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Fitted Numerical Scheme for Solving Singularly Perturbed Parabolic Delay Partial Differential Equations

In this paper, exponentially fitted finite difference scheme is developed for solving singularly perturbed parabolic delay partial differential equations having small delay on the spatial variable. The term with the delay is approximated using Taylor series approximation. The resulting singularly perturbed parabolic partial differential equation is treated using im- plicit Euler method in the temporal discretization with exponentially fitted operator finite difference method in the spatial discretization. The parameter uniform convergence analysis has been carried out with the order of convergence one. Test examples and numerical results are considered to validate the theoretical analysis of the scheme.

Tamkang Journal of Mathematics

Gemechis File Duressa Mesfin Mekuria Woldaregay

Tamkang Journal of Mathematics

2021

Title: Fitted Numerical Scheme for Solving Singularly Perturbed Parabolic Delay Partial Differential Equations

Description:

In this paper, exponentially fitted finite difference scheme is developed for solving singularly perturbed parabolic delay partial differential equations having small delay on the spatial variable.

The term with the delay is approximated using Taylor series approximation.

The resulting singularly perturbed parabolic partial differential equation is treated using im- plicit Euler method in the temporal discretization with exponentially fitted operator finite difference method in the spatial discretization.

The parameter uniform convergence analysis has been carried out with the order of convergence one.

Test examples and numerical results are considered to validate the theoretical analysis of the scheme.

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