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Mohsen Razzaghi
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- affiliation: Mississippi State University
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2020 – today
- 2024
- [j75]Mohammad Hossein Heydari
, Shabnam Zhagharian, Mohsen Razzaghi:
Discrete Chebyshev polynomials for the numerical solution of stochastic fractional two-dimensional Sobolev equation. Commun. Nonlinear Sci. Numer. Simul. 130: 107742 (2024) - [j74]Mohammad Hossein Heydari
A new wavelet method for fractional integro-differential equations with ψ-Caputo fractional derivative. Math. Comput. Simul. 217: 97-108 (2024) - [j73]Haniye Dehestani
An accurate numerical Scheme for three-dimensional variable-order Time-fractional Partial differential equations in two Types of Space Domains. Math. Model. Anal. 29(3): 406-425 (2024) - 2023
- [j72]Mohammad Hossein Heydari
Jacobi polynomials for the numerical solution of multi-dimensional stochastic multi-order time fractional diffusion-wave equations. Comput. Math. Appl. 152: 91-101 (2023) - [j71]Mohammad Hossein Heydari
A numerical method based on the piecewise Jacobi functions for distributed-order fractional Schrödinger equation. Commun. Nonlinear Sci. Numer. Simul. 116: 106873 (2023) - [j70]Sedigheh Sabermahani
Ritz-generalized Pell wavelet method: Application for two classes of fractional pantograph problems. Commun. Nonlinear Sci. Numer. Simul. 119: 107138 (2023) - [j69]Mohammad Hossein Heydari
Fractional Chebyshev cardinal wavelets: application for fractional quadratic integro-differential equations. Int. J. Comput. Math. 100(3): 479-496 (2023) - [j68]Mohammad Hossein Heydari
Numerical solution of distributed-order fractional 2D optimal control problems using the Bernstein polynomials. Int. J. Syst. Sci. 54(10): 2253-2267 (2023) - [j67]Mohammad Hossein Heydari
A hybrid method based on the Chebyshev cardinal functions/wavelets for time fractional coupled Klein-Gordon-Schrödinger equations. J. Comput. Appl. Math. 427: 115142 (2023) - [j66]Mohammad Hossein Heydari
Numerical solution of distributed-order time fractional Klein-Gordon-Zakharov system. J. Comput. Sci. 67: 101961 (2023) - [j65]Hoa T. B. Ngo, Mohsen Razzaghi, Thieu N. Vo
Fractional-order Chelyshkov wavelet method for solving variable-order fractional differential equations and an application in variable-order fractional relaxation system. Numer. Algorithms 92(3): 1571-1588 (2023) - 2022
- [j64]M. Hosseininia, Mohammad Hossein Heydari
Meshless local Petrov-Galerkin method for 2D fractional Fokker-Planck equation involved with the ABC fractional derivative. Comput. Math. Appl. 125: 176-192 (2022) - [j63]Haniye Dehestani
Fractional-Lucas optimization method for evaluating the approximate solution of the multi-dimensional fractional differential equations. Eng. Comput. 38(1): 481-495 (2022) - [j62]Mohammad Hossein Heydari
Orthonormal Bernoulli polynomials for space-time fractal-fractional modified Benjamin-Bona-Mahony type equations. Eng. Comput. 38(4): 3483-3496 (2022) - [j61]Mohammad Hossein Heydari
A new class of orthonormal basis functions: application for fractional optimal control problems. Int. J. Syst. Sci. 53(2): 240-252 (2022) - [j60]Ghodsieh Ghanbari
Numerical solutions for fractional optimal control problems by using generalised fractional-order Chebyshev wavelets. Int. J. Syst. Sci. 53(4): 778-792 (2022) - [j59]Mohammad Hossein Heydari
Extended Chebyshev cardinal wavelets for nonlinear fractional delay optimal control problems. Int. J. Syst. Sci. 53(5): 1048-1067 (2022) - [j58]Mohammad Hossein Heydari
Application of the extended Chebyshev cardinal wavelets in solving fractional optimal control problems with ABC fractional derivative. Int. J. Syst. Sci. 53(12): 2694-2708 (2022) - [j57]Mohammad Hossein Heydari
Jacobi spectral method for variable-order fractional Benney-Lin equation arising in falling film problems. J. Comput. Appl. Math. 402: 113813 (2022) - [j56]Haniye Dehestani
A spectral Approach for Time-fractional diffusion and subdiffusion equations in a Large interval. Math. Model. Anal. 27(1): 19-40 (2022) - [j55]Thieu N. Vo, Mohsen Razzaghi
Fractional-order generalized Taylor wavelet method for systems of nonlinear fractional differential equations with application to human respiratory syncytial virus infection. Soft Comput. 26(1): 165-173 (2022) - 2021
- [j54]Quan H. Do
A generalized fractional-order Chebyshev wavelet method for two-dimensional distributed-order fractional differential equations. Commun. Nonlinear Sci. Numer. Simul. 95: 105597 (2021) - [j53]Phan Thanh Toan
Taylor wavelet method for fractional delay differential equations. Eng. Comput. 37(1): 231-240 (2021) - [j52]Haniye Dehestani
Pseudo-operational matrix method for the solution of variable-order fractional partial integro-differential equations. Eng. Comput. 37(3): 1791-1806 (2021) - [j51]Farid Abdollahi, Mehrdad Lakestani, Mohsen Razzaghi:
Hybrid Vessel Extraction Method Based on Tight-Frame and EM Algorithms by Using 2D Dual Tree Complex Wavelet. Informatica 32(1): 1-22 (2021) - [j50]Haniye Dehestani
Combination of Lucas wavelets with Legendre-Gauss quadrature for fractional Fredholm-Volterra integro-differential equations. J. Comput. Appl. Math. 382: 113070 (2021) - [j49]Haniye Dehestani
A novel direct method based on the Lucas multiwavelet functions for variable-order fractional reaction-diffusion and subdiffusion equations. Numer. Linear Algebra Appl. 28(2) (2021) - [j48]Yousef Edrisi Tabriz
Study of B-spline collocation method for solving fractional optimal control problems. Trans. Inst. Meas. Control 43(11) (2021) - 2020
- [j47]Haniye Dehestani
The novel operational matrices based on 2D-Genocchi polynomials: solving a general class of variable-order fractional partial integro-differential equations. Comput. Appl. Math. 39(4) (2020) - [j46]Elmira Ashpazzadeh, Bin Han, Mehrdad Lakestani, Mohsen Razzaghi:
Derivative-orthogonal wavelets for discretizing constrained optimal control problems. Int. J. Syst. Sci. 51(5): 786-810 (2020) - [j45]Haniye Dehestani
Fractional-order Bessel wavelet functions for solving variable order fractional optimal control problems with estimation error. Int. J. Syst. Sci. 51(6): 1032-1052 (2020) - [j44]Haniye Dehestani
Numerical solution of variable-order Time fractional Weakly singular Partial integro-differential equations with error estimation. Math. Model. Anal. 25(4): 680-701 (2020) - [j43]Panupong Vichitkunakorn
A numerical method for fractional pantograph differential equations based on Taylor wavelets. Trans. Inst. Meas. Control 42(7): 1334-1344 (2020)
2010 – 2019
- 2019
- [j42]Elham Keshavarz
The Bernoulli wavelets operational matrix of integration and its applications for the solution of linear and nonlinear problems in calculus of variations. Appl. Math. Comput. 351: 83-98 (2019) - [j41]Ghiocel Groza, Mohsen Razzaghi
Approximation of solutions of polynomial partial differential equations in two independent variables. J. Comput. Appl. Math. 346: 205-223 (2019) - [j40]Haniye Dehestani
On the applicability of Genocchi wavelet method for different kinds of fractional-order differential equations with delay. Numer. Linear Algebra Appl. 26(5) (2019) - 2018
- [j39]Haniye Dehestani
Fractional-order Legendre-Laguerre functions and their applications in fractional partial differential equations. Appl. Math. Comput. 336: 433-453 (2018) - 2017
- [j38]Vidhya Saraswathy Krishnasamy, Somayeh Mashayekhi
Numerical solutions of fractional differential equations by using fractional Taylor basis. IEEE CAA J. Autom. Sinica 4(1): 98-106 (2017) - 2016
- [j37]Somayeh Mashayekhi
Numerical solution of distributed order fractional differential equations by hybrid functions. J. Comput. Phys. 315: 169-181 (2016) - 2013
- [j36]Ghiocel Groza, Mohsen Razzaghi:
A Taylor series method for the solution of the linear initial-boundary-value problems for partial differential equations. Comput. Math. Appl. 66(7): 1329-1343 (2013) - 2012
- [j35]N. Haddadi, Yadollah Ordokhani
Optimal Control of Delay Systems by Using a Hybrid Functions Approximation. J. Optim. Theory Appl. 153(2): 338-356 (2012) - [c1]Mohsen Razzaghi:
Hybrid Functions for Nonlinear Differential Equations with Applications to Physical Problems. NAA 2012: 86-94
2000 – 2009
- 2008
- [j34]Yadollah Ordokhani
Solution of nonlinear Volterra-Fredholm-Hammerstein integral equations via a collocation method and rationalized Haar functions. Appl. Math. Lett. 21(1): 4-9 (2008) - [j33]Hamid R. Marzban, Mohsen Razzaghi, Masoud Shafiee
Analysis of time-varying singular bilinear systems by hybrid functions. Int. J. Syst. Sci. 39(3): 229-235 (2008) - 2007
- [j32]Mehdi Tatari, Mehdi Dehghan
Application of the Adomian decomposition method for the Fokker-Planck equation. Math. Comput. Model. 45(5-6): 639-650 (2007) - 2006
- [j31]Majid Jaberi Douraki, Mehdi Dehghan
On the higher order rational recursive sequence xn=(A/nn-k) + (B/xn-3k). Appl. Math. Comput. 173(2): 710-723 (2006) - [j30]Mehdi Dehghan
Global stability of a higher order rational recursive sequence. Appl. Math. Comput. 179(1): 161-174 (2006) - [j29]Majid Jaberi Douraki, Mehdi Dehghan
Oscillation and asymptotic behavior of a class of higher order nonlinear recursive sequences. Appl. Math. Comput. 179(1): 175-189 (2006) - [j28]Mehdi Tatari, Mehdi Dehghan
Determination of a time-dependent parameter in a one-dimensional quasi-linear parabolic equation with temperature overspecification. Int. J. Comput. Math. 83(12): 905-913 (2006) - 2005
- [j27]Majid Jaberi Douraki, Mehdi Dehghan
The qualitative behavior of solutions of a nonlinear difference equation. Appl. Math. Comput. 170(1): 485-502 (2005) - [j26]Mostafa Shamsi
Solution of Hallen's integral equation using multiwavelets. Comput. Phys. Commun. 168(3): 187-197 (2005) - [j25]Abbas Saadatmandi
Hartley series approximations for the parabolic equations. Int. J. Comput. Math. 82(9): 1149-1156 (2005) - [j24]Abbas Saadatmandi
Sinc-galerkin solution for nonlinear two-point boundary value problems with applications to chemical reactor theory. Math. Comput. Model. 42(11-12): 1237-1244 (2005) - [j23]S. Yousefi, Mohsen Razzaghi:
Legendre wavelets method for the nonlinear Volterra-Fredholm integral equations. Math. Comput. Simul. 70(1): 1-8 (2005) - 2004
- [j22]K. Parand
Rational Chebyshev tau method for solving Volterra's population model. Appl. Math. Comput. 149(3): 893-900 (2004) - [j21]Abbas Saadatmandi
A tau method approach for the diffusion equation with nonlocal boundary conditions. Int. J. Comput. Math. 81(11): 1427-1432 (2004) - [j20]Hamid R. Marzban, Mohsen Razzaghi:
Optimal control of linear delay systems via hybrid of block-pulse and Legendre polynomials. J. Frankl. Inst. 341(3): 279-293 (2004) - [j19]Mostafa Shamsi, Mohsen Razzaghi, Jalal Nazarzadeh, Masoud Shafiee:
Haar wavelets method for solving Pocklington's integral equation. Kybernetika 40(4): 491-500 (2004) - [j18]Hamid R. Marzban, Mohsen Razzaghi:
Solution of time-varying delay systems by hybrid functions. Math. Comput. Simul. 64(6): 597-607 (2004) - 2003
- [j17]Hamid R. Marzban, Mohsen Razzaghi:
Numerical solution of the controlled Duffing oscillator by hybrid functions. Appl. Math. Comput. 140(2-3): 179-190 (2003) - [j16]Behnam Sepehrian
State Analysis of Time-Varying Singular Bilinear Systems by Single-Term Walsh Series. Int. J. Comput. Math. 80(4): 413-418 (2003) - 2002
- [j15]Mohsen Razzaghi, Yadollah Ordokhani
A Rationalized Haar Functions Method for Nonlinear Fredholm-hammerstein Integral Equations. Int. J. Comput. Math. 79(3): 333-343 (2002) - [j14]Mohsen Razzaghi, S. Yousefi:
Sine-cosine wavelets operational matrix of integration and its applications in the calculus of variations. Int. J. Syst. Sci. 33(10): 805-810 (2002) - 2001
- [j13]Mohsen Razzaghi, Yadollah Ordokhani
An application of rationalized Haar functions for variational problems. Appl. Math. Comput. 122(3): 353-364 (2001) - [j12]Mohsen Razzaghi, S. Yousefi:
The Legendre wavelets operational matrix of integration. Int. J. Syst. Sci. 32(4): 495-502 (2001) - [j11]Mohsen Razzaghi, Yadollah Ordokhani:
Solution for a classical problem in the calculus of variations via rationalized Haar functions. Kybernetika 37(5): 575-583 (2001) - 2000
- [j10]Mohsen Razzaghi, Hamid R. Marzban:
A hybrid analysis direct method in the calculus of variations. Int. J. Comput. Math. 75(3): 259-269 (2000)
1990 – 1999
- 1998
- [j9]Masoud Shafiee
On the solution of the covariance matrix differential equation for singular systems. Int. J. Comput. Math. 68(3-4): 337-343 (1998) - [j8]Mohsen Razzaghi, Masoud Shafiee
Optimal control of singular systems VIA legendre series. Int. J. Comput. Math. 70(2): 241-250 (1998) - [j7]Jalal Nazarzadeh
A hybrid domain analysis for linear quadratic optimal control problems with control inequality constraints. Int. J. Syst. Sci. 29(2): 213-218 (1998) - 1995
- [j6]Gamal N. Elnagar, Mohsen Razzaghi:
Solution of linear two-point boundary value problems via a collocation method and application to optimal control. Int. J. Comput. Math. 55(1-2): 105-111 (1995) - [j5]Mohsen Razzaghi, M. F. Habibi, R. Fayzebakhsh:
Suboptimal control of linear delay systems via Legendre series. Kybernetika 31(5): 509-518 (1995) - [j4]Gamal N. Elnagar, Mohammad A. Kazemi, Mohsen Razzaghi:
The pseudospectral Legendre method for discretizing optimal control problems. IEEE Trans. Autom. Control. 40(10): 1793-1796 (1995)
1980 – 1989
- 1986
- [j3]Mohsen Razzaghi:
A pole assignment technique for multivariable systems with input delay. Kybernetika 22(4): 368-371 (1986)
1970 – 1979
- 1978
- [j2]Mohsen Razzaghi:
Solution of the matrix Riccati equation in optimal control. Inf. Sci. 16(1): 61-73 (1978) - 1975
- [j1]Mohammad Jamshidi, Mohsen Razzaghi:
Optimization of linear systems with input time-delay. Kybernetika 11(5): 375-384 (1975)
Coauthor Index
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