Tomáš Pevný scite author profile

This paper summarizes the first international challenge on steganalysis called BOSS (an acronym for Break Our Steganographic System). We explain the motivations behind the organization of the contest, its rules together with reasons for them, and the steganographic algorithm developed for the contest. Since the image databases created for the contest significantly influenced the development of the contest, they are described in a great detail. Paper also presents detailed analysis of results submitted to the challenge. One of the main difficulty the participants had to deal with was the discrepancy between training and testing source of images-the so-called cover-source mismatch, which forced the participants to design steganalyzers robust w.r.t. a specific source of images. We also point to other practical issues related to designing steganographic systems and give several suggestions for future contests in steganalysis.

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Using High-Dimensional Image Models to Perform Highly Undetectable Steganography

Pevný

2010

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Steganalysis by Subtractive Pixel Adjacency Matrix

Pevný

Bas

Fridrich

2010

IEEE Trans.Inform.Forensic Secur.

875

301

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This paper presents a novel method for detection of steganographic methods that embed in the spatial domain by adding a low-amplitude independent stego signal, an example of which is LSB matching. First, arguments are provided for modeling differences between adjacent pixels using first-order and second-order Markov chains. Subsets of sample transition probability matrices are then used as features for a steganalyzer implemented by support vector machines. The accuracy of the presented steganalyzer is evaluated on LSB matching and four different databases. The steganalyzer achieves superior accuracy with respect to prior art and provides stable results across various cover sources. Since the feature set based on second-order Markov chain is highdimensional, we address the issue of curse of dimensionality using a feature selection algorithm and show that the curse did not occur in our experiments.

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Merging Markov and DCT features for multi-class JPEG steganalysis

2007

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Blind steganalysis based on classifying feature vectors derived from images is becoming increasingly more powerful. For steganalysis of JPEG images, features derived directly in the embedding domain from DCT coefficients appear to achieve the best performance (e.g., the DCT features 10 and Markov features 21 ). The goal of this paper is to construct a new multi-class JPEG steganalyzer with markedly improved performance. We do so first by extending the 23 DCT feature set, 10 then applying calibration to the Markov features described in 21 and reducing their dimension. The resulting feature sets are merged, producing a 274-dimensional feature vector. The new feature set is then used to construct a Support Vector Machine multi-classifier capable of assigning stego images to six popular steganographic algorithms-F5,

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Steganalysis by subtractive pixel adjacency matrix

2009

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Tomáš Pevný

”Break Our Steganographic System”: The Ins and Outs of Organizing BOSS

Using High-Dimensional Image Models to Perform Highly Undetectable Steganography

Steganalysis by Subtractive Pixel Adjacency Matrix

Merging Markov and DCT features for multi-class JPEG steganalysis

Steganalysis by subtractive pixel adjacency matrix

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