X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/16dcc.git/blobdiff_plain/7e1869395799899be33ae9c59d7ddf936d3d5907..6c611637ef05c993351fece7ff89ee10a2090031:/main.tex?ds=inline diff --git a/main.tex b/main.tex index f772c80..6225751 100644 --- a/main.tex +++ b/main.tex @@ -528,16 +528,45 @@ % in the abstract or keywords. +% \begin{abstract} +% This paper is dedicated to the design of chaotic random generators +% and extends previous works proposed by some of the authors. +% We propose a theoretical framework proving both the chaotic properties and +% that the limit distribution is uniform. +% A theoretical bound on the stationary time is given and +% practical experiments show that the generators successfully pass +% the classical statistical tests. +% \end{abstract} + \begin{abstract} -This paper is dedicated to the design of chaotic random generators -and extends previous works proposed by some of the authors. -We propose a theoretical framework proving both the chaotic properties and -that the limit distribution is uniform. -A theoretical bound on the stationary time is given and -practical experiments show that the generators successfully pass -the classical statistical tests. + +Designing a pseudorandom number generator (PRNG) is a hard and complex task. +Many recent works have consider chaotic functions as the basis of built +PRNGs: +the quality of the output would be an obvious consequence of some chaos +properties. +However, there is no direct reasoning that goes from chaotic functions to +uniform distribution of the output. +Moreover, it is not clear that embedding such kind of functions into a PRNG +allows to get a chaotic output, which could be required for simulating +some chaotic behaviours. + +In a previous work, some of the authors have proposed the idea of walking +into a $\mathsf{N}$-cube where a balanced Hamiltonian cycle have been +removed as the basis of a chaotic PRNG. In this article, all the difficult +issues observed in the previous work have been tackled. The chaotic behavior +of the whole PRNG is proven. The construction of the balanced Hamiltonian +cycle is theoretically and practically solved. An upper bound of the +expected length of the walk to obtain a uniform distribution is calculated. +Finally practical experiments show that the generators successfully pass the +classical statistical tests. + + \end{abstract} + + + % Note that keywords are not normally used for peerreview papers. % \begin{IEEEkeywords} % IEEE, IEEEtran, journal, \LaTeX, paper, template.