LDG approximation of a nonlinear fractional convection-diffusion equation using B-spline basis functions

This paper develops new numerical schemes for solution to nonlinear fractional convection-diffusion equations of order β∈[1,2]. We propose the local discontinuous Galerkin methods by adopting linear, quadratic, and cubic B-spline basis functions and prove stability and optimal order of convergence O...

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Bibliographic Details
Published in:Applied numerical mathematics 2022-01, Vol.171, p.45-57
Main Authors: Safdari, Hamid, Rajabzadeh, Majid, Khalighi, Moein
Format: Article
Language:English
Subjects:
B-spline basis functions
Convection-diffusion equation
Fractional derivatives
Local discontinuous Galerkin method
Stability
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Summary:This paper develops new numerical schemes for solution to nonlinear fractional convection-diffusion equations of order β∈[1,2]. We propose the local discontinuous Galerkin methods by adopting linear, quadratic, and cubic B-spline basis functions and prove stability and optimal order of convergence O(hk+1) for the fractional diffusion problem. This method transforms the equation into a system of first-order equations and approximates the solution of the equation by selecting the appropriate basis functions. The B-Spline functions significantly improve the accuracy and stability of the method. The performed numerical results demonstrate the efficiency and accuracy of the proposed scheme in different conditions and confirm the optimal order of convergence.
ISSN:0168-9274
1873-5460
DOI:10.1016/j.apnum.2021.08.014