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Generating Chaos in Dynamical Systems: Applications, Symmetry Results, and Stimulating Examples

Nikolay Kyurkchiev, Tsvetelin Zaevski, Антон Илиев, Vesselin Kyurkchiev, Asen Rahnev

2024Symmetry11 citationsDOIOpen Access PDF

Abstract

In this paper, we present a new class of extended oscillators in light of chaos theory. It is based on dynamical complex systems built on the concept of self-describing with a stopping criterion process. We offer an effective studying approach with a specific focus on learning, provoking students’ thinking through the triad of enigmatics–creativity–acmeology. Dynamic processes are the basis of mathematical modeling; thus, we can reach the goal of the above-mentioned triad by the proposed differential systems. The results we derive strongly confirm the presence of symmetry in the outcomes of the proposed models. We suggest a stochastic approach to structuring the proposed dynamical systems by modeling the coefficients that drive them by some discrete probability distribution that exhibits symmetry or asymmetry. We propose specific tools for researching the behavior of these systems.

Topics & Concepts

Dynamical systems theoryComputer scienceSymmetry (geometry)Statistical physicsAsymmetryStructuringBasis (linear algebra)Focus (optics)Class (philosophy)Process (computing)Theoretical computer scienceMathematicsArtificial intelligencePhysicsEconomicsFinanceOperating systemGeometryQuantum mechanicsOpticsChaos control and synchronizationComplex Systems and Time Series AnalysisNonlinear Dynamics and Pattern Formation