Rate My Professor Mohammad Kazemi

Mohammad A. Kazemi is Associate Chair and Professor of Mathematics in the Department of Mathematics and Statistics at the University of North Carolina at Charlotte, a position he has held as part of his faculty appointment since 1982. Located in office Fretwell 376C, he contributes to department leadership and administration. His research interests are in Partial Differential Equations and Mathematical Physics. Additional areas of scholarly focus include optimal control, pseudospectral methods, functional differential equations, integral equations, calculus of variations, and distributed parameter systems. Kazemi demonstrates skills in spectral methods such as Chebyshev, Legendre, and Fourier, along with pseudospectral approximation, nonlinear programming, numerical analysis, and optimal control theory.

Kazemi has 15 research works affiliated with the University of North Carolina at Charlotte, garnering 1,264 citations. His key publications are: "Pseudospectral Chebyshev Optimal Control of Constrained Nonlinear Dynamical Systems" (Computational Optimization and Applications, 1998, 190 citations); "Chebyshev spectral solution of nonlinear Volterra-Hammerstein integral equations" (Journal of Computational and Applied Mathematics, 1996, 66 citations); "Pseudospectral Legendre-based optimal computation of nonlinear constrained variational problems" (Journal of Computational and Applied Mathematics, 1998, 46 citations); "Numerical solution of time-delayed functional differential equation control systems" (Journal of Computational and Applied Mathematics, 2001, 21 citations); "Optimal control of a system governed by nonlinear Volterra integral equations with delay" (IMA Journal of Mathematical Control and Information, 1999, 21 citations); "Nonlinear Periodic Optimal Control: A Pseudospectral Fourier Approach" (Numerical Functional Analysis and Optimization, 2004, 14 citations); "Numerical solvability of nonlinear problems of the calculus of variations" (Numerical Functional Analysis and Optimization, 1996, 5 citations); "Necessary conditions for constrained distributed parameter systems with deviating argument" (The Journal of the Australian Mathematical Society Series B Applied Mathematics, 1996); "Optimization of Functional Integral Equations: A Spectral Approach" (Numerical Functional Analysis and Optimization, 2019); and "Optimization of a Class of Distributed Parameter Systems with Deviating Argument" (Journal of Mathematical Analysis and Applications, 1996). These works highlight his contributions to computational solutions for complex systems.