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Multimedia Security, Volume 1. William PuechЧитать онлайн книгу.

Multimedia Security, Volume 1 - William Puech


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due to the fact that forged regions are likely to present different noise models from the rest of the image. However, to exploit this, it is necessary to have algorithms that are capable of dealing with signal and frequency-dependent noise. The multi-scale approach is shown as an appropriate framework for noise inconsistency analysis.

      Image demosaicing, which will be presented in detail in section 1.2.2, leaves artifacts that can be used to find falsifications. The Bayer CFA (see Figure 1.3) is by far the most commonly used. Mosaic detection algorithms thus focus on this matrix, although they could be adapted to other patterns.

      Figure 1.8. Percentage of points below the global noise curve and geometric mean for each macro-block at S0, S1 and S2

      1.4.1. Forgery detection through demosaicing analysis

      Detecting demosaicing artifacts can answer two questions:

       – Is it possible that a given image was obtained with a given device?

       – Is there a region of the image whose demosaicing traces are inconsistent with the rest of the image?

      A more promising approach is to directly detect the position of the Bayer matrix. Indeed, while the CFA pattern is almost always a Bayer matrix, the exact position of the matrix, that is, the offset of the CFA, varies. Detecting the position of the matrix therefore has two uses:

       – we can compare the position of the Bayer matrix in the image to the one normally used by a specific device. If the positions do not correspond, then the image was either not taken by that device, or it was cropped in the processing;

       – in the case of copy-move, both internal and external (splicing), there is a probability that the position of the Bayer matrix does not correspond between the original image and the pasted region. Therefore, detecting the position of the Bayer matrix, both globally and locally, can be used to find inconsistencies.

      Most current demosaicing detection methods focus on this second idea, as local CFA inconsistencies give useful information on the image and can be found relatively easily in ideal conditions, that is, in uncompressed images, as we will now present.

      1.4.2. Detecting the position of the Bayer matrix

      Different methods make it possible to detect either the position of the Bayer matrix directly or inconsistencies of this matrix in the image.

      1.4.2.1. Joint estimation of the sampled pixels and the demosaicing algorithm

      1.4.2.2. Double demosaicing detection

      Another method proposes to directly detect the CFA pattern used in the image (Kirchner 2010). In order to do this, the image is remosaiced and demosaiced in the four possible positions, with a simple algorithm such as bilinear interpolation. The reasoning is that demosaicing should produce an image closer to the original when it is remosaiced in the correct position. They then compare the residuals to detect which position of the CFA has been used. Since CFA artifacts are generally more visible in the green channel, they decide first the position of the sampled green pixels, before deciding between the remaining two positions with the red and blue channels, a paradigm that has been used in most publications since then. Their use of the bilinear algorithm limits them in the same way (Popescu and Farid 2005; González Fernández et al. 2018) due to the linearity and chromatic independence of the bilinear algorithm, which is not shared by most modern demosaicing algorithms. However, their method does not depend on the choice of algorithm, and could therefore provide very good results should the originally used demosaicing algorithm be known.

      1.4.2.3. Direct detection of the grid by intermediate values


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