Title :
Controlling chaotic oscillations in delay-differential systems via peak-to-peak maps
Author_Institution :
Dipt. di Elettronica e Inf., Politecnico di Milano, Italy
fDate :
8/1/2001 12:00:00 AM
Abstract :
A method for controlling chaotic oscillations in delay differential systems is presented. The method, which is intrinsically heuristic, relies on the capability of predicting the peak (relative maximum) of an output variable from the knowledge of the previous peak. This property, called peak-to-peak dynamics, is owned by several finite-dimensional systems, and crucially relies on the low-dimensionality of the chaotic attractor. In this paper it is shown that even delay-differential systems may display peak-to-peak dynamics, and the conditions giving rise to this property are analyzed. Then, a reduced model (a first-order map) derived via peak-to-peak dynamics is exploited to suppress chaos in favor of a periodic regime
Keywords :
chaos generators; delay-differential systems; multidimensional systems; nonlinear dynamical systems; chaotic attractor; chaotic oscillations; delay-differential systems; finite-dimensional systems; first-order map; low-dimensionality; output variable; peak-to-peak dynamics; peak-to-peak maps; periodic regime; Biomedical optical imaging; Chaos; Control design; Control system synthesis; Control systems; Delay systems; Displays; Nonlinear optics; Reduced order systems; Systems biology;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
