Numerical solution of linear and nonlinear hyperbolic telegraph type equations with variable coefficients using shifted Jacobi collocation method

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Date

2018

Journal Title

Journal ISSN

Volume Title

Type

Article

Publisher

SPRINGER HEIDELBERG

Series Info

COMPUTATIONAL & APPLIED MATHEMATICS;Volume: 37 Issue: 4 Pages: 5253-5273

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Abstract

The telegraph equation is one of the important equations of mathematical physics. In this work, a spectral collocation scheme is proposed for the numerical solutions of one- and two-dimensional linear telegraph equations and telegraph equations with nonlinear forcing term. The homogeneous initial and boundary conditions are satisfied exactly by expanding the unknown variable using polynomial bases of functions which are built upon the Jacobi polynomials. The suggested scheme is successfully developed for the aforementioned problem with nonhomogeneous data. Extensive numerical experiments are presented to verify the efficiency of the proposed scheme.

Description

Accession Number: WOS:000443034900073

Keywords

University of Telegraph equations, Jacobi polynomials, Collocation method, SCHEMES, ALGORITHM, OPERATIONAL MATRIX, FRACTIONAL SCHRODINGER-EQUATIONS

Citation