TU-A6.1P.2
Efficiency and Accuracy of the Surface Potential Based EFIE
Kristof Cools, Ghent University, Belgium
Session:
Advances in Integral Equations I Oral
Track:
AP-S: Track 6: Computational Electromagnetics
Location:
Room 353
Session Time:
Tue, 14 Jul, 13:20 - 17:00
Presentation Time:
Tue, 14 Jul, 13:40 - 14:00
Presentation
Discussion
Session TU-A6.1P
TU-A6.1P.1: Projector Surface Integral Equation Formulation with Generalized Sheet Transition Conditions
German Farinas Perez, Jordan Budhu, Virginia Tech, United States
TU-A6.1P.2: Efficiency and Accuracy of the Surface Potential Based EFIE
Kristof Cools, Ghent University, Belgium
TU-A6.1P.3: A Hybrid PMCHWT-VIE Formulation for Electromagnetic Scattering from Composite Dielectric-PEC Objects
Jin Wang, Jinbo Liu, Zengrui Li, Communication University of China, China
TU-A6.1P.4: 2D Analysis of Sharp Edge Geometries using the Spectral Projection Model
Anthony Fascia, Providence College, United States
TU-A6.1P.5: A Statics-to-Full-Wave Combined-Field Boundary Element Formulation for the Electromagnetic Simulation of Lossy Penetrable Materials
Shashwat Sharma, University of Birmingham, United Kingdom
TU-A6.1P.6: Towards Stable Multi-Trace Integral Equations in the Time-Domain
Cedric Münger, Van Chien Le, Kristof Cools, Ghent University, Belgium
TU-A6.1P.7: Source-Based Higher-Order Error Estimators for Nonconformal Integral Equation Discretizations
James Dee, Georgia Tech Research Institute, United States; Andrew Peterson, Georgia Institute of Technology, United States
TU-A6.1P.8: Investigation of Calderón Preconditioning Strategies for the PMCHWT Formulation with Improved Stability in High-Contrast Scenarios
Valerio Morra, Viviana Giunzioni, Politecnico di Torino, Italy; Adrien Merlini, IMT Atlantique, France; Francesco Andriulli, Politecnico di Torino, Italy
TU-A6.1P.9: A Thin-Sheet Volume Integral Formulation for Anisotropic Dielectric Structures
Sebastian Celis Sierra, Meruyert Khamitova, Hakan Bagci, King Abdullah University of Science and Technology, Saudi Arabia
TU-A6.1P.10: Accurate Wire Antenna Modeling With RWG-Based Macro Basis Functions
William Dommisse, Matthys Botha, Stellenbosch University, South Africa; Thomas Rylander, Chalmers University of Technology, Sweden; Jan Carlsson, Provinn AB, Sweden
Resources
No resources available.