Title :
Novel experimental synchronization technique for embedded chaotic communications
Author :
Sadoudi, Said ; Azzaz, Mohamed Salah ; Tanougast, Camel
Author_Institution :
Lab. Syst. de Commun. (LSC), Ecole Mil. Polytech., Algiers, Algeria
Abstract :
In this paper, we propose an interesting and original solution to the problem of chaotic synchronization which is focused in its high sensitivity to channel noise. We demonstrate through experimental design, the synchronization of tow embedded hyperchaotic Lorenz generators implemented separately in two FPGA circuits. The basic idea of the proposed solution consists of synchronizing two hyperchaotic systems without perturbing the hyperchaotic dynamic of the slave system. This means that, in an eventual wireless hyperchaotic communication system, whatever the perturbations suffered by the transmitted hyperchaotic carrier (drive signal) through the channel, our solution permits to generate an identical copy of the hyperchaotic carrier at the receiver and then recover the information signal correctly.
Keywords :
chaotic communication; design of experiments; field programmable gate arrays; receivers; signal processing; synchronisation; FPGA circuits; channel noise sensitivity; chaotic synchronization; drive signal; embedded chaotic communications; embedded hyperchaotic Lorenz generators; eventual wireless hyperchaotic communication system; experimental design; experimental synchronization technique; hyperchaotic dynamic; information signal recovery; receiver; slave system; transmitted hyperchaotic carrier; Chaotic communication; Field programmable gate arrays; Noise; Real-time systems; Receivers; Synchronization; FPGA; Hyperchaos; Lorenz System; Synchronization; VHDL;
Conference_Titel :
Control, Decision and Information Technologies (CoDIT), 2014 International Conference on
Conference_Location :
Metz
DOI :
10.1109/CoDIT.2014.6996976
