ECE5340 ECE6340 Numerical techniques in Electromagnetics

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3 STUDENTS

Course Curriculum

ECE 6340 Lecture 5.1: Gaussian Elimination Details 5:40
ECE 6340 Lecture 5.2: What Can Go Wrong with Gaussian Elimination Details 5:4
ECE6340 Lecture 6.1: Jacobi and Gauss-Siedel Methods Details 6:33
ECE6340 Lecture 7.1: Introduction to the FDFD Method Details 1:43
ECE6340 Lecture 7.2: Numerical Differentiation Details 4:10
ECE6340 Lecture 7.3: Error in Numerical Differentiation Details 2:23
ECE6340 Lecture 7.4: More Error in Numerical Differentiation Details 1:44
ECE6340 Lecture 7.5: Numerical 2nd Derivative Details 2:44
ECE6340 Lecture 7.6: Five-Point Stencial for the FDM Details 2:12
ECE6340 Lecture 7.7: Simple FDFD Example Details 3:12
ECE6340 Lecture 9.1: FDFD for Poisson’s Equation Details 5:44
ECE6340 Lecture 9.3: Symmetry Details 4:53
ECE6340 Lecture 10.1: FDM Boundary Conditions Details 6:19
ECE6340 Lecture 11.1: FDFD with Multiple Dielectrics Details 5:19
ECE6340 Lecture 11.2: FDFD with Multiple Dielectrics (2) Details 5:7
ECE6340 Lecture 11.3: FDFD with Multiple Dielectrics and SOR Details 4:33
ECE6340 Lecture 12.1: FDFD– Calculating Z for a Microstrip Details 5:14
ECE6340 Lecture 12.2: FDFD — Calculating C for a Microstrip (to find Z) Details 5:21
ECE6340 Lecture 14-1: Derivation of the FDTD Equations Details 3:56
ECE6340 Lecture 14-2: Discretizing the FDTD grid Details 8:3
ECE6340 Lecture 14-3: E-field Update Equation from Ampere’s Law Details 4:16
ECE6340 Lecture 14-4 FDTD TEz 2D Details 2:11
ECE6340 Lecture 14-5: How to Run the FDTD Algorithm Details 2:10
ECE6340 Lecture 15: Stability Conditions With the FDTD Algorithm Details 2:36
ECE6340 Lecture 17-2: First-Order Absorbing BC for FDTD Details 4:11
ECE6340 Lecture 17-3: Second-Order Absorbing BC for FDTD Details 1:49
ECE6340 Lecture 17-4: Mur Boundary Condition for 1D FDTD Details 7:6
ECE6340 Lecture 17-5: Programming the Mur Boundary Details 3:16
ECE6340 Lecture 18-1: FDTD Time to Frequency Conversion Details 5:40
ECE6340 Lecture 18-2: FDTD Time to Frequency Conversion DFT Details 3:12
ECE6340 Lecture 18-3: FDTD Time to Frequency Domain 2E2U Method Details 2:30
ECE6340 Lecture 20-1: Introduction to the Method of Moments Details 2:9
ECE6340 Lecture 20-2: Unknowns with Method of Moments Details 3:15
ECE6340 Lecture 20-3: Basis functions with the Method of Moments Details 2:29
ECE6340 Lecture 20-4: Weight functions with the Method of Moments Details 4:13
ECE6340 Lecture 20-5: Filling the Moment Matrix Details 3:36
ECE6340 Lecture 17-5: Programming the Mur Boundary Details 3:16
ECE6340 Lecture 17-4: Mur Boundary Condition for 1D FDTD Details 7:6
ECE6340 Lecture 17-3: Second-Order Absorbing BC for FDTD Details 1:49
ECE6340 Lecture 17-2: First-Order Absorbing BC for FDTD Details 4:11
ECE6340 Lecture 15: Stability Conditions With the FDTD Algorithm Details 2:36
ECE6340 Lecture 14-5: How to Run the FDTD Algorithm Details 2:10
ECE6340 Lecture 14-3: E-field Update Equation from Ampere’s Law Details 4:16
ECE6340 Lecture 14-2: Discretizing the FDTD grid Details 8:3
ECE6340 Lecture 14-1: Derivation of the FDTD Equations Details 3:56
ECE6340 Lecture 12.2: FDFD — Calculating C for a Microstrip (to find Z) Details 5:21
ECE6340 Lecture 12.1: FDFD– Calculating Z for a Microstrip Details 5:14

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