Title of article
A novel mid-point upwind scheme for fractional-order singularly perturbed convection-diffusion delay differential equation
Author/Authors
Endrie ، N.A. Department of Mathematics - College of Natural and Computational Science - Arba Minch University , Duressa ، G.F. Department of Mathematics - College of Natural and Computational Science - Arba Minch University
From page
1247
To page
1279
Abstract
This study presents a numerical approach for solving temporal fractionalorder singularly perturbed parabolic convection-diffusion differential equations with a delay using a uniformly convergent scheme. We use the asymptotic analysis of the problem to offer a priori bounds on the exact solution and its derivatives. To discretize the problem, we use the implicit Euler technique on a uniform mesh in time and the midpoint upwind finite difference approach on a piece-wise uniform mesh in space. The proposed technique has a nearly first-order uniform convergence order in both spatial and temporal dimensions. To validate the theoretical analysis of the scheme, two numerical test situations for various values of ε are explored.
Keywords
Caputo–Fabrizio derivative operator , midpoint upwind scheme , fractional , order differential equation , delay differential equation , singularly perturbed problem
Journal title
Iranian Journal of Numerical Analysis and Optimization
Journal title
Iranian Journal of Numerical Analysis and Optimization
Record number
2760700
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