Axioms (Nov 2024)

Novel Dynamic Behaviors in Fractional Chaotic Systems: Numerical Simulations with Caputo Derivatives

  • Mohamed A. Abdoon,
  • Diaa Eldin Elgezouli,
  • Borhen Halouani,
  • Amr M. Y. Abdelaty,
  • Ibrahim S. Elshazly,
  • Praveen Ailawalia,
  • Alaa H. El-Qadeem

DOI
https://doi.org/10.3390/axioms13110791
Journal volume & issue
Vol. 13, no. 11
p. 791

Abstract

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Over the last several years, there has been a considerable improvement in the possible methods for solving fractional-order chaotic systems; however, achieving high accuracy remains a challenge. This work proposes a new precise numerical technique for fractional-order chaotic systems. Through simulations, we obtain new types of complex and previously undiscussed dynamic behaviors.These phenomena, not recognized in prior numerical results or theoretical estimations, underscore the unique dynamics present in fractional systems. We also study the effects of the fractional parameters β1, β2, and β3 on the system’s behavior, comparing them to integer-order derivatives. It has been demonstrated via the findings that the suggested technique is consistent with conventional numerical methods for integer-order systems while simultaneously providing an even higher level of precision. It is possible to demonstrate the efficacy and precision of this technique through simulations, which demonstrates that this method is useful for the investigation of complicated chaotic models.

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