The application of homotopy analysis method to nonlinear equations arising in heat transfer S Abbasbandy Physics Letters A 360 (1), 109-113, 2006 | 731 | 2006 |

Improving Newton–Raphson method for nonlinear equations by modified Adomian decomposition method S Abbasbandy Applied Mathematics and Computation 145 (2-3), 887-893, 2003 | 398 | 2003 |

A new approach for ranking of trapezoidal fuzzy numbers S Abbasbandy, T Hajjari Computers & Mathematics with Applications 57 (3), 413-419, 2009 | 369 | 2009 |

The application of homotopy analysis method to solve a generalized Hirota–Satsuma coupled KdV equation S Abbasbandy Physics Letters A 361 (6), 478-483, 2007 | 369 | 2007 |

Ranking of fuzzy numbers by sign distance S Abbasbandy, B Asady Information Sciences 176 (16), 2405-2416, 2006 | 329 | 2006 |

Homotopy analysis method for quadratic Riccati differential equation Y Tan, S Abbasbandy Communications in Nonlinear Science and Numerical Simulation 13 (3), 539-546, 2008 | 304 | 2008 |

Homotopy analysis method for heat radiation equations S Abbasbandy International Communications in Heat and Mass Transfer 34 (3), 380-387, 2007 | 281 | 2007 |

A new application of He's variational iteration method for quadratic Riccati differential equation by using Adomian's polynomials S Abbasbandy Journal of Computational and Applied Mathematics 207 (1), 59-63, 2007 | 265 | 2007 |

Soliton solutions for the fifth-order KdV equation with the homotopy analysis method S Abbasbandy, FS Zakaria Nonlinear Dynamics 51 (1-2), 83-87, 2008 | 241 | 2008 |

Numerical solutions of the integral equations: Homotopy perturbation method and Adomian’s decomposition method S Abbasbandy Applied Mathematics and Computation 173 (1), 493-500, 2006 | 232 | 2006 |

Homotopy perturbation method for quadratic Riccati differential equation and comparison with Adomian’s decomposition method S Abbasbandy Applied Mathematics and Computation 172 (1), 485-490, 2006 | 213 | 2006 |

Numerical solutions of fuzzy differential equations by Taylor method S Abbasbandy, TA Viranloo Computational Methods in Applied Mathematics Comput. Methods Appl. Math. 2 …, 2002 | 210 | 2002 |

Approximate solution for the nonlinear model of diffusion and reaction in porous catalysts by means of the homotopy analysis method S Abbasbandy Chemical Engineering Journal 136 (2-3), 144-150, 2008 | 203 | 2008 |

Numerical methods forfuzzy differential inclusions S Abbasbandy, TA Viranloo, O Lopez-Pouso, JJ Nieto Computers & mathematics with applications 48 (10-11), 1633-1641, 2004 | 203 | 2004 |

Fuzzy general linear systems B Asady, S Abbasbandy, M Alavi Applied Mathematics and Computation 169 (1), 34-40, 2005 | 201 | 2005 |

Analytic approximate solutions for heat transfer of a micropolar fluid through a porous medium with radiation MM Rashidi, S Abbasbandy Communications in Nonlinear Science and Numerical Simulation 16 (4), 1874-1889, 2011 | 195 | 2011 |

Solving fuzzy fractional differential equations by fuzzy Laplace transforms S Salahshour, T Allahviranloo, S Abbasbandy Communications in Nonlinear Science and Numerical Simulation 17 (3), 1372-1381, 2012 | 184 | 2012 |

Free convective heat and mass transfer for MHD fluid flow over a permeable vertical stretching sheet in the presence of the radiation and buoyancy effects MM Rashidi, B Rostami, N Freidoonimehr, S Abbasbandy Ain Shams Engineering Journal 5 (3), 901-912, 2014 | 174 | 2014 |

Homotopy analysis method for the Kawahara equation S Abbasbandy Nonlinear Analysis: Real World Applications 11 (1), 307-312, 2010 | 172 | 2010 |

A numerical solution of Blasius equation by Adomian’s decomposition method and comparison with homotopy perturbation method S Abbasbandy Chaos, Solitons & Fractals 31 (1), 257-260, 2007 | 170 | 2007 |