X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/HindawiJournalOfChaos.git/blobdiff_plain/f5dfadd98093d3fb12f61c1b56c7e2c0b56a2a25..e153d0d9e632c69794234adbedc7f8ebf97db9d1:/IH/conclusion.tex diff --git a/IH/conclusion.tex b/IH/conclusion.tex index 5e87498..e720b40 100644 --- a/IH/conclusion.tex +++ b/IH/conclusion.tex @@ -1 +1,23 @@ \section{Conclusion} +This work has reviewed the evolution of chaos based data hiding schemes. +The whole class of algorithms has been formally presented and implemented. +Two watermarking processes ($\mathcal{CIW}_1$ and $\mathcal{CIS}_2$) have been +recalled; the former is a one-bit approach whereas the latter allows to +embed any message of reasonable size. +The two schemes have been +theoretically evaluated: both are stego-secure and verify the +topological expansiveness property. +These two scheme has been practically evaluated: they have been proven to be +robust against a large class of attacks. +Finally, $\mathcal{DI}_3$ which adapts the $\mathcal{CIS}_2$ scheme to +the steganography field. It capacity to resists to steganalysis has been +evaluated and has shown promissing results. + +To summarize, this works has presented three +chaos based data hiding schemes and has study their security. +In a future work we plan to combine these approaches to other data hiding +schemes to take benefit of their best behaviors: +for instance the pixel selection may be achieved by state of the art +distortion function and modifications may be delayed to chaos +based schemes. + \ No newline at end of file