Universal Concepts for Numerical Analysis of Electromagnetic Field Problems
- Fundamental Concepts of Electromagnetic Field Theory
- Maxwell’s equations and boundary value problems
- Potential equations in different frequency ranges
- Boundary conditions of the interface
- Boundary value problems
- Green’s theorem, Green’s functions and fundamental solutions
- Green’s theorem
- Vector analogue of Green’s theorem
- Green’s function.
- Dirac-delta function
- Green’s function.
- Fundamental solutions
- Equivalent sources
- Single layer charge distribution
- Double layer source distributions
- Equivalent polarization charge and magnetization current
- Integral equations of electromagnetic fields
- Integral form of Poisson’s equation
- Integral equation for the exterior region
- Maxwell’s equations and boundary value problems
- General Outline of Numerical Methods
- Finite Difference Method (FDM)
- Fundamentals of Finite Element Method (FFM)
- Variational Finite Element Method
- Elements and Shape Functions
- Charge Simulation Method (CSM)
- Surface Charge Simulation Method (SSM)
- Boundary Element Method (BEM)
- Moment Methods
- Methods of Applied Optimization
- Optimizing Electromagnetic Devices
- Introduction
- General concepts of optimum design
- Objective function
- Mathematical expressions of the boundary value problem
- Optimization methods
- Categories of optimization
- Contour optimization
- Method of curvature adjustment
- Method of charge redistribution
- Contour optimization by using non-linear programming