MS1MIS - Modeling and Simulation of Electromagnetic Fields
|Modeling and Simulation of Electromagnetic Fields
|Electrical Engineering and Computing
|Type of study
|master academic studies
|Lecturer (for classes)
|Lecturer/Associate (for practice)
|Lecturer/Associate (for OTC)
|Introduce students to basic numerical methods for modeling and simulation of electromagnetic fields.
|Knowledge of basic numerical methods for modeling and simulation of electromagnetic fields. Skill to apply numerical methods for electromagnetic modeling to simple engineering problems. Ability to choose optimal commercial software.
|Contents of lectures
|Approximate solution of field integral equations. Point matching method. Least square method. Rayleigh-Ritz method. Galerkin method. Method of moments (MoM). Choice of basis and test functions. Adaptive methods. Approximate solution of field differential equations. Finite difference method (FDM). Iterative methods. Finite element method (FEM).
|Contents of exercises
|Solving of simple electromagnetic problems by using different numerical methods. Programming of the methods using one of the following environments: Matlab-u, Mathematica, C/C++, Fortran.
|Number of hours per week during the semester/trimester/year
|Study and Research
|Methods of teaching
|Lectures and problem solving classes
|Knowledge score (maximum points 100)
|Activites during lectures