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Wed 18 Jun | 08:00 - 09:40
207
Advances in Computational Techniques
Improved computational methods for the simulation of challenging electromagnetic structures are crucial for advances in key areas of microwave technology. This session presents several innovative computational methods to allow for improved modeling for various applications. Applications include accurate modeling of RF emission from printed circuit boards, a new fast method for analyzing problems with the volume integral equation, a fast method for analyzing arbitrary H-plane waveguide systems, and a new method for finding the mm-wave attenuation on printed circuit lines due to surface roughness.
08:00 - 08:20
We1D-1 KEYNOTE: AI on Functions and Neural Operators
08:20 - 08:40
We1D-2 Electromagnetic Emission Simulation of Radio-Frequency Circuits Using Direct Domain Decomposition Solver
08:40 - 09:00
We1D-3 Towards Tensor-Train Solution of Vector Volume Integral Equation in 3D with log-N Complexity
09:00 - 09:20
We1D-4 Fusing Leontovich Boundary Conditions and Scalar 2D FEM to Compute Lid and Lateral Wall Losses in H-plane Waveguide Devices
09:20 - 09:40
We1D-5 A Finite Element Method to Model Transmission Lines with Various Rough Conductor Surfaces up to 110GHz