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On Chaos and Complexity Analysis for a New Sine-Based Memristor Map with Commensurate and Incommensurate Fractional Orders

Tareq Hamadneh, Abderrahmane Abbes, Hassan Al-Tarawneh, Gharib Mousa Gharib, Wael Mahmoud Mohammad Salameh, Maha S. Al Soudi, Adel Ouannas

2023Mathematics33 citationsDOIOpen Access PDF

Abstract

In this study, we expand a 2D sine map via adding the discrete memristor to introduce a new 3D fractional-order sine-based memristor map. Under commensurate and incommensurate orders, we conduct an extensive exploration and analysis of its nonlinear dynamic behaviors, employing diverse numerical techniques, such as analyzing Lyapunov exponents, visualizing phase portraits, and plotting bifurcation diagrams. The results emphasize the sine-based memristor map’s sensitivity to fractional-order parameters, resulting in the emergence of distinct and diverse dynamic patterns. In addition, we employ the sample entropy (SampEn) method and C0 complexity to quantitatively measure complexity, and we also utilize the 0–1 test to validate the presence of chaos in the proposed fractional-order sine-based memristor map. Finally, MATLAB simulations are be executed to confirm the results provided.

Topics & Concepts

MemristorPhase portraitLyapunov exponentSineNonlinear systemLogistic mapDetrended fluctuation analysisMATLABStatistical physicsBifurcationCHAOS (operating system)MathematicsComputer scienceControl theory (sociology)AlgorithmChaoticArtificial intelligencePhysicsScalingControl (management)Operating systemComputer securityGeometryQuantum mechanicsChaos control and synchronizationFractal and DNA sequence analysisstochastic dynamics and bifurcation