Numerical solution of integro-differential equations via pertubed-Gegenbauer, Jacobi polynomials and Galerkin method
Subject Areas : Numerical Analysis
Kazeem Issa
1
,
Kazeem Aliu
2
,
Kazeem Arokoola
3
,
Kazeem Micah
4
1 - Department of Mathematics and Statistics, Kwara State University, Malete Nigeria
PMB 1530, Ilorin Nigeria
2 - Department of Mathematics and Statistics, Kwara State University
3 - Kwara State University
4 - Kwara State University
Keywords: Perturbation terms, Orthogonal polynomials, Volterra equation, Fredholm equation,
Abstract :
In this paper, we proposed perturbed Galerkin method for solving integro-differential equations via shifted Gegenbauer and shifted Jacobi polynomials as approximating polynomials. We use Galerkin method to transform the perturbed integro-differential equation to system of linear algebraic equations and obtained N + 1 linear equations with N +m+2 unknowns. Moreover, with m+1 boundary conditions we obtained N +m+2 algebraic equations which was then solved to obtain the approximate solutions at various values of α and β depending on the orthogonal polynomials, that’s shifted Gegenbauer or shifted Jacobi polynomials. The proposed method was implemented on some selected problems in the literature to validate the effectiveness and the accuracy of the proposed method.