Abstract
Chaos in nonlinear dynamics occurs widely in physics, chemistry, biology, ecology, secure communications, cryptosystems and many scientific branches. Synchronization of chaotic systems is an important research problem in chaos theory. Sliding mode control is an important method used to solve various problems in control systems engineering. In robust control systems, the sliding mode control is often adopted due to its inherent advantages of easy realization, fast response and good transient performance as well as insensitivity to parameter uncertainties and disturbance. This work derives a new result for the complete synchronization of identical chaotic systems via novel second order sliding mode control method. The main control result is established by Lyapunov stability theory. As an application of the general result, the problem of global chaos synchronization of novel three-scroll chaotic systems is studied and a new sliding mode controller is derived. The Lyapunov exponents of the novel three-scroll chaotic system are obtained as \(L_1 = 2.0469\), \(L_2 = 0\) and \(L_3 = -3.5533\). The Kaplan-Yorke dimension of the novel chaotic system is obtained as \(D_{KY} = 2.5761\). The large value of \(D_{KY}\) shows the high complexity of the novel three-scroll chaotic system. Numerical simulations using MATLAB have been shown to depict the phase portraits of the novel three-scroll chaotic system and the global chaos synchronization of three-scroll chaotic systems.
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Vaidyanathan, S. (2017). Complete Synchronization of Chaotic Systems via Novel Second Order Sliding Mode Control with an Application to a Novel Three-Scroll Chaotic System. In: Vaidyanathan, S., Lien, CH. (eds) Applications of Sliding Mode Control in Science and Engineering. Studies in Computational Intelligence, vol 709. Springer, Cham. https://doi.org/10.1007/978-3-319-55598-0_9
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