X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/canny.git/blobdiff_plain/dc91e8c17710cc249f83001625e1d14581f2d276..6bc78c180bea99d493483c3cac3f559301d3af09:/experiments.tex?ds=inline diff --git a/experiments.tex b/experiments.tex index 22900c0..aa49e84 100644 --- a/experiments.tex +++ b/experiments.tex @@ -42,7 +42,7 @@ $$ \hline \end{array} $$ -\caption{Matrix Generator for $\hat{H}$ in STC}\label{table:matrices:H} +\caption{Matrix Generator for $\hat{H}$ in STC.}\label{table:matrices:H} \end{table} @@ -150,9 +150,12 @@ The steganalysis quality of our approach has been evaluated through the % two Ensemble Classifier~\cite{DBLP:journals/tifs/KodovskyFH12} based steganalyser. Its particularization to spatial domain is considered as state of the art steganalysers. -Firstly, a space -of 686 co-occurrence and Markov features is extracted from the -set of cover images and the set of training images. Next a small +Features that are embedded into this steganalysis process +are CCPEV and SPAM features as described +in~\cite{DBLP:dblp_conf/mediaforensics/KodovskyPF10}. +They are extracted from the +set of cover images and the set of training images. +Next a small set of weak classifiers is randomly built, each one working on a subspace of all the features. The final classifier is constructed by a majority voting @@ -190,7 +193,7 @@ Ensemble Classifier & 0.35 & 0.44 & 0.47 & 0.47 & 0.48 & 0.49 & 0.43 & 0 \end{tabular} \end{small} \end{center} -\caption{Steganalysing STABYLO\label{table:steganalyse}} +\caption{Steganalysing STABYLO\label{table:steganalyse}.} \end{table*} @@ -212,4 +215,22 @@ However due to its huge number of integration features, it is not lightweight. All these numerical experiments confirm the objective presented in the motivations: -providing an efficient steganography approach in a lightweight manner. +providing an efficient steganography approach in a lightweight manner +for small payload. + +In Figure~\ref{fig:error}, +Ensemble Classifier has been used with all the previous +steganographic schemes with 4 different payloads. +It can be observed that face to high values of payload, +STABYLO is definitely not secure enough. +However thanks to an efficient very low-complexity (Fig.\ref{fig:compared}), +we argue that the user should embed tiny messages in many images +than a larger message in only one image. +\begin{figure} +\begin{center} +\includegraphics[scale=0.5]{error} +\end{center} +\caption{Testing errors obtained by Ensemble classifier with +WOW/UNIWARD, HUGO, and STABYLO w.r.t. payload.} +\label{fig:error} +\end{figure}