[1] S. Barzegar, (In Progress), Efficient collocation methods for Volterra Integral equations with highly oscillatory kernels.

[2] Z. Meshkat, (In Progress), High-order numerical methods for fractional derivatives and related time fractional partial differential equations. (Joint student with Dr. Amir Aslani) (2008 - 2012).

[3] P. Mahmoudi, (In Progress), Oscillation-preserving Legendre-Galerkin methods for second kind integral equations with highly oscillatory kernels.

[4] R. Lotfi, (2022), A finite class of q-orthogonal polynomials corresponding to Inverse gamma distribution.

[5] M. Monazzam, (2022), Solving nonlinear time-dependent partial equations using radial basis functions.

[6] M. Golestani, (2021), The convergence of collocation method in continuous piecewise polynomials spaces for weakly singular Volterra-integral equations.

[7] M. Barmayeh Var, (2020), extrapolation methods for the numerical solution of nonlinear Fredholm integral equations.

[8] H. Sadeghi, (2019), Convergence and stability of block boundary value methods applied to nonlinear fractional differential equations.

[9] E. Baji, (2019), Super-convergence of the discontinuous Galerkin method for second-order nonlinear ordinary differential equations with initial values.

[10] E. Rezazadeh, (2019), Numerical solution of linear and nonlinear hyper-singular Integral equations.

[11] S. Sanjabian, (2018), Fractional pseudo-Spectral methods in solving fractional differential equations.

[12] Z. Tabaei, (2018), Analytical and Computational Methods for a Class of Singular Nonlinear Integral Equations.

[13] F. Bagheri, (2017), Special orthogonal decomposition methods in numerical solution of partial differential equations.

[14] L. Fathali Nejad, (2017), A new finite difference method for the Burgers equation on unbounded domains.

[15] N. Shiri, (2017), Numerical solution of a system of polynomial and poly- analytical equations.

[16] M. Khodadadi, (2016), Numerical solution of nonlinear systems of equations by application to nonlinear partial differential equations.

[17] N. Ramedani Bandpei, (2015), Application of some effective numerical methods in stochastic differential equations.

[18] M. Kamankesh, (2015), Dis-continuous Galerkin method in partial fractional differential Equations.

[19] S. Saghafi, (2015), Numerical solution of partial differential equations of fractional order by using radial basis functions.

[20] B. Mirzaei Khandabi, (2015), Rang-Kutta-Nistrom methods for ordinary second- order differential equations applied in multi-structural systems.

[21] A. Joundarmian, (2015), Spectral methods for solving Volterra-Type Integro- differential equations.

[22] M. Salehi, (2015), Some numerical methods for solving parabolic equations governing the propagation of electromagnetic waves.

[23] S. Gebleh Soha, (2015), Boundary Elements Method - Completely Discrete Finite Elements for the Nonlinear Class of Parabolic-Elliptic Problem. [24] S. Aboulhasani, (2014), Some numerical methods for solving differential diffraction problems in two-dimensional space.

[25] S. Bagherzadegan, (2014), Numerical solution of operator equations using pad approximations.

[26] A. Baseri, (2013), Numerical analysis of random differential equations. . [27] S. YarAhmadi, (2013), Numerical solution of the equations governing the electroasmatic current in the microchannel.

[28] M. Neemati, (2013), Numerical analysis of eigenvalue problems in ordinary differential equations.

[29] M. Babaeizadeh, (2013), Applications of radial basis functions in approximation of differential equations.

[30] S. Aghchi, (2013), Numerical solution of Fredholm optimal control equations.

[31] S. Golalizadeh, (2012), Numerical methods in integral equations of the third Type.

[32] Z. Ghorbani Vahid, (2012), Quasi-spectral method in solving fractional optimal control problems.

[33] M. Karimi Ghahroudi, (2012), Numerical analysis of differential equations and fuzzy integrals.

[34] F. Ghanbari, (2012), Spectral methods in numerical analysis of algebraic differential equations.

[35] H. Arab, (2012), Spectral methods in numerical solution of optimal control problems.

[36] F. Goudarzi, (2012), Numerical solution of operational equations using verified methods.

[37] A. Ziaei, (2011), Numerical solution of fuzzy operator equations by spectral Methods.

[38] M. Zamani, (2011), Analytical and numerical study of some economic models using integral equations.

[39] L. Mohammadi, (2010), Pseudo-Spectral effective techniques in spectral methods.

[40] B. Asadian, (2010), Application of special functions in solving operational Equations.

[41] B. Fakhre Kazemi, (2010), Numerical solution of fractional differential equations of multiple degrees by radial basis functions.

[42] M. Khasi, (2009), Investigation of analytical and numerical methods of delayed integral equations.

[2 ] S. Pishbin, Numerical Solution of the Integral Algebraic Equations, 2008 (Joint student with Dr. Hadizadeh) (2008 - 2012).

[3 ] R. Ghaffari, Reduced order methods in Partial Differential Equations (2015-2019).

[4 ] C. G. Keshavarzi, Numerical analysis of partial differential equations by using radial basis functions methods with appropriate preconditioner (2015-2020).

[5] H. Ranjbar, Numerical Analysis of Some Highly Oscillatory operators Equations, (2017-2021).

[6] Z. Habibi (2020- Present).

[7] Bakhshizadeh (2021-Present).

[8] Ashwagh Alabd Alaziz (Joint student with Dr. Hadizadeh) (2021 -Present).