Course of Computational Electromagnetics

Appunti del corso:

• Lecture 1: Introduction to CEM
• Lecture 2: The Finite-Difference Time-Domain (FDTD) Method
  • Additional reading: Sadiku, Chap. 3 (pp. 121-147)
• Lecture 3: The FDTD Method: Application to Maxwell’s Equations
  • Additional reading: notes
• Lecture 4: The FDTD Method: Numerical Dispersion and Stability
  • Additional reading: notes
• Lecture 5: The FDTD Method: Examples and Applications
  • Additional reading: Sadiku, Chap. 3 (pp. 147-157)
• Lecture 6: The Method of Moments (MoM)
  • Additional reading: paper by R.F. Harrington
• Lecture 7: The Method of Moments (MoM)
  • Additional reading: Sadiku (pp. 193-205 & pp. 701-712)
• Lecture 8: The Boundary Element Method (BEM)
  • Additional reading: Sadiku (pp. 290-299 & pp. 339-342)
• Lecture 9: The Boundary Element Method: Examples and Applications
• Lecture 10: The Finite Element Method (FEM)
  • Additional reading: J. Jin, Chap. 2 (pp. 11-23) & Chap. 6 (pp. 177-180)
• Lecture 11: The Finite Element Method (FEM)
  • Additional reading: J. Jin, Chap. 2 (pp. 23-30)
• Lecture 12: The Finite Element Method (FEM): Examples and Applications
  • Additional reading: J. Jin, Chap. 3 (pp. 33-48) & Chap. 5 (pp. 158-170) & Chap. 8 (pp. 231-237)
• Lecture 13: The BI-RME Method: Waveguide Components
• Lecture 14: The BI-RME Method: Substrate Integrated Waveguides (SIW)
• Lecture 15: The MoM/BI-RME Method: Frequency Selective Surfaces (FSS)