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Mathematical views of the fractional Chua's electrical circuit described by the Caputo-Liouville derivative

Ndèye Awa Sène

2021Revista Mexicana de Física20 citationsDOIOpen Access PDF

Abstract

This paper revisits Chua's electrical circuit in the context of the Caputo derivative. We introduce the Caputo derivative into the modeling of the electrical circuit. The solutions of the new model are proposed using numerical discretizations. The discretizations use the numerical scheme of the Riemann-Liouville integral. We have determined the equilibrium points and study their local stability. The existence of the chaotic behaviors with the used fractional-order has been characterized by the determination of the maximal Lyapunov exponent value. The variations of the parameters of the model into the Chua's electrical circuit have been quantified using the bifurcation concept. We also propose adaptive controls under which the master and the slave fractional Chua's electrical circuits go in the same way. The graphical representations have supported all the main results of the paper.

Topics & Concepts

Fractional calculusChua's circuitContext (archaeology)Lyapunov exponentElectrical networkMathematicsDerivative (finance)ChaoticBifurcationStability (learning theory)Electronic circuitApplied mathematicsOrder (exchange)Control theory (sociology)Computer scienceMathematical analysisPhysicsNonlinear systemAttractorFinanceEconomicsArtificial intelligenceFinancial economicsControl (management)Quantum mechanicsMachine learningBiologyPaleontologyFractional Differential Equations SolutionsAdvanced Control Systems DesignChaos control and synchronization