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Pell-Lucas collocation method to solve high-order linear Fredholm-Volterraintegro-differential equations and residual correction

Şuayip Yüzbaşı, Gamze Yıldırım

2020TURKISH JOURNAL OF MATHEMATICS22 citationsDOIOpen Access PDF

Abstract

In this article, a collocation method based on Pell-Lucas polynomials is studied to numerically solve higher order linear Fredholm-Volterra integro differential equations (FVIDE). The approximate solutions are assumed in form of the truncated Pell-Lucas polynomial series. By using Pell-Lucas polynomials and relations of their derivatives, the solution form and its derivatives are brought to matrix forms. By applying the collocation method based on equally spaced collocation points, the method reduces the problem to a system of linear algebraic equations. Solution of this system determines the coefficients of assumed solution. Error estimation is made and also a method with the help of the obtained approximate solution is developed that finds approximate solution with better results. Then, the applications are made on five examples to show that the method is successful. In addition, the results are supported by tables and graphs and the comparisons are made with other methods available in the literature. All calculations in this study have been made using codes written in Matlab.

Topics & Concepts

MathematicsCollocation methodCollocation (remote sensing)PolynomialOrthogonal collocationApplied mathematicsAlgebraic equationDifferential equationLinear differential equationMatrix (chemical analysis)Order (exchange)Mathematical analysisOrdinary differential equationNonlinear systemComputer scienceFinanceEconomicsMaterials scienceMachine learningPhysicsQuantum mechanicsComposite materialFractional Differential Equations SolutionsMathematical functions and polynomials
Pell-Lucas collocation method to solve high-order linear Fredholm-Volterraintegro-differential equations and residual correction | Litcius