X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/canny.git/blobdiff_plain/a6350e30f8efdf33a4e00b8ed090373edbce4edc..c3438d8c47f3989f6d0d0e6109a3c216cca0d7c7:/intro.tex?ds=sidebyside diff --git a/intro.tex b/intro.tex index 7fef201..b17515c 100644 --- a/intro.tex +++ b/intro.tex @@ -100,20 +100,20 @@ This is why we add to our scheme a reasonable message encryption stage, to be certain that, even in the worst case scenario, the attacker will not be able to obtain the message content. -Doing so makes our steganographic protocol an asymetric one. +Doing so makes our steganographic protocol, in a certain extend, an asymmetric one. To sum up, in this research work, well studied and experimented -techniques of signal treatment (adaptive edge detection), -coding theory (binary embedding), and cryptography +techniques of signal processing (adaptive edges detection), +coding theory (syndrome-treillis codes), and cryptography (Blum-Goldwasser encryption protocol) are combined to compute an efficient steganographic scheme, whose principal characteristics is to take into consideration the cover image and to be compatible with small computation resources. The remainder of this document is organized as follows. -Section~\ref{sec:ourapproach} presents the details of our steganographic scheme. -Section~\ref{sec:experiments} shows experiments on image quality, steganalytic evaluation, complexity of our approach -and compares it to state of the art steganographic schemes. +Section~\ref{sec:ourapproach} presents the details of the proposed steganographic scheme. +Section~\ref{sec:experiments} shows experiments on image quality, steganalytic evaluation, complexity of our approach, +and compares it to the state of the art steganographic schemes. Finally, concluding notes and future work are given in Section~\ref{sec:concl}.