NL1010184C2 - Master mould for an optical registration carrier - Google Patents

Abstract

A master mould is made by means of a laser beam recorder (1) that is driven by an encoder (2) so that at least one programme, comprising variations in a physical parameter, can be stored on the master. Optical registration carriers are produced from this master. Random verification positions are generated and the coordinates are encrypted into verification information. The verification information is stored in the programme and verification effects are stored at the verification positions. These verification effects subsequently form a hallmark for an authentic, legally produced optical registration carrier.

Description

Short indication: Method for manufacturing an optical record carrier with the aid of a master mold, device suitable for carrying out such a method, optical record carrier, method for checking such an optical record carrier.

The invention relates to a method for manufacturing an optical record carrier using a master mold, which comprises at least one program comprising information stored in the form of variations in a physical parameter, wherein an encoder and a laser beam recorder a master matrix is manufactured, the laser beam recorder being controlled from the encoder for applying at least the program to the mother mold.

The invention also relates to a device suitable for carrying out such a method.

The invention further relates to an optical record carrier provided with at least one program which comprises information stored in the form of variations in a physical parameter.

The invention also relates to a method for checking such an optical record carrier.

The encoder and laser beam recorder can be integrated into a single device or be separate, interoperable devices. The encoder generates information that modulates the intensity of the laser and the laser beam before applying the program to the master die.

In the conventional production of optical record carriers such as CDs, CD-ROMs, DVDs, etc., among other things, music and user information are stored in a so-called active program of the record carrier. General information about the music and information, such as coordinates of the beginning and end of a particular section, is stored in a so-called passive program.

The passive program includes the lead-in and lead-out areas on the record carrier, while the active program is that part of a record carrier containing the user data.

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For some registrants, there is no such distinction between passive and active programs and only an active program.

When manufacturing the master mold by means of which the final record carriers are manufactured, the user data and additional information are supplied to an encoder and in the encoder the information is generated as it should be on the record carrier, i.e. the passive program (the walk-in and walk-out areas) and the active program. In the encoder, error-correcting techniques are performed (for example, CIRC) and the information is processed with, for example, an 8 to 14 modulation (EFM). CIRC and EFM are techniques that are used for CD recordings, for DVD recorders this is for example a Reed Solomon Product code and 8 to 16 modulation. The EFM signal is then transferred to an 1 axis beam recorder using which a photosensitive layer provided on a glass disc is exposed. The disc is then chemically treated to form the master die. The master mold can then be used to make molds. With the aid of the master mold or the molds manufactured therewith, the plastics record carriers, CDs etc. are manufactured by injection molding.

As described in CA-2.165.532, among other things, the ultimate record carriers such as CDs, CD-ROMs, etc. are often copied illegally. To verify whether a record carrier has been lawfully put into circulation, an SID-25 code is used, among other things. The SID code is applied to the mother mold using the laser beam recorder and then transferred to the record carrier via the metal mold. The SID code is a visually visible code that contains information about the laser beam recorder or encoder used.

The SID code has a number of drawbacks.

30 If the SID code is not properly stored in the laser beam recorder, it is easy to omit the SID code when using the laser beam recorder or to unlawfully replace the code with a code from a third party.

In this way it is relatively simple to manufacture illegal record carriers which cannot be distinguished from legally manufactured record carriers.

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The object of the invention is to provide a method for manufacturing optical record carriers with the aid of a master mold, wherein the record carrier is provided with a virtually non-copyable mark, whereby a clear distinction is made between 1 uniform 5 and illegally manufactured record carriers.

This object is achieved in the method according to the invention in that random control positions are generated, after which coordinates of the control positions are encrypted into control information, after which the control information is applied in the program and control effects are applied to the control positions.

In this way, the control effects can be applied relatively easily to the mother matrices, which later mark an authentic, original record carrier.

Because the control information is encrypted or encrypted, it is possible to store secret information in secret places on the record carrier. Encryption is understood to mean editing the audit information using encryption techniques so that it is not immediately clear which information the audit information contains. For example, use can be made of ASCII or binary coding.

The control effects applied to encrypted or encrypted control positions make it relatively easy to distinguish illegal record carriers from legal record carriers.

When illegally copying the record carrier, the information stored on the record carrier can be copied bit by bit. However, the bit sequence contains errors which are corrected by error correction methods during normal playback of a record carrier by the equipment required therefor. If the full bit sequence is copied, these errors are of course also copied and new errors are introduced by copying, whereby the total number of errors decreases the quality of the illegal record carrier.

Another method is to play back the information stored on a record carrier 35 using suitable equipment and using the error correction methods. The digital information obtained in this way can then serve as a basis for the production of good illegal record carriers.

By applying predetermined control effects to coded control positions, there are various possibilities for verifying whether a record carrier has been legally manufactured. The control effect stored at a check position may be, for example, a deliberately applied bit string error which is corrected by the error correction methods when a record carrier is played. This error is retained for bit by bit copying, but relatively poor illegal record carriers are obtained.

When copying the information using error correction methods, the deliberately made errors disappear, making the illegal record recognizable by the absence of the control effects expected at the control positions.

In addition, it is possible to apply other deliberately made errors to the control positions, such as, for example, a deviation in track position, track width, track depth, etc. These errors are also not adopted for bit by bit copying. This has made it virtually impossible to copy illegally in such a way that the illegal record carrier cannot be seen whether it is an illegal version or an original version.

It is noted that from Dutch patent application 8703032 a method is known for storing characteristic data on an information carrier, such as the exact location of a physical modification on the information carrier. However, this patent application does not relate to optical record carriers. Furthermore, it cannot be deprived from this patent application how an optical record carrier can be manufactured and, as it were, provided with a fingerprint which is unique for the specific optical record carrier.

It is further noted that European patent application EP-A1-0.644.474 discloses a method for securing an optical record carrier against illegal copying. According to this patent application, a record carrier is first manufactured, after which errors subsequently present in a record carrier are utilized for additionally applying a key to the record carrier. At 1 0; In the method according to the invention, a master mold is manufactured by means of which record carriers are produced which are immediately provided with the desired program, the control information and the control effects present at the control positions.

In preferred embodiments, the encoder and / or laser beam recorder identification code is also encrypted. This makes it virtually impossible to intervene in software with the control of the 1 asher beam recorder, as a result of which the identification codes are always present on the record carrier, and when an illegal copy is found, it is immediately possible to find out using which laser beam recorder. and / or encoder the master mold required for the record carrier is manufactured.

It is possible to set up the encoder and laser beam recorder in such a way that these devices check each other, as it were, for the presence of a suitable code and only cooperate with each other after mutual approval.

If the identification code is stored in the program, it is virtually impossible to prevent the correct identification code associated with the laser beam recorder and / or encoder from being applied to the mother mold.

The invention also relates to a method for checking the record carrier, which method is characterized in that the control information is decoded with the aid of a key code, so that the control positions are known, and subsequently the control effects present on the control positions become compared to the expected control effects.

Obviously, the key to deciphering the audit positions from the audit information and the audit effects to be found thereon should only be known to the competent authorities.

The invention will be further elucidated with reference to the drawings, in which fig. 1 shows a schematic representation of a device according to the invention, fig. 2A-2D schematically represent information stored on record carriers according to the invention, ". Figures 18 and 4 schematically show part of the structure of a CD and DVD record carrier, respectively, Figures 5A-C show various alternative possibilities for control information.

Corresponding parts are provided with the same reference numerals in the figures.

Fig. 1 schematically shows a laser beam recorder 1 and an encoder 2, each of which is provided with an associated identification code 3, 4. The encoder is further provided with a control position generator 5 by means of which random control positions HC can be generated. The encoder 2 is further provided with means known per se for controlling the laser beam recorder 1. The encoder 2 and 1 asher beam recorder 1 can be separate units or integrated into a single system.

The 1-laser beam recorder 1 is provided with control information generator 6. Both the 1-laser beam recorder 1 and the encoder 2 are provided at one output with an encryption unit 7, 8.

The operation of the device according to the invention is as follows. For the production of a master mold the laser beam recorder 1 and the encoder 2 are started up by the system controller. The encoder 2 and the 1 asher beam recorder 1 are coupled to each other and from the 1 asher beam recorder 1, the laser beam recorder identification code LBR ID is fed via the encryption unit 7 and the encryption unit 8 to the encoder 2. Due to the double encryption units 7, 8 it is virtually impossible to retrieve the laser beam recorder identification code LBR ID. From the encoder, the encoder identification code (encoder ID) is reversed via the encryption units 8, 7 to the laser beam recorder. Both in the laser beam recorder 1 and in the encoder 2 it is checked whether the associated device has correctly identified itself. Subsequently, using the encoder 2, coordinates of a number of random control positions are generated and from the laser beam recorder 1 it is indicated which control effects should be applied to these control positions. Then the encoder identification code, 1-beam beam recorder identification code, 35 coordinates of the control positions and control effects to be applied to the control positions are encrypted by the encoder 2, after which the bit signal is sent to the 1-laser beam recorder by the '1 8 4 7 encoder. 1 is sent. Subsequently, a laser beam is output from the 1 asher beam recorder 1, with the aid of which the photosensitive layer present on the mother mold to be manufactured is exposed. Intervention by the 5 system controller in this process is virtually impossible.

Fig. 2A-2B broadly show the information stored on a CD and DVD with the portion indicated by AP being the active program and the portions to the left and right thereof forming the passive program. With a CD record carrier these parts are called the lead-in LI and lead-out LO program, respectively. According to the invention the control information is preferably stored in the passive program at the locations ID1 and ID2 with the identification codes of the laser beam recorder and the encoder as well as the coordinates of the control positions. The expected control effects are then applied to these control positions in the active program.

Fig. 2C shows a record carrier in which both the control information and the control e-effects are provided in the active program.

Fig. 2D shows a record carrier which is only provided with an active program, in which both the control information and the control effects are also provided in the active program.

In Fig. 2A-2D the normal information is represented, with "+" the boundaries between active and passive programs, with "=" the control information and with the control positions with control effects applied thereon.

The control effect is, for example, a lowered (well) or raised (land) part with a clearly different length, for example of 20 clock pulses. Normally, for example, only lengths of a maximum of 11 clock pulses are allowed. When a record carrier which is provided with information with a length of 20 clock pulses is played back, this is corrected by error correction methods. With the aid of a time interval analyzer (TIA), the EFM signal originating from the record carrier can be analyzed and the information with deviating length 35 can be detected relatively easily.

Alternative control effects are shown in fig.

In which the wells 10 arranged one behind the other are not located on a circular track, but on a track 11 which is provided with a previously known undulation.

Fig. 5B shows control effects in which the width B 5 of the wells 12 are of a different size than the wells 10.

In Fig. C, the control wells 13 are higher than the surrounding wells 14.

It is of course possible to apply different previously known control effects to the different control positions, whereby it is unknown to an unauthorized person which control effects are located on which control positions. In addition, since the list of control positions is coded, it is virtually impossible for an unauthorized person to manufacture an illegal record carrier that contains all control effects.

FIG. 3 and 4 show part of the passive program of a CD record carrier and a DVD record carrier, respectively, in the passive program the encoder identification code (encoder ID), the 1 asunder bunder recorder identification code (LBR ID), time and date of manufacture (time + date deer ID1) and the coded control positions 20 (phase effects list) is stored. This control information is preferably located on the record carrier a number of times in order to prevent loss of information in the event of damage to the record carrier, for example.

In addition, it is possible to store the control information in that portion of the passive program that is not read using normal playback equipment.

With playback equipment from a CD record carrier, a read spot is led to a position in the lead-in section and a so-called Table Of Contents is then read. After the Table Of Contents information is complete, the reading spot is brought to the beginning of the active program. The audit evidence is preferably written at the end of the lead-in section where the reading spot normally never comes. For the lead-out part, a position can also be indicated where the reading spot normally never comes.

Because a new series with control positions and associated control effects is preferably produced with each new master mold and, if desired, the control effects stored on the control positions can also be varied, it is illegal to copy record carriers which are considered legal will be labeled impossible. With the aid of the methods and the devices according to the invention, the copying of record carriers is therefore not rendered impossible, but it is possible to identify whether a record carrier has been legally or illegally manufactured. Since, preferably, simultaneously with the manufacture of the record carrier, the code concerning the laser beam recorder and / or encoder used in the manufacture of the master mold is also applied, it is easy to trace when detecting an illegal record carrier by means of whose equipment the master mold is manufactured. This greatly discourages the owner of the laser beam recorder and encoder from engaging in illegal practices.

It is also possible that the coordinates of the control positions are generated in the laser beam recorder and / or system controller or in both the encoder and the laser beam recorder or system controller.

In addition to storing information about the devices used, it is also possible to store other relevant information such as, for example, the time when the record carrier was manufactured or the geographical position of the laser beam recorder by means of Global Positioning techniques (GPS) or title-specific information.

The method can also be used in a CD or DVD recorder or other device for simply writing optical media.

25 With a CD-R record carrier, a so-called lead-in or lead-out part (passive program) is not always present, so that with a CD-R record carrier, the control information must be stored in a part of the active program that is CD-R playback is not consulted.

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Claims (16)

1. A method for manufacturing an optical record carrier using a master die comprising at least one program comprising information stored in the form of variations in a physical parameter, wherein a master die is produced using an encoder and a laser beam recorder manufactured, wherein the laser beam recorder is driven from the encoder to apply at least the program to the mother mold, characterized in that random control positions are generated, after which coordinates of the control positions are encrypted into control information, after which the control- information is provided in the program and control effects are applied to the control positions. 2. Method according to claim 1, characterized in that an encoder identification code is encrypted with the aid of the encoder, after which the encrypted encoder identification code is provided as control information in the program by means of the laser beam recorder. 3. Method according to claim 1 or 2, characterized in that a 1-axis beam recorder identification code is provided in the program as control information by means of the laser beam recorder. Method according to claim 1, 2 or 3, characterized in that control effects are applied to the control positions in an active program and the control information is provided in a passive program. A method according to any one of the preceding claims, characterized in that the identification code stored in the laser beam recorder is encrypted in the encoder together with the encoder identification code in the control information to be included in the program. Method according to one of the preceding claims, characterized in that the encoder identification code is verified by means of the laser beam recorder and the laser beam identification code is used by means of the encoder. Device suitable for performing the method according to any one of the claims, wherein the device is provided with a 1 o 1 o 1 8 4 laser beam recorder and an encoder coupled thereto, characterized in that the device is provided with a random control positions generator and means for adjusting the program to be generated with the aid of the laser beam recorder, wherein the coordinates of the control positions are encrypted in control information in the program and control effects are applied to the control positions in the program. 8. Device according to claim 7, characterized in that a laser beam recorder identification code stored in the 1 asher beam recorder and / or an encoder identification code stored in the encoder can be processed into control information by means of the encoder. 9. An optical record carrier provided with at least one program, comprising information stored in the form of variations in a physical parameter, which has been produced with a mother mold obtained by a method according to any one of the preceding claims, characterized in that it The program is provided with audit evidence that includes encrypted coordinates of audit positions on the record carrier, with predetermined audit effects on the audit positions. Optical record carrier according to claim 9, characterized in that the control information comprises an identification code concerning the device used for manufacturing the record carrier. Optical record carrier according to claim 9 or 10, 25, characterized in that the control positions are randomly distributed over the record carrier. Optical record carrier according to any one of the preceding claims 9-11, characterized in that the control information is stored in a passive program and the control effects in an active program. Optical record carrier according to claim 12, characterized in that the control information is stored in a hidden part of the passive program. 14. Optically writable record carrier provided with at least one program comprising information stored in the form of variations in a physical parameter, which has been produced with the aid of a recorder, characterized in that the program is provided with 1 8 4 control information that includes encrypted coordinates of control positions on the record carrier, with predetermined control effects present on the control positions. 15. Method for checking an optical record carrier as claimed in any of the foregoing claims 9-14, characterized in that the control information is decoded with the aid of a key code, so that the control positions are known, and subsequently the control positions present on the control positions control effects are compared with the expected control effects. Method according to claim 15, characterized in that the device identification code is known by decoding the control information. u 1 8 4