Subject description
Equations of electromagnetic fields (Maxwell equations in different forms, Boundary conditions, Conditions in infinity, absorbing boundary conditions). Formulations of electromagnetic problems. Numerical methods for electromagnetic problems (finite differences, finite elements, boundary elements, fast multipole methods, hybrid methods, other methods). Solution of systems of equations (decomposition methods, conjugate gradient method, iteration methods, eigenvalue problems).
The subject is taught in programs
Objectives and competences
To learn numerical methods for computation of electromagnetic fields
Teaching and learning methods
Lectures
Expected study results
Students should compute parameters of chosen electromagnetic system
Basic sources and literature
Thomas Rylander, Par Ingellstrom, Anders Bondeson: Computational Electromagnetics, Springer, 2012
Jiang-Ming Jin: Theory and Computation of Electromagnetic Fields,Wiley , 2010
Yijun Liu; Fast Multipole Boundary Element Method, Cambridge UP, 2014
Jean Van Bladel: Electromagnetic Fields, IEEE Press, 2007
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University of Ljubljana, Faculty of Electrical Engineering Tržaška cesta 25, 1000 Ljubljana