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Numerical solution of third-kind Volterra integral equations with proportional delays based on moving least squares collocation method

E. Aourir, Nouh Izem, H. Laeli Dastjerdi

2024International Journal of Computer Mathematics13 citationsDOI

Abstract

In this study, we propose a moving least squares approximation with shifted Chebyshev polynomials to solve linear and nonlinear third-kind Volterra delay integral equations (VDIEs). The suggested approach does not use meshing and does not rely on the geometry of the domain; therefore, we may consider it as a meshless method. This method approximates the solution using the collocation method based on the moving least squares approximation. The formulation of the technique for the suggested equations is described, and its convergence is analysed. Numerical results are presented to demonstrate the high resolution of the proposed approach and confirm its capability to provide accurate and efficient computations for Volterra delay integral equations of the third kind.

Topics & Concepts

Volterra integral equationMathematicsCollocation methodCollocation (remote sensing)Integral equationApplied mathematicsMathematical analysisLeast-squares function approximationComputer scienceDifferential equationOrdinary differential equationStatisticsMachine learningEstimatorFractional Differential Equations SolutionsDifferential Equations and Numerical MethodsNumerical methods in engineering
Numerical solution of third-kind Volterra integral equations with proportional delays based on moving least squares collocation method | Litcius