Title :
Self-parametric chaotic oscillators for secure communication systems
Author :
Tepin, Vladimir P.
Author_Institution :
Taganrog State Univ. of Radioengineering, Russia
Abstract :
In this paper, we propose a new class of time-varying chaotic oscillators. Driven by the internal parametric action that is a function of state variables, such oscillators can generate more complex waveform depending upon the type and parameters of this function. By introducing the appropriate ("reduced") time scale we prove that time-varying state equation of self-parametric oscillator can be reduced to that of its time-invariant prototype. The suitable self-synchronization technique for these oscillators is presented and the possibility for their application to secure communications is demonstrated by means of computer simulations.
Keywords :
chaos generators; chaotic communication; synchronisation; telecommunication security; time-varying systems; computer simulations; internal parametric action; secure communication systems; self-parametric chaotic oscillators; self-synchronization technique; state variables; time-invariant prototype; time-varying chaotic oscillators; time-varying state equation; Application software; Chaos; Chaotic communication; Computer simulation; Frequency synchronization; Nonlinear equations; Oscillators; Prototypes; State-space methods; Time varying systems;
Conference_Titel :
Circuits and Systems for Communications, 2002. Proceedings. ICCSC '02. 1st IEEE International Conference on
Print_ISBN :
5-7422-0260-1
DOI :
10.1109/OCCSC.2002.1029094
