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A Novel Numerical Method for Solving Nonlinear Fractional-Order Differential Equations and Its Applications

Seyeon Lee, Hyunju Kim, Bongsoo Jang

2024Fractal and Fractional14 citationsDOIOpen Access PDF

Abstract

In this article, a considerably efficient predictor-corrector method (PCM) for solving Atangana–Baleanu Caputo (ABC) fractional differential equations (FDEs) is introduced. First, we propose a conventional PCM whose computational speed scales with quadratic time complexity O(N2) as the number of time steps N grows. A fast algorithm to reduce the computational complexity of the memory term is investigated utilizing a sum-of-exponentials (SOEs) approximation. The conventional PCM is equipped with a fast algorithm, and it only requires linear time complexity O(N). Truncation and global error analyses are provided, achieving a uniform accuracy order O(h2) regardless of the fractional order for both the conventional and fast PCMs. We demonstrate numerical examples for nonlinear initial value problems and linear and nonlinear reaction-diffusion fractional-order partial differential equations (FPDEs) to numerically verify the efficiency and error estimates. Finally, the fast PCM is applied to the fractional-order Rössler dynamical system, and the numerical results prove that the computational cost consumed to obtain the bifurcation diagram is significantly reduced using the proposed fast algorithm.

Topics & Concepts

Nonlinear systemMathematicsQuadratic equationTruncation errorComputational complexity theoryApplied mathematicsFractional calculusExponential functionDifferential equationAlgorithmMathematical analysisQuantum mechanicsGeometryPhysicsFractional Differential Equations SolutionsAdvanced Control Systems DesignNumerical methods for differential equations