A Fully Discrete ?-Uniform Method for Singular Perturbation Problems on Equidistant Meshes
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BRONZE
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Yes
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Abstract
We propose a fully discrete ε-uniform finite-difference method on an equidistant mesh for a singularly perturbed two-point boundary-value problem (BVP). We start with a fitted operator method reflecting the singular perturbation nature of the problem through a local BVP. However, to solve the local BVP, we employ an upwind method on a Shishkin mesh in local domain, instead of solving it exactly. Thus, we show that it is possible to develop a ε-uniform method, totally in the context of finite differences, without solving any differential equation exactly. We further study the convergence properties of the numerical method proposed and prove that it nodally converges to the true solution for any ε. Finally, a set of numerical experiments is carried out to validate the theoretical results computationally. © 2012 Copyright Taylor and Francis Group, LLC
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Fields of Science
0101 mathematics, 01 natural sciences
Citation
Filiz, A., Neslitürk, A., and Şendur, A. (2012). A fully discrete ε-uniform method for singular perturbation problems on equidistant meshes. International Journal of Computer Mathematics, 89(2), 190-199. doi:10.1080/00207160.2011.632411
WoS Q
Q2
Scopus Q
Q2
OpenCitations Citation Count
2
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International Journal of Computer Mathematics
Volume
89
Issue
2
Start Page
190
End Page
199
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