NL1014793C1 - A method and apparatus for processing a video signal to provide copy protection and a copy-protected video signal. - Google Patents

Description

AO O-50O67 / AA / MMA

Short designation: Method and device for processing a video signal to obtain a copy protection, and a copy protected video signal.

The invention relates to a method for processing an input video signal, which represents an image to be displayed by a video display device and which consists of successive frames of 5 picture lines separated by line synchronizing pulses, for supplying an output video signal.

A method of this kind is generally known, for example for decoding and / or amplifying the input video signal.

The object of the invention is to provide such protection against copying the input video signal that the input video signal after recording and reproduction by a recording device provides a poorly perceptible image on the display device. In particular, the recording device is a device, such as an analog video recorder, which cannot faithfully record and reproduce a long DC-15 signal.

In order to achieve the said object, the said method according to the invention is characterized in that at the ends of the frames, different numbers of image lines and associated line synchronization pulses are substantially equalized. During recording of such an output signal, the equalized portions will drop to a level used to detect the frame sync pulses (or vertical sync pulses).

As a result, during reproduction of the video signal with equalized parts from the recording device 25, the reproducing device will detect frame synchronization pulses at erroneous times, whereby the displayed image will continuously stagger vertically, making the image difficult to detect, so that recording and reproduction of the video signal with the equalized makes parts useless for practical use.

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The invention also provides a device suitable for applying the method according to the invention, in particular a video signal processing device according to claim 10.

The invention further provides a copy-protected video signal, in particular a video signal according to claim 11.

The invention will be explained below with reference to the accompanying drawings, in which: Fig. 1 shows a block diagram of an arrangement with a video signal processing apparatus in which the invention is applied; 10 and 2a-e time diagrams of signal waveforms that may appear in the video signal processing apparatus of Fig. 1.

Fig. 1 shows an example of a video signal processing device 1 in which the invention is applied. The video signal processing device is, for example, a satellite receiver which is connected to a parabolic antenna 2 which supplies an antenna signal to a receiver 3 of the video signal processing device 1. The receiver 3 demodulates and amplifies the received signal. Alternatively, the receiver 3 is suitable for connection to a cable 20 of a central antenna device.

The signal received by the receiver 3 usually comprises a number of video channels, one or more of which are television channels which can only be used by a paying subscriber. For these subscriber television channels, the video signal processing device 1 comprises a decoder 4 for decoding or transmitting the subscriber television channel desired by the user as an output signal, depending on an authorization characteristic received from the user of the device, such as by means of a chip card (not shown). of the decoder 4.

In known video signal processing devices, the output signal of the decoder 4, generally after modulation of a carrier wave and addition of the signal received from the antenna 2 or cable, is supplied as the output signal of the video signal processing device 1, which is suitable for passing through a display device 10, which is generally a television, to be selected and displayed. However, such a signal is also suitable for recording by a recording device 11, which is in particular a magnetic tape device, 1014793-3 - for later reproduction or reproduction by the same user or not. This creates the risk of unauthorized recording and distribution of video signals for which payment was due.

Since a video signal supplied to a display device 10 must be capable of being reproduced by the display device 10, there are as yet no suitable options for preventing this signal from being recorded for later reproduction and correct reproduction at a later time.

The invention provides a method and an improved video signal processing device with which the making of usable illegal copies of a received video input signal by means of a recording device 11 is prevented. This will be explained in combination with Fig. 2.

FIG. 2a shows a portion of a normal, non-carrier-modulated video signal. This signal is hereinafter referred to as the input video signal and may consist of the output signal of the decoder 4.

The input video signal consists of consecutive frames separated by raster-20 synchronization pulses (or vertical synchronization pulses) from picture lines separated by line synchronization pulses (or horizontal synchronization pulses). Depending on the television system, for example PAL and NTSC, generally interlaced image lines of two consecutive grids each form a rectangular grid area of which a smaller rectangular part forms an image area of a visible image.

Each image line has an expensive TL and successively consists of a front pavement, a horizontal sync pulse HSYNC, a back pavement and an image information portion. In a color television 30 system, a salvo or impact CB of a color subcarrier is superimposed on the rear pavement. The stepped shape of the image information shown in Fig. 2 serves only as an example and to indicate the amplitude ratios.

At the end of each frame, the display 35 from an instant trs suppresses the display of the image for a time longer than the time of a relatively large number of image lines, in the PAL system 25 image lines plus 12 ps. The beginning of each frame is indicated in fig. 2 by the time tr0, which is in the PAL

ra 4 7. The system follows a duration of 2.5 picture lines on trs. From the starting time tr0 of a frame, the video signal has a substantially low level for a period Tv. In the PAL system, this period TV lasts for 2.5 picture lines. By integrating the video-5 signal around the frame start time tr0 for some time, a signal is obtained which has substantially a low level during the period Tv and which has a high level outside it. While the line synchronization pulses TH are relatively short, in the PAL system 12 ps, the period Tv is relatively long, in the PAL-10 system 160 ps. As a result, the period Tv of the video signal can be clearly distinguished from the line synchronization pulses and used for synchronization of the frames of the picture.

Fig. 2b shows part of a frame synchronizing signal obtained by said integration with frame synchronizing pulses 15 VSYNC.

According to the invention, during the time of a number of picture lines at one end (i.e. at the beginning or end or at the start and end of each picture), the video signal is equalized, for example up to the level of the front and back steps, 20 so that, for example, a signal as shown in FIG. 2c with an equalization over time TE0 at the end of a frame is obtained.

The video output signal of Fig. 2c obtained by the equalization of the video signal of Fig. 2a is suitable to be reproduced normally by the display device 10 while retaining the visible image area. Preferably, the equalization period TE0 has a duration equal to 3 to 12 image lines.

However, when the video output signal of Fig. 2c is recorded by a recording device 11, in particular a magnetic tape recorder, the equalized part on the recording medium will be represented as a signal part with a level that for a significant part, for example, that in Fig. 2nd portion TEi shown is equal to the lowest level of the video signal. When the video signal of Fig. 2e is reproduced by the video display device 11, the display device 10 will detect a portion TE2, which will extend beyond the period TEi on both sides, as a frame synchronizing pulse. As a result of the configuration of the frame synchronization chain of general television sets as the display device 10, the display device 10 will synchronize during the erroneously reproduced period TE2 but not during the shortly following normal synchronization period TV. As a result, the frame following the period TE2 will be displayed from the display device 10 from an incorrect time or location in the said frame area.

When the period TE2 of the output video signal shown in Fig. 2e is different for different frames, the displayed image will skip depending on the differences of TE2, making the displayed image difficult to perceive by the user and recording the processed video output signal according to Fig. 2c and therefore also copying and multiplication has been useless.

Various options are available for varying the period TE2 of the video output signal of Fig. 2e which is detected by the display device 10 as a frame synchronization pulse. A number of options will be explained below. The equalization of the video input signal shown in Fig. 2a at one or both ends of the frames may or may not be performed alternately per frame.

The actual settlement can be accomplished through a separate physical electronic chain. Since a video signal processing device 1 of the type with a decoder 4 already has data processing means, the equalization can also be realized programmatically by means of these data processing means, or alternatively by additional data processing means. Since various solutions for equalization are possible, the means for this are generally indicated in Figure 1 with equalizing means 15.

Whether or not to equalize end portions of frames can be applied to successive groups of frames, whereby, preferably, the numbers of the frames for the respective groups are repeatedly generated at random. For this purpose, a hardware or programmatic random raster number generator 16 can be used, which is connected to the equalizing means 15 according to Fig. 1.

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In addition, the length of time TE0 of the end portion of frames to be equalized can be determined an arbitrarily determined time, in particular an arbitrary number of image lines and associated line synchronization pulses. As a result, the random line number generator 17 shown in Fig. 1 and connected to the equalizing means 15 can be used.

The disturbing effect that the equalization of end portions of frames of the video signal can be amplified by modulating at least a portion of the times TE0 over which is equalized the video signal 10, for example with a fixed frequency modulation signal, as shown in Fig. 2d. To prevent the modulated equalization portion from interfering with the display of the video signal of Fig. 2d by the display device 10, the amplitude of the modulation signal is preferably less than the amplitude of the burst 15 CB of the color subcarrier signal. The frequency range of the modulation signal appears to be large. Preferably a range between 100 kHz and 20 MHz is used.

Since the modulation signal can have a relatively wide frequency range, it is possible to apply frequency modulation in the period TE0 and various signal waveforms, including triangle and rectangle waveforms, can be used. Application thereof can further enhance the disturbing effect of the equalization and said modulation according to the invention on the frame synchronization by the display device 10. Such a modulation signal can be generated by means of an oscillator 18 connected in Fig. 1 to the equalizing means 15.

It is noted that where in the description and in the claims reference is made to equalize different numbers of image lines and associated line synchronization pulses, this is not limited to equalizing always whole numbers of image lines and associated line synchronizing pulses, nor to continuously equalize those image lines and line synchronization pulses or parts thereof. The main thing is that a smoothed part of a video signal after recording and reproducing it by a recording device 11 has a form which is detected as a frame synchronizing pulse by the, usually integrator-based, operation of a frame synchronizing circuit of the reproducing device 10 and that this is not happens when the display device 1014793-7 receives the output signal from the equalizing means 15 directly, or via a conventional bypass circuit from the recording device 11.

Claims (7)

A method of processing an input video signal, representing an image to be displayed by a video display device, and 5 consisting of successive frames separated by frame synchronizing pulses from picture lines separated by line synchronizing pulses, for supplying an output video signal, characterized at the ends of the grids different numbers of image lines and associated line synchronization pulses are substantially equalized. A method according to claim 1, characterized in that for successive groups of frames, alternating and non-equalizing is carried out. Method according to claim 2, characterized in that the number of frames of different groups of frames is a separate arbitrary number. Method according to a preceding claim, characterized in that the number of image lines and associated line raster synchronization pulses is 3 to 12. Method according to any one of claims 1 to 3, characterized in that the number of image lines and associated line synchronization pulses over which is equalized for different frames is a separate arbitrary number. 6. A method according to any one of the preceding claims, characterized in that a smoothed part of the input video signal is modulated by such a modulation signal that, after recording and reproduction of the output video signal by a recording X device, the modulation signal when the output video signal is reproduced by the reproducing device. does not represent line synchronization pulses. 35 A method according to claim 6, characterized in that the modulation signal has an amplitude less than the amplitude of a color subcarrier burst of the output video signal. 1014793