From: cguyeux Date: Wed, 30 Jan 2013 14:52:27 +0000 (+0100) Subject: gfdg X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/canny.git/commitdiff_plain/f30c909e10a0d758bd045352bc1163b1e4efed16 gfdg --- diff --git a/ourapproach.tex b/ourapproach.tex index 4099700..0bfe489 100644 --- a/ourapproach.tex +++ b/ourapproach.tex @@ -61,17 +61,15 @@ first order and second order ones. These methods are based on gradient or Laplace operators and fuzzy edge methods, which are based on fuzzy logic to highlight edges. -Of course, all the algorithms have advantages and drawbacks which depend on the -motivation to highlight edges. Unfortunately unless testing most of the +Of course, all the algorithms have advantages and drawbacks that depend on the +motivations behind that edges detection. Unfortunately unless testing most of the algorithms, which would require many times, it is quite difficult to have an accurate idea on what would produce such algorithm compared to another. That is -why we have chosen Canny algorithm which is well known, fast and implementable -on many kinds of architecture, such as FPGA, smartphone, desktop machines and -GPU. And of course, we do not pretend that this is the best solution. - -In order to be able to compute the same set of edge pixels, we suggest to consider all the bits of the image (cover or stego) without the LSB. With an 8 bits image, only the 7 first bits are considered. In our flowcharts, this is represented by LSB(7 bits Edge Detection). - +why we have chosen Canny algorithm, which is well known, fast, and implementable +on many kinds of architectures like FPGAs, smartphones, desktop machines, and +GPUs. And of course, we do not pretend that this is the best solution. +In order to be able to compute the same set of edge pixels, we suggest to consider all the bits of the image (cover or stego) without the LSB. With an 8 bits image, only the 7 first bits are considered. In our flowcharts, this is represented by ``LSB(7 bits Edge Detection)''. % First of all, let us discuss about compexity of edge detetction methods. % Let then $M$ and $N$ be the dimension of the original image. % According to~\cite{Hu:2007:HPE:1282866.1282944}, @@ -83,12 +81,11 @@ In order to be able to compute the same set of edge pixels, we suggest to consid % In experiments detailled in this article, the Canny method has been retained % but the whole approach can be updated to consider % the fuzzy logic edge detector. - Next, following~\cite{Luo:2010:EAI:1824719.1824720}, our scheme automatically modifies the Canny algorithm parameters to get a sufficiently large set of edge bits: this -one is practically enlarged until its size is at least twice as many larger -than the size of embedded message. +one is practically enlarged until its size is at least twice as large +as the size of the embedded message. % Edge Based Image Steganography schemes % already studied~\cite{Luo:2010:EAI:1824719.1824720,DBLP:journals/eswa/ChenCL10,DBLP:conf/ih/PevnyFB10} differ @@ -117,7 +114,7 @@ than the size of embedded message. Among methods of message encryption/decryption (see~\cite{DBLP:journals/ejisec/FontaineG07} for a survey) we implement the Blum-Goldwasser cryptosystem~\cite{Blum:1985:EPP:19478.19501} -which is based on the Blum Blum Shub~\cite{DBLP:conf/crypto/ShubBB82} Pseudo Random Number Generator (PRNG) +that is based on the Blum Blum Shub~\cite{DBLP:conf/crypto/ShubBB82} pseudorandom number generator (PRNG) for security reasons. It has been indeed proven~\cite{DBLP:conf/crypto/ShubBB82} that this PRNG has the cryptographically security property, \textit{i.e.},