2022
DOI: 10.3389/fphy.2021.812048
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Adaptive Synchronization for Hyperchaotic Liu System

Abstract: In this paper, the adaptive control design is investigated for the chaos synchronization of two identical hyperchaotic Liu systems. First, an adaptive control law with two inputs is proposed based on Lyapunov stability theory. Secondly, two other control schemes are obtained based on a further analysis of the proposed adaptive control law. Finally, numerical simulations are presented to validate the effectiveness and correctness of these results.

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Cited by 5 publications
(3 citation statements)
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“…Hyperchaotic attractors are defined as the simultaneous existence of two or more positive Lyapunov exponents in infinite time [22]. In the past few decades, the research on transient chaotic attractors, chaotic attractors, and hyperchaotic attractors has been fruitful [23][24][25]. 3) Double scroll/wing attractor, multi-scroll/wing attractor, and grid multi-scroll/wing attractor.…”
Section: Introductionmentioning
confidence: 99%
“…Hyperchaotic attractors are defined as the simultaneous existence of two or more positive Lyapunov exponents in infinite time [22]. In the past few decades, the research on transient chaotic attractors, chaotic attractors, and hyperchaotic attractors has been fruitful [23][24][25]. 3) Double scroll/wing attractor, multi-scroll/wing attractor, and grid multi-scroll/wing attractor.…”
Section: Introductionmentioning
confidence: 99%
“…Modeling of two-scroll hyperchaotic systems has attracted good research in the literature [21][22][23]. is research work reports the ndings of a new four-dimensional nonlinear dynamical system having two quadratic nonlinear terms and depicting a two-scroll hyperchaotic attractor.…”
Section: Introductionmentioning
confidence: 99%
“…Among the intriguing phenomena associated with chaotic systems is synchronization, where the dynamics of two chaotic systems, whether identical or non-identical, are coupled through appropriate control laws within finite time. Numerous synchronization schemes have been developed to facilitate this coupling, including adaptive control-based synchronization [18], adaptive hybrid synchronization [19], functional projective synchronization [20], and sliding mode control-based synchronization [21], [22], fuzzy synchronization [23], invariant ellipsoids method [24]. Each scheme serves specific purposes in different contexts and applications.…”
mentioning
confidence: 99%