Collocation solutions for the time fractional telegraph equation using cubic B-spline finite elements

[1] O. P. Agrawal, Solution for a fractional diffusion-wave equation defined in a bounded domain, Phys. Scr., 29, (2002), 145-155 Search in Google Scholar

[2] A. Esen, Y. Ucar, N. Yagmurlu, and O. Tasbozan, A Galerkin Finite Element Method to Solve Fractional Diffusion and Fractional Diffusion-Wave Equations, Math. Model. Anal., 18, (2013), 260-27310.3846/13926292.2013.783884 Search in Google Scholar

[3] A. Esen,N.M.Yagmurlu,and O. Tasbozan, Approximate Analytical Solution to Time-Fractional Damped Burger and Cahn-Allen Equations, Applied Mathematics Information Sciences, 7, (2013), 1951-195610.12785/amis/070533 Search in Google Scholar

[4] V. R. Hosseini, W. Chen, and Z. Avazzadeh, Numerical solution of fractional telegraph equation by using radial basis functions, Eng. Anal. Bound. Elem., 38, (2014), 31-3910.1016/j.enganabound.2013.10.009 Search in Google Scholar

[5] H. Jafari and S. Momani, Solving fractional diffusion and waves equations by modifying homotopy perturbation method, Phys. Lett., 370, (2007), 388-39610.1016/j.physleta.2007.05.118 Search in Google Scholar

[6] A. A. Kilbas, H. M. Srivastava, and J. J. Trujillo, Theory and Applications of Fractional Differential Equations, Elsevier, Amsterdam, 2006 Search in Google Scholar

[7] D. L. Logan, A First Course in the Finite Element Method, Thomson, 2007 Search in Google Scholar

[8] A. Mohebbi, M. Abbaszadeh, and M. Dehghan, The use of a meshless technique based on collocation and radial basis functions for solving the time fractional nonlinear Schrödinger equation arising in quantum mechanics, Eng. Anal. Bound. Elem., 37, (2013), 475-48510.1016/j.enganabound.2012.12.002 Search in Google Scholar

[9] K.B. Oldham and J. Spanier, The Fractional Calculus, Academic, New York, 1974 Search in Google Scholar

[10] I. Podlubny, Fractional Differential Equations, Academic Press, San Diego, 1999 Search in Google Scholar

[11] P. M. Prenter, Splines and Variasyonel Methods, John Wiley, New York, 1975 Search in Google Scholar

[12] S. S. Ray, Exact Solutions for Time-Fractional Diffusion-Wave Equations by Decomposition Method, Phys. Scr., 75, (2007), 53-6110.1088/0031-8949/75/1/008 Search in Google Scholar

[13] J. Singh, D. Kumar, and A. Kilicman, Homotopy perturbation method for fractional gas dynamics equation using Sumudu transform, Abstr. Appl. Anal., 2013, (2013), Article ID 934060, 8 pp.10.1155/2013/934060 Search in Google Scholar

[14] N. H. Sweilam, M. M. Khader, and A. M. S. Mahdy, Crank-Nicolson Finite Difference Method For Solving Time-Fractional Diffusion Equation, J. Fract. Calc. and Appl., 2, (2012), 1-9 Search in Google Scholar

[15] O. Tasbozan, A. Esen, N. M. Yagmurlu, and Y. Ucar, A Numerical Solution to Fractional Diffusion Equation for Force-Free Case, Abstr. Appl. Anal., 2013, (2013), Article ID 187383, 6 pp.10.1155/2013/187383 Search in Google Scholar

[16] L. Wei, H. Dai, D. Zhang, and Z. Si, Fully discrete local discontinuous Galerkin method for solving the fractional telegraph equation, Calcolo, 51, (2014), 175-19210.1007/s10092-013-0084-6 Search in Google Scholar