• 专利附录
  • 专利说明
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    • 专利摘要:
    The author or copy control status via a system for transmitting content information and additional information associated therewith, such as audio, video and additionally optical discs, is described. An encoded signal is generated having a watermark pattern representing additional information. The watermark pattern cannot be changed after reproduction without seriously affecting the quality of the content information. Although the control pattern according to the present invention is also transmitted, a watermark is generated by applying a one-way function to the control pattern. This has the advantage that any change to the watermark or control pattern can be easily detected since it is not possible to numerically calculate the new control pattern of the changed watermark. Thus, the additional information is well protected against manipulation. Alternatively, improper parts are forced to completely replace the watermark pattern, affecting the quality of the reproduced content to the maximum. In the copy control method which allows the first copy ("one copy"), the first control pattern is processed three times by a one-way function for generating a watermark, and each playback device or recording device outputs it / Since the control pattern is processed once before recording, a cryptographically protected down counter can be formed.
    公开号:KR20000064791A
    申请号:KR1019980707631
    申请日:1998-01-22
    公开日:2000-11-06
    发明作者:요한 파울 마리 게라르드 린나르쯔
    申请人:엠. 제이. 엠. 반 캄;코닌클리야케 필립스 일렉트로닉스 엔.브이.;
    IPC主号:
    专利说明:

    Method and system for transmitting content information and additional information related thereto
    The present invention relates to a method for transmitting content information and additional information related thereto and for transmitting an encoded signal representing content information and a watermark pattern representing additional information.
    The invention also relates to a method for encoding content information and additional information associated therewith and for causing the encoded signal to be generated by encoding the content information according to a watermark pattern representing the additional information.
    The present invention also relates to a method for restoring content information and associated additional information and for causing a watermark pattern representing the additional information to be recovered from an encoded signal representing the content information and the watermark pattern.
    The invention also relates to a system for transmitting content information and related additional information, an apparatus for generating an encoded signal, an apparatus for processing an encoded signal, an encoded signal, a control signal and a recording medium.
    Such methods and transmission systems are described in patent application WO 97/13248 (PHN 15391), document D1 of the reference list. This document describes that video and audio content is gradually transmitted and recorded in digitally encoded form, such as an MPEG bitstream. There is a growth necessary to transmit additional information logically related to the content information, and the additional information is for controlling the processing of the content information. This additional information shall be protected against manipulation to direct control functions. Additional information is especially useful for copy protection applications.
    Copy protection has a long history in audio publishing. The base of currently installed devices, including PCs with built-in audio cards, provides little protection against unauthorized copying. In some copy protection schemes, the most difficult problem is that plagiarists can always try to play the original disc, and the plagiarist can process the content and record it as if it were an analog home recording. While civil recorders may copy the recordings of consumer-owned creations without any limitation, it is desirable to prohibit the recording of copyrighted material. Thus, the copy protection mechanism must be able to distinguish between consumer-owned creations and content from professional music presenters. Since it is not reliable with respect to the physical source of the content (eg, disc or microphone), the device must distinguish it based only on the audio signal or the video signal. For digital storage media such as DCC, the "copy bit" has been limited, which indicates a copyright status such as "unauthorized copy", "free copy" or "once authorized copy". The other copy bits indicate that the medium containing the information must be a "professional" medium produced by pressing and not a "writable" disc.
    For example, marking a digital content signal with a marker included in an encoded signal, such as program material authorized to classify the encoded signal, is called watermarking. In this system, the watermark is in the form of a multi-bit watermark pattern representing some additional information, eg indicating that the encoded signal constitutes copy protected content, or indicating the origin of the content. The watermark is typically a valid watermark and may have a fixed portion to identify the bit pattern, or to synchronize the retrieval process, with a variable portion representing the additional information. A method for embedding a watermark pattern in an encoded signal to facilitate detection, but difficult to erase or change without significant quality degradation of audio or video content after decoding, is disclosed in D1. In addition, the watermark pattern should be relatively long to prevent unmarked encoded signals from being classified as unintentionally marked. In addition, the watermark must be detectable within a relatively short time, for example 1 to 10 seconds, so that it can respond quickly only when classifying a signal. Known watermarks have the disadvantage of indicating only a limited amount of additional information. Manipulation of (partial) watermarks by improper parts is still possible only with limited degradation of the content after decoding.
    An object of the present invention is to provide a method for transmitting additional information related to content information so that manipulation of the additional information can be prevented more efficiently.
    For this purpose, in the transmission method according to the present invention, a control signal representing a control pattern is transmitted, the combination of the watermark pattern and the control pattern represents additional information, and the watermark pattern is generated by applying a one-way function to the control pattern. It is characterized by including the result. The encoding method according to the present invention is characterized in that a control signal representing a control pattern is generated, the combination of the watermark pattern and the control pattern represents additional information, and the watermark pattern is generated by applying a one-way function to the control pattern. The restoration method is characterized in that the combination of the watermark pattern and the control pattern represents additional information, the control pattern is processed by a one-way function, and the additional information is verified by comparing the watermark pattern with the processed control pattern. For this purpose, an apparatus having a retrieval unit for processing an encoded signal representing content information and a watermark pattern representing additional information, and for retrieving a watermark pattern according to the present invention, receives a control signal representing a control pattern. And a one-way function for generating the processed control pattern, and comparing the watermark pattern with the processed control pattern to verify the additional information by combining the watermark pattern and the control pattern. It is characterized by having a comparator. The recording medium according to the present invention has a signal or control signal encoded as recorded information.
    The method according to the present invention has the effect that a small change in the control pattern results in a control pattern processed entirely differently due to the characteristic of the one-way function. When an invalid part manipulates the control pattern, the watermark no longer corresponds to the changed control pattern or does not need to be completely replaced. Therefore, the manipulation of the control pattern can be easily detected during the watermark verification in the playback apparatus and the recording apparatus. In addition, small changes to the watermark pattern cannot be matched by changing the control pattern due to the characteristic of the one-way function which prohibits calculating the input data 'backward' from a given output value. This is advantageous in that any change to the control pattern or watermark can be easily detected. If an invalid part wants to manipulate additional information indicated by a watermark and / or an attached control signal, it is forced to completely replace the watermark pattern, resulting in a loss of the quality of the reproduced content, but with a smaller size for the watermark pattern. Even a change cannot be matched by calculating the corresponding control pattern and will also be detected.
    A system, information carrier and reading device for copy protection of recorded signals are known from EP-0545472 (document D2). Known systems use physical marks to indicate additional information for controlled information reproduction. If the information is copied onto a recordable carrier, the information of this copy will not be reproduced. This is because, during the recording process, only the information is recorded so that its copy does not contain the physical mark. The problem with known systems is that it is impossible to allow copying so it cannot be copied further. In an embodiment of the system according to the invention, the control pattern has the function of a copy permission mark distributed with the signal reproduced from the original recording. The recording apparatus of this embodiment verifies the watermark in the signal against the copy permission mark. If both marks correspond, the content is recorded on the recordable recording medium so that the first copy is made, but its own permission mark is not recorded for that copy. Thus, when the copy signal is reproduced, the copy permission mark is no longer provided. The recording device will not make another recording from the signal from the first copy. Thus, only one copy can be made once.
    An embodiment of an apparatus for generating and / or processing an encoded signal according to the invention is arranged for generating a control pattern that has been processed n times by passing a control pattern n times through a one-way function of the cipher, wherein n is an integer> 0. This has the effect that the encoded signal has a watermark pattern, and the control signal has a control pattern as a counter controlled by encryption. This counter value implicitly indicated by the control pattern is determined by comparing the watermark pattern with the control pattern processed n times until a match is found (no arrangement is possible within a predetermined maximum count). This counter is cryptographically decremented in the playback apparatus before outputting the processed control pattern to the recording apparatus. This recording apparatus verifies the counter, and if the count is permitted, decrements the counter again to record the processed control pattern. This allows a limited number of copies, but has the advantage that copy control is made in the playback apparatus and the recording apparatus. Since such a reduction is made by a one-way function of cryptography that cannot be switched without huge forbidden computational effort, it is virtually impossible to increase the counter value. If the counter is decremented too often, the processed control pattern no longer matches the watermark. Next, this playback device and recording device will block the playback and / or recording of the information.
    Furthermore, advantageous and preferred embodiments of the system and apparatus according to the invention are provided in the dependent claims of the claims.
    Hereinafter, this and other inventions of the present invention will become more apparent and more apparent from the examples given with reference to the following drawings. In the drawings,
    1 shows a copy control system.
    2 shows one-way processing of a two-part copy control pattern,
    3 shows a function in one direction,
    4 shows a copy control system using a media mark P,
    5 shows an apparatus for signal processing an encoded signal,
    6 shows a recording apparatus.
    The general concept of the present invention is to add a control pattern to a watermark encoded signal, and a function in one direction is used to generate a watermark from the control pattern. This allows inspection at the destination of the watermarked signal to preserve the attached control pattern and watermark. This has some advantages, for example, that a watermark is relatively short and does not require its own integrity check bits, which may be repeated every few seconds in a signal that can classify portions of the signal after editing. Since the watermark must match the processed control pattern generated by applying the one-way function, it is not numerically possible to calculate the control pattern "backwards" from the watermark. Since tampering with control patterns and watermarks is possible only by completely exchanging both, the quality of the reproduced content will be severely degraded. If a valid control pattern is not available, reproduction and recording of the encoded signal may be controlled or blocked at the playback device and / or the recording device according to the copy protection method. Preferably, all devices available to the consumer examine the watermark pattern and do not accept any signal without a control signal. Many applications can benefit from this control, such as copy control, payment of copyright fees, music or video rental, and the like. Copy control is similar to the DCC copy bit. The presence of the control pattern may be required to allow playback, or to allow one copy, for example, to indicate copyright status. In addition, the release after a certain date can be made by distributing the control pattern separately after that date. In addition, some related information may be permanently attached to, for example, the work, the lyrics, the title, the performer, or the period of use may be included in the control pattern.
    An embodiment of the present invention is a copy protection system that allows one copy. Professional audio streams contain embedded copyright data allowing one copy. This is done by inserting the watermark y co in the audio stream. In addition, professional discs contain a specific permission mark x co , where y co = H (x co ), where H () is a one-way function of cryptography. The mark y co is present as audio (inserted if possible) during reproduction, but it is removed by the civil recorder. Therefore, the copy by the recording apparatus does not include the permission mark and cannot be copied.
    For an embodiment of the system, a suitable relationship between the bitmark y and the watermark representing the control pattern x is a one-way function. Execution of a one-way function will be y = x 2 mode N, where N is a common module. Where N is the product of two secret large primes (N = pq). In fact, N will be part of the data embedded within the watermark, ie concatenated with y. Another possibility is the function of the discrete logarithmic one-way guessed by Diffie and Hellman [1976] (= Literature D4), ie F (x) = α x in GF (p), where α is the initial component of GF (p). to be. Since p is a large prime, p-1 has a large prime factor. In the above two types of implementations, there is a disadvantage that the size of the independent variable, that is, the number of bits required to be secured, is very large. Practical systems based on fewer bits will apply a suitable secret-key encryption algorithm, such as DES, where y = F (x) = xDES (x). This is shown in the circuit of FIG. 3 illustrates the execution of a one-way function generator based on a secret key encryption algorithm. The control pattern x at the input 31 is applied and processed in the encryptor 32 by using the key from the key input 33. The output of the encryptor 32 is EXORed by the logic section 34 in a bitwise manner with the input x, resulting in a bit pattern y at the output 35. In this circuit, the key may be published or included in the watermark, ie linked to y.
    Suitable watermarks for audio signals having a DSD format (see document D3) are inserted by forcing a fractional portion (0.01% to 1%) of small bits to a specific value determined by W. This is simply detected because only the playback apparatus or the recording apparatus has to check the value of the predetermined bit at the predetermined position. Artifacts generated by the forced bits to represent the watermark can be minimized in the form of noise. We found a DSD that reduces the signal-to-noise / distortion ratio by 1 dB for SNR, with a watermark with 1% of bits exceeding 110 dB. On the other hand, if the attacker changes the value of these bits, the SNR decreases dramatically to tens of dBs. A suitable watermark for the video is inserted in the compressed MPEG, for example in the form of a picture (PTY watermarking described in D1).
    Furthermore, an embodiment of the present invention is a copy protection system that allows n copies, also referred to as copy control, which is characterized by n copies. This embodiment for copy protection of the recorded signal allows a limited number of copies. In this concept, a professionally published title may include at least two different types of copy control marks, i.e. watermarks embedded in the content, and copy control attached to the content but removable and changeable by the recording device (identification / permission). ) Includes a control pattern. The control pattern is called a copy control ticket. The ticket in the digital signal stream changes every time the signal passes through the recorder or playback device. The cryptographic relationship between the watermark and the ticket is verified during each playback and each recording. A media pattern representing any third type of copy control mark, a media mark identifying a medium (disk / tape / etc.), May be applied separately or associated with the same watermark. The media mark may be exhibited, for example, by wobble groove or pit jitter modulation, and is preferably visually detectable. The recordable medium may have a fixed predetermined medium mark that identifies the medium as a recordable disc or as a specialized disc from a known source. A distinct check is made on a media mark, which may be a ticket through a cryptographic function and / or a value associated with a predetermined value or watermark. In the concept of the whole system, it distinguishes as follows.
    Seed U: Random number generated by the content owner.
    Media mark P present on a professionally published disc / storage medium; The recordable medium has a predetermined value of P.
    Watermarks W. W embedded in content can exist simultaneously in all digital representation formats (such as audio, bit streams, PCM, or video MPEG in DSD format) as well as analog versions. If this concept is applied to video, analog watermarks can be combined with tickets, for example, appearing in the Vertical Blanking Intervals. The digital watermark will appear in both the MPEG PTY (Picture Type) sequence and the pixel area, and the ticket will be stored in the User_Data field of the Group Of Picture (GOP) header. User home recordings (not affected by copyright) can be classified as such through a predetermined value or absence of W.
    Copy ticket T. T, which acts as a password counter, is a small data field present in the data header and added to the signal in the same way as the DCC copy control bits, for example. T typically contains 40-1000 bits.
    In the overall system concept, the ticket T in the stream is replaced by T '= F (T) during each recording or playback operation, where F is a one-way function of published cryptography. In other words, neither the playback device nor the recording device explicitly carries T, but does not supply it through the function F. This approach uses the invention that T can be regarded as a crypto counter and that if the attacker cannot reverse F, the crypto counter can easily be incremented but not decremented. From the point of view of cryptography, it is not necessary that F is kept secret to a potential attacker. The purpose here is to prohibit the occurrence of copying, i.e. the number of occurrences, for example, when limiting the length of the copy path. Playback is allowed only if the watermark in the stream matches F m (T), where m is still the number of playback operations or sequential recordings allowed. Typically m is odd. Recording is allowed only if the watermark in the stream matches F m (T), where m is still the number of playback operations or sequential recordings allowed. Typically m is even. In the above description, m is clearly available, or the apparatus may naturally check all small m, eg m <4, provided that the maximum number of copies allowed for one copy to be made anyway. An example of a one-way function of possible cryptography has been described above with reference to FIG. 3.
    In one embodiment, the number of parallel copies from one source is limited. The concept extends to limit the number of parallel copies made from one disk only if, for example, the consumer is authorized to copy directly from the original disk bought from the presenter, and such copy number is limited. Finally, in order to store and update T, a small recordable area is required for each professionally published title. This basic idea is to change T to F (T) every time the playback device authorizes the recording device to make a copy. In such a case, the original disk as sold by the presenter is calculated by initially generating seed U. The following variables are calculated from this seed. That is, P = F (U), T = F (F (T)), and are represented as F 2 (T). For a disc which the consumer is permitted to copy n times in parallel, the watermark W is calculated as W = F n + 1 (U). The playback device outputs the content but is not T during normal operation. During the recording process, the recording apparatus requests the playback apparatus to provide a ticket T so that W = F (T) is recorded on the recordable disc. The production apparatus reads T from F (T) and replaces it with F (T). If the playback device reads from the original disc, i.e. if a valid P matches T, then the playback device provides only F (T) to the recording device. The recording apparatus repeatedly replaces T with F (T) until W = F (T). Content inserted with the appropriate T and W is recorded on the disc. When the player reads the recordable disc, T is never disclosed to the outside.
    A copy control concept is disclosed that relies on a copy control ticket displayed as a physical mark on the medium, a watermark embedded in the content, and a digital value. Note that this concept implements watermarked content in cooperation with two separate mechanisms: control ticket T and media mark P. Obviously the concept of using a control ticket in cooperation with a watermarked signal can be individually applied to a system for transmitting content, such as to a broadcast system or on the Internet. Basically, the control ticket provides a counter that can be incremented but not decremented. The control ticket concept is particularly suitable for watermarking DSD audio, as described in document D3. The concept of inserting data into LSB bits and reducing their artifacts in the form of noise can be applied to Pulse Code Modulation audio. This view also applies to DVD's MPEG video storage. The watermark can be stored in the GOP structure by changing the PTY sequence. In addition, the identifier of the recording apparatus may be included in W or in a separate watermark W i . Preferably each home recorder includes such identifiers when recording unmarked material. The identifier will only be the manufacturer code, type and serial number of the recorder.
    1 shows a copy control system according to the invention. The music content on the recording medium 11 is watermarked by the watermark pattern W, and the recording medium 11 further includes a control pattern and a copy control ticket T. The playback device 12 reproduces music from a recording medium known from a CD playback device, for example, so that it can be executed by a function F in one direction (see the description based on FIG. 3) and a single computing unit such as a microprocessor and a program. A conventional device for verifying the means having three one-way functional portions 121, 123, 124 having two comparators 122, 125 is provided. The watermark W and the ticket T are derived from the original recording medium 11. The ticket T is coupled to the one-way function 123, which becomes T ', and T' is coupled to the first comparator unit 122 and the second one-way unit 123, where the second one-way unit 123 is the second comparator. Has an output T &quot; coupled to a third one-way unit 124, which becomes T &quot; Both comparators receive the watermark W on the second input for comparison. If the first comparator unit 122 finds uniformity, reproduction is allowed, but no further copying can be made. If the second comparator unit 125 finds uniformity, reproduction is allowed and still only one copy is possible. If neither comparator finds any uniformity, no regeneration is allowed. The playback device has an output for the digital interface 13, for example the IEC 958 or P-1394 digital interface, which is for outputting content information having a watermark W and a processed ticket T '. The recording device 14 has an input for receiving the signal from the digital interface 13. The watermark W is coupled to the third comparator unit 133. The ticket T 'is coupled to the fourth one-way function 131 to form a processed ticket T' ', and the T' 'is coupled to the fifteen one-way function 132 and coupled to the third comparator unit 133. T '' '. If the third comparator unit 133 finds equality between T '' 'and W, the recording medium 15 is capable of copying and recording music contents having a watermark W and a ticket T' 'processed twice. Is recorded on. Thus, one copy is allowed when the control pattern T '' 'processed three times is equal to W. The resulting copy has two processed control patterns T '' 'which allow reproduction of the first copy, because the playback device currently has a one-processed pattern that matches the watermark pattern W, i.e. (T '' ')' First occurs. In addition, the recording of the music content is blocked by the recording apparatus, since the ticket processed five times does not match the watermark. If the modified recording apparatus is used by an improper component, the copy of the result is provided with the ticket T &quot; processed four times as provided by the reproducing apparatus. Such copying cannot be performed for a playback device as it is supposed to, because the first and second comparators find no uniformity. Thus, both recording and reproducing apparatus need to be changed to make illegal copying.
    In an embodiment of the transmission system, the control pattern processed n times constitutes a cryptographically protected counter. This counter is used to count the number of times the encoded signal is allowed to be played or recorded in, for example, an audio or video rental system, for example to count so-called parallel copies. In such applications, the control signals are preferably stored and updated on its own recording medium, but may be stored separately, for example, in a playback and / or recording device or on a chip card. In addition, while a plurality of control signals may be stored, for each action to be controlled, one control signal is destroyed or not accessible on the optical disc by, for example, applying or removing ink to each area.
    2 shows the unidirectional processing of a control pattern T n-1 consisting of two parts. The first part 21 is a seed and the second part 22 is an info part with additional information such as the author's name, owner, publication date and the like. Both parts 21, 22 are combined into a combiner 23, for example connected, added or EXOR, and the resulting value is coupled to the first one-way function 24. The control pattern T n again consists of two parts, the first part 25 being the output of the first one-way functional part 24 and the second part 26 being the same as the info part 22. For the next one-way processing cycle, the same function is further applied to the synthesis section 27 and the one-way function section 28, again resulting in a control pattern T n + 1 consisting of two parts. After a predetermined number of one-way cycles, the first portion of the pattern from the output of the one-way unit matches the watermark as in the embodiment described above. This has the advantage that the info sections 22 and 26 of the control pattern of each generation can be read directly and protected against manipulation, since any small change in the info section is at the output of the one-way unit during verification. This is because the pattern of the result is completely changed. In the case of an encrypted encoded signal, the info portion has a decryption key. The info portion 22 has an explicit counter value that must be decremented before processing the next (n + 1) processed control pattern. Next, the specification counter value p represents the number of processing cycles of one-way unit. This has the advantage that only the control pattern processed p times should be compared with the watermark pattern. Of course, any change, such as the explicit counter value included in the info portion, must be changed in the same way during generation and verification. Thus, tampering with such a predetermined change value is effectively prevented.
    4 shows a copy control system using a medium mark P. FIG. This media mark allows two independent conditions to be verified against the original disc before playback is allowed. The recording medium 41, for example, the optical disc, further comprises a modulation pattern of the amount of change of the physical parameter representing the medium mark P associated with the watermark pattern W, which is different from the modulation pattern. An example of a modulation pattern, such as a wobble of a track, can be found at D2. According to the invention, the media mark P is coupled to a one-way unit 421 having an output coupled with the first comparator 423 and / or the second comparator 424. Each one-way unit has a one-way function of cryptography, as described with reference to FIG. The first comparator 423 also receives a watermark W and, in uniformity, a first condition for the copy prohibited original disc is detected. The second comparator 424 receives the control ticket T, and a first condition is detected for the disk that is allowed to copy once in uniformity. The ticket T is further coupled to the second one-way unit 425 to be T ', which is coupled to a third comparator 426 that receives the watermark W. A first copy of the second condition or legal for the copy-prohibited original disk detected in uniformity is detected (when the media mark P does not exist or has a predetermined value). The once processed ticket T 'is coupled to the output of the recording device on the digital interface 43 and to the third one-way unit 427 coupled to the fourth one-way unit 428 to receive the watermark W. 3 times processed ticket T '' 'coupled to fourth comparator 429. In uniformity, a second condition is detected for a disc that is allowed to copy once. When the condition for reproduction is satisfied, the music content including the watermark W is output from the reproduction device 42 to the digital interface 43. The recording device 44 may be connected to the digital interface 43 for recording music. The watermark W and ticket T 'from the interface are verified in the same manner as in the recording apparatus described with reference to FIG.
    In the embodiment, the playback device 42 and the recording device 44 have inputs 431 and 441 for the home watermark W H. In the playback apparatus, the home watermark W H is coupled to a fifth comparator 430 that receives the watermark. In equality, home personal creations are detected. The input 431 is preferably coupled to the fifth comparator 431 via a one way unit, in which case the home seed value will be provided to the input of the one way unit. The home seed value or watermark may be stored in the memory of the playback / recording device or on a separate memory module, such as a chip card, or written on paper, or written by the user via a keyboard, such as a PIN code. have. Optionally, since the watermark is a fixed watermark, such as all zero words, the recording of the consumer's personal audio creation can be recognized and distinguished.
    In an embodiment of the system, the encoded signal is encrypted, P is used for decryption, and as any decryption unit 422 connected between the read signal and the signal carrying explicit content including W and ticket T. Will appear. This is beneficial, for example for computer systems, to protect the disk against uncontrolled data retrieval or bit to bit copying. The media pattern P will be generated by a one-way function in the device for making the master disk, which is used to increase the disk. Next, the mastering device may generate and output a watermark pattern by applying a one-way function to the media pattern. This has the advantage that the media pattern P cannot be used outside the mastering device and the mastering device cannot be controlled to produce a disc having a predetermined media pattern (e.g., extracted from the source disc to be reproduced by an improper component). Have
    The control pattern or ticket will be recorded along with the content information, or alternatively an independent location will be chosen that does not have direct access to the wrong part, for example located in the file header or in the introduction of a CD or DVD. The copy control ticket is concealed in the MPEG video stream. In an embodiment, this data is located in the extension_and_user_data field, in the GOP header (see MPEG Video Compression Specification).
    5 shows an apparatus for processing an encoded signal. The device shown is a playback device 52 for carrying out the optical disc 51. The reproducing apparatus is provided with reading means including a read head for reading information from the disc 51 and a servo / control unit 58. The playback apparatus has a digital output 53 for the digital bus for outputting the retrieved content signal including the watermark W and the processed control ticket T. In addition, an analog output 54 for connecting headphones or other audio equipment is provided for outputting music content after processing with a D / A converter (optional, not shown). The signal read out from the disc 51 is signal processed by the reading unit 55, and the reading unit 55 has a decoding function as described with reference to FIG. The reading unit 55 is connected to a retrieving unit 61 for retrieving the watermark pattern W and a retrieving unit 60 for reproducing the control pattern T. The watermark W and the control pattern T are connected to the control unit 62. The control unit 62 includes a one-way unit having a one-way function F of cryptography (described above with reference to FIG. 3) that can be applied n times to generate n control patterns T n , the processed control pattern T n and a watermark. A comparator unit is installed to compare the The control ticket T 'processed once with respect to the output 57 of the controller 62 is converted to the digital output 53 together with the watermarked content signal through the switch 56, and the switch 56 is verified. Is operated by the control unit 62 in dependence upon. Therefore, the output signal representing the content information is available only for the output 53 which, in cooperation with the control ticket, relies on the additional information indicated by the watermark. The next check is performed at W = F (T) or W = F 3 (T) which indicates that verification, i.e., playback is allowed up to W = F 2n + 1 (T) or maybe even more repeated. The first successful test of the control pattern T m processed n times is equal to W representing the counter value m of the control pattern. The counter value m can be used to verify the occurrence of a copy in a system that allows n copies, or the number of times an action is allowed (e.g., payment on use for a software program), or any other application that requires a stable counter. have. In the embodiment of the reproducing apparatus, the medium pattern reading unit 59 is provided to retrieve the medium mark P from the recording medium, for example, from the servo signal of the servo unit 58 for the wobble pattern as described in D2. The medium mark P is connected to the control unit 62, and inspection T = F (P) is performed to verify the control pattern T and the physical mark P. The media mark P is connected to any decryption section in the reading section 55. If cryptography has been applied to the disc content, the playback device uses P to decrypt the stream.
    6 shows a recording apparatus. This apparatus is a recording apparatus 65 for recording a recordable disk 66. The recording apparatus has a digital input 72 from a digital bus for receiving a signal to be recorded including a watermark W and a control ticket T. The input 72 is connected to a retrieval section 69 for retrieving the watermark pattern W and a retrieval section 69 for reproducing the control pattern T. The watermark W and the control pattern T are connected to the control unit 71. The control unit 71 includes a one-way unit having a one-way function F (described above with reference to FIG. 3) of the cryptographic method, which can be applied n times to generate n control patterns T n , and the processed control pattern T n and watermark. A comparator unit is installed to compare the The control signal T 'processed once to the output 67 of the control unit 71 is switched to the recording means 73 together with the watermarked content signal through the switch 68, and the switch 68 is verified. Is operated by the control unit 71 in dependence upon. Thus, the output of the recording means representing the content information can be used for the recordable disc 66 only if the verification process is clear and the copying may be performed. The recording apparatus always transmits the copy control ticket T through the one-way function at the control section 71 before transmitting the copy control ticket to the disk. Recording of copyrighted audio is allowed if the watermark in the stream matches W = F 2 (T). In an embodiment, allowing the occurrence of further copying, W = F 2n (T) is checked. Even if a proper T does not exist, if the attacker manages to change the recording apparatus and the recording audio, the normal playback apparatus will refuse to play the disc. In professional publishing, professional titles are generated by initially generating seed U. From this seed, the following variables, P = G (U) and T = (F (F (U)), denoted as F 2 (U), are calculated: For a disk that the consumer is allowed to copy n times, The watermark W is calculated as W = F 2n + 1 (T) The one-way function G and the variable P will be specified such that P contains the identifier for the presenter or the serial number of the mastering machine. To make a copy, if a plagiarism presenter attempts to record a particular P, the plagiarist must change to his mastering machine, where a professionally disclosed disk has a relationship with P, T, W and possibly the above cryptography. Legal copying of professionally published (copyright protected) content for recordable media includes watermark W and ticket T, where W = F m (T), m = 1, 3, 5, 7, .... In the case of m = 1, the contents of the disc / media are no longer copied The data stream of professionally published (copyright protected) content for the recorder includes a watermark W and a ticket T, so W = F m (T) and m = 2, 4, 6, ... In the case of m = 2, the content may be recorded and reproduced once more.
    Although the present invention has been described by the embodiment using the disc as the recording medium, it will be apparent that other systems for transferring information may be used in the present invention. For example, the encoded and control signals may be transmitted over a data network, such as the Internet.
    Although the present invention has been described with reference to its preferred embodiments, it is obvious that these embodiments are not given to limit the invention. Accordingly, various modifications are possible to those skilled in the art to which the present invention pertains without departing from the scope of the present invention as defined by the claims. For example, the encoded signal may be distributed on a read-only disk or tape and the control signals may be distributed separately. Also, although it is generally more difficult for such a watermark to be retrieved, a watermark can be used in the analog area. Unrestricted use of the control signal can be prevented by encrypting the control signal with a key known only to the destination, such as a key embedded in a particular playback device or a public key provided by a destination using a public key system (eg RSA). . In addition, the encoded signal and / or the control signal are additionally protected by a scrambling or encryption method, or additionally include a digital signature. A free copy ticket R with a digital signature over the content and / or part of the watermark may be used. Moreover, the present invention encompasses all these novel features described herein or combinations of these novel features, including those described above or in the related literature.
    Related literature list
    (D1) WO 97 / 13248-A1 (PHN 15391)
    Watermarking encoded signals
    (D2) EP-0545472 (PHN 13922)
    Closed information system with physical copy protection
    (D3) EP-A 97200197.8 filing date 27.01.97 (applicant ref PHN 16209)
    Watermarking of Bitstream-or DSD-signals (A.A.M. Bruekers et al.)
    (D4) New Directions in Cryptography (Diffie and Hellman), IEEE Transactions on
    information theory, Vol IT-22, No. 6, November 1976, p. 644-654
    权利要求:
    Claims (28)
    [1" claim-type="Currently amended] In the method for transmitting content information and additional information related thereto,
    An encoded signal representing content information and a watermark pattern representing additional information are transmitted, a control signal representing a control pattern is transmitted, the combination of the watermark and the control pattern represents additional information, and the watermark pattern is assigned to the control pattern. And a result generated by applying a one-way function.
    [2" claim-type="Currently amended] In a method for encoding content information and additional information related thereto,
    The encoded signal is generated by encoding content information according to a watermark pattern representing additional information, a control signal representing a control pattern is generated, the combination of the watermark pattern and the control pattern represents additional information, and the watermark pattern is controlled. An encoding method, which is generated by applying a one-way function to a pattern.
    [3" claim-type="Currently amended] In a method for retrieving content information and additional information related thereto,
    The watermark pattern representing the additional information is retrieved from the encoded signal representing the content information and the watermark pattern, and the combination of the watermark pattern and the control pattern represents additional information, and the control pattern is signal-processed by a one-way function. Is verified by comparing the watermark pattern with the signal-processed control pattern.
    [4" claim-type="Currently amended] A system for transmitting content information and related additional information via a transmission signal having an encoded signal,
    A transmitter having an encoding unit for transmitting a transmission signal and generating an encoded signal by encoding the content information according to a watermark pattern indicating additional information, and a searcher for receiving the transmission signal and searching for a watermark pattern. And a transmission signal further comprising a control signal indicating a control pattern, wherein the combination of the watermark pattern and the control pattern indicates additional information, and the transmitter generates the watermark pattern depending on the control pattern. And a one-way function unit for generating the processed control pattern and a comparator for verifying additional information by comparing the watermark pattern and the processed control pattern. system.
    [5" claim-type="Currently amended] An apparatus for generating an encoded signal, the apparatus comprising:
    An encoding unit for generating an encoded signal by encoding content information according to a watermark pattern representing additional information, a control unit for generating a control signal representing a control pattern, and combining the watermark pattern and the control pattern Indicates additional information and comprises a one-way function for generating a watermark depending on the control pattern.
    [6" claim-type="Currently amended] The method of claim 5,
    The apparatus having a transmission unit for generating a transmission signal having an encoded signal and a control signal.
    [7" claim-type="Currently amended] The method of claim 5,
    Wherein the one-way function portion is configured to generate the control pattern processed n times by transferring n control patterns through a one-way function of cryptography, where n is an integer> 0.
    [8" claim-type="Currently amended] The method of claim 7, wherein
    And n = 3 indicating that one copy is allowed.
    [9" claim-type="Currently amended] The method of claim 5,
    And the apparatus has an identification section for including the recording apparatus identification code in the additional information.
    [10" claim-type="Currently amended] An apparatus for signal processing an encoded signal representing content information and a watermark pattern representing additional information, the apparatus comprising:
    And a control unit for receiving a control signal representing a control pattern, wherein the combination of the watermark pattern and the control pattern represents additional information and generates one direction for generating a signal-processed control pattern. And a comparator for verifying additional information by comparing the watermark pattern with the signal-processed control pattern.
    [11" claim-type="Currently amended] The method of claim 10,
    The one-way function is configured to generate a control pattern signaled n times by passing n control patterns through a one-way function of cryptography, where n is an integer> 0.
    [12" claim-type="Currently amended] The method of claim 11,
    The control pattern has a first portion and a second portion, and the apparatus includes a combining portion for combining the control pattern processed n times and the second portion of the control pattern processed n times. And the output of the combiner is connected to the input of the one-way unit.
    [13" claim-type="Currently amended] The method of claim 11,
    The apparatus has a control unit for outputting a control signal representing a control pattern signaled n times, wherein n is one.
    [14" claim-type="Currently amended] The method of claim 11,
    The comparator has a value m by a first comparison of the watermark pattern and the control pattern signaled n times when n = 1 and at least one comparison of the watermark pattern and the control pattern signaled n times when n> 1. And m is an n value according to a successful comparison.
    [15" claim-type="Currently amended] The method of claim 10,
    And the apparatus has an output unit for outputting an output signal representing content information in dependence on the additional information.
    [16" claim-type="Currently amended] The method of claim 15,
    And an output unit is a recording unit for recording an output signal on the recording medium.
    [17" claim-type="Currently amended] The method according to claim 13 or 16,
    And the recording unit is configured to record another control signal.
    [18" claim-type="Currently amended] The method according to claim 14 or 15,
    and if m = 1 or m = 3, the output unit is configured to output an output signal.
    [19" claim-type="Currently amended] The method according to claim 14 or 16,
    and the recording unit is configured to record when m = 2.
    [20" claim-type="Currently amended] The method of claim 10,
    And the apparatus comprises a reproducing section for inputting an encoded signal from a recording medium.
    [21" claim-type="Currently amended] The method of claim 10,
    The apparatus includes a media pattern reading unit for retrieving a media pattern from a recording medium, a one-way function unit for generating a processed media pattern, and a comparator for comparing the watermark pattern and the processed media pattern. Device.
    [22" claim-type="Currently amended] In an encoded signal for use in the system of claim 5,
    The encoded signal represents content information, the watermark pattern represents additional information, the watermark pattern has a result of a control pattern processed by a one-way function, and the combination of the watermark pattern and the control pattern represents additional information. And encoded signal.
    [23" claim-type="Currently amended] In the control signal for use in the system according to claim 5,
    The control signal represents an encoded signal representing the content information and a control pattern for controlling the watermark pattern, the combination of the control pattern and the watermark pattern represents additional information, and the watermark pattern represents the control pattern processed by the one-way function. And a resultant control signal.
    [24" claim-type="Currently amended] A record carrier having the encoded signal according to claim 22 or the control signal according to claim 23 thereon.
    [25" claim-type="Currently amended] The method of claim 24,
    The watermark represents n control patterns, wherein the n control patterns after n signal processing through a one-way function of the encryption method correspond to a watermark, and n is an integer> 0.
    [26" claim-type="Currently amended] The method of claim 24 or 25,
    And the watermark pattern has a result of the medium pattern processed by the one-way function.
    [27" claim-type="Currently amended] The method of claim 26,
    The encoded signal is represented by a modulation pattern of the change of the physical parameter, and the recording medium has a pattern of the change of the physical parameter representing the medium pattern in a manner different from the above representation of the encoded signal. .
    [28" claim-type="Currently amended] The method of claim 24,
    And the recording medium is in an optically readable form, and the encoded signal is represented by a modulation pattern of optically detectable marks in the track.
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    同族专利:
    公开号 | 公开日
    AT224124T|2002-09-15|
    CN1135852C|2004-01-21|
    WO1998033325A2|1998-07-30|
    JP2000509588A|2000-07-25|
    TW399191B|2000-07-21|
    DE69807807D1|2002-10-17|
    CN1482542A|2004-03-17|
    CN1220805A|1999-06-23|
    WO1998033325A3|1998-09-11|
    EP0906700B1|2002-09-11|
    EP0906700A2|1999-04-07|
    DE69807807T2|2003-05-28|
    US6209092B1|2001-03-27|
    AU5493398A|1998-08-18|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    1997-01-27|Priority to EP97200165
    1997-04-25|Priority to EP97201237
    1997-05-15|Priority to EP97200165.5
    1997-05-15|Priority to EP97201470.8
    1997-05-15|Priority to EP97201470
    1997-05-15|Priority to EP97201237.1
    1998-01-22|Application filed by 엠. 제이. 엠. 반 캄, 코닌클리야케 필립스 일렉트로닉스 엔.브이.
    1998-01-22|Priority to PCT/IB1998/000087
    2000-11-06|Publication of KR20000064791A
    优先权:
    申请号 | 申请日 | 专利标题
    EP97200165|1997-01-27|
    EP97201237|1997-04-25|
    EP97201470.8|1997-05-15|
    EP97201470|1997-05-15|
    EP97201237.1|1997-05-15|
    EP97200165.5|1997-05-15|
    PCT/IB1998/000087|WO1998033325A2|1997-01-27|1998-01-22|Method and system for transferring content information and supplemental information relating thereto|
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