Adaptive backstepping synchronization between chaotic systems with unknown Lipschitz constant

•A method of synchronous control between two nonlinear systems with unknown Lipschitz constants of nonlinear terms is given.•A broad applicable method suitable for many nonlinear systems is presented via self adaptive design for unknown parameters.•Low-dimension, even scalar controller can be obtain...

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Bibliographic Details
Published in:Applied mathematics and computation 2014-06, Vol.236, p.10-18
Main Authors: Tu, Jianjun, He, Hanlin, Xiong, Ping
Format: Article
Language:English
Subjects:
Adaptive
Backstepping
Chaos synchronization
Chaos theory
Control systems
Error analysis
Estimators
Lipschitz constant
Mathematical analysis
Nonlinearity
Synchronism
Synchronization
Uncertainty
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Summary:•A method of synchronous control between two nonlinear systems with unknown Lipschitz constants of nonlinear terms is given.•A broad applicable method suitable for many nonlinear systems is presented via self adaptive design for unknown parameters.•Low-dimension, even scalar controller can be obtained by this method owing to the backstepping design philosophy. The error between two nonlinear terms is a key point of many synchronization problems, however, the Lipschitz constant of the nonlinear term is not always easy to calculate for the stability analysis of the controlled error system, thus the nonlinear systems with unknown parameters and unknown Lipschitz constant is considered in this paper. Their scalar synchronous controller is proposed based on the thought of backstepping design. Without the need to evaluate the invariant set and calculate the Lipschitz constant, an assistant adaptive estimator is designed for the Lipschitz constant. What’s more, as a problem solving skill, two different estimators are used on the same unknown parameter. Finally, the synchronization control for both chaotic autonomous Van der Pol–Duffing (ADVP) systems and chaotic Genesio systems with unknown parameters are given as examples to verify the control effect.
ISSN:0096-3003
1873-5649
DOI:10.1016/j.amc.2014.03.012