Litcius/Paper detail

Hidden attractors in a new fractional–order discrete system: Chaos, complexity, entropy, and control*

Adel Ouannas, Amina–Aicha Khennaoui, Shaher Momani, Viet–Thanh Pham, Reyad El-Khazali

2020Chinese Physics B73 citationsDOI

Abstract

This paper studies the dynamics of a new fractional-order discrete system based on the Caputo-like difference operator. This is the first study to explore a three-dimensional fractional-order discrete chaotic system without equilibrium. Through phase portrait, bifurcation diagrams, and largest Lyapunov exponents, it is shown that the proposed fractional-order discrete system exhibits a range of different dynamical behaviors. Also, different tests are used to confirm the existence of chaos, such as 0–1 test and C 0 complexity. In addition, the quantification of the level of chaos in the new fractional-order discrete system is measured by the approximate entropy technique. Furthermore, based on the fractional linearization method, a one-dimensional controller to stabilize the new system is proposed. Numerical results are presented to validate the findings of the paper.

Topics & Concepts

Lyapunov exponentPhase portraitAttractorChaoticLinearizationFractional-order systemMathematicsApplied mathematicsStatistical physicsEntropy (arrow of time)Dynamical systems theoryControl theory (sociology)BifurcationComputer scienceFractional calculusNonlinear systemMathematical analysisPhysicsControl (management)Quantum mechanicsArtificial intelligenceChaos control and synchronizationFractional Differential Equations SolutionsAdvanced Differential Equations and Dynamical Systems