A new operational matrix for solving fractional-order differential equations A Saadatmandi, M Dehghan Computers & Mathematics with Applications 59 (3), 1326-1336, 2010 | 967 | 2010 |
Solving nonlinear fractional partial differential equations using the homotopy analysis method M Dehghan, J Manafian, A Saadatmandi Numerical Methods for Partial Differential Equations: An International …, 2010 | 695 | 2010 |
Finite difference procedures for solving a problem arising in modeling and design of certain optoelectronic devices M Dehghan Mathematics and Computers in Simulation 71 (1), 16-30, 2006 | 462 | 2006 |
A numerical method for solution of the two-dimensional sine-Gordon equation using the radial basis functions M Dehghan, A Shokri Mathematics and Computers in Simulation 79 (3), 700-715, 2008 | 400 | 2008 |
Numerical solution of the nonlinear Klein–Gordon equation using radial basis functions M Dehghan, A Shokri Journal of computational and Applied Mathematics 230 (2), 400-410, 2009 | 373 | 2009 |
Solution of delay differential equations via a homotopy perturbation method F Shakeri, M Dehghan Mathematical and Computer Modelling 48 (3), 486-498, 2008 | 365 | 2008 |
On the convergence of He's variational iteration method M Tatari, M Dehghan Journal of Computational and Applied Mathematics 207 (1), 121-128, 2007 | 362 | 2007 |
Computational methods for solving fully fuzzy linear systems M Dehghan, B Hashemi, M Ghatee Applied mathematics and computation 179 (1), 328-343, 2006 | 296 | 2006 |
An approximation algorithm for the solution of the nonlinear Lane–Emden type equations arising in astrophysics using Hermite functions collocation method K Parand, M Dehghan, AR Rezaei, SM Ghaderi Computer Physics Communications 181 (6), 1096-1108, 2010 | 291 | 2010 |
Approximate solution of a differential equation arising in astrophysics using the variational iteration method M Dehghan, F Shakeri New Astronomy 13 (1), 53-59, 2008 | 283 | 2008 |
A numerical method for solving the hyperbolic telegraph equation M Dehghan, A Shokri Numerical Methods for Partial Differential Equations: An International …, 2008 | 273 | 2008 |
Solution of an integro-differential equation arising in oscillating magnetic fields using He's homotopy perturbation method M Dehghan, F Shakeri Progress in Electromagnetics Research 78, 361-376, 2008 | 266 | 2008 |
Weighted finite difference techniques for the one-dimensional advection–diffusion equation M Dehghan Applied Mathematics and Computation 147 (2), 307-319, 2004 | 254 | 2004 |
A tau approach for solution of the space fractional diffusion equation A Saadatmandi, M Dehghan Computers & Mathematics with Applications 62 (3), 1135-1142, 2011 | 252 | 2011 |
The Sinc–Legendre collocation method for a class of fractional convection–diffusion equations with variable coefficients A Saadatmandi, M Dehghan, MR Azizi Communications in Nonlinear Science and Numerical Simulation 17 (11), 4125-4136, 2012 | 237 | 2012 |
On the solution of an initial‐boundary value problem that combines Neumann and integral condition for the wave equation M Dehghan Numerical Methods for Partial Differential Equations: An International …, 2005 | 237 | 2005 |
On generalized moving least squares and diffuse derivatives D Mirzaei, R Schaback, M Dehghan IMA Journal of Numerical Analysis 32 (3), 983-1000, 2012 | 233 | 2012 |
Numerical solution of hyperbolic telegraph equation using the Chebyshev tau method A Saadatmandi, M Dehghan Numerical Methods for Partial Differential Equations: An International …, 2010 | 233 | 2010 |
The solution of the variable coefficients fourth-order parabolic partial differential equations by the homotopy perturbation method M Dehghan, J Manafian Z. Naturforsch A 64 (7), 420-430, 2009 | 224 | 2009 |
A compact split-step finite difference method for solving the nonlinear Schrödinger equations with constant and variable coefficients M Dehghan, A Taleei Computer Physics Communications 181 (1), 43-51, 2010 | 221 | 2010 |