I. G. Amiraliyeva scite author profile

This paper deals with the singularly perturbed initial value problem for quasilinear first-order delay differential equation depending on a parameter. A numerical method is constructed for this problem which involves an appropriate piecewise-uniform meshes on each time subinterval. The difference scheme is shown to converge to the continuous solution uniformly with respect to the perturbation parameter. Some numerical experiments illustrate in practice the result of convergence proved theoretically.

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A parameter-uniform numerical method for a Sobolev problem with initial layer

Amiraliyev

Duru

Amiraliyeva

2007

Numer Algor

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The present study is concerned with the numerical solution, using finite difference method of a one-dimensional initial-boundary value problem for a linear Sobolev or pseudo-parabolic equation with initial jump. In order to obtain an efficient method, to provide good approximations with independence of the perturbation parameter, we have developed a numerical method which combines a finite difference spatial discretization on uniform mesh and the implicit rule on Shishkin mesh(S-mesh) for the time variable. The fully discrete scheme is shown to be convergent of order two in space and of order one expect for a logarithmic factor in time, uniformly in the singular perturbation parameter. Some numerical results confirming the expected behavior of the method are shown.

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I. G. Amiraliyeva

Difference Schemes for the Singularly Perturbed Sobolev Equations

A numerical treatment for singularly perturbed differential equations with integral boundary condition

A uniform numerical method for dealing with a singularly perturbed delay initial value problem

Uniform difference method for parameterized singularly perturbed delay differential equations

A parameter-uniform numerical method for a Sobolev problem with initial layer

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