Numerical algorithm for solving multi-pantograph delay equations on the half-line using Jacobi rational functions with convergence analysis
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SPRINGER HEIDELBERG
Series Info
ACTA MATHEMATICAE APPLICATAE SINICA-ENGLISH SERIES;Volume: 33 Issue: 2 Pages: 297-310
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Abstract
A new spectral Jacobi rational-Gauss collocation (JRC) method is proposed for solving the multi-pantograph delay differential equations on the half-line. The method is based on Jacobi rational functions and Gauss quadrature integration formula. The main idea for obtaining a semi-analytical solution for these equations is essentially developed by reducing the pantograph equations with their initial conditions to systems of algebraic equations in the unknown expansion coefficients. The convergence analysis of the method is analyzed. The method possesses the spectral accuracy. Numerical results indicating the high accuracy and effectiveness of this algorithm are presented. Indeed, the present method is compared favorably with other methods.
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Accession Number: WOS:000400856100005
Keywords
University for OPERATIONAL MATRIX, PROPORTIONAL DELAYS, PSEUDOSPECTRAL METHODS, SEMIINFINITE INTERVAL, CHEBYSHEV TAU-METHOD, BOUNDARY-VALUE-PROBLEMS, VARIATIONAL ITERATION METHOD, INITIAL-VALUE PROBLEMS, GAUSS COLLOCATION METHOD, ORDINARY DIFFERENTIAL-EQUATIONS, convergence analysis, Jacobi rational functions, Jacobi-Gauss quadrature, collocation method, delay equation, multi-pantograph equation