Kourosh Parand
Kourosh Parand
Professor of Scientific Computing, Shahid Beheshti University, Department of Computer Science
Verified email at sbu.ac.ir
Title
Cited by
Cited by
Year
An approximation algorithm for the solution of the nonlinear Lane–Emden type equations arising in astrophysics using Hermite functions collocation method
K Parand, M Dehghan, AR Rezaei, SM Ghaderi
Computer Physics Communications 181 (6), 1096-1108, 2010
2202010
Rational Legendre pseudospectral approach for solving nonlinear differential equations of Lane–Emden type
K Parand, M Shahini, M Dehghan
Journal of Computational Physics 228 (23), 8830-8840, 2009
1692009
Numerical solution of nonlinear Volterra–Fredholm–Hammerstein integral equations via collocation method based on radial basis functions
K Parand, JA Rad
Applied Mathematics and Computation 218 (9), 5292-5309, 2012
1522012
Rational Legendre approximation for solving some physical problems on semi-infinite intervals
K Parand, M Razzaghi
Physica Scripta 69 (5), 353, 2004
1122004
Rational Chebyshev tau method for solving higher-order ordinary differential equations
K Parand, M Razzaghi
International Journal of Computer Mathematics 81 (1), 73-80, 2004
1002004
Rational Chebyshev tau method for solving Volterra’s population model
K Parand, M Razzaghi
Applied Mathematics and Computation 149 (3), 893-900, 2004
922004
Solving Volterra’s population growth model of arbitrary order using the generalized fractional order of the Chebyshev functions
K Parand, M Delkhosh
Ricerche di Matematica 65 (1), 307-328, 2016
902016
Sinc-collocation method for solving astrophysics equations
K Parand, A Pirkhedri
New Astronomy 15 (6), 533-537, 2010
822010
Pricing European and American options by radial basis point interpolation
JA Rad, K Parand, LV Ballestra
Applied Mathematics and Computation 251, 363-377, 2015
732015
Sinc-collocation method for solving the Blasius equation
K Parand, M Dehghan, A Pirkhedri
Physics Letters A 373 (44), 4060-4065, 2009
702009
Rational Chebyshev pseudospectral approach for solving Thomas–Fermi equation
K Parand, M Shahini
Physics Letters A 373 (2), 210-213, 2009
692009
A novel application of radial basis functions for solving a model of first-order integro-ordinary differential equation
K Parand, S Abbasbandy, S Kazem, JA Rad
Communications in Nonlinear Science and Numerical Simulation 16 (11), 4250-4258, 2011
682011
Rational scaled generalized Laguerre function collocation method for solving the Blasius equation
K Parand, A Taghavi
Journal of Computational and Applied Mathematics 233 (4), 980-989, 2009
642009
Numerical solution of fractional differential equations with a Tau method based on Legendre and Bernstein polynomials
JA Rad, S Kazem, M Shaban, K Parand, A Yildirim
Mathematical Methods in the Applied Sciences 37 (3), 329-342, 2014
632014
Lagrangian method for solving Lane–Emden type equation arising in astrophysics on semi-infinite domains
K Parand, AR Rezaei, A Taghavi
Acta Astronautica 67 (7-8), 673-680, 2010
592010
Accurate solution of the Thomas–Fermi equation using the fractional order of rational Chebyshev functions
K Parand, M Delkhosh
Journal of Computational and Applied Mathematics, 2017
582017
Operational matrices to solve nonlinear Volterra-Fredholm integro-differential equations of multi-arbitrary order
K Parand, M Delkhosh
Gazi University Journal of Science 29 (4), 895-907, 2016
582016
Radial basis functions methods for solving Fokker–Planck equation
S Kazem, JA Rad, K Parand
Engineering Analysis with Boundary Elements 36 (2), 181-189, 2012
572012
An improved numerical method for a class of astrophysics problems based on radial basis functions
K Parand, S Abbasbandy, S Kazem, AR Rezaei
Physica Scripta 83 (1), 015011, 2011
562011
The Sinc-collocation method for solving the Thomas–Fermi equation
K Parand, M Dehghan, A Pirkhedri
Journal of Computational and Applied Mathematics 237 (1), 244-252, 2013
542013
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