X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/canny.git/blobdiff_plain/69853fcf95c4cb941d699fd5f1ca32540189b8a9..1bfb9cc8f38edd065a52de421a0dc41567c4262c:/main.tex?ds=inline diff --git a/main.tex b/main.tex index cc6454b..38bcd1a 100755 --- a/main.tex +++ b/main.tex @@ -1,8 +1,9 @@ -\documentclass[journal]{IEEEtran} +\documentclass{acm_proc_article-sp} \usepackage{subfig} \usepackage{color} \usepackage{graphicx} \usepackage{url} +\usepackage{cite} % correct bad hyphenation here \hyphenation{op-tical net-works semi-conduc-tor} @@ -10,34 +11,48 @@ \begin{document} \title{STABYLO: -a lightweight stego-secure edge-based steganography approach} +a lightweight %stego-secure +edge-based steganographic approach} -\author{Jean-Fran\c cois Couchot, Raphael Couturier, and Christophe Guyeux* +\author{Jean-Fran\c cois Couchot, Raphael Couturier, and Christophe Guyeux*\\ FEMTO-ST Institute, UMR 6174 CNRS\\ - Computer Science Laboratory DISC - University of Franche-Comt\'{e} + Computer Science Laboratory DISC, + University of Franche-Comt\'{e}, Besan\c con, France.\\ - \{jean-francois.couchot,raphael.couturier, christophe.guyeux\}@femto-st.fr\\ -* Authors in alphabetic order.\\ + \{jean-francois.couchot, raphael.couturier, christophe.guyeux\}@femto-st.fr\\ + $*:$ Authors in alphabetic order.\\ } -\newcommand{\JFC}[1]{\begin{color}{green}\textit{#1}\end{color}} -\newcommand{\RC}[1]{\begin{color}{red}\textit{#1}\end{color}} +\newcommand{\JFC}[1]{\begin{color}{green}\textit{}\end{color}} +\newcommand{\RC}[1]{\begin{color}{red}\textit{}\end{color}} +\newcommand{\CG}[1]{\begin{color}{blue}\textit{}\end{color}} % make the title area \maketitle -\begin{IEEEkeywords} + %IEEEtran, journal, \LaTeX, paper, template. -Steganography, least-significant-bit (LSB)-based steganography, edge detection, Canny filter, security, syndrome treillis code. -\end{IEEEkeywords} +\keywords{Steganography, least-significant-bit (LSB)-based steganography, edge detection, Canny filter, security, syndrome treillis code} + +\maketitle + +\begin{abstract} +A novel steganographic method called STABYLO is introduced in this research work. +Its main avantage for being is to be much lighter than the so-called +Highly Undetectable steGO (HUGO) method, a well known state of the art +steganographic process. Additionally to this effectiveness, +quite comparable results through noise measures like PSNR-HVS-M, +BIQI, and weighted PSNR (wPSNR) are obtained. +To achieve the proposed goal, famous experimented components of signal processing, +coding theory, and cryptography are combined together, leading to +a scheme that can reasonably face up-to-date steganalysers. +\end{abstract} -\IEEEpeerreviewmaketitle @@ -45,7 +60,7 @@ Steganography, least-significant-bit (LSB)-based steganography, edge detection, \input{intro.tex} -\section{Our Approach}\label{sec:ourapproach} +\section{Presentation of the Proposed Approach}\label{sec:ourapproach} \input{ourapproach.tex} \section{Experiments}\label{sec:experiments} @@ -53,8 +68,30 @@ Steganography, least-significant-bit (LSB)-based steganography, edge detection, \section{Conclusion}\label{sec:concl} -The conclusion goes here. +The STABYLO algorithm, whose acronym means STeganography +with cAnny, Bbs, binarY embedding at LOw cost, has been introduced +in this document as an efficient method having comparable, though +somewhat smaller, security than the well known +Highly Undetectable steGO (HUGO) steganographic scheme. +This edge-based steganographic approach embeds a Canny +detection filter, the Blum-Blum-Shub cryptographically secure +pseudorandom number generator, together with Syndrome-Treillis Codes +for minimizing distortion. +After having introduced with details the proposed method, +we have evaluated it through noise measures (namely, the PSNR, PSNR-HVS-M, +BIQI, and weighted PSNR) and using well established steganalysers. + +For future work, the authors' intention is to investigate systematically +all the existing edge detection methods, to see if the STABYLO evaluation scores can +be improved by replacing Canny with another edge filter. We will try +to take into account the least significant bits too during all the +stages of the algorithm, hoping by doing so to be closer to the HUGO scores against +steganalyzers. Other steganalyzers than the ones used in this document will be +examined for the sake of completeness. Finally, the +systematic replacement of all the LSBs of edges by binary digits provided +by the BBS generator will be investigated, and the consequences of such a +replacement, in terms of security, will be discussed. \bibliographystyle{plain}