Application of He’s homotopy perturbation method to nonlinear integro-differential equations M Ghasemi, MT Kajani, E Babolian Applied Mathematics and Computation 188 (1), 538-548, 2007 | 114 | 2007 |
Numerical solution of linear integro-differential equation by using sine–cosine wavelets MT Kajani, M Ghasemi, E Babolian Applied Mathematics and Computation 180 (2), 569-574, 2006 | 113 | 2006 |
The Chebyshev wavelets operational matrix of integration and product operation matrix MT Kajani, AH Vencheh, M Ghasemi International Journal of Computer Mathematics 86 (7), 1118-1125, 2009 | 79 | 2009 |
Numerical solution of time-varying delay systems by Chebyshev wavelets M Ghasemi, MT Kajani Applied Mathematical Modelling 35 (11), 5235-5244, 2011 | 69 | 2011 |
Numerical solution of nonlinear delay differential equations of fractional order in reproducing kernel Hilbert space M Ghasemi, M Fardi, RK Ghaziani Applied Mathematics and Computation 268, 815-831, 2015 | 56 | 2015 |
A novel computing multi-parametric homotopy approach for system of linear and nonlinear Fredholm integral equations Y Khan, K Sayevand, M Fardi, M Ghasemi Applied Mathematics and Computation 249, 229-236, 2014 | 54 | 2014 |
Numerical solution of two-dimensional nonlinear differential equation by homotopy perturbation method M Ghasemi, MT Kajani, A Davari Applied Mathematics and Computation 189 (1), 341-345, 2007 | 49 | 2007 |
Comparison between the homotopy perturbation method and the sine–cosine wavelet method for solving linear integro-differential equations MT Kajani, M Ghasemi, E Babolian Computers & Mathematics with Applications 54 (7-8), 1162-1168, 2007 | 45 | 2007 |
Numerical solutions of the nonlinear integro-differential equations: Wavelet-Galerkin method and homotopy perturbation method M Ghasemi, E Babolian Applied mathematics and computation 188 (1), 450-455, 2007 | 42 | 2007 |
Accelerated iterative methods for finding solutions of nonlinear equations and their dynamical behavior A Cordero, M Fardi, M Ghasemi, JR Torregrosa Calcolo 51 (1), 17-30, 2014 | 39 | 2014 |
Application of homotopy analysis method to Fredholm and Volterra integral equations S Vahdati, A Zulkifly, M Ghasemi MATHEMATICAL SCIENCES 4 (3), 267-282, 2010 | 23 | 2010 |
A two-step Laplace decomposition method for solving nonlinear partial differential equations H Jafari, CM Khalique, M Khan, M Ghasemi International Journal of the Physical Sciences 6 (16), 4102-4109, 2011 | 22 | 2011 |
Numerical solution of linear Fredholm integral equations using sine–cosine wavelets M Ghasemi, E Babolian, M Tavassoli Kajani International Journal of Computer Mathematics 84 (7), 979-987, 2007 | 22 | 2007 |
Solution of nonlinear fractional differential equations using an efficient approach Y Khan, M Fardi, K Sayevand, M Ghasemi Neural Computing and Applications 24, 187-192, 2014 | 21 | 2014 |
Solution of system of the mixed Volterra–Fredholm integral equations by an analytical method M Ghasemi, M Fardi, RK Ghaziani Mathematical and Computer Modelling 58 (7-8), 1522-1530, 2013 | 19 | 2013 |
A numerical solution strategy based on error analysis for time-fractional mobile/immobile transport model M Fardi, M Ghasemi Soft Computing 25 (16), 11307-11331, 2021 | 17 | 2021 |
Numerical solution of the multiterm time‐fractional diffusion equation based on reproducing kernel theory F Hemati, M Ghasemi, R Khoshsiar Ghaziani Numerical Methods for Partial Differential Equations 37 (1), 44-68, 2021 | 16 | 2021 |
Option pricing using a computational method based on reproducing kernel S Vahdati, M Fardi, M Ghasemi Journal of Computational and Applied Mathematics 328, 252-266, 2018 | 16 | 2018 |
Solving nonlocal initial‐boundary value problems for parabolic and hyperbolic integro‐differential equations in reproducing kernel hilbert space M Fardi, M Ghasemi Numerical Methods for Partial Differential Equations 33 (1), 174-198, 2017 | 15 | 2017 |
A fast Fourier spectral exponential time-differencing method for solving the time-fractional mobile–immobile advection–dispersion equation S Mohammadi, M Ghasemi, M Fardi Computational and Applied Mathematics 41 (6), 264, 2022 | 14 | 2022 |