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CDC
2009
IEEE

Controlled synchronization via nonlinear integral coupling

14 years 4 months ago
Controlled synchronization via nonlinear integral coupling
— 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.
Alexey V. Pavlov, Erik Steur, Nathan van de Wouw
Added 21 Jul 2010
Updated 21 Jul 2010
Type Conference
Year 2009
Where CDC
Authors Alexey V. Pavlov, Erik Steur, Nathan van de Wouw
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