Controlled synchronization via nonlinear integral coupling

Author

Pavlov, Alexey ; Steur, Erik ; Van de Wouw, Nathan

Author_Institution

StatoilHydro Res. Center, Porsgrunn, Norway

fYear

2009

fDate

15-18 Dec. 2009

Firstpage

5263

Lastpage

5268

Abstract

This paper considers the problems of controlled synchronization and regulation of oscillatory systems. For a specific class of nonlinear systems, namely for minimum phase systems with relative degree one, we propose a systematic design procedure for finding nonlinear couplings between the systems - both unidirectional and bidirectional - that guarantee asymptotic synchronization of the systems´ states for arbitrary initial conditions. The corresponding coupling has the form of an integral and it can be considered as a generalized distance between the outputs of the coupled systems. It combines both the low- and the high-gain coupling design in one nonlinear function. The results are illustrated with simulations of coupled Hindmarsh-Rose neuron oscillators.

Keywords

interconnected systems; nonlinear systems; oscillators; synchronisation; controlled synchronization; coupled Hindmarsh Rose neuron oscillators; minimum phase systems; nonlinear integral coupling; nonlinear systems; oscillatory systems; systems states synchronization; Chaos; Control systems; Couplings; Interconnected systems; Neurons; Nonlinear control systems; Nonlinear systems; Oscillators; Physics; State-space methods;

fLanguage

English

Publisher

ieee

Conference_Titel

Decision and Control, 2009 held jointly with the 2009 28th Chinese Control Conference. CDC/CCC 2009. Proceedings of the 48th IEEE Conference on

Conference_Location

Shanghai

ISSN

0191-2216

Print_ISBN

978-1-4244-3871-6

Electronic_ISBN

0191-2216

Type

conf

DOI

10.1109/CDC.2009.5400275

Filename

5400275