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<scp>Szász–Mirakyan</scp>‐based adaptive controller design for chaotic synchronization

Alireza Izadbakhsh, Iman Zamani, Saeed Khorashadizadeh

2020International Journal of Robust and Nonlinear Control28 citationsDOI

Abstract

Abstract This article presents a robust adaptive controller for chaos synchronization using the Szász–Mirakyan operator as a universal approximator. In accordance with the universal approximation theorem, the Szász–Mirakyan operator, an extended version of the Bernstein polynomial, can approximate uncertainties, including unmodeled dynamics and external disturbances. This fact is completely discussed in this article. It is shown that using the Szász–Mirakyan operator as basis functions and tuning the polynomial coefficients by the adaptive laws calculated in the stability analysis, uniformly ultimately bounded stability can be assured. Performance evaluation has also been carried out to confirm the satisfactory performance of transient response of the controller. Numerical simulations on the Duffing–Holmes oscillator are provided in order to demonstrate the effectiveness of this approach.

Topics & Concepts

Control theory (sociology)Operator (biology)Synchronization (alternating current)Controller (irrigation)Bounded functionDuffing equationPolynomialChaoticComputer scienceStability (learning theory)MathematicsApplied mathematicsTopology (electrical circuits)Control (management)Nonlinear systemMathematical analysisPhysicsGeneMachine learningCombinatoricsChemistryTranscription factorRepressorBiologyBiochemistryAgronomyArtificial intelligenceQuantum mechanicsChaos control and synchronizationNeural Networks and ApplicationsMathematical Dynamics and Fractals
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