Realization and Implementation of Polynomial Chaotic Sun System

Deterministic chaos can exhibit robust dynamic behaviors such as sensitive dependence on initial
conditions. The behaviors have warranted diverse engineering uses, which usually entail electronic
hardware implementation. In this study, the circuit realization and its corresponding implementation
by means of analog electronic components are presented for the polynomial chaotic Sun system.
The system has twelve terms, twelve parameters and six nonlinear terms. A procedure is detailed
for converting the chaotic parameters into corresponding electronic parameters such as the circuital
resistances. Circuit realization of the system is simulated by PSPice-A/D. Next, the circuit is
implemented by means of analog electronic components such as operational amplifiers and multipliers.
Signals from electronic experiments are compared with numerical simulations.