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Two-Dimensional Legendre Wavelets for Solving Time-Fractional Telegraph Equation
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作者 M.H.Heydari M.R.Hooshmandasl F.Mohammadi 《Advances in Applied Mathematics and Mechanics》 SCIE 2014年第2期247-260,共14页
In this paper,we develop an accurate and efficient Legendre wavelets method for numerical solution of the well known time-fractional telegraph equation.In the proposed method we have employed both of the operational m... In this paper,we develop an accurate and efficient Legendre wavelets method for numerical solution of the well known time-fractional telegraph equation.In the proposed method we have employed both of the operational matrices of fractional integration and differentiation to get numerical solution of the time-telegraph equation.The power of this manageable method is confirmed.Moreover the use of Legendre wavelet is found to be accurate,simple and fast. 展开更多
关键词 Telegraph equation legendre wavelets fractional calculus Caputo derivative.
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A Method for Solving Fredholm Integral Equations of the First Kind Based on Chebyshev Wavelets 被引量:2
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作者 M. Bahmanpour M. A.Fariborzi Araghi 《Analysis in Theory and Applications》 2013年第3期197-207,共11页
In this paper, we suggest a method for solving Fredholm integral equation of the first kind based on wavelet basis. The continuous Legendre and Chebyshev wavelets of the first, second, third and fourth kind on [0,1] a... In this paper, we suggest a method for solving Fredholm integral equation of the first kind based on wavelet basis. The continuous Legendre and Chebyshev wavelets of the first, second, third and fourth kind on [0,1] are used and are utilized as a basis in Galerkin method to approximate the solution of integral equations. Then, in some examples the mentioned wavelets are compared with each other. 展开更多
关键词 First kind Fredholm integral equation Galerkin and Modified Galerkin method legendre wavelets Chebyshev wavelets.
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Estimates of Approximation Error by Legendre Wavelet
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作者 Xiaoyang Zheng Zhengyuan Wei 《Applied Mathematics》 2016年第7期694-700,共7页
This paper first introduces Legendre wavelet bases and derives their rich properties. Then these properties are applied to estimation of approximation error upper bounded in spaces  and  by norms  and &... This paper first introduces Legendre wavelet bases and derives their rich properties. Then these properties are applied to estimation of approximation error upper bounded in spaces  and  by norms  and  , respectively. These estimate results are valuable to solve integral-differential equations by Legendre wavelet method. 展开更多
关键词 legendre Wavelet ESTIMATE Exponential ?-Hölder Continuity
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A study of nonlinear biochemical reaction model 被引量:1
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作者 Muhammad Asad Iqbal Syed Tauseef Mohyud-Din Bandar Bin-Mohsin 《International Journal of Biomathematics》 2016年第5期121-129,共9页
The present study deals with the introduction of an alteration in Legendre wavelets method by availing of the Picard iteration method for system of differential equations and named it Legendre wavelet-Picard method (... The present study deals with the introduction of an alteration in Legendre wavelets method by availing of the Picard iteration method for system of differential equations and named it Legendre wavelet-Picard method (LWPM). Convergence of the proposed method is also discussed. In order to check the competence of the proposed method, basic enzyme kinetics is considered. Systems of nonlinear ordinary differential equations are formed from the considered enzyme-substrate reaction. The results obtained by the proposed LWPM are compared with the numerical results obtained from Runge-Kutta method of order four (RK-4). Numerical results and those obtained by LWPM are in excellent conformance, which would be explained by the help of table and figures. The proposed method is easy and simple to implement as compared to the other existing analytical methods used for solving systems of differential equations arising in biology, physics and engineering. 展开更多
关键词 legendre wavelets method Picard iteration method nonlinear biochemical reaction model Runge- Kutta method of order four.
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