A brief survey on numerical methods for solving singularly perturbed problems MK Kadalbajoo, V Gupta Applied mathematics and computation 217 (8), 3641-3716, 2010 | 184 | 2010 |

A survey of numerical techniques for solving singularly perturbed ordinary differential equations MK Kadalbajoo, KC Patidar Applied Mathematics and Computation 130 (2-3), 457-510, 2002 | 155 | 2002 |

A numerical method based on Crank-Nicolson scheme for Burgers’ equation MK Kadalbajoo, A Awasthi Applied mathematics and computation 182 (2), 1430-1442, 2006 | 140 | 2006 |

Numerical analysis of singularly perturbed delay differential equations with layer behavior MK Kadalbajoo, KK Sharma Applied Mathematics and Computation 157 (1), 11-28, 2004 | 136 | 2004 |

Asymptotic and numerical analysis of singular perturbation problems: a survey MK Kadalbajoo, YN Reddy Applied Mathematics and computation 30 (3), 223-259, 1989 | 127 | 1989 |

Singularly perturbed problems in partial differential equations: a survey MK Kadalbajoo, KC Patidar Applied Mathematics and Computation 134 (2-3), 371-429, 2003 | 125 | 2003 |

A numerical method based on finite difference for boundary value problems for singularly perturbed delay differential equations MK Kadalbajoo, KK Sharma Applied Mathematics and Computation 197 (2), 692-707, 2008 | 123 | 2008 |

Numerical treatment of a mathematical model arising from a model of neuronal variability MK Kadalbajoo, KK Sharma Journal of mathematical analysis and applications 307 (2), 606-627, 2005 | 93 | 2005 |

Numerical analysis of boundary-value problems for singularly-perturbed differential-difference equations with small shifts of mixed type MK Kadalbajoo, KK Sharma Journal of Optimization theory and Applications 115, 145-163, 2002 | 92 | 2002 |

A cubic B-spline collocation method for a numerical solution of the generalized Black–Scholes equation MK Kadalbajoo, LP Tripathi, A Kumar Mathematical and Computer Modelling 55 (3-4), 1483-1505, 2012 | 77 | 2012 |

A parameter-uniform numerical method for time-dependent singularly perturbed differential-difference equations D Kumar, MK Kadalbajoo Applied Mathematical Modelling 35 (6), 2805-2819, 2011 | 71 | 2011 |

A uniformly convergent B-spline collocation method on a nonuniform mesh for singularly perturbed one-dimensional time-dependent linear convection–diffusion problem MK Kadalbajoo, V Gupta, A Awasthi Journal of Computational and Applied Mathematics 220 (1-2), 271-289, 2008 | 71 | 2008 |

Fitted mesh B-spline collocation method for singularly perturbed differential–difference equations with small delay MK Kadalbajoo, D Kumar Applied Mathematics and Computation 204 (1), 90-98, 2008 | 70 | 2008 |

Numerical treatment of boundary value problems for second order singularly perturbed delay differential equations MK Kadalbajoo, KK Sharma Computational & Applied Mathematics 24, 151-172, 2005 | 67 | 2005 |

B-spline collocation method for the singular-perturbation problem using artificial viscosity MK Kadalbajoo, P Arora Computers & Mathematics with Applications 57 (4), 650-663, 2009 | 66 | 2009 |

B-Spline collocation method for a two-parameter singularly perturbed convection–diffusion boundary value problems MK Kadalbajoo, AS Yadaw Applied Mathematics and Computation 201 (1-2), 504-513, 2008 | 65 | 2008 |

A parameter-uniform implicit difference scheme for solving time-dependent Burgers’ equations MK Kadalbajoo, KK Sharma, A Awasthi Applied mathematics and computation 170 (2), 1365-1393, 2005 | 64 | 2005 |

ε-uniformly convergent fitted methods for the numerical solution of the problems arising from singularly perturbed general DDEs MK Kadalbajoo, KC Patidar, KK Sharma Applied Mathematics and Computation 182 (1), 119-139, 2006 | 59 | 2006 |

Variable-mesh difference scheme for singularly-perturbed boundary-value problems using splines MK Kadalbajoo, RK Bawa Journal of optimization theory and applications 90 (2), 405-416, 1996 | 59 | 1996 |

Upwind and midpoint upwind difference methods for time-dependent differential difference equations with layer behavior VP Ramesh, MK Kadalbajoo Applied Mathematics and Computation 202 (2), 453-471, 2008 | 58 | 2008 |