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The Discrete Ueda System and Its Fractional Order Version: Chaos, Stabilization and Synchronization

Louiza Diabi, Adel Ouannas, Amel Hioual, Giuseppe Grassi, Shaher Momani

2025Mathematics17 citationsDOIOpen Access PDF

Abstract

The Ueda oscillator is one of the most popular and studied nonlinear oscillators. Whenever subjected to external periodic excitation, it exhibits a fascinating array of nonlinear behaviors, including chaos. This research introduces a novel fractional discrete Ueda system based on Y-th Caputo fractional difference and thoroughly investigates its chaotic dynamics via commensurate and incommensurate orders. Applying numerical methods like maximum Lyapunov exponent spectra, bifurcation plots, and phase plane. We demonstrate the emergence of chaotic attractors influenced by fractional orders and system parameters. Advanced complexity measures, including approximation entropy (ApEn) and C0 complexity, are applied to validate and measure the nonlinear and chaotic nature of the system; the results indicate a high level of complexity. Furthermore, we propose a control scheme to stabilize and synchronize the introduced Ueda map, ensuring the convergence of trajectories to desired states. MATLAB R2024a simulations are employed to confirm the theoretical findings, highlighting the robustness of our results and paving the way for future works.

Topics & Concepts

Lyapunov exponentAttractorNonlinear systemSynchronization of chaosChaoticMathematicsControl theory (sociology)Robustness (evolution)Synchronization (alternating current)Approximate entropyBifurcationComputer scienceStatistical physicsMathematical analysisTopology (electrical circuits)PhysicsControl (management)Artificial intelligenceTime seriesStatisticsGeneBiochemistryCombinatoricsChemistryQuantum mechanicsChaos control and synchronizationNonlinear Dynamics and Pattern Formationstochastic dynamics and bifurcation