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

doi:10.1088/1674-1056/ab820d

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

Nonlinear Dynamic Research Centre (NDRC)

University of Tebessa
Ajman University
University of Oum El Bouaghi
University of Jordan
Ton Duc Thang University
Khalifa University of Science and Technology

Research output: Contribution to journal › Article › peer-review

71 Scopus citations

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.

Original language	English
Article number	050504
Journal	Chinese Physics B
Volume	29
Issue number	5
DOIs	https://doi.org/10.1088/1674-1056/ab820d
State	Published - May 2020

Keywords

discrete chaos
discrete fractional calculus
hidden attractor

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10.1088/1674-1056/ab820d

Cite this

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title = "Hidden attractors in a new fractional-order discrete system: Chaos, complexity, entropy, and control",

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.",

keywords = "discrete chaos, discrete fractional calculus, hidden attractor",

author = "Adel Ouannas and Khennaoui, \{Amina Aicha\} and Shaher Momani and Pham, \{Viet Thanh\} and Reyad El-Khazali",

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doi = "10.1088/1674-1056/ab820d",

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T1 - Hidden attractors in a new fractional-order discrete system

T2 - Chaos, complexity, entropy, and control

AU - Ouannas, Adel

AU - Khennaoui, Amina Aicha

AU - Momani, Shaher

AU - Pham, Viet Thanh

AU - El-Khazali, Reyad

PY - 2020/5

Y1 - 2020/5

N2 - 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.

AB - 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.

KW - discrete chaos

KW - discrete fractional calculus

KW - hidden attractor

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DO - 10.1088/1674-1056/ab820d

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JO - Chinese Physics B

JF - Chinese Physics B

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

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Keywords

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