Performance of Richardson extrapolation on some numerical methods for a singularly perturbed turning point problem whose solution has boundary layers
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Date
2014
Journal Title
Journal ISSN
Volume Title
Publisher
KOREAN MATHEMATICAL SOC
Abstract
Investigation of the numerical solution of singularly perturbed turning point problems dates back to late 1970s. However, due to the presence of layers, not many high order schemes could be developed to solve such problems. On the other hand, one could think of applying the convergence acceleration technique to improve the performance of existing numerical methods. However, that itself posed some challenges. To this end, we design and analyze a novel fitted operator finite difference method (FOFDM) to solve this type of problems. Then we develop a fitted mesh finite difference method (FMFDM). Our detailed convergence analysis shows that this FMFDM is robust with respect to the singular perturbation parameter. Then we investigate the effect of Richardson extrapolation on both of these methods. We observe that, the accuracy is improved in both cases whereas the rate of convergence depends on the particular scheme being used.
Description
Keywords
Mathematics, Singular perturbations, Equations, Boundary layers
Citation
Munyakazi, J. B., & Patidar, K. C. (2014). Performance of Richardson extrapolation on some numerical methods for a singularly perturbed turning point problem whose solution has boundary layers. Journal of the Korean Mathematical Society ,51(4), .679-702. http://dx.doi.org/10.4134/JKMS.2014.51.4.679