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International Journal of Computer Mathematics Volume 82, 2005 - Issue 6
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Original Articles

Taylor polynomial solutions of systems of linear differential equations with variable coefficients

Mehmet Sezer Department of Mathematics, Faculty of Science, Mugla University, Mugla, Turkey
,
Ayşen Karamete Department of Computer Education and Instructional Technology, Faculty of Education, Balikesir University, Balikesir, Turkey
&
Mustafa Gülsu Department of Mathematics, Faculty of Science, Mugla University, Mugla, TurkeyCorrespondence[email protected]
Pages 755-764 | Received 30 Jul 2004, Published online: 15 Aug 2006

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Şuayip Yüzbaşı. (2012) A collocation approach to solve the Riccati-type differential equation systems. International Journal of Computer Mathematics 89:16, pages 2180-2197.
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Articles from other publishers (28)

Payal Singh, Kamal Hossain Gazi, Mostafijur Rahaman, Soheil Salahshour & Sankar Prasad Mondal. (2024) A Fuzzy Fractional Power Series Approximation and Taylor Expansion for Solving Fuzzy Fractional Differential Equation. Decision Analytics Journal 10, pages 100402.
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Deniz UÇAR & Elçin ÇELİK. (2022) Analysis of Covid 19 disease with SIR model and Taylor matrix method. AIMS Mathematics 7:6, pages 11188-11200.
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Tuba Ağirman Aydin, Mehmet Sezer & Hüseyin Kocayiğit. (2021) Legendre Matrix Method for Legendre Curve in Sasakian 3-Manifold. Foundations of Computing and Decision Sciences 46:3, pages 205-219.
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斌斌 王. (2021) An Improved Collocation Method for the Second Kind of Nonlinear Volterra Integral Equation Based on Bessel Polynomials. Advances in Applied Mathematics 10:05, pages 1496-1507.
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M. Dadkhah Tirani, F. Sohrabi, H. Almasieh & M. Tavassoli Kajani. Numerical solution of differential-difference equations in large intervals using a Taylor collocation method. Numerical solution of differential-difference equations in large intervals using a Taylor collocation method.
S. Servi, Y. Keskin & G. Oturanç. 2014. Advances in Applied Mathematics. Advances in Applied Mathematics 107 114 .
Ayşe Betül Koç, Musa Çakmak, Aydın Kurnaz & Kemal Uslu. (2013) A new Fibonacci type collocation procedure for boundary value problems. Advances in Difference Equations 2013:1.
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Şuayip Yüzbaşı & Mehmet Sezer. (2013) A collocation method to find solutions of linear complex differential equations in circular domains. Applied Mathematics and Computation 219:22, pages 10610-10626.
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Elçin Gökmen & Mehmet Sezer. (2013) Taylor collocation method for systems of high-order linear differential–difference equations with variable coefficients. Ain Shams Engineering Journal 4:1, pages 117-125.
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Şuayip Yüzbaşı & Mehmet Sezer. (2012) An exponential matrix method for solving systems of linear differential equations. Mathematical Methods in the Applied Sciences 36:3, pages 336-348.
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Farshid Mirzaee & Saeed Bimesl. (2013) A new approach to numerical solution of second-order linear hyperbolic partial differential equations arising from physics and engineering. Results in Physics 3, pages 241-247.
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A.H. Bhrawy, E. Tohidi & F. Soleymani. (2012) A new Bernoulli matrix method for solving high-order linear and nonlinear Fredholm integro-differential equations with piecewise intervals. Applied Mathematics and Computation 219:2, pages 482-497.
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Şuayip Yüzbaşi, Niyazi Şahin & Mehmet Sezer. (2012) A collocation approach for solving linear complex differential equations in rectangular domains. Mathematical Methods in the Applied Sciences 35:10, pages 1126-1139.
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Şuayip Yüzbaşı, Niyazi Şahin & Mehmet Sezer. (2012) A collocation approach to solving the model of pollution for a system of lakes. Mathematical and Computer Modelling 55:3-4, pages 330-341.
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Mehmet Sezer, Mustafa Gülsu & Bekir Tanay. (2011) Rational Chebyshev collocation method for solving higher-order linear ordinary differential equations. Numerical Methods for Partial Differential Equations 27:5, pages 1130-1142.
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Niyazi Şahı̇n, Şuayip Yüzbaşı & Mustafa Gülsu. (2011) A collocation approach for solving systems of linear Volterra integral equations with variable coefficients. Computers & Mathematics with Applications 62:2, pages 755-769.
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Şuayip Yüzbaşı, Niyazi Şahin & Mehmet Sezer. (2011) Numerical solutions of systems of linear Fredholm integro-differential equations with Bessel polynomial bases. Computers & Mathematics with Applications 61:10, pages 3079-3096.
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Ş. Yüzbaşi, N. Şahin & M. Gülsu. (2011) A collocation approach for solving a class of complex differential equations in elliptic domains. Journal of Numerical Mathematics 19:3.
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Mehmet Sezer, Bekir Tanay & Mustafa Gülsu. (2010) Numerical solution of a class of complex differential equations by the Taylor collocation method in elliptic domains. Numerical Methods for Partial Differential Equations 26:5, pages 1191-1205.
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Mehmet Sezer & Mustafa Gülsu. (2009) Solving high‐order linear differential equations by a Legendre matrix method based on hybrid Legendre and Taylor polynomials. Numerical Methods for Partial Differential Equations 26:3, pages 647-661.
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Mehmet Sezer & Salih Yalçinbaş. (2009) A collocation method to solve higher order linear complex differential equations in rectangular domains. Numerical Methods for Partial Differential Equations 26:3, pages 596-611.
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Mehmet Sezer & Mustafa Gülsu. (2007) Polynomial solution of the most general linear Fredholm–Volterra integrodifferential-difference equations by means of Taylor collocation method. Applied Mathematics and Computation 185:1, pages 646-657.
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Mehmet Sezer, Mustafa Gülsu & Bekir Tanay. (2006) A Taylor collocation method for the numerical solution of complex differential equations with mixed conditions in elliptic domains. Applied Mathematics and Computation 182:1, pages 498-508.
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Mustafa Gülsu, Mehmet Sezer & Bekir Tanay. (2006) A matrix method for solving high-order linear difference equations with mixed argument using hybrid legendre and taylor polynomials. Journal of the Franklin Institute 343:6, pages 647-659.
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Mehmet Sezer & Mustafa Gülsu. (2006) Approximate solution of complex differential equations for a rectangular domain with Taylor collocation method. Applied Mathematics and Computation 177:2, pages 844-851.
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Salih Yalçinbaş & Mehmet Sezer. (2006) A Taylor collocation method for the approximate solution of general linear Fredholm–Volterra integro-difference equations with mixed argument. Applied Mathematics and Computation 175:1, pages 675-690.
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Mustafa Gülsu, Mehmet Sezer & Zekeriya Güney. (2006) Approximate solution of general high-order linear nonhomogeneous difference equations by means of Taylor collocation method. Applied Mathematics and Computation 173:2, pages 683-693.
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Sedigheh Sabermahani & Yadollah Ordokhani. (2016) An Analytical Method for Solving the Model of Pollution for a System of Lakes. SSRN Electronic Journal.
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