RU2219596C2 - Data medium incorporating auxiliary information, reader, and method for manufacturing such data medium - Google Patents

Abstract

FIELD: data medium, reader, and data medium, manufacture. SUBSTANCE: data medium has track with supporting structures dividing this track into areas. Supporting structures submit information related to data layout on medium. Information is presented in structures in predetermined way. Supporting structures also bear auxiliary information. The latter relates to first mentioned information and includes check information used in data processing for preventing use of unauthorized copy of data medium that does not bear auxiliary information. Reader has demodulation means for recovering auxiliary information. Mentioned auxiliary information is included in supporting structures during manufacture of data medium. EFFECT: simplified means for recovering auxiliary information preventing use of unauthorized copy of data medium. 14 cl, 7 dwg

Description

 The present invention relates to a storage medium including a track for recording structures in which information is presented in a predetermined manner, and for recording corresponding auxiliary information.

 In addition, the invention relates to a reader for reproducing information from a storage medium, this storage medium including a track for recording structures in which information is represented in a predetermined manner, and for recording corresponding auxiliary information, and this device includes reading means for reading structures and demodulation means for recovering information from a read signal in a predetermined manner, and means for restoring an auxiliary new information.

 In addition, the invention relates to a method for manufacturing an information medium, which includes a track for recording structures in which information is presented in a predetermined manner, and for recording the corresponding auxiliary information, the content of the auxiliary information depending on the content of the information itself.

 Such a storage medium and a reading device are known from patent EP-0545472. A known storage medium includes a pre-prepared recording guide track, the so-called pre-recording groove. In the recording track, which is specified by the pre-recording groove, the information recorded in a predetermined way is represented in the form of optically readable structures that are formed by changing the first physical parameter, for example, the relative height of the scanned surface. The pre-recording groove has a varying second physical parameter, for example, the amplitude of vibrations in the transverse direction, which is also referred to as beats. The beats of the pre-recording grooves have frequency modulation (FM), and this modulation displays supporting information that is associated with basic information in the form, for example, of a decryption code for restoring information stored as encrypted information. The known device includes reading means for reading structures and recovery means for restoring auxiliary information. The known device and the storage medium form a system for the controlled reproduction of information. For this, the device includes means for reproducing information depending on the auxiliary information. If the information is copied on a recordable information medium, information from this copy will not be reproduced, since only structures will be recorded during the recording process, and the copy itself will not contain any auxiliary information.

 The known device has a drawback due to the need to restore auxiliary information on changes in the second physical parameter, in which auxiliary information is presented in a different way from the recorded structures. As a result, means for recovering auxiliary information are of high complexity.

 The aim of the invention is to develop means for the controlled reproduction of information in which the recovery of auxiliary information can be carried out by simple means and at low cost. To achieve this goal, the information carrier in accordance with the present invention is characterized in that the information carrier includes reference structures that divide the track into areas for block recording information, and in these reference structures auxiliary information is presented in a predetermined manner. To achieve this, the reader in accordance with the present invention is characterized in that the demodulation means include means for reconstructing auxiliary information from the supporting structures available on the information medium, and these supporting structures divide the track into areas for block recording information. To achieve this goal, the method in accordance with the present invention is characterized in that the storage medium has support structures that divide the track into areas for block recording information, and in these support structures auxiliary information is presented in a predetermined manner.

 The implementation of the invention can lead to the restoration of auxiliary information from the storage medium using demodulation means, since the information itself and the auxiliary information are presented in a predetermined manner. This has the advantage that the recovery of supporting information can be carried out by simple means.

 Another embodiment of the information carrier in accordance with the present invention is characterized in that the supporting information includes control information that is related to the functionality of the information itself, the control information being used in processing the information to perform this function. This option has the advantage that the very possibility of using information, for example, video information, or a computer program depends on supporting information. As a result, it becomes impossible to use a copy of the storage medium without supporting information.

 A further embodiment of the information carrier in accordance with the present invention is characterized in that the information carrier is rewritable and information on it can be recorded by the recording process, and the supporting structures are indelible. The storage medium may be, for example, of an optically readable type, for which the supporting structures in the manufacturing process should be recorded only once or recorded in an indelible manner. This option has the advantage that the supporting information can no longer be changed.

 A further embodiment of the information carrier in accordance with the present invention is characterized in that the support structures comprise marks whose centers are offset relative to the middle of the recording track. A standard recording device is not intended for introducing marks in offset positions. This option has the advantage that a copy containing auxiliary information cannot be made on such a standard recording device.

 A further embodiment of the information carrier in accordance with the present invention is characterized in that the support structures are present only in a predetermined portion of the recording track. This option has the advantage that the part of the recording track, which does not contain support structures, can be formatted in accordance with the existing standard for recording information, for example, DVD-ROM (Universal Digital Disc - Read Only Memory - DLC-ROM). A predetermined part of the track, located, for example, in the initial area and including supporting information, according to the invention will be available for the reader in read-only mode, while the ability to produce undistorted reading of information according to the standard using a standard reader is maintained.

 An embodiment of a reader device in accordance with the present invention is characterized in that this device includes means for processing information and / or auxiliary information depending on the auxiliary information. The information may then be encoded (scrambled or encrypted), and the auxiliary information may include a decoding key. This option has the advantage that this reader can decode information and / or auxiliary information, while a standard reader does not have access to information. In addition, the reader according to the invention can read and process auxiliary information, while not allowing the user to access the auxiliary information itself at the output of the device. This option has the advantage that the user cannot access the supporting information for making illegal copies.

 A further embodiment of the reader in accordance with the present invention is characterized in that the auxiliary information comprises control information that is related to the functionality of the information itself, and that the information processing means is configured to perform this function depending on the control information. This option has the advantage that the processing of information, such as video information, or a computer program is performed depending on the supporting information. As a result, a copy of the information carrier without supporting information is not suitable for use, which provides protection against illegal copying.

 A further embodiment of the reader in accordance with the present invention is characterized in that this device includes means for detecting the location of the supporting structures relative to the recording track or relative to other supporting structures. This option has the advantage that an illegal copy of the controlled information, including supporting structures, can be detected by the incorrect location of the supporting structures, for example, without lateral shift or mutual alignment in adjacent turns of the recording track.

 These and other aspects of the invention will become apparent and will be explained further in the description with reference to options for its implementation.

 Figures 1a-1c show a recording medium of a recordable type.

 Figure 2 schematically shows the supporting structure.

 Figure 3 shows a reader for reproducing information.

 4 shows a reader for reproducing and processing information.

 Figure 5 shows the layout of a device for reproducing and processing a computer program.

 The numbers of item numbers in the drawings, the features of which have already been described, are considered as references.

 On figa shows the storage medium 1 of optically readable type, having the form of a disk. The storage medium includes a track 9 for recording, which has the form of spiral turns. The turns can also be arranged not in the form of a spiral, but concentrically. Track 9 is indicated on the information carrier by a tracking track, which allows the read / write head to follow track 9 when scanning, and the tracking track can, for example, be formed by a pre-recording groove. The tracking track may also include, for example, applying regularly substructures that periodically cause signals to appear in the tracking servo mechanism (tracking the recording track). Fig. 1b shows a cross-section of the information carrier 1 along the line b-b, on which the transparent substrate 5 is covered with a recording layer 6 and a protective layer 7. The pre-recording groove 4 can also be formed in the form of a raised region or have material properties different from neighboring areas. In addition, it is possible to record information alternately in a recessed or elevated part, the so-called Groove and Land tracking track. In this case, the deepening of the tracking track 4 (groove) has the same width as the raised portion (surface) lying between them, and the height of the tracking track is changed from the surface to the groove or vice versa, usually once per revolution. Information about the storage medium is presented in the form of optically readable tags. In this case, the binary information signal is, for example, represented as the position and / or length of the marks. Labels can be entered using the press, as is usually done for read-only CDs, such as CD-ROMs, on which information and a tracking track are represented as extruded labels. In the case of a recordable information carrier 1, the recording layer 6 can be recorded optically or magneto-optically using a device for block recording information. For the formation of structures in track 9, each mark is formed by one or more recording pulses with constant or variable recording energy, which depends, for example, on the length of the mark. An example of a recordable storage medium is an erasable CD, which has a phase layer of material.

 Supporting structures 2, which divide the track into regions, into so-called sectors, for block recording information, are located uniformly along the tracking track. The sectors between the supporting structures 2 can be selected so small that the amount of information suitable for practical use that fits in the sector is a block, for example, 512 bytes or 2 Kbytes each. A large cell may also include several such cells, for example, 2 Kbytes and have a total length, for example, 16 or 32 Kbytes. A large cell may contain additional characters for error correction, and error correction is valid for the entire length, which is large in comparison with the expected errors. As a result, it is impossible to select an arbitrary small cell with error correction. In practical implementation, a number of supporting structures for each turn will be used. On figa shows only a few support structures 2.

 Fig. 1c shows a support structure 2. The support structure 2 contains location address information on a storage medium. The address information gives, for example, the address of the sector located after the reference structure and is presented as a sequence of labels 8. The address information has a generally accepted form, for example, first comes the synchronization component, followed by the address and error detection symbols. Using this address information, the position of the read / write head can be checked so that information can be recorded in the desired sector.

 Figure 2 schematically shows an embodiment of the support structure 2 in several parallel tracks of the groove-surface tracking track. The upper track 21 is a groove, which is continued in the form of a groove 26 after the header 20 of the sector of the supporting structure. The second track 22 is higher on the surface and continues after the sector header as surface 27. At least in one support structure per revolution, a surface-groove alternation in the sector header will occur, in this case, the upper groove 21 continues as surface 26, and the second track 22 continues as a recess. Therefore, the supporting structure during alternation should be aligned in adjacent tracks, and the further supporting structures of the coil do not require mutual alignment. In the reference structure, information can be recorded in those areas whose center is offset relative to the middle of track 9. In the case of shifted areas, the read signal will be less strong, but still sufficient to restore the address information recorded in these areas. In the case of combined structures, the possibility of shifting the pitch of track 28 by 50% can be considered an advantage. In this case, a clearly different read signal is obtained compared to non-shift structures, and shifted areas from two adjacent tracks are read equally well. Shown in FIG. 2, the support structure is formed by two regions 23 with an upward bias, two regions 24 with a downward bias, and an unrecorded region 25. In the case of supporting structures without mutual alignment, a smaller shift should be used or there should be no shift at all. According to the invention, auxiliary information is included in the supporting structures, for example, one of the shifted regions 23 or 24 can be used for auxiliary information. In this case, the auxiliary information is presented in the form of optically readable labels, similar to how information is presented in sectors. Information is presented, for example, in the form of position and / or length of labels, similar to how it is done for CD (CD). Since the auxiliary information is presented in the same form, the information itself and the auxiliary information can be restored by the same demodulator. The auxiliary information may include, for example, a decoding key, a serial number, or access codes. In an embodiment of the invention in which the address information in the reference structure is recorded sequentially or with repetitions, one of the repeated entries can then be replaced by auxiliary information. In an embodiment of the information carrier in accordance with the invention, the auxiliary information comprises control information necessary for the possibility of using the information. The control information is associated with the final functional purpose of the information for the corresponding field of its application. This has the advantage that the reproduction of information and its processing can be verified by the user in a device suitable for this purpose, since the information control operation can only be implemented in this device. For example, in the case of video information with compression, the final operation performed with the information is the decompression and restoration of the video signal. By attaching control information to at least one of these operations, it is possible to provide appropriate protection against illegal copying. Indeed, in this case there is no simple connection between the supporting information and other information. It fundamentally differs from systems known from the prior art, such as, for example, bitwise copying, which means that the information should not be able to be copied, and it is recorded in fixed positions on the information carrier, since in this case it is easy to carry out illegal modification. In another embodiment of the invention, the information includes a computer program, and auxiliary information is needed when the program is executed on a computer. Then, during its work, when certain operations have already been completed, the program calls supporting information. Control information is well suited as supporting information. After that, the computer program can be installed on the computer system (on the hard disk), this is true, but to run the program (or its parts), you must have the original storage medium.

 The system for controlled reproduction of information in accordance with the present invention includes a read-only type information carrier that contains information and supporting structures including auxiliary information, and a reader. This read-only storage medium can be manufactured in a conventional manner, for example by pressing as CD (CD), and during production, auxiliary information is introduced into the supporting structures. A read-only storage medium in accordance with the invention includes auxiliary information contained in support structures. This is an advantage, since during playback there is no possibility of freely obtaining this information at the output of the device and, therefore, it is not available for simple copying. If, for example, a video CD is read on a personal computer PC (PC) through a CD-ROM player (CD-ROM), then auxiliary information for a PC (PC) is not available. In addition, there are storage media of a recordable type and devices for recording them, and storage media after they are recorded can be reproduced in most cases in a reader, since the information is recorded on them in the same way, such is, for example , KD-03 (CD with write once) (CD-WO). Such a recording device generally cannot record arbitrary reference structures. In an embodiment of a recordable recording medium according to the present invention, the support structures are indelible. Such support structures may be produced by a manufacturer of clean recordable recording media. This has the advantage that although the recording device may have the ability to record any arbitrary structure, there is no possibility of erasing the supporting structures and reintroducing them with the inclusion of auxiliary information. An embodiment of the invention is a storage medium that includes a sensitive layer of phase shifting material and support structures obtained by embossing. Another embodiment of the invention is a storage medium that includes a write-once sensitive layer in which support structures are already recorded during its manufacturing. In another embodiment of the information carrier, support structures containing auxiliary information have a shift compared to the following support structures, while a standard recording device cannot produce such a deviation. A first example of a shear is when some of the support structures are offset in the transverse track direction, as described above. In another example, in a system in which the rotation of the information carrier during reading and writing is controlled in a standard way to provide a constant linear velocity (PLC) mode, and the supporting structures on the information carrier are recorded in a constant angular velocity (VMP) mode. In PLC mode, the disk rotation speed is coordinated so that the track speed is constant relative to the recording, while in the CCP mode, the rotation speed is constant. In the case when a standard recording device with a PLC can record supporting structures, this device will still not be able to record structures with a CCP, since the rotation speed is controlled in the PLC mode. An embodiment of the information carrier includes said support structures with a shift only in a predetermined portion of the track. This predetermined part may be a start area, or an end area, or a particular ring-shaped part of a recording area on a storage medium. The reader in accordance with the invention will read the supporting structures in this part, including supporting information, while being able to produce undistorted reading of information from a further track using a standard reader. Part of the track, which does not include supporting structures, may have a different recording format, for example, according to the existing standard for recording information, for example, DCD-ROM (DVD-ROM). If support structures obtained in the CCP mode are used, then the position of the support structures in adjacent turns is known. In order to detect illegal copies, the reader must check whether the structures are recorded in the CCP mode and, for example, if they are located correctly, then carry it out from track to track with the passage of several tracks and compare the synchronization of the reference structures with the period of rotation of the information carrier. If there is a displacement in the transverse direction, support structures are used, and the support structures of the CCP must have exact mutual alignment from one turn to another turn of the track. This is important to ensure reliable reading of the biased structure or adjacent master data, since mutually non-aligned structures with bias would cause radial crosstalk during reading. In order to detect illegal copies, the reader according to the invention checks the lateral displacement of the structure, for example, by analyzing the signals of the sub-detectors, differences in reflected radiation caused by structures having an offset are detected compared to structures without an offset. As a result, the need to record supporting structures, including supporting information and having a shift relative to standard supporting structures, makes it impossible to obtain an illegal copy on a standard recording device. For example, a write-once system according to the CD standard, known as KD-03 (CD-R), can record any required information, block-by-block in PLC mode on the entire CD with write-once, including headers and synchronization information in accordance with CD standards. However, the recording device KD-03 (CD-R) cannot function in the CCP mode, since the rotation speed and the recording location of the information blocks are determined by the tracking track in the pre-recording groove. Therefore, the recording device KD-03 (CD-R) cannot produce a combination of supporting structures, namely the header in adjacent tracks. In addition, the KD-03 (CD-R) CD-R recorder cannot record any transverse shear structure. An embodiment of a write-once information carrier having such shift structures also includes user data in a read-only format defined by the standard, the so-called partial ROM disk. A format that allows recording could include rules for this part of the ROM. In the usual case, part of the ROM will include support structures without a shift, like the headers in the standards for only ROM recording discs, in a conventional notched recording track.

 FIG. 3 shows a device in accordance with the present invention for reading a disk-shaped information medium 1. The device includes a reading unit 31 for reading blocks of information from the storage medium 1. The reading unit 31 scans the recording track 9 with the radiation beam 30. In a scanning operation, the reading unit 31 is mounted above track 9 using a conventional type tracking system (not shown). The information carrier 1 is rotated, the motion transmission is carried out by means of the drive, and the reading unit 31 reads the track 9 by the beam 30 and converts the optically readable marks in the form of which the information is presented into an electrical signal. In addition, the device includes demodulation means 32 for recovering information. According to the invention, the support structures include auxiliary information, and the demodulation means 32 recover information and auxiliary information in the same way. The demodulation means 32 are configured to recognize the types of information read: information blocks, address information, and auxiliary information. At the output 33 receive information blocks, the receipt of which is controlled using a conventional type system controller (not shown). To position the reading unit 31, address information is supplied to the system controller. Auxiliary information can also be supplied to the system controller, which can be used to issue information blocks. For example, a system controller may check auxiliary information against predetermined control numbers or control information that can be obtained from information blocks. If there is no match, then output 33 will be blocked. In another embodiment, the device also provides auxiliary information 33 that is accessible to the user.

 FIG. 4 shows a device in accordance with the present invention for reading a disk-shaped information medium 1 and for processing information. The device corresponds to the device described above with reference to FIG. 3 and includes a reading unit 31 and demodulation means 32 for recovering information. According to the invention, the device includes a processor 43 for processing information and processing means 44 for processing auxiliary information, both of which are connected to demodulating means 32. In the first embodiment, the devices of processing means 44 are capable of decoding an information block, for which, from auxiliary information by means of processing 44, a decoding key is obtained. Then, the processor 43 is arranged so that it descrambles or decrypts the information blocks by the decoding key. In the second embodiment of the device, the processor 43 is arranged so that it performs an information-driven operation, for example, if the information blocks contain compressed video information in the MPEG2 standard, then the video signal is restored. Supporting information contains the control information that is needed for recovery. Without supporting information, the video signal cannot be restored. An illegal copy of the information carrier does not contain auxiliary information or any other auxiliary information, so the video signal from it cannot be restored. In another embodiment of the device, the video signal comprises a so-called "watermark", which marks the video signal. Video programs preferably have any various “watermarks” to identify them, which may include the name of the manufacturer or the time of creation. A watermark can also be formed by special combinations of compression parameters, which is absent in video signals without a watermark. Such a “watermark” can be easily entered during encoding, but it is almost impossible to add or change later, in an already compressed video signal. The processor 43 is arranged so that it installs a “watermark” in the video signal, and if possible, then checks the “watermark” with the control information obtained from the supporting information. Illegally copied video information may be blocked if the control information does not match the “watermark”. Then this is an advantage in that the detection of a “watermark” and its verification with the control information is carried out immediately after reading. In a preferred embodiment, a “watermark” is detected without completely decompressing the video information, so the processor 43 may be of a simpler type.

 5 shows a device in accordance with the present invention for reading a disk-shaped information medium 1 and for processing information. The device corresponds to the device described above with reference to FIG. 4 and includes a reading unit 31, demodulation means 32 for recovering information, a processor 43 for processing information and processing means 44 for processing auxiliary information. The device further includes a processing unit 50 for processing computer programs, and the processing unit is connected to the output of the processor 43 and to a system controller (not shown) through an interface. The storage medium contains a computer program in which a number of essential data is included in only auxiliary information. They can be, for example, a decoding key, a serial number or an access code, or, possibly, a small part of the program code (subprogram, object or module). Since the program needs these essential data, it can work well only when access can be made to both information blocks and auxiliary information. In another embodiment, the processor 43 is arranged to selectively forward part of the auxiliary information to the user. This is useful, for example, when reproduction of information is used in a computer system. The fact that not all auxiliary information is sent to the user provides better information protection. In this case, when an illegal copy is made, using the search subroutine, it is impossible to call all the auxiliary information from the storage medium and create an auxiliary file on the illegal copy, with which the auxiliary information can be made available when using the illegal copy in the system. Part of the auxiliary information, which can be sent freely, can relate, for example, to a fixed part of the information carrier or directly be included in the auxiliary information. Information includes a computer program, and auxiliary information includes codes that are selected by a computer program at arbitrary times during its execution. If during selection the codes were not reproduced or incorrect codes were reproduced due to the fact that an illegal copy of the software was used, then the program will stop and, thus, will be useless.

 The invention can also be applied to non-disk-shaped information carriers, such as optical tapes or optical cards, which comprise a tracking track of support structures. Alternatively, the present invention can be used for magnetic and other storage media when they comprise a tracking track of support structures and in which auxiliary information can be placed in the support structures.

Claims (14)

1. A storage medium containing a track containing support structures that divide the specified track into areas for inclusion in these areas of information in blocks, the support structures representing information related to the location on the storage medium, and the information is presented in the structures in a predetermined manner, different the fact that the supporting structures additionally contain auxiliary information presented in a predetermined manner, while the auxiliary information refers to the first mentioned Uta information and includes control information, which is associated with the function of the first information, wherein the control information is used when processing information for functional purposes, i.e. to prevent the use of information from unauthorized copied information media that does not contain supporting information. 2. The storage medium according to claim 1, characterized in that the information contains video information that contains a control code, and the processing of video information depends on the control code and control information. 3. The storage medium according to claim 1, characterized in that the information includes a computer program, and the execution of the computer program depends on the control information. 4. The storage medium according to claim 1, characterized in that the storage medium is an optically readable type of medium in which a predetermined method for presenting information includes representing the binary information signal in the form of optically readable structures. 5. The storage medium according to claim 1 or 2, characterized in that the storage medium is a recordable type of medium on which information can be recorded during the recording process, while the supporting structures are indelible. 6. The storage medium according to claim 1 or 2, characterized in that the supporting structures include marks whose center is offset from the middle of the track. 7. The storage medium according to claim 1 or 2, characterized in that the supporting structures are only in a predetermined part of the track. 8. The storage medium according to claim 1 or 2, characterized in that the supporting structures in adjacent turns of the track are mutually aligned. 9. A reader for reproducing information from an information medium that contains a track for recording structures in which information is presented in a predetermined manner and for recording corresponding auxiliary information, and the device includes readers for reading structures and demodulation means for recovering information from the read signal in a predetermined manner, and means for restoring auxiliary information, characterized in that the demodulation means include means for restoring auxiliary information from the supporting structures located on the information carrier, and supporting structures divide the track into areas for block recording information, the device comprising means for processing the first depending on the auxiliary information, and the auxiliary information contains control information that is related to functional the purpose of the first information, and the information processing means are configured to implement this functional purpose depending awns from the control information, i.e., to prevent the use of the first information from an unauthorized copied information medium that does not contain supporting information. 10. The reader according to claim 9, characterized in that the information contains video information that contains a control code, and the processing of video information depends on the control code and control information. 11. The reading device according to claim 9, characterized in that the information comprises a computer program, and the information processing means is arranged to execute this computer program depending on the control information. 12. The reading device according to claim 9, characterized in that the information comprises a computer program, and the means for processing the auxiliary information are configured to send auxiliary information to the computer program, while the predetermined part of the auxiliary information is blocked. 13. The reading device according to claim 9 or 10, characterized in that it comprises means for detecting the position of the supporting structures relative to the track or other supporting structures. 14. A method of manufacturing a storage medium that contains a track containing support structures that divide the specified track into areas for including first information in blocks in these areas, the support structures representing information relating to the location on the storage medium, characterized in that structures additionally include supporting information presented in a predetermined manner, with supporting information related to the first information and includes control th information that is associated with the function of the first information, wherein the control information is used when processing the first information for functional purposes, i.e. to prevent the use of the first information from an unauthorized copied information medium that does not contain supporting information.

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