NZ328702A - Digital video recorder with digital copy protection signal insertion facility - Google Patents

Description

New Zealand No. international No. 328702 PCT/ TO BE ENTERED AFTER ACCEPTANCE AND PUBLICATION Priority dates: 18.03.1993; Complete Specification Filed: 04.03.1994 Classification^) H04N5/76 Publication date: 19 December 1997 Journal No.: 1423 NEW ZEALAND PATENTS ACT 1953 COMPLETE SPECIFICATION Title of Invention: Copy protection for digital video recorder Name, address and nationality of applicant(s) as in international application form: MACROVISION CORPORATION, a Californian corporation of 1341 Orleans Drive, Sunnyvale, California 94089, United States of America Divided out of Application No. 263049 Filed on 4 March 1994 328702 Under tti» provisions of Regulation 23 (1) the No: Date: Instate NEW ZEALAND PATENTS ACT, 1953 COMPLETE SPECIFICATION N.2. PATENT OFFjCE - 9 SEP 1997 received COPY PROTECTION FOR DIGITAL VIDEO RECORDER We, MACROVISION CORPORATION, a corporation organised and existing under the laws of California, United States of America, of 1341 Orleans Drive, Sunnyvale, California 94089, United States of America, do hereby declare the invention for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement: 328702 BACKGROUND OF THE INVENTION Field of the Invention This disclosure is directed to a copy protection method and apparatus for use with (1) digital video recording, where it is desired to copy protect both an analog and digital video signal associated with a digital recording or playback apparatus and (2) any video material where the original source material is not copy protectable.

Description of the Prior Art Various well known copy protection schemes for video signals include that disclosed in U.S. Patent No. 4,631,603, John O. Ryan, December 23, 1986 and assigned to Macrovision, incorporated by reference, directed to modifying an analog video signal to inhibit making of acceptable video recordings therefrom. This discloses adding a plurality 15 of pulse pairs to the otherwise unused lines of a video signal vertical blanking interval, each pulse pair being a negative-going pulse followed closely by a positive-going pulse. The effect is to confuse AGC (automatic gain control circuitry) of a VCR (video cassette recorder) recording such a signal, so that die recorded signal is imviewable due to the presence of an excessively dark picture when the recorded signal is played back.

Another analog video protection scheme is disclosed in U.S. Patent No. 4,914,694 issued April 3, 1990, to Leonard, and assigned to Eidak Corp., incorporated by reference. The Eidak system (see Abstract) increases or decreases the length of each video field from the standard length, either by changing the time duration of the respective horizontal line 25 intervals in each field while keeping a constant, standard number of lines per frame, or by changing the number of horizontal line intervals which constitute a frame while maintaining the standard duration of each line interval.

These video protection systems modify the video signal to be recorded (for instance on 3 o tape) or to be broadcast (for instance protected pay-per-view television programs) to make copying by ordinary VCRs difficult or impossible. When a video tape on which is recorded the copy protected video signal is played back for viewing using a VCR, the copy protection process is essentially transparent, i.e., it does not interfere with viewing. However, any attempt made to copy the video signal from the tape using a second VCR 35 to record the output of die first (playback) VCR yields a picture degraded to some extent, depending on the efficacy of the particular copy protection system. These present video 3 - 32870 copy protection systems protect only analog video signals, which are the type of video signals broadcast and recorded using current consumer video technology.

Also well known are digital video tape recorders, although currently such digital video tape recorders (which both record and play back digitally) are available only for the professional market, due to their high cost Such digital systems trade distortion-free performance for substantially higher bandwidth, i.e. substantially more information must be recorded per video frame. The advantage to the user of a digital recorder is thai so long as the signals are recorded and played back in the digital domain each successive generation of copies is without any significant reduction in picture quality, unlike the case with conventional analog recording technology. Current digital video recorders (not intended for consumer purposes) use the so-called "D-l", "D-2" or "D-3" video recording standards and require special video tape.

Future of Digital Recording It is widely believed that digital video tape recorders will soon be commercially available for consumer use. To maintain compatibility with analog video broadcast signals and analog video tape recorders, it is likely that at least the first generation of consumer digital video tape recorders will be "hybrid" digital and analog systems. Such systems will have the capabilities of current analog video cassette recorders to record and playback analog signals, while still having equivalent digital capabilities. Thus these new hybrid digital tape recorders will have the capability internally to convert input analog signals into digital signals, and record the digital signals as a digital data stream on the tape. During playback the digital data stream from the tape will be available both as a digital signal for display by a digital television set (also not currently available) or be reconverted within the hybrid video tape recorder to a conventional analog video signal (such as the NTSC signal used in the United States.) The capability of the system internally to convert the received analog signals to a digital data stream will be important because currently there are no sources (either tape or broadcast) of digital video program material available to consumers.

Such hybrid video recorders will likely employ a "consumer" digital recording format differing from the standards of present professional digital systems. This consumer digital video format is not yet established. Such digital video recorders will likely include a conventional "front end" RF tuner and also an RF modulator on the output side, as do present conventional analog VCRs. (By analog video here is meant NTSC, PAL or SECAM.) The digital recording standard for consumers is likely to be essentially a data 328702 ■4- structure that represents the video signal as a stream of (binary) data bits along with suitable error concealment encoding, together with a physical tape standard.

Problems Posed bv Digital Recording Since digital video tape recorders will be capable of high fidelity reproduction which in turn will encourage copying, it is important that such recorders for consumer use be designed to inhibit or discourage unauthorized recording. For instance it is important to prevent use of recorders for illegally duplicating copyrighted video material, and also to prevent playing back of such illegally duplicated material. Currently available analog video copy protection techniques are not useful in the digital domain. Hence there is a need for a new copy protection system suitable for use with such hybrid digital and analog video tape recorders, where the material recorded on the tape is a digital data stream. A typical situation to be prevented is use of a hybrid video tape recorder to copy an output signal from a conventional VHS VCR, where the tape played back from the VHS VCR has a conventional copy protection process applied to it. The problem is to prevent the new hybrid digital-analog video tape recorder from copying the material from such a tape. Otherwise, the existence of such hybrid recorders would encourage copyright infringement.

German patent 4 015 626 by Mitsubishi discloses a still frame video recorder using the copy protection techniques of a Digital Audio Tape (DAT) recorder playback system. However, the analog output of the device disclosed has no analog copy protection scheme. The video recording is for still frame pictures and moving picture video is not provided for.

European patent 0 392 612 by N.V. Philips discloses an audio copy protection technique. This system has no applicability to the presently claimed system, since the system uses audio techniques for copy protection only and has no digital copy protection. The system described below is a hybrid system of both analog and video. Suitably, any digital video recording playback mechanism will have both analog and digital input and output mechanisms with appropriate copy protection techniques.

SUMMARY OF THE INVENTION A hybrid digital and analog tape recorder that records digitally and provides copy protection in both the digital and analog domains is disclosed herein and claimed in New Zealand Patent Specification No. 263049 from which the present specification is divided. For externally supplied analog video, die recorder detects the presence of copy protection 32870 and in response disables recording. For externally supplied digital video, both anti-copy bits and serial copy protection bits are detected to respectively (1) disable recording and (2) prevent later copying by a second digital recorder. For playing back of recorded material, the presence of anti-copy bits is detected in the digital playback video, and the 5 digital playback video upon being converted to an analog signal is modified by an analog video copy protection process.

^ In accordance with the invention claimed herein, there is provided a digital video recorder comprising: a digital video recording mechanism; an input terminal for receiving a digital 10 video signal; a first signal detector for detecting copy protection information present in the digital video signal; means for inhibiting recording of the digital video signal in response to detection of the copy protection information; a second signal detector for detecting serial copy protection information present in the digital video signal; and a signal generator for generating a digital copy protection signal in response to the detected 15 serial copy protection information and inserting the generated digital copy protection signal into the digital signal.

In another aspect of the invention claimed in our other divisional specification filed on 9 September 1997, analog or digital source video material (either prerecorded or from an 20 external source) is provided with a copy protection flag. Detection of the flag by a playback device results in modification of the played back standard video signal with an analog copy protection process. This embodiment is suitable for playback devices where the source video cannot be copy protected, but a standard (NTSC) video signal is provided of a played-back recording.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a block diagram of a hybrid digital video recorder in accordance with the present invention.

Figure 2 is a block diagram of another video recorder or playback device in accordance with a second embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION Figure 1 shows a hybrid digital-analog video recorder in accordance with the present 35 invention. Each block includes conventional elements currently commercially available or readily constructed by one of ordinary skill in the «xt in accordance with the following description. The one possible exception is the digital tape deck mechanics and electronics 328702 -6 which is the main subsystem of such a device. Presently available professional digital video recorders include such tape deck mechanics and electronics; however they are designed for recording and playback of material under current professional-type digital video standards. The digital tape deck 10 may be of die kind included in such present commercial professional systems. However, since it is envisioned that the hybrid system shown in Figure 1 is chiefly (but not exclusively) intended for consumer use, such a system will likely include different digital tape deck mechanics and electronics, of a type suitable for large scale production at low cost and designed in accordance with consumer digital video format(s) not yet determined.

In any case, die recorder of Figure 1 can be constructed of presently available components including a professional type digital tape deck as now commercially available from various companies. The tape to be played on tape deck 10 is in the form of (1) a video cassette or (2) reel-to-reel recording.

The recorder of Figure 1 is a hybrid device capable of accepting at input terminal 12 a conventional analog video signal indicated by "A", which is an NTSC or other signal.

Also shown in Figure 1 on die "inputs" side is digital video input terminal 14 for receiving 20 digital video (indicated by "D") from an external source. Terminal 14 receives a ^ broadcast digital video signal when in die future such signals are commercially broadcast, or from another digital video tape recorder or digital playback device.

Since the apparatus of Figure 1 records a digital signal, the analog video signal at terminal 25 12 is converted to the desired digital format by analog to digital converter 16. Such ^ analog to digital converters are well known in the video field, and the construction details of analog to digital converter 16 are determined by the nature of the digital recording format(s) compatible with digital tape deck 10.

The digital video data stream output from analog to digital converter 16 is provided (via switch 18) to digital tape deck 10. The person (or machine) operating the recorder of Figure 1 decides whether at any one time he is recording an analog video input signal at terminal 12 or a digital video input signal at terminal 14. Switch 18 (either automatic or manually controlled) chooses from which terminal 12 or 14 die tape deck 10 receives the 35 input signal to be recorded.

The input signal from switch 18 is then digitally recorded on tape (not shown) by tape 328702 deck 10. Subsequent playback of material recorded on the tape by tape deck 10 results in a digital signal "Dn at output terminal 20 of tape deck 10. The digital signal at terminal 20 is then (if die ultimate output signal from the recorder is to be an analog signal) provided to digital to analog converter 22, which converts the digital signal D to the analog output signal A which is provided to analog output terminal 24. Digital to analog converter 22 (like its complementary converter 16) is conventional, the construction details being determined by the nature of the digital recording format and the analog output format Analog output terminal 24 is connected (for instance) on the "outputs" side of the recorder to a conventional television set.

The recorder of Figure 1 may conventionally be provided with an RF tuner (not shown) on the "inputs" ,ide to extract video (NTSC or other) from an RF modulated video (TV) signal. Similarly on the "outputs" side an RF modulator (not shown) may be provided to convert the baseband (NTSC or other video signal at terminal 24 to an RF modulated video signal (TV), for provision to the antenna input terminal of a television set.

The copy protection portion of the apparatus of Figure 1 (when operating in the analog domain) is explained with regard to die above-described analog chain including analog video input terminal 12, converter 16, switch 18, converter 22 and analog output terminal 24. It is assumed that the (NTSC) analog video received at terminal 12 may have been copy protected by one of the above-described copy protection processes, which typically add copy protection pulses to or otherwise modify particular portions of the video signal. The intention is that the recorder of Figure 1 prevent copying of such material by means of designed-in circuitry, i.e. features built into the recorder by its manufacturer.

One system for adapting a video recorder to prevent copying of copy protected video is described in U.S. Patent No. 4,907,093 issued March 6, 1990 to John O. Ryan, assigned to Macrovision Corp. and incorporated by reference, the Abstract of which states: A video signal is modified so that a television receiver will still provide a normal color picture which a video tape recorder will detect and prohibit its being recorded. A plurality of ordered pairs of pseudo-sync and positive pulses are added to the video signal vertical blanking interval following the normal sync pulse. A disabling circuit associated with a recorder detects the modified signal. This detection may be by comparing the voltage differential between the pseudo-sync pulse tip and the positive pulse relative to the normal voltage differential between the sync pulse tip and the back porch of the blanking interval. Alternatively, the modified signal can be detected by identifying the pulse frequency of the signal in the blanking interval. .. Detection is 328702 also shown by peak-detecting the video signal and sampling this peak-detected signal during the vertical blanking. A control signal is produced when the modified signal is present, which disables the recording device. If no modified signal is detected, the recording device is enabled.

The recorder of present Figure 1 includes a similar approach to copy protection in its | upper left portion, including ACP (anti-copy process) detector 26, which is similar to the detection circuitry described in various embodiments in U.S. Patent No. 4,907,093, or alternatively is a detector for detecting die copy protection process of U.S. Patent No. 10 4,914,694. ACP detector 26 could also detect serial types of copy protection processes. When an analog (NTSC) video signal is received at terminal 12, ACP detector 26 detects the presence of the copy protection, and upon detection thereof generates a disable recording control signal on line 28 which then disables (for instance) the analog to digital converter 16.

Disabling of converter 16 is somewhat different than the disabling method described in U.S. Patent No. 4,907,093 (where no analog to digital converter is present), and instead in accordance with the present invention some other feature of the recorder is disabled. As described in U.S. Patent No. 4,907,093, in the recorder of Figure 1 an element other 20 than the analog to digital converter 16 could be disabled by the disable recording signal on line 28. For instance digital tape deck 10 could be disabled, or an additional switch (not shown) in the signal path could be forced to its open position. Other means of disabling the recorder will be apparent to one of ordinary skill in the art In any event, detection of a copy protection signal in the input analog video signal disables the 25 recording of such signal. (ACP detector 26 herein corresponds to disabler 22 in Figure 1 of the above-referenced patent.) In terms of recording of copy protected material, in the alternative situation the input signal is a digital video signal provided on digital input video terminal 14. In this case, 30 if the input signal is copy protected, typically such copy protection is provided by a tape duplicator facility that sets a predetermined anti-copy control bit in the digital data stream recorded on the tape. This anti-copy bit will be located for instance in a particular location of each video frame (such as a portion corresponding to the vertical blanking interval). Alternately such an anti-copy bit could be located in a predetermined location 35 in each video line or in some other predetermined portion of the video signal; the exact location of this anti-copy bit is of no particular importance so long as it is determined by an accepted standard prior to manufacture of the recorder of Figure 1. Therefore the 328702 recorder manufacturer designs anti-copy (AC) bit detector 32 to locate such an anti-copy bit by knowing its digital address.

Then, for instance, if anti-copy bit detector 32 detects that the anti-copy bit is set high, i.e. having a value of 1, this is interpreted as an instruction that the associated digital video material is not to be copied. Thereupon anti-copy bit detector 32 issues a disable recording control signal on line 36 which controls operation of switch 38. In this case, the disable recording signal on line 36 opens switch 38, preventing transmission of the digital video signal from terminal 14 to switch 18. Thus the anti-copy bit accomplishes 10 its purpose of preventing copying of the associated video material input to the recorder on digital input terminal 14.

Alternatively, the user of the recorder of Figure 1 may play back material from a prerecorded tape. In this case the problem is to prevent or inhibit subsequent 15 unauthorized recording of the played back material. Such subsequent unauthorized recording is not a problem if the material played back from the tape on digital tape deck 10 is provided (in the digital domain) from output terminal 20 to digital video output terminal 42. This is because then the digital video output signal could only be recorded on another digital video recorder, which presumably also is equipped with the anti-copy bit detector 32 and associated disabling circuitry.

► However, the hybrid recorder of Figure 1 poses the additional copy protection problem of providing analog video output on terminal 24. The presence of an anti-copy bit in the digital data stream at terminal 20 would have no effect (having been stripped off or 25 ignored in the digital to analog conversion) on an analog output signal at terminal 24. " Therefore, an anti-copy (AC) bit detector 46 is provided in the analog output chain in the upper right portion of Figure 1. AC bit detector 46 is similar to AC copy bit detector 32, operating in the digital domain to detect the anti-copy bit at its predetermined location. In response to the detection of the anti-copy bit by AC bit detector 46, an enabling signal 30 is sent on line 52 to anti-copy process (ACP) signal generator 50.

ACP signal generator 50 is shown in one version in Fig. 2 of U.S. Patent No. 4,631,603, and generates an analog video anti-copy signal. ACP signal generator 50 then adds this analog anti-copy signal to the output signal of digital to analog converter 22, which has 35 converted the digital output signal from tape deck 10 to an analog (for example NTSC) signal. Alternatively, ACP signal generator 50 is as shown in above-referenced U.S. patent No. 4,914,694 in Figure 1 for modifying the "TV signal source". Thus the analog 328702 (NTSC) video signal at output terminal 24 is an analog video signal modified by an analog anti-copy process. This prevents making of acceptable video recordings on existing analog VCRs from the signal provided from the prerecorded tape. > Figure 1 also includes SCPS bit detector 54, line 58, and AC bit adder 60. In the field of digital audio tape recording, the serial copy management system (SCMS) is well known for preventing (under certain circumstances) copying of digitally recorded audio material using commercially available DAT (digital audio tape) recorders. SCMS was devised jointly by the manufacturers of digital audio tape recorders and the providers of digital 10 audio recorded program material, to limit copying of such material only in the digital domain. SCMS is described for instance in U.S. Patent No. 5,144,658, incorporated by reference. In brief SCMS adds a special control bit periodically to digital audio recorded program material which is to be copy protected (typically copyrighted material.) In a conventional digital audio playback device such as a CD player, which produces both an 15 analog output signal and a digital output signal, the analog output signal is not copy protected, i.e. the control bit or analog equivalent does not appear therein. That is to say, the control bit is discarded internally by the digital to analog conversion process. Thus it is possible to make any number of generations of copies by connecting analog output from the CD player to an analog audio tape recorder.

However, the digital output signal from the CD player has the SCMS bit(s) set (to high) by the duplicator of the recorded audio material. A digital audio tape recorder receiving the digital output signal detects the SCMS bit(s) and if it determines for instance that one of these bit(s) in a particular location is high, the digital audio tape recorder will make a 25 recording of the material (i.e. a digital recording) and in the process of making such recording (for instance) internally augments that one bit with a second bit in a second location. Thus it is possible later to playback this tape and have an acceptable analog output signal or an acceptable digital output signal. However, if an attempt is made later to rerecord the tape using another DAT recorder, the second DAT recorder seeks the 30 location of both bits and if it detects the second bit will not make a copy thereof. Thus one is enabled to make serially one copy in the digital domain from a particular source recording. It is well understood that such a system can easily be extended to allow two, three or four or however many copies as is desired to be made serially; the intention is to limit the serial copies to some particular number, typically one in the case of SCMS.

The present inventor has determined that a similar serial copy limitation system is advantageous in the digital video field. In the case of the present invention, such a serial 328702. copy limitation system standard has not yet been defined but herein is generically described as a "Serial Copy Protection Scheme" (SCPS) embodied in SCPS bit detector 54. SCPS is conceptually similar to SCMS, but is in the video domain. SCPS bit detector 54 detects the serial copy protection scheme bit(s) if present in the digital video signal at terminal 14. If the first such SCPS bit for instance is detected, then an enabling signal is generated on line 58 which controls AC (anti-copy) bit adder 60 which adds (or sets to high) die second (actual anti-copy) bit at its predetermined location in the digital stream. Such SCPS bit(s) may be located for instance in the equivalent of the unused lines in the vertical blanking interval. The video signal then passes to switch 38 and then to digital 10 tape deck 10 via switch 18. Such a digital signal thereby including the set (high) anti-copy bit is provided via terminal 20 no subsequent playback to digital video output terminal 42.

Providers of video material (such as commercial tape duplicators, broadcasters or cable 15 TV systems) may choose to prevent any copying of their material (i.e. not use the SCPS). In this case, such providers would set (to high) the second (anti-copy) bit in their original material. Alternatively, where it is desired to completely prevent copying of material, an additional anti-copy bit location (independent of the SCPS bit) could be designated, and such an additional AC bit also detected by AC bit detectors 32,46, which in response 20 would respectively prevent recording or provide the analog copy protection.

Alternatively, AC bit detector 46 could detect either of the SCPS bits and in response enable ACP signal generator 50 to copy protect the analog output signal at terminal 24.

Subsequent use of the output signal at digital video terminal 42 (for instance by recording ™ the output signal using a second recorder of the type shown in Figure 1) would prevent copying of this material by detection of the sei AC bit by the AC bit detector 32 of the second recorder.

Therefore the digital video recording standard includes copy protection on a bit basis using particular assigned bits in a digital video stream. Such "SCPS" bit(s) and other anti-copy bit(s) are in one embodiment provided for instance in each video field or frame, for copy protection on a field-by-field or frame-by-frame basis.

Thus the apparatus of Figure 1 accounts for all possibilities of both analog and digital copy prevention. That is to say, at the inputs side it is possible to detect the conventional analog copy protection signals for the various types of well known analog copy protection signals. At the inputs side provision is also made for a digital video copy protection system including serial copy limitation. On the outputs side, provision is made for copy protection on the output analog side of material played back which was digitally recorded. The circuit details of anti-copy detectors 32,46, SCPS bit detector 54, and AC bit adder i 60 depend on the nature of future digital video recording protocols (formats), but given knowledge of such formats) these circuits may readily be made by one of ordinary skill in the art. Such protocols will be made known to both the manufacturers of digital video recorders and to the providers of digital video program material.

In another variant, ACP detector 26 rather than detecting the anti-copying signal as described in the above-referenced U.S. Patent No. 4,907,093, instead reacts directly to the analog copy protection signal. This is accomplished for example by including an automatic gain control (AGC) circuit for reducing the level (amplitude) of the video signal so that the copy would be unacceptable for viewing. Most likely analog to digital 15 converter 16 would of necessity include a AGC circuit, and this circuit could easily be designed to be especially vulnerable to the anti-copying protection signals which would effect the video levels.

It is also to be understood that the device of Figure 1 need not be a record and playback 20 device but could alternatively be a playback-only device, thus including only a digital playback tape deck 10 and the circuitry to the right thereof in Figure 1, and not having the input circuitry to the left thereof. In this case the output circuitry is identical to that of the upper right portion and lower right portions of Figure 1, reacting to an anti-copy bit present in the prerecorded digital material played back on tape deck 10. Also, in yet k25 another version, an optical (digital) disk player is substituted for digital playback tape deck 10. Thus the upper right circuitry of the apparatus of Figure 1 is applicable to playback-only devices for prevention of rerecording from the analog output terminal 24 of copy protected digital video material.

Another embodiment is for use with either digital or analog video material which for technical or other reasons is not copy protected in its original form and where upon playback a standard video (e.g., NTSC) signal is provided. An example is a so called "laser disc" which is used for distribution of pre-recorded video material, by playback on a laser disc recorder. For technical reasons, the above described copy protection schemes 35 of U.S. Patent Nos. 4,631,603 and 4,914,694 are not compatible with laser discs, since inclusion of these copy protection schemes on laser discs causes playability problems. 13 - 328702 Therefore a copy protection scheme is needed to prevent unauthorized recording of material played back from a laser disc. This is achieved by providing otherwise conventional laser disc players to be manufactured in accordance with the invention with additional circuitry including (1) an anti-copy (AC) flag detector; and (2) an ACP signal generator operationally connected to the anti-copy flag detector. Video material recorded on a laser disc is then provided with an anti-copy flag. The anti-copy flag typically is a signal of a particular level in a predetermined line of each VBI in the video material. (Analog, not digital video, is recorded on a laser disc.) The anti-copy flag (corresponding to the anti-copy bit of Figure 1) is detected by the anti-copy flag detector in the laser disc player, and in response the ACP signal generator modifies the analog signal output by the laser disc player in accordance with a conventional analog anti-copy process. This prevents use of a video tape recording made of the laser disc play analog output signal.

A similar modification may be made to the recently developed "WVHS" videotape recorders for recording high definition TV signals in the "Wide VHS" video format. WVHS is a video format, differing from standard (NTSC, PAL or SECAM) video. In this case, the modified WVHS videotape recorder senses the anti-copy flag in prerecorded 20 material being played back on the WVHS videotape recorder, and in response modifies a played back standard video (i.e., NTSC) signal, using a conventional analog anti-copy process.

This embodiment is shown in Figure 2 which is a block diagram of a playback-only device ^25 (such as a laser disc player) or a record and playback device (such as a WVHS VCR) adapted in accordance with the invention.

A playback-only device includes conventional playback mechanics/electronics 72, anticopy (AC) flag detector 74, and ACP signal generator 50. Detection of the AC flag 30 in played-back standard (e,g.k NTSC) video from mechanics/electronics 72 by detector 74 results in the "enable" signal on line 86 to ACP signal generator 50, so that the ACP signal on line 88 is then mixed into (or modifies) the NTSC video output at terminal 80. A second output signal on line 88 is another type of video, such as HDTV (high definition TV) or WVHS, for which a conventional anti-copy process is not suitable. Thus no ACP 3 5 modification is made to the video on line 88.

For a record and playback device (such as a WVHS VCR), also included is input video 328702 terminal 84. If the incoming video at terminal 84 has the AC flag present, and the AC flag is still present after recording by mechanics and electronics 72, then the flag is detected by AC flag detector 74 on playback and this activates ACP signal generator 50 as before, to copy protect the played-back NTSC video at terminal 80. (Presence of the AC flag on 5 play back depends on die particular format of the incoming video signal and the nature of mechanics/electronics 72.) Similarly, playback of pre-recorded video material having the AC flag activates ACP signal generator 50.

The above description is illustrative and not limiting further modifications will be 10 apparent to one of ordinary skill in the art ji light of this disclosure. It is to be understood that while at present consumer type digital video recording devices are not available, that digital video professional systems are now available, and die above-described apparatus and method are readily adaptable to such presently commercially available digital video recorders. 328702

Claims (3)

WHAT WE CLAIM IS:

1. A digital video recorder comprising: a digital video recording mechanism; an input terminal for receiving a digital video signal; a first signal detector for detecting copy protection information present in the digital video signal; means for inhibiting recording of the digital video signal in response to detection of the copy protection information; a second signal detector for detecting serial copy protection information present in the digital video signal; and a signal generator for generating a digital copy protection signal in response to the detected serial copy protection information and inserting the generated digital copy protection signal into the digital signal.

2. The recorder of Claim 1, wherein the first signal detector detects at least one bit at a predetermined location in the digital video signal, and wherein the second signal detector detects at least one bit in a location associated with the location of the first bit

3. A digital video recorder substantially as hereinbefore described with reference to the accompanying figures. END OF CLAIMS N.Z. PATENT OFFICE PER "M .Q • ^IfuoMr . AGENTS FOR THE APPLICANTS DATED THISt^ DAY 19^* A. 4, PARK & SON - 9 SEP 1997