11 receives the reflected light of the laser light emitted by the objective lens 11 and inputs the incident light to the photodetector 14. The photodetector 14 detects data recorded on the optical disc 20 based on the reflected light from the optical disc 20. The decryption means 15 extracts the encryption key information from the data detected by the photodetector 14 and decrypts the encrypted information data. When a read-only optical disk manufactured using the stamper master 36 is reproduced by the optical disk device 10 as the optical disk 20, the encryption key information can be read correctly, and the content is reproduced.
[0037]
FIG. 5 shows a part of a track of a write-once optical disc or a rewritable optical disc used as the optical disc 20. As shown in FIG. 5, the sync pattern information 23 of the sync frame shown in FIG. 1 is provided on the write-once type and rewritable type optical disc 20 (hereinafter, both types are referred to as recording types) as shown in FIG. Alternatively, an emboss (pre-pit) 28 of address information or the like is formed in a region in a track where the encryption key information 26 is to be recorded, and its concave portion is formed at the same depth as the guide groove 29. Therefore, the emboss 28 and the guide groove 29 can be collectively formed with the same exposure time.
[0038]
When the entire content data is copied from the read-only optical disc stored in the data format shown in FIG. 1 to the recordable optical disc of the embodiment using the information recording apparatus, the content data is included in the sync frame 25. The encryption key information 26 is written in the area where the emboss 28 shown in FIG. 5 is formed. When this recordable optical disk is read by the optical disk device 10, the emboss 28 and the encryption key information 26 interfere with each other, the encryption key information 26 cannot be read accurately, and the encrypted information data 27 cannot be decrypted normally. For this reason, content data cannot be normally reproduced on a recordable optical disc in which content data is copied from a read-only optical disc.
[0039]
Alternatively, when content is written in the conventional format as shown in FIG. 2 on the recordable optical disc on which the emboss 28 shown in FIG. 5 is formed, the sync pattern information 43 is stored in the area where the emboss 28 is formed. Will be written to. In this case, the sync pattern information 43 and the emboss 28 cause interference. However, the sync pattern information 43 is composed of a long mark or a long space, and because the interference with the emboss 28 is small, reading is impossible. is not. As described above, the emboss 28 does not function as copy protection for content data written in a conventional format, and normal content can be reproduced.
[0040]
In the present embodiment, as described above, one physical sector 21 reproduces data by adopting a data format including a sync frame 22 including sync pattern information 23 and a sync frame 25 including encryption key information 26. The content data is recorded on the dedicated optical disk. A part of the content data is encrypted and recorded on the read-only optical disc recorded in this data format so that the content data cannot be properly reproduced unless the encryption key information is read. For this reason, even if the information data portion (information data or encrypted information data) can be read, the content is not reproduced only by that data.
[0041]
When manufacturing a recordable optical disk, an emboss 28 is formed in an area where the sync pattern information 23 or the encryption key information 26 is to be recorded. When content recorded in the data format adopted in the present embodiment is copied onto such a recordable optical disc, the encryption key information 26 interferes with the emboss 28, so that the optical disc apparatus 10 The content cannot be read, and the content cannot be reproduced. For this reason, illegal copying of content from a read-only optical disk to a recordable optical disk is substantially impossible, and copy protection is realized. Also, since the sync pattern information is usually composed of a long space or a long mark, the optical disc apparatus 10 reproduces the content recorded on the recordable optical disc in the same format (FIG. 2) as the conventional one. Can be performed.
[0042]
As described above, when the content is recorded on the read-only optical disc using the data format of the embodiment, the copyrighted content cannot be illegally copied to the recordable optical disc. Can safely provide content to general consumers and the like without worrying about unauthorized copying. As a result, the supply of contents becomes active and can greatly contribute to the development of the optical disk industry.
[0043]
As copy protection, in a conventional write-once optical disc (DVD-R), it is necessary to write information one by one in a control data area before manufacturing and after shipping the medium. In this case, since the embossing 28 may be formed at a time, the productivity of the medium is improved. Further, in the conventional rewritable optical disk (DVD-RW), the emboss is formed in the control data area by changing the depth so as to be distinguished from the guide groove. Since the concave portion of the emboss 28 to be formed can be formed at the same depth as the guide groove 29, a stamper master can be generated by one exposure, and the manufacturing process of the medium is simplified. In this embodiment, since such a recordable optical disk is used, copy protection is realized reliably and easily without increasing the cost as compared with the related art.
[0044]
FIG. 6 shows a configuration of a sync frame including encryption key information of a data structure recorded on an optical disc according to the second embodiment of the present invention. In the first embodiment, copy protection is realized by encrypting information data and writing encryption key information used for decryption in an area where the emboss 28 shown in FIG. 5 is formed. In addition to this, copy protection is performed by preventing information from being reproduced unless information written in the area where the embossing 28 shown in FIG. 5 is formed and information data are read as a pair. It becomes feasible. Therefore, in the present embodiment, instead of encrypting the information data, the encryption key information is constituted by data at a predetermined position in the information data, and if the encryption key information is not read out normally, the content is reproduced. Not be able to do it.
[0045]
As shown in FIG. 6, in the divided content data 52, data 53 at a predetermined position is cut from the content data 52, and the cut data is replaced with a dummy data string "0000" according to a predetermined conversion rule. It is converted into pseudo information data 54. The cut data 53 is added to the pseudo information data 54 as encryption key information 53A. That is, the pseudo data information 54 partially cut out from the original information data and the encryption key information 55 composed of the cut out data constitute one sync frame.
[0046]
The pseudo information data 54 does not employ encryption for concealing the content data, but since some of the data is cut off, the content cannot be reproduced unless it is read as a pair with the corresponding encryption key information. Not done. Since the encryption key information is used as a key for restoring the pseudo information data, it can be considered as a key for decrypting the same. In the present embodiment, the sync frame 25 shown in FIG. 1 uses a data format composed of a sync frame. The read-only optical disc of this embodiment records content data using this data format.
[0047]
FIG. 7 shows the configuration of an optical disk device for reading data recorded on the optical disk of the second embodiment. The present embodiment is different from the optical disc apparatus of the first embodiment in that the decoding means 15 shown in FIG. The decoding means 17 stores a restoration rule (algorithm) for restoring the pseudo information data in which a part of the data string has been replaced with a dummy data string according to the conversion rule to the original information data. Alternatively, the restoration rule may be stored in a predetermined area of the optical disc 20. The decrypting means 17 embeds the encryption key information composed of the cut data in the pseudo information data according to the restoration rule to generate the original information data.
[0048]
When the optical disc device 10 reproduces a read-only optical disc on which content is recorded in the data format used in the present embodiment, the decrypting means 17 restores the pseudo information data to information data, and reproduces the content. However, when the entire content data is copied from the read-only optical disc onto a recordable optical disc having an embossment formed in a predetermined area similar to that shown in FIG. 5 and the recordable optical disc is reproduced by the optical disc device 10, the first As in the embodiment, the encryption key information cannot be read. For this reason, the decoding means 17 cannot restore the pseudo information data and cannot reproduce the content. When the content is recorded on the recordable optical disc in the conventional data format shown in FIG. 2, the content can be normally reproduced as in the first embodiment.
[0049]
In the present embodiment, as described above, the encryption key information is constituted by a part of the information data. The information data is converted into pseudo information data by replacing a part of the information data with a dummy data string. Content data is recorded on the read-only optical disk in a data format including a sync frame composed of encryption key information and pseudo information data. If the content recorded on the read-only optical disc is copied to a recordable optical disc having an embossed position at a predetermined position, the encryption key information cannot be read, and the content can be normally reproduced. Becomes impossible. Therefore, as in the first embodiment, copy protection is realized reliably and easily.
[0050]
The present inventors prototyped a read-only optical disk for recording contents in the data format of the present embodiment and an optical disk device 10 of the present embodiment having the configuration shown in FIG. With this optical disk device, the prototype read-only optical disk was reproduced, and it was confirmed that the content could be reproduced well. Further, a recordable optical disk having an emboss 28 as shown in FIG. 5 was prototyped, and the content recorded on the prototype read-only optical disk was copied to the recordable optical disk. When the copied recordable optical disk was reproduced on the same optical disk device as the prototype read-only optical disk, the content could not be reproduced properly. As a result, it has been confirmed that effective copy protection can be easily and reliably realized by using the data format of the read-only optical disk, the read-only optical disk, the recordable optical disk, and the optical disk device of the embodiment.
[0051]
FIG. 8 shows a configuration of a sync frame including content provider ID information of a data structure recorded on the optical disc according to the third embodiment of the present invention. This embodiment is different from the first and second embodiments in that the sync pattern information 43 shown in FIG. 2 has a sync frame 61 replacing the content provider ID information 63 shown in FIG. The content provider ID information 63 is generated based on, for example, an ID key registered at a standard meeting or the like, or an ID key allocated from a planning meeting or the like. In the present embodiment, for example, the data format in which the sync frame 25 shown in FIG. 1 is composed of the sync frame 61 shown in FIG. 8 is adopted. The read-only optical disc of this embodiment records content data using this data format.
[0052]
FIG. 9 shows the configuration of an optical disk device for reading data recorded on the optical disk of the third embodiment. The optical disc device 10 is different from the optical disc device 10 of the first embodiment in that the decoding means 15 shown in FIG. The ID confirmation unit 18 stores a registered ID key and a rule for specifying the ID key from the content provider ID information read from the optical disc 20. The ID confirmation unit 18 specifies an ID key from the content provider ID information, and checks whether or not the ID key is a registered ID key. As a result of the investigation, when it is confirmed that the specified ID key is registered, the content data is reproduced. When the specified ID key is different from the registered ID key, or when the ID key cannot be specified, the content is not reproduced.
[0053]
When the read-only optical disk device is played back by the optical disk device 10, the ID confirming unit 18 correctly identifies the ID key from the content provider ID information, confirms that the ID key is registered, and correctly identifies the content. Reproduce. However, when the content recorded on the read-only optical disc device is copied to the recordable optical disc having the emboss 28 shown in FIG. 5, the content provider ID information is recorded in the area where the emboss 28 is formed. When this recordable optical disk is reproduced by the optical disk device 10, the ID confirmation unit 18 cannot correctly read the content provider ID information, and the content is not reproduced. When the content is recorded on the recordable optical disc in the conventional data format shown in FIG. 2, the content can be normally reproduced as in the first embodiment.
[0054]
In the present embodiment, the content provider ID information is recorded instead of the encryption key information, and the optical disc device 10 confirms that the ID key specified from the content provider ID information is registered, To play back. If the content recorded on the read-only optical disc is copied to a recordable optical disc having an embossed position, the content provider ID information cannot be read, and the ID key cannot be specified. Normal playback becomes impossible. Therefore, as in the first embodiment, copy protection is realized reliably and easily.
[0055]
Although FIG. 1 shows an example in which the odd number of the sync frame has the encryption key information, the present invention is not limited to this, and the sync frame including the encryption key information may be an even number. The number of sync frames including the encryption key information does not need to be the same as the number of sync frames including the sync pattern information, and it is sufficient that one or more physical sectors include one or more. For example, the sync frame including the encryption key information may be about 1/4 of the sync frame included in one physical sector, and for a certain physical sector, the entire sync frame includes the encryption key information. It may be configured.
[0056]
In the first embodiment, an example has been described in which the emboss itself shown in FIG. 5 has address information. However, in the emboss, the area to be formed should be recorded with a sync pattern, encryption key information, or content provider ID information. If it is an area, it functions as copy protection, so the information of the emboss itself has nothing to do with the copy protection function. Thus, the emboss may have other useful information or no information at all. However, since the emboss is formed for the purpose of inhibiting the reproduction of the recording signal, an emboss that is small enough not to affect the recording signal formed on the emboss or an emboss that is too large is not preferable. It is desirable that several types of length embosses are randomly arranged.
[0057]
In the above-described embodiment, an example in which the stamper master 36 is manufactured using the information recording apparatus illustrated in FIG. 3 has been described. However, the information recording apparatus illustrated in FIG. It can also be used in the authoring step. The combination of the encryption key information and the information data is not limited to the combination described in the above embodiment, and it is sufficient that the configuration is such that the content data can be reproduced in a pair. In the third embodiment, the content is reproduced when the ID key is specified from the content provider ID information. In the first embodiment, this ID key may be adopted as the encryption key information. The area for forming the emboss shown in FIG. 3 does not need to exactly match the area where the sync pattern, encryption key information, or content provider ID information is to be recorded, and a part of the emboss records information data. It may protrude into the area where it should be.
[0058]
In the second embodiment, an example has been described in which the divided content data is replaced with a dummy data sequence “0000”. However, the dummy data sequence, the data length of the data sequence, and a predetermined position in the divided content data are described. And the like can be changed as appropriate. For example, the dummy data string need not be “0000”. The data cut by the conversion rule does not necessarily need to be concentrated in a part of the content data, and may be dispersed in the content data. The applied conversion rule may be a different rule for each sync frame.
[0059]
In the third embodiment, the content provider ID information 63 may be configured so that an ID key can be specified from the content provider ID information included in one sync frame, or included in a predetermined number of sync frames. When the content provider ID information is combined, one ID key may be specified. For example, the content provider ID information existing in one physical sector may be combined according to a predetermined rule, and one ID key may be specified. The content provider information 63 may have a complicated configuration so that the ID key cannot be easily specified.
[0060]
In the above-described embodiment, an optical disk has been described as an example of the information recording / reproducing medium. However, the present invention is not limited to this. Even when a semiconductor storage device such as a ROM or a RAM is used as an information recording medium as well as a type disk, contents can be recorded on the information recording medium in the data format adopted in the above embodiment. Further, when an optical disc type information recording medium is employed, it does not depend on the laser wavelength of an optical head for performing recording and reproduction. For example, a red laser of about 660 nm can be used, or a blue laser of about 400 nm can be used. Since the data format adopted in the above embodiment does not depend on the modulation code, various modulation and decoding such as EFMplus and 1-7 modulation can be adopted.
[0061]
Although the present invention has been described based on the preferred embodiment, the information recording / reproducing medium, the information recording / reproducing apparatus, the information recording / reproducing method, and the data structure of the information recording / reproducing medium of the present invention are as described above. The information recording / reproducing medium, the information recording / reproducing apparatus, the information recording / reproducing method, and the information recording / reproducing medium obtained by making various modifications and changes from the configuration of the above-described embodiment are not limited to the embodiment. Is included in the scope of the present invention.
[0062]
【The invention's effect】
As described above, the information recording / reproducing medium, the information recording / reproducing device, the information recording / reproducing method, and the data structure of the information recording / reproducing medium according to the present invention are not capable of reproducing the content unless the encryption key information is normally read. Is adopted to prevent the operation from being performed. Since the information recording medium is constructed such that it is difficult to read out the information recorded in the portion where the encryption key information is to be written when the information recording medium is manufactured, Even if the content is copied from the information reproducing medium in which the content is recorded in the data structure, the content cannot be reproduced, and the copyright of the content creator is protected.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a data structure of one physical sector read from an optical disc according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a data structure of one physical sector of content data read from a conventional optical disc as a comparative example.
FIG. 3 is a block diagram illustrating a configuration of an information recording apparatus that generates a stamper master used when recording content data in the data format of the first embodiment.
FIG. 4 is a block diagram showing a configuration of an optical disk device for reading data stored on the optical disk of the first embodiment.
FIG. 5 is a schematic view showing a part of a track of a write-once optical disc or a rewritable optical disc used as the optical disc 20.
FIG. 6 is a block diagram showing a configuration of a sync frame including encryption key information having a data structure recorded on an optical disc according to a second embodiment of the present invention.
FIG. 7 is a block diagram showing a configuration of an optical disk device for reading data recorded on an optical disk according to the second embodiment.
FIG. 8 is a block diagram showing a configuration of a sync frame including content provider ID information of a data structure recorded on an optical disc according to a third embodiment of the present invention.
FIG. 9 is a block diagram showing a configuration of an optical disk device for reading data recorded on an optical disk according to the third embodiment.
[Explanation of symbols]
10: Optical disk device
11: Objective lens
12: LD (laser diode)
13: LD drive circuit
14: Photodetector
15: decryption means
16: Spindle control circuit
17: decoding means
18: ID confirmation means
20: Optical disk
21, 41: physical frame
22, 25, 42: Sync frame
23, 43: Sync pattern information
24, 44: Information data
26: Encryption key information
27: Encrypted information data
28: Emboss
29: Guide groove
30: Information recording device

Claims (16)

A data signal recorded on a medium is divided into frames for each predetermined unit data, and an information reproducing medium in which a timing synchronization signal is inserted and recorded between the frames,
In part or all of the area where the timing synchronization signal is recorded, encryption key information is recorded,
An information reproducing medium, wherein at least a part of the data signal is recorded so as to be recoverable by the encryption key information. 2. The information reproducing medium according to claim 1, wherein the at least a part of the data signal is encrypted data encrypted so as to be recoverable by the encryption key information. 2. The information reproducing medium according to claim 1, wherein the encryption key information is constituted by data obtained by cutting a part of the data signal. A data signal recorded on a medium is divided into frames for each predetermined unit data, and an information recording medium employing a recording format in which a timing synchronization signal is inserted between the frames,
A pre-pit is formed in a synchronization signal recording area where the timing synchronization signal is to be recorded, and the pre-pit has a function of inhibiting reproduction of a signal recorded in the synchronization signal recording area. Information recording medium. The information recording medium according to claim 4, wherein the pre-pit includes address information. 6. The information recording medium according to claim 4, wherein a depth of the pre-pit is substantially the same as a depth of a guide groove for tracking control. An information reproducing apparatus for reproducing a data signal from the information reproducing medium according to any one of claims 1 to 3, wherein an algorithm for decrypting the data signal based on the encryption key information is stored. Information playback device. An information recording apparatus for recording a data signal on the information recording medium according to any one of claims 4 to 6, wherein at the time of recording the data signal, at least one of a synchronization signal recording area in which the prepit is formed in advance. An information recording device that partially records encryption key information. In an information recording apparatus for dividing and recording a data signal to be recorded on a medium for each predetermined unit frame,
Encryption means for encrypting at least a part of the data signal for each unit frame to obtain encrypted data,
Recording means for recording the data signal while inserting at least one of a timing synchronization signal and encryption key information for restoring the encrypted data in at least a part between the frames. Recording device. A recording data structure for a data signal recorded on an information recording / reproducing medium,
A data signal divided into frames for each predetermined unit data,
A timing synchronization signal inserted between the frames;
Instead of part of the timing synchronization signal, or including encryption key information inserted between the frames in addition to at least a part of the timing synchronization signal,
A recording data structure, wherein at least a part of the data signal is configured as data converted so as to be recoverable by the encryption key information. The data structure according to claim 10, wherein the data signal is encrypted data that has been encrypted so as to be able to be restored using encryption key information. The data structure according to claim 10, wherein the encryption key information is configured by data obtained by cutting off a part of the data signal. In an information recording method for recording a data signal on an information recording medium,
Dividing the data signal into predetermined unit frames,
Encrypting at least a part of the data signal for each unit frame into encrypted data,
An information recording method, wherein the data signal is recorded while at least one of a timing synchronization signal and encryption key information for restoring the encrypted data is inserted into at least a part between the frames. An information reproducing method for reproducing a data signal recorded by the information recording method according to claim 13,
Reading the encrypted data and the encryption key information from an information medium,
An information reproducing method, wherein the data signal is reproduced while restoring the encrypted data based on the encryption key information based on a predetermined algorithm. In an information recording method for recording a data signal on an information recording medium,
Dividing the data signal into predetermined unit frames,
An information recording method, wherein the data signal is recorded while at least one of a timing synchronization signal and ID information of a creator is inserted into at least a part between the frames. An information reproducing method for reproducing a data signal recorded by the information recording method according to claim 15,
Reading the data signal and the ID signal from the information medium,
An information reproducing method, wherein the data signal is reproduced when the ID signal or ID information obtained based on the ID signal matches stored regular ID information.

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