Yazar "Gulsu, Mustafa" için listeleme
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On the solution of the Abel equation of the second kind by the shifted Chebyshev polynomials
Gulsu, Mustafa; Ozturk, Yalcin; Sezer, Mehmet (Elsevier Science Inc, 2011)This paper presents a new approximate method of Abel differential equation. By using the shifted Chebyshev expansion of the unknown function, Abel differential equation is approximately transformed to a system of nonlinear ... -
Polynomial solution of the most general linear Fredholm-Volterra integrodifferential-difference equations by means of Taylor collocation method
Sezer, Mehmet; Gulsu, Mustafa (Elsevier Science Inc, 2007)In this paper, a Taylor collocation method has been presented for numerically solving the high-order general linear Fredholm-Volterra integrodifferential-difference equations with variable coefficients under the mixed ... -
Rational Chebyshev Collocation Method for Solving Higher-Order Linear Ordinary Differential Equations
Sezer, Mehmet; Gulsu, Mustafa; Tanay, Bekir (Wiley-Blackwell, 2011)A collocation method to find an approximate solution of higher-order linear ordinary differential equation with variable coefficients under the mixed conditions is proposed. This method is based on the rational Chebyshev ... -
Solving High-Order Linear Differential Equations by a Legendre Matrix Method Based on Hybrid Legendre and Taylor Polynomials
Sezer, Mehmet; Gulsu, Mustafa (Wiley, 2010)A numerical method for solving the high-order linear differential equations with variable coefficients under the mixed conditions is presented. The method is based on the hybrid Legendre and Taylor polynomials. The solution ... -
A Taylor Collocation Method for Solving High-Order Linear Pantograph Equations with Linear Functional Argument
Gulsu, Mustafa; Sezer, Mehmet (Wiley-Blackwell, 2011)A numerical method based on the Taylor polynomials is introduced in this article for the approximate solution of the pantograph equations with constant and variable coefficients. Some numerical examples, which consist of ... -
A Taylor collocation method for the numerical solution of complex differential equations with mixed conditions in elliptic domains
Sezer, Mehmet; Gulsu, Mustafa; Tanay, Bekir (Elsevier Science Inc, 2006)An approximate method for solving higher-order linear complex differential equations in the elliptic domains is proposed. The approach is based on a Taylor collocation method, which consists of the matrix representation ...