Analysis of non-equilibrium 4D dynamical system with fractal fractional Mittag–Leffler kernel

Qu Haidong; Mati ur Rahman; Sharifah E. Al Hazmi; Mansour F. Yassen; Soheil Salahshour; Mehdi Salimi; Ali Ahmadian

doi:10.1016/j.jestch.2022.101319

Analysis of non-equilibrium 4D dynamical system with fractal fractional Mittag–Leffler kernel

Qu Haidong, Mati ur Rahman, Sharifah E. Al Hazmi, Mansour F. Yassen, Soheil Salahshour, Mehdi Salimi, Ali Ahmadian

Mathematics

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

15 Scopus citations

Abstract

In this article, we presents the theoretical and numerical study of the four dimensional chaotic system which has no equilibrium point in the sense of fractal-fractional Mittag–Leffler kernel. By using the approach of fixed point theory, the existence and uniqueness of solution for the considered model is studied. The approximate solution is acquired by applying the technique of fractional Newton's polynomial interpolation. The numerical simulations of the approximate results are presented for different fractal dimension and fractional orders. From the figures we obtained the butterfly-type attractor by using different values of fractal dimension which shows symmetric form. Furthermore, fractal and fractional operators show significant impacts on the dynamics of the non-linear chaotic systems.

Original language	English
Article number	101319
Journal	Engineering Science and Technology, an International Journal
Volume	37
DOIs	https://doi.org/10.1016/j.jestch.2022.101319
State	Published - Jan 2023

Keywords

4D chaotic system
Existence and uniqueness
Fractal-fractional operator
Numerical solution

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10.1016/j.jestch.2022.101319

Cite this

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title = "Analysis of non-equilibrium 4D dynamical system with fractal fractional Mittag–Leffler kernel",

abstract = "In this article, we presents the theoretical and numerical study of the four dimensional chaotic system which has no equilibrium point in the sense of fractal-fractional Mittag–Leffler kernel. By using the approach of fixed point theory, the existence and uniqueness of solution for the considered model is studied. The approximate solution is acquired by applying the technique of fractional Newton's polynomial interpolation. The numerical simulations of the approximate results are presented for different fractal dimension and fractional orders. From the figures we obtained the butterfly-type attractor by using different values of fractal dimension which shows symmetric form. Furthermore, fractal and fractional operators show significant impacts on the dynamics of the non-linear chaotic systems.",

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AU - Haidong, Qu

AU - Rahman, Mati ur

AU - Al Hazmi, Sharifah E.

AU - Yassen, Mansour F.

AU - Salahshour, Soheil

AU - Salimi, Mehdi

AU - Ahmadian, Ali

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N2 - In this article, we presents the theoretical and numerical study of the four dimensional chaotic system which has no equilibrium point in the sense of fractal-fractional Mittag–Leffler kernel. By using the approach of fixed point theory, the existence and uniqueness of solution for the considered model is studied. The approximate solution is acquired by applying the technique of fractional Newton's polynomial interpolation. The numerical simulations of the approximate results are presented for different fractal dimension and fractional orders. From the figures we obtained the butterfly-type attractor by using different values of fractal dimension which shows symmetric form. Furthermore, fractal and fractional operators show significant impacts on the dynamics of the non-linear chaotic systems.

AB - In this article, we presents the theoretical and numerical study of the four dimensional chaotic system which has no equilibrium point in the sense of fractal-fractional Mittag–Leffler kernel. By using the approach of fixed point theory, the existence and uniqueness of solution for the considered model is studied. The approximate solution is acquired by applying the technique of fractional Newton's polynomial interpolation. The numerical simulations of the approximate results are presented for different fractal dimension and fractional orders. From the figures we obtained the butterfly-type attractor by using different values of fractal dimension which shows symmetric form. Furthermore, fractal and fractional operators show significant impacts on the dynamics of the non-linear chaotic systems.

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KW - Existence and uniqueness

KW - Fractal-fractional operator

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Analysis of non-equilibrium 4D dynamical system with fractal fractional Mittag–Leffler kernel

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