The invention relates to a method and a device for processing a sequence of source pictures. More specifically, it relates to ways of preventing illegal copy of video pictures.
The visual contents, whether these be fixed or moving pictures, are in general creations that benefit from guarantees of exclusivity associated with the creator's rights. Their reproduction is in general permitted only within a strictly defined framework that allows the creators and their beneficiaries to be remunerated.
To ensure that these legal rules are complied with correctly, many systems have been developed to prevent illegal copies or to make the quality of the copies sufficiently degraded to make them unusable.
Within this context, the patent application WO 05/027529 aims to combat the copying of source pictures by means of a camera while they are being displayed, for example using a camcorder in a movie theatre. In this document, it is proposed to generate, from each source picture of the sequence to be displayed, at least two successive processed pictures, in which the colour of at least one pixel in the processed pictures is modulated temporally around the colour of the pixel in the source picture and to display these processed pictures. The pixels whose colour is modified represent an anti-piracy message. The processed pictures are displayed at a high frequency that makes the message invisible to the human eye but visible in the sequence filmed by the camcorder. Such a solution requires a modulation of the colour of the pixels at a frequency higher than the critical flicker frequency, which is of around 10/20 or 50/60 Hz depending on the flicker characteristics, and therefore applies only to projection systems having a high refresh frequency, at least of around 100 Hz. It is also possible to modulate the luminance or the brightness of the pixels instead of their colour.
In such projection systems, the modulation frequency is constant and is generally half the refresh frequency. The main problem with such systems is that once a pirate has figured out what the modulation frequency is, he can configure his camcorder shutter to filter out this frequency and bypass the anti-camcorder method.
The present invention aims at alleviating this drawback of the prior art.
For this purpose, the invention proposes a video processing method wherein the modulation frequency is changed at least once throughout the displaying of the sequence pictures or the movie, to defeat all current camcorders standards (e.g. PAL/NTSC) and shutter configurations.
The invention relates to a method for processing a sequence of source video pictures by generating, from each source picture, at least two successive processed video pictures, in which the brightness of at least one pixel in the processed video pictures is modulated temporally around the brightness of the pixel in the source video picture by a carrier wave at a frequency called modulation frequency. According to the invention, the modulation frequency of the carrier wave changes at least once throughout the generation of the processed video pictures of the sequence.
In a specific embodiment, the modulation frequency changes periodically. For example, the modulation frequency changes at each period of N source video pictures with N≧1.
Otherwise, the number of modulation frequencies can be greater or equal to 2. In a specific embodiment, this number is 2 and, in that case, the modulation frequency changes alternately between a first modulation frequency and a second modulation frequency. These two modulation frequencies are advantageously selected to generate an aliasing for two different sampling frequencies of video capturing device when the processed video pictures are captured by said video capturing device. For example, the first modulation frequency is selected to generate an aliasing at a frequency fa for a sampling frequency of 50 Hz (interleaved PAL) and the second modulation frequency is selected to an aliasing at the same frequency fa for a sampling frequency of 60 Hz (interleaved NTSC).
In another embodiment, the modulation frequency changes progressively, for example, according a sine curve.
In practice, the generation of processed video pictures comprises
The phase of the carrier wave, for each modulation frequency, is preferably selected in order to maximize the carrier wave energy over the time period where the modulation frequency is said modulation frequency.
The invention relates also to a device for processing a sequence of source video pictures comprising a generator for generating, from each source video picture, at least two successive processed video pictures, in which the brightness of at least one pixel in the processed video pictures is modulated temporally around the brightness of the pixel in the source video picture by a carrier wave at a frequency called modulation frequency. According to the invention, the generator comprises means for changing the modulation frequency at least once throughout the generation of the processed video pictures.
Exemplary embodiments of the invention are illustrated in the drawings and are explained in more detail in the following description. In the drawings:
The anti-camcorder method as defined in the prior art is based on a colour or brightness modulation in which two output pictures I1 and I2 are generated from one single source picture I0 in which, for each pixel P, I0(P)=[I1(P)+I2(P)]/2 where Ix(P) designates the brightness value of the pixel P in the picture Ix and where I1(P)≠I0(P) and I2(P)≠I0(P).
This brightness modulation is the particular case of a more general continuous amplitude modulation such as
I(t)=I0.(1+m.cos(2π·fm·t+φ)) (1)
where I(t) is the modulated picture, I0 is a source picture, mε[0,1] is the modulation index and fm is the modulation frequency.
Therefore, for each source picture I0, the discrete form (t=k/Fr′) of this modulation generates K=Fr′/Fr output pictures, where Fr is the refresh frequency of the source pictures and Fr′ is the refresh frequency of the output pictures. Fr′ has to be higher than Fr and is preferably a multiple of Fr to bypass synchronization issues.
In the case of current “1-to-2 frames” anti-camcorder method illustrated by
According to the invention, it is proposed to change the modulation frequency fm at least once throughout the displaying of the sequence of output pictures, for example throughout a movie, to defeat all camcorders standards (PAL/NTSC) and shutter configurations.
In a first embodiment, the modulation frequency fm changes periodically, for example at each period of N source pictures with N≧1 and it sweeps between at least two modulation frequencies. Advantageously, N is equal or greater than 8 to have a reduced bandwidth for the modulated signal.
In the example illustrated by
The modulation frequencies used can be independent of the refresh frequency Fr′ of the output pictures because the continuity of the carrier wave is maintained throughout the display of the pictures (no cut in the phase of the carrier wave).
In a second embodiment illustrated by
In order to get the highest effect (the highest amplitude of modulation for the samples), for each modulation frequency fmi, it is advantageous to select a phase φ of the carrier wave, noted φopt, that maximizes the carrier signal energy over the time period where the modulation frequency fmi is applied
For example, if fmi=35 Hz, Fr=24 Hz and Fr′=144 Hz, the optimal phase is φopt=2.22 rad .
The anti-camcorder effect can be advantageously strengthened by normalizing the value of the kth sample by multiplying it by a normalization coefficient Cnorm(k) such as
This normalization allows that at least one sample of the K consecutives samples of the carrier wave reaches the maximum or the minimum brightness value (for example 255).
According to the invention, for a time period where the modulation frequency fmi is selected and for M source pictures I(n) with nε[1,N], K×N output pictures Iout are generated: for kε[1,K], nε[1,N],
It can be noted that phase optimization and normalization only applies if a finite set of carrier coefficients
has been found. For hardware implementation purposes we will only use modulation frequencies that respect this condition and the set of coefficients will be stored in a Look-Up Table.
are computed previously and stored in a look-up table;
Of course, the scope of the present invention is not limited to the embodiments described hereinabove. More particularly, other values of refresh frequencies Fr′ and Fr′ or modulation frequencies fmi can be used. More than two modulation frequencies can be used.
Number | Date | Country | Kind |
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06301220.7 | Dec 2006 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/063284 | 12/4/2007 | WO | 00 | 6/2/2009 |