Faculty Member, PhD
Saeed Hatamzadeh
Elektrik-Elektronik ve Haberleşme Mühendisliği
Çalışma Alanları
- Mühendislik Temel Alanı
- Elektrik-Elektronik ve Haberleşme Mühendisliği
- An Efficient Scheme for Optimization of Recognition Algorithms, 2024
- A Computational Approach for Analysis of Scattering Characteristics for Strips of Resistive Material, 2023
- Applying a set of orthogonal basis functions in numerical solution of Hallen’s integral equation for dipole antenna of perfectly conducting material, 2022
- A numerical evaluation of radiation from dipole antenna based on a set of wavelet functions, 2021
- A Regularization-direct Method to Numerically Solve First Kind Fredholm Integral Equation, 2020
- Numerical Solution of Second Kind Volterra and Fredholm Integral Equations Based on a Direct Method Via Triangular Functions, 2019
- An Efficient Numerical Algorithm For Solving Linear Differential Equations of Arbitrary Order And Coefficients, 2018
- A numerical scheme for two dimensional scattering analysis, 2018
- A computational method for numerically solving linear integro-differential equations, 2018
- Determining the electromagnetic fields scattered from PEC cylinders, 2017
- Numerical method for solving arbitrary linear differential equations using a set of orthogonal basis functions and operational matrix, 2016
- The error analysis and convergence evaluation of a computational technique for solving electromagnetic scattering problems, 2015
- A numerical approach for calculating the radar cross section of two-dimensional perfect electrically conducting structures, 2014
- Numerical method for solving system of Fredhlom integral equations using Chebyshev cardinal functions, 2014
- A numerical method for calculation of electrostatic charge distribution induced on conducting surfaces, 2014
- An analysis of electromagnetic scattering from finite-width strips, 2013
- Evaluation of current distribution induced on perfect electrically conducting scatterers, 2013
- Calculation of electric charge density based on a numerical approximation method using triangular functions, 2013
- Applying integral equation modeling technique in determination of charge distribution on conducting structures, 2013
- A fast numerical method for analysis of one- and two-dimensional electromagnetic scattering using a set of cardinal functions, 2012
- Numerical expansion-iterative method for analysis of integral equation models arising in one- and two-dimensional electromagnetic scattering, 2012
- Numerical method for analysis of one- and two-dimensional electromagnetic scattering based on using linear Fredholm integral equation models, 2011
- One- and two-dimensional scattering analysis using a fast numerical method, 2011
- Numerical method for analysis of radiation from thin wire dipole antenna, 2011
- A scheme for RCS determination using wavelet basis, 2010
- A set of multi dimensional orthogonal basis functions and its application to solve integral equations, 2010
- An expansion-iterative method for numerically solving Volterra integral equation of the first kind, 2010
- Numerical solution of nonlinear Volterra-Fredholm integro-differential equations via direct method using triangular functions, 2009
- A direct method for numerically solving integral equations system using orthogonal triangular functions, 2009
- Numerical approach to survey the problem of electromagnetic scattering from resistive strips based on using a set of orthogonal basis functions, 2008
- Applying Shannon wavelet basis functions to the Method of Moments for evaluating the radar cross section of the conducting and resistive surfaces, 2008
- Calculating the radar cross section of the resistive targets using the Haar wavelets, 2008
- An integral equation modeling of electromagnetic scattering from the surfaces of arbitrary resistance distribution, 2008
- New numerical method for determining the scattered electromagnetic fields from thin wires, 2008
- New direct method to solve nonlinear Volterra-Fredholm integral and integro-differential equations using operational matrix with block-pulse functions, 2008
- A moment method simulation of electromagnetic scattering from conducting bodies, 2008