ON CONSTRUCTION OF A GLOBAL NUMERICAL SOLUTION FOR A SEMILINEAR SINGULARLY-PERTURBED REACTION DIFFUSION BOUNDARY VALUE PROBLEM
DOI:
https://doi.org/10.37560/matbil2020131kKeywords:
Singular perturbation, Nonlinear, Boundary layer, Shishkin type mesh, Layer-adapted mesh, Uniform convergenceAbstract
A class of different schemes for finding the numerical solution of semilinear singularly-perturbed reaction-diffusion boundary-value problems was constructed. The stability of the difference schemes was proved, and the existence and uniqueness of a numerical solution were shown. After that, the uniform convergence with respect to a perturbation parameter \(\varepsilon\) on a modified Shishkin mesh of order 2 has been proven. For such a discrete solution, a global solution based on a linear spline was constructed, also the error of this solution is in expected boundaries. Numerical experiments at the end of the paper, confirm the theoretical results. The global solutions based on a natural cubic spline, and the experiments with Liseikin, Shishkin and modified Bakhvalov meshes are included in the numerical experiments as well.
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Copyright (c) 2020 Matematichki Bilten

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