The Performance of a Numerical Scheme on the Variable-Order Time-Fractional Advection-Reaction Equations
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Date
2022
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Open Access Color
Green Open Access
No
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Publicly Funded
No
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Impulse
Top 10%
Influence
Average
Popularity
Top 10%
Abstract
This paper is concerned with a highly accurate numerical scheme for a class of one and two-dimensional time-fractional advection-reaction-subdiffusion equations of variable order alpha(x, t) is an element of (0, 1). For the spatial and temporal discretization of the equation, a fourth order compact finite difference operator and a third-order weighted-shifted Grunwald formula are applied, respectively. The stability and convergence of the present scheme are addressed. Some extensive numerical experiments are performed to confirm the theoretical analysis and high-accuracy of this novel scheme. Comparisons are also made with the available schemes in the literature. (c) 2022 IMACS. Published by Elsevier B.V. All rights reserved.
Description
Hajipour, Mojtaba/0000-0002-7223-9577
ORCID
Keywords
Variable-Order Time-Fractional Derivative, Grunwald Formula, Compact Finite Difference, Reaction-Subdiffusion Problem, compact finite difference, Reaction-diffusion equations, Finite difference methods for initial value and initial-boundary value problems involving PDEs, Grünwald formula, reaction-subdiffusion problem, Stability and convergence of numerical methods for initial value and initial-boundary value problems involving PDEs, variable-order time-fractional derivative, Fractional partial differential equations
Fields of Science
0101 mathematics, 01 natural sciences
Citation
Kheirkhah, Farnaz; Hajipour, Mojtaba; Baleanu, D. (2022). "The performance of a numerical scheme on the variable-order time-fractional advection-reaction-subdiffusion equations", Applied Numerical Mathematics, Vol.178, pp.25-40.
WoS Q
Q1
Scopus Q
Q1
OpenCitations Citation Count
15
Source
Applied Numerical Mathematics
Volume
178
Issue
Start Page
25
End Page
40
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Citations
CrossRef : 15
Scopus : 13
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Mendeley Readers : 4
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