Hanna Okrasińska-Płociniczak, Łukasz Płociniczak
Published 2017-05-08Version 1
In this work we prove that a family of explicit numerical finite-difference methods is convergent when applied to a nonlinear Volterra equation with a power-type nonlinearity. In that case the kernel is not of Lipschitz type, therefore the classical analysis cannot be applied. We indicate several difficulties that arise in the proofs and show how they can be remedied. The tools that we use consist of variations on discreet Gronwall's lemmas and comparison theorems. Additionally, we give an upper bound on the convergence order. We conclude the paper with a construction of a convergent method and apply it for solving some examples.
Numerical Solution of the Two-Phase Obstacle Problem by Finite Difference Method
Convergence analysis of a finite difference method for stochastic Cahn--Hilliard equation
A Finite Difference method for the Wide-Angle `Parabolic' equation in a waveguide with downsloping bottom
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