In a reproduction apparatus, for reproducing an original signal conveyed as main data by a data medium such as a recording disk or broadcasting system, with medium protection data which are specific to the data medium being conveyed together with the main data, the apparatus includes a section for generating apparatus protection data which are specific to the reproduction apparatus, a section for combining the apparatus protection data with the medium protection data to define a protection level, and a section for applying the protection level to restrict reproduction of the original signal, with stepwise variations in restriction occurring in accordance with changes in protection level. The medium protection data may include information for specifying restricted reproduction of portions of the original signal, such as by producing degraded resolution within specified regions of specified frames of a video signal.
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0. 3. A receiving method providing reproduction protection, for operating on main data which are conveyed by a broadcasting system, said method comprising steps of:
detecting transmitted protection data conveyed by said broadcasting system, wherein said transmitted protection data is constituting one of a first data group,
determining first protect information as a first plurality of protection levels in response to said transmitted protection data and first apparatus protection data which are specific to a region or a country and, the first apparatus protection data constituting one of a second data group,
specifying second apparatus protection data by user selection from a second plurality of protection levels,
generating second protect information by referring to at least said first protect information and said second apparatus protection data, and
executing reproduction of said main data in accordance with said second protect information,
wherein
(a) use of said transmitted protection data constituting one of said first data group and said first apparatus protection data constituting one of said second data group results in the determination of said first protect information having said first plurality of protection levels,
(b) each member of said first plurality of protection levels of said first protect information corresponds with a respective member of said second plurality of protection levels of said second apparatus protection data,
(c) said first plurality of protection levels and said second plurality of protection levels represent successive increase of protection levels, and
(d) selection of said second apparatus protection data by a user manually restrict protection level among all of the protection levels defined in said first protect information.
0. 1. A decoding apparatus providing decoding protection with a video data encoding method using a DCT (Discrete Cosine Transform) method of an MPEG algorithm, for operating on information which is transferred through a medium and comprises main data which are to be decoded, the apparatus comprising:
means for detecting medium protection data which are also transferred through said medium;
means for limiting decoding based upon at least a film classification system;
means for generating apparatus protection data which comprise at least first apparatus protection data and second apparatus protection data,
wherein said first apparatus protection data are specific to a region or a country in which said decoding apparatus is to be used, said first apparatus protection data being fixed and unmodifiable by a user of said decoding apparatus and said second apparatus protection data being modifiable by the user to selectively define a plurality of protection levels including at least two levels which are respectively specific to adults and to children;
means for defining a protection level based on said medium protection data and on said apparatus protection data, in combination; and
means for executing decoding of said main data in accordance with said protection level,
wherein the combination of said medium protection data and said first apparatus protection data specifies that said main data are decoded either in their entirety or not at all, and the combination of said medium protection data and said second apparatus protection data specifies that said main data are decoded in their entirety, partially, or not at all,
wherein said data medium transfers both said medium protection data and said main data in an identical form.
0. 2. A decoding apparatus as recited in
said means for executing operating in response to said combination of said medium protection data and said second apparatus protection data to cause said decoding apparatus to decode said main data in their entirety, partially, or not at all.
0. 4. The receiving method as recited in claim 3, wherein said transmitted protection data comprise at least protection position information, and wherein said second protect information is generated by referring to said protection position information in addition to said first protect information and said second apparatus protection data.
0. 5. The receiving method as recited in claim 3, wherein said main data are reproduced either in their entirety or not at all in accordance with said second protect information.
0. 6. The receiving method as recited in claim 3, wherein said main data comprise at least a video signal conveyed by said broadcasting system, and only unprotected scene of said video signal is reproduced among whole video signal.
0. 7. The receiving method as recited in claim 5, wherein said second apparatus protection data can be designated for at least five protection levels.
0. 8. The receiving method as recited in claim 7, wherein said transmitted protection data comprise rating information based upon a film classification system.
0. 9. The receiving method as recited in claim 3, wherein said main data comprise at least a video signal conveyed by said broadcasting system, and less than all of protected scene of the video signal is reproduced by the apparatus among whole video signal.
0. 10. The receiving method as recited in claim 3, wherein the first plurality of protection levels and the second plurality of protection levels are numerically equal.
0. 11. The receiving method as recited in claim 3, wherein said executing comprises blocking of frames that are reproduced in time succession, so that said main data are reproduced over the period when said second protect information indicates non-blocking of said main data, and said main data are not reproduced over the period when said second protect information indicates blocking of said main data.
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This application is a continuation of application Ser. No. 09/469,499 filed Dec. 222, 1999 now U.S. Pat. No. 7,010,031, which is a division of application Ser. No. 08/940,941 filed Sep. 30, 1997, now U.S. Pat. No. 6,212,329, which is a continuation of application Ser. No. 08/391,861 filed Feb. 22, 1995, abandoned.
1. Field of the Invention
The present invention relates to a data reproduction protection method, and a data reproduction apparatus for implementing such a protection method, whereby reproduction of a signal represented by digital data such as a recorded digital video signal can be selectively restricted.
2. Description of the Prior Art
In the following, the term “data medium” is to be understood in a very general sense, as applying for example to broadcasting systems which transmit data such as video and/or audio data, in which case the received data may be the object of reproduction protection, and as applying also to any type of recording medium such as recording disks or tapes, etc., in which case playback data derived from the recording medium may be the object of reproduction protection. The reproduction protection may serve to selectively restrict viewing, hearing or copying of the data.
In the prior art, various types of reproduction protection method have been applied in fields such as CATV (cable television) and satellite television broadcasting. One method is to execute scrambling processing of transmitted video and audio data, and to insert a copyright code into the data, for thereby dividing the data into portions which can be freely reproduced and portions for which a fee must be paid in order to reproduce the data. When a program for which payment of a fee is necessary is received by a receiving apparatus, the program can be unscrambled and reproduced only if specified payment conditions are satisfied.
In the case of recorded media, one method of reproduction protection which is applicable to the DAT (digital audio tape recorder) recording system is the SCMS (serial copy management system). With that method, the playback DAT signal from a DAT playback apparatus has a main ID (identification) number which includes a copy inhibit code, whereby a single [copy enable—copy inhibit] sequence is ensured, so that a user can only make a single copy of a pre-recorded digital audio tape.
However with such prior art methods of reproduction protection there are only two control possibilities, i.e. reproduction is made either possible or impossible. It has not been possible hitherto to provide a gradually varying degree of restriction of reproduction of a signal conveyed by a data medium. Thus, such a reproduction protection method can only be used for a single purpose, e.g. for management of payment fees, or for copyright protection. Moreover with such a prior art reproduction protection method, since the data which are to be protected exist only in a transmitting medium or recording medium prior to being reproduced, it has not been possible to provide a varying degree of limitation of reproduction capability in accordance with some condition of the reproduction apparatus. Thus in some cases, the degree of protection may be excessively severe, or excessively lax, so that it is difficult to achieve an effective degree of protection. For example, certain types of scenes recorded on a video tape may be permitted to be viewed in a certain country, such as the U.S.A., but may not be permissible in other countries. It would thus be advantageous to ensure that when that video tape is played on a reproduction apparatus which is sold to the public in such other countries, reproduction protection is automatically applied such that the aforementioned scenes will not be reproduced, or will not be clearly reproduced. However in the prior art, such a feature has not been possible.
It is an objective of the present invention to overcome the problems of the prior art set out above, by providing a reproduction protection method and apparatus whereby information specifying a degree of restriction of reproduction of an original signal is conveyed (e.g. by a recording medium or signal transmission medium) together with data expressing the original signal, whereby information specifying a degree of restriction of reproduction of the original signal are generated by a reproduction apparatus which operates on the conveyed data, and whereby information specifying a degree of restriction which is actually applied to reproduction of the original signal is derived based on a combination of the restriction information conveyed by the data medium and the restriction information generated by the reproduction apparatus.
More specifically, the invention provides a reproduction protection method comprising:
supplying the main data and medium protection data, via the data medium, to a reproduction apparatus;
generating apparatus protection data by the reproduction apparatus;
determining a protection level by combining the medium protection data and the apparatus protection data; and
controlling the reproduction apparatus to utilize the main data to reproduce the original signal in accordance with the protection level.
It is a further objective of the invention to overcome the above problems by providing a reproduction apparatus providing reproduction protection, for operating on main data representing an original signal and medium protection data expressing a medium protection level, said main data and medium protection being conveyed by a data medium, the apparatus comprising:
means for detecting said medium protection data to obtain a medium protection signal expressing said medium protection level;
means for generating an apparatus protection signal expressing an apparatus protection level which has been assigned to said reproduction apparatus;
means responsive to said medium protection signal and apparatus protection signal for determining a final protection level in accordance with a combination of said medium protection level and apparatus protection level;
means for executing reproduction of said original signal by utilizing said main data, including means for selectively restricting said reproduction in accordance with said final protection level.
With such a method and apparatus for reproduction protection, the protection level can be determined in accordance with the medium protection data, and hence can be determined in accordance with the wishes of the manufacturer of the data medium, or of the copyright owner of the main data. In addition, the protection level which is actually applied (i.e. the final protection level) is also determined in accordance with the apparatus protection data, which can be specified by the manufacturer or the seller of the reproduction apparatus. As a result, when the main data are to be reproduced (for example, during playback of a recording disk or tape), a graduated degree of limitation of reproduction is implemented, with that degree of limitation being determined by the final protection level, i.e. being determined in accordance with a combination of the requirements of the data medium manufacturer or the copyright owner of the main data and the requirements of the manufacturer or seller of the reproduction apparatus. In that way, considerable flexibility can be ensured in selectively restricting reproduction of signals which are conveyed for example by recording disks or tapes or by broadcasting systems.
In particular, the invention enables such reproduction restriction to be applied to specific frames or sequences of frames of a video signal, or to specific regions within each of a sequence of frames.
Embodiments of the invention will now be described, in which the data medium is assumed to be a recording medium, specifically a CD (compact disk), having video and audio signal data recorded thereon. In the following, such data representing original signals which are to be reproduced from the data medium will be referred to in general as the main data, to distinguish these from protection data, which are also conveyed by the data medium as described hereinafter. It will further be assumed that the original video and audio signals have been encoded by high-efficiency compression encoding using the MPEG1 algorithm, prior to recording. The MPEG1 algorithm is described for example in “International Standards for Multimedia Encoding”, edited by Yasuda, published by the Maruzen company in Japan.
The concept of medium protection data will first be described, referring to
The medium protection level which is expressed by the medium protection data is predetermined in accordance with the wishes of the manufacturer or seller of the data medium (CD 1), or of the owner of the copyright for the main data.
The medium protection data is a combination of data for expressing at least one medium protection level as described above, and protection position information which specifies the position (within the encoded main data) at which the protection is to be applied. It is an essential feature of the present invention that the medium protection data can assign the medium protection level in units of frames of the video signal. That is to say, limitation of reproduction of individual frames can be controlled. In addition, limitation of reproduction of one or more specific regions within a specific frame (or sequence of specific frames) can also be predetermined by the medium protection data. In that case, for example, a region formed of a number of fixed-size blocks of pixels can be converted to a blank region, or filled with a mosaic pattern, in the final display picture that is obtained from the output video signal from the apparatus of
Alternatively, the protection position information can specify an identical medium protection level for the entirety of each of a succession of video signal frames, or specify an identical medium protection level for one or more specific regions within each of a succession of frames.
The term “protection position information” is used here, since it may not be necessary to record explicit data constituting the protection position information on the CD 1. Instead, that information can be inherently constituted by the positions at which respective medium protection data are located within the stream of compressed encoded main data that have been recorded on the CD 1. For example, the apparatus may be configured such that if the encoded data for a video signal frame are immediately preceded by a portion of medium protection data, then that indicates that the medium protection data portion is to be applied to that frame. If the medium protection data portion is to be applied to one or more regions within that frame, rather than the entire frame, then the medium protection data portion which immediately precedes the compressed encoded frame in the recorded data can include at least two values for each of these regions, for specifying the respective positions of the regions. In that case, explicit protection position information must be recorded as data on the CD 1, as part of the medium protection data.
With the method and apparatus of the present invention, a reproduction apparatus can be configured to produce predetermined protection data which are specific to that reproduction apparatus. For example, the CD 1 in
The contents of the apparatus protection data ROM cannot be rewritten by the user. In the embodiment of
With the second example in
With the third example in
The overall features of reproduction protection will now be described, referring to
The final protection level determining section 13 basically consists of a matrix ROM in this embodiment, i.e. a ROM which stores a pattern of relationships between respective combinations of medium protection levels and apparatus protection levels and resultant final protection levels. The operation of the matrix ROM will be described referring to the matrix diagram of
It is necessary to clearly distinguish between the ROM of the apparatus protection signal generating section 12 and the matrix ROM of the final protection level determining section 13. The contents of the ROM of the apparatus protection signal generating section 12 can be set in accordance with the requirements for a particular reproduction apparatus, whereas the contents of the matrix ROM of the final protection level determining section 13 will in general be common to a large number of reproduction apparatus units.
The final protection level determining section 13 generates an output signal, referred to as the final protection level signal, which expresses the final protection level that has been determined, and supplies that signal to the protection control signal generating section 14. In response to that signal, and the protection position signal, the protection control signal generating section 14 generates a signal referred to as the protection control signal, which is supplied to control a section which will be referred to as the video decoder section 15. For simplicity of description, only video signal reproduction will be considered at this stage, and the video decoder section 15 should be understood as a section which converts the compressed encoded video data (main data) from the demultiplexer 10 to a standard (analog) video signal. As the stream of compressed encoded main data flows into the video decoder section 15 from the demultiplexer 10, the protection control signal controls the video decoder section 15 such as to apply reproduction protection in accordance with the final protection level values, at the respective positions within that data flow which are specified by the protection position information. The video decoder section 15 thereby produces an output video signal which will result in video pictures in which reproduction of the main (video) data is limited in accordance with the final protection level values. As will be understood from the above, the final protection level values may change from frame to frame of the video signal, in accordance with changes in the medium protection level.
A first example of limitation of reproduction in accordance with the final protection level will be described, which is implemented by controlling the expansion and decoding of the main data by the video decoder section 15. The example will be described referring to the embodiment of
The demultiplexed compressed encoded video data read from the CD 1 are subjected to variable-length decoding in the variable-length decoding section 15a, and then to dequantization in the dequantizer section 15b. The resultant compressed data are then subjected to inverse DCT processing in the inverse transform section 15c, with the transform processing being selectively modified in accordance with the protection control signal. The resultant decompressed data are then processed in the video reproduction control section 15d to obtain the final output video signal. The effect of reproduction limitation controlled by the protection control signal acting on the inverse transform section 15c is to selectively produce a degree of blurring or formation of a mosaic pattern within the pictures which are displayed using the final output video signal. Such a degree of blurring will be referred to as the visibility grade. An example of the relationship between the visibility grade and the final protection level values A to E (which are determined by the protection control signal generating section 14a as described hereinabove, and are expressed by the protection control signal) is shown in the leftmost column of
With the MPEG1 algorithm, a block size of 8×8 picture elements is used in the DCT processing. The transformed block is expressed by a DC component (i.e. DC coefficient) and a plurality of coefficients (the AC coefficients) which represent signal level values at respectively different successively increasing frequencies. Thus if for example the inverse transform section 15c is controlled such that only the DC coefficient and the two lowest-frequency AC coefficients are used, in the inverse DCT operation for each block, then a specific reduction in resolution of all (or a specific part) of the resultant display picture can be achieved in a very simple manner.
Similarly if only the DC component for a block is used in the inverse DCT processing, with all of the AC coefficients set to zero, then all of the signal level values for the picture elements of a block will be set to an identical value, in the resultant video signal obtained from the inverse DCT operation. Hence, a mosaic pattern can very easily be formed in the resultant picture that is obtained using the final output video signal. Moreover if, for each of respective 16×16 element macroblocks (i.e. each consisting of four 8×8 picture element blocks), only the DC coefficient for a specific one of the 8×8 element blocks is used (for example, the DC coefficient for the upper leftmost one of the 8×8 element blocks) in the inverse DCT processing for all of the four 8×8 element blocks constituting the 16×16 element macroblock, with all of the AC coefficients set to zero, then a mosaic pattern will be formed which is substantially coarser than the mosaic pattern which is formed by using the 8×8 element blocks.
It can thus be understood that with the above embodiment of the invention, applied to video data which have been subjected to high-efficiency compression encoding using a data transform operation, stepwise changes in a degree of restriction of reproduction of the video data can be easily accomplished by effecting stepwise changes in a degree of resolution of a finally obtained picture, or in a portion of that picture, and that such stepwise changes in resolution can be easily controlled in accordance with the final protection level which has been established based on the medium protection data and apparatus protection data. In particular, when such control is applied to the inverse DCT processing, it is possible to easily effect stepwise changes in the visibility grade, i.e. in the picture resolution, through use of unit blocks of picture element values which are basic to the transform processing. Such a type of control of the visibility grade, operating within each frame of the video signal, can be considered as applying protection in a (2-dimensional) spatial domain.
With a video data encoding method such as the DCT method, the output digital signal that is produced from the inverse DCT circuit consists of sequential sets of data, each consisting of successive picture element values for the respective picture elements of a unit block (e.g. a block of 8×8 picture elements) of a video signal frame. In order to convert such a digital signal into a normal digital video signal, it is necessary to first temporarily store the data produced from the inverse DCT circuit in a video memory (e.g. a frame memory), then to read out the video data in the correct sequence (i.e. as successive picture element values in successive picture scanning line intervals). That operation is the basic function of the video reproduction control section 15d in
In this embodiment, the degree of reproduction limitation is controlled by “thinning out” frames of the video data that are used to form the final output video signal, with the degree of “thinning out” being determined by the final protection level. That is illustrated by the central column in
Alternatively, control of the degree of reproduction limitation can be performed by arranging that the protection control signal from the protection control signal generating section 14b acts on the video reproduction control section 15d′ such as to vary (in accordance with the final protection level) the number of gradations provided by each video data sample, i.e. to vary the number of amplitude levels that can be expressed by each sample. That can be performed by setting one or more low-order bits of each data sample to a fixed value, e.g. 0. For example if the LSB is always set to 0, then the number of possible gradations is reduced by half, and a corresponding lowering of resolution of the finally obtained display picture is achieved. The bits in each digital data sample which are not fixed in that way will be referred to in the following as the effective bits of the sample. Such gradation control based on the numbers of effective data bits is illustrated by the right-side column in
It would be equally possible, as indicated by the broken-line connection from the protection control signal generating section 14b to the dequantizer section 15b in
Another method which may be used to control the degree of reproduction limitation is to apply the protection control signal from the protection control signal generating section 14b such as to control the variable-length decoding section 15a. In that case, the protection control signal is arranged to act on the variable-length decoding section 15a such that, as the protection level is increased from A to E, data having a long code length are set to zero, i.e. are ignored. This will result in a lowering of resolution in the final picture that is obtained from the output video signal.
It should be noted that reproduction limitation control can be executed by a combination of control acting along the time axis and control acting in a spatial domain (i.e. within individual frames). That point is illustrated conceptually in
Similarly, a set of four successive frames FB is each to be displayed, but with a degraded resolution region formed in the final display picture, as indicated by numeral 24. In this case the degraded resolution region is formed of two adjoining rectangular regions, so that it is necessary for the position information in the medium protection data to specify the positions of two pairs of macroblocks within the frame, i.e. the pair of addresses of macroblocks 24a, 24b and the pair of addresses of macroblocks 24c, 24d in
It can thus be understood that in this case, reproduction protection is applied by a combination of control with respect to the time axis, and control with respect to (2-dimensional) space within each frame. It can be further understood that the invention enables extremely precise control of reproduction limitation, which is determined in accordance with the final protection level.
With data transmission in accordance with the MPEG1 system (i.e. based on the ISO-11172-3 standards), data are transmitted as successive packs of data, which are time-division multiplexed, as illustrated by the data flow 40 shown in
The gradation control section 51 operates on each digital video signal sample (in general, each 8-bit datum) that is supplied from the inverse transform section 15c, to set the low-order bits of each sample in accordance with the final protection level. For example referring to the right-side column in
If reproduction restriction is to be applied within a video signal frame, then the protection control signal generating section 14b responds to the protection position signal such as to apply the above-mentioned protection control signal to the gradation control section 51 during one or more specific time intervals within the corresponding frame interval, with each of these specific time intervals being determined based on one of the macroblock start/end address pairs which are shown in
It will be understood that in practical terms, each “start address” will define a time-axis position, within a frame period, of the data sample corresponding to an uppermost left-side pixel of a rectangular region within the frame, while the “end address” similarly defines the position of a data sample corresponding to a lowermost right-side pixel of that region. Such time relationships can be readily established by well-known techniques for operating on a digital video signal, so that detailed description is omitted.
In the above embodiments, only reproduction protection of video data has been described.
Since MPEG1 audio compression utilizes sub-band encoding with 32 bands, such bandwidth restrictions can be effected by causing the second protection control signal to act on the dequantizer section 16b such as to set the inverse quantization values corresponding to certain high-frequency bands to zero. Thus, audio reproduction protection by bandwidth control can be easily implemented.
A second method of audio signal reproduction protection will be described referring to the central column in
A third method of audio signal reproduction protection will be described referring to the rightmost column in
It can thus be understood that the invention enables precise limitation of reproduction of a recorded audio signal together with limitation of reproduction of the recorded video signal, in accordance with a combination of medium protection data and apparatus protection data.
As shown, the protection control signal can also be applied to control the sample-and-hold circuit 62, to effect the above-described method of reproduction protection control utilizing sample-and-hold processing of the audio data samples. Similarly, the protection control signal can be applied to control the LPF 61, to achieve reproduction protection control by varying the bandwidth of the audio signal. It will be clear that a simpler circuit configuration can be utilized that that shown in
In each of the embodiments described above, there is a fixed relationship pattern between combinations of the protection levels which can be expressed by the medium protection data and the protection levels which can be expressed by the apparatus protection data, and the respective final protection levels which are thereby obtained, i.e. the relationship pattern which is stored in the matrix ROM of the final protection level determining section 13, an example of which is shown in
The embodiment, which is a modification of the embodiment of
The relationships between the five possible values of the medium protection level (determined by the medium protection signal detection section 11 as described hereinabove) and the five positions PA to PE of the severity modification setting switch 31, are shown for each of the four possible values of the apparatus protection level (determined by the apparatus protection signal generating section 12), in diagrams (A) to (D) in
The same is true for each of the apparatus protection level values 2, 3 and 4, as illustrated in diagrams (B), (C) and (D) in
It will be apparent that the severity modification circuit 30 can be easily configured using a logic circuit, which implements a simple algorithm in accordance with the setting of the severity modification setting switch 31, i.e. the algorithm would begin:
[If the severity modification switch 31 is set at PA, transfer the protection level value established by the final protection level determining section 13 directly to the protection control signal generating section 14a, as the final protection level.
If the severity modification switch 31 is set at PB, and if the protection level value established by the final protection level determining section 13 is level A, change that to level B and transfer to the protection control signal generating section 14a as the (modified) final protection level. Otherwise, transfer the protection level value produced from the final protection level determining section 13 unchanged, as the final protection level.
If the severity modification switch 31 is set at PC, and if the protection level established by the final protection level determining section 13 is level A or level B, change to level C, and transfer to the protection control signal generating section 14a as the final protection level. Otherwise, transfer the protection level established by the final protection level determining section 13 unchanged, as the final protection level . . . ], and so on.
Thus with this embodiment, if the severity modification setting switch 31 is set to its least severe position (PA), then the relationship pattern between combinations of the medium protection level and reproduction apparatus protection level values will be as shown in
For example if the apparatus protection level is 2 and the medium protection level is 4, then the final protection level will be B. However by altering the setting of the severity modification setting switch 31, the user can change the final protection level to a higher value, in the range B to E. Hence with this embodiment, although protection level values can be specified by the manufacturer or copyright owner of the recording medium, and by the manufacturer or seller of the reproduction apparatus, the final degree of protection can be determined by the person who is in charge of the reproduction apparatus. Such a feature is highly useful.
As can be understood from the above description of embodiments, the invention enables a final protection level to be established, for controlling reproduction of recorded or transmitted video or audio signals, with that final protection level being determined based on a combination of protection levels which are respectively separately established by the manufacturer or copyright owner of recorded signals (or broadcaster of transmitted signals, or copyright owner of transmitted signal) and by the manufacturer or seller of the reproduction apparatus. The final protection level can be applied such as to achieve extremely precise protection of reproduction, whereby for example specific frames of a video signal, and/or specific regions within a frame, can be protected by restricting reproduction, with the degree of restriction being variable in a stepwise manner. The invention can at the same time provide corresponding protection of an audio signal which is being reproduced in conjunction with a video signal.
Although the invention has been described in the above with reference to a CD player apparatus, it will be understood that the invention is not limited in any way to such an apparatus, and is in general applicable to reproduction protection in any type of apparatus which reproduces a recorded or transmitted video and/or audio signal.
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