A Simple and Effective Method for Compressing Electrically Large Integral Operators

Chang Yang, Dan Jiao, Purdue University, United States

Computational Electromagnetics II

AP-S General Topics

Peony Junior Ballroom 4511

Presentation Time:
Wed, 8 Dec, 10:40 - 11:00 Singapore Time (UTC +8)
Wed, 8 Dec, 03:40 - 04:00 France Time (UTC +1)
Wed, 8 Dec, 02:40 - 03:00 UTC
Tue, 7 Dec, 21:40 - 22:00 New York Time (UTC -5)

Session Co-Chairs:
Ahmed M. Hassan, University of Missouri-Kansas City and Botian Zhang, University of California, Los Angeles
Session Manager:
Room R12 Manager
Session WE-A3.1A
WE-A3.1A.1: Investigation of Photoconductive Antenna Electrodes on Terahertz Signal Generation
Jose Santos Batista, Magda El-Shenawee, University of Arkansas, United States
WE-A3.1A.2: Predicting RF Coupling to a UAV Wiring System Using the Equivalent Circuit Approach
Mohamed Hamdalla, Anthony Caruso, Ahmed Hassan, University of Missouri-Kansas City, United States
WE-A3.1A.3: The Hybrid Embedded Domain Decomposition Method for Scattering by Bi-anisotropic Objects
Xiong Yang, Lin Lei, Jun Hu, University of Electronic Science and Technology of China, China
WE-A3.1A.4: Efficient Implementation of Adjoint Variation Method for Finite Element with 3D Edge Elements
Botian Zhang, Yahya Rahmat-Samii, University of California, Los Angeles, United States
WE-A3.1A.5: Highly Parallelized Hybrid FDTD Solver for Simulating Electromagnetic Wave Propagation in Dense Urban Environments
Kazem Sabet, Anca Stefan, EMAG Technologies Inc., United States; Kamal Sarabandi, University of Michigan, United States; Brian Sadler, Fikadu Dagefu, Army Research Laboratory, United States
WE-A3.1A.6: A One-Stage O(N log N) Algorithm for Generating Nested Low-Rank Representation of Electrically Large Volume Integral Equations
Yifan Wang, Dan Jiao, Purdue University, United States
WE-A3.1A.7: A Simple and Effective Method for Compressing Electrically Large Integral Operators
Chang Yang, Dan Jiao, Purdue University, United States
WE-A3.1A.8: Comparison of electromagnetic force densities evaluated in the electrodynamic lattice-Boltzmann method and finite-difference time-domain method
Cael Warner, Loïc Markley, Kenneth Chau, University of British Columbia, Canada
WE-A3.1A.9: Broadband Green’s Function-KKR-Multiple Scattering Method for the Calculations of Band Structures in Topological Acoustics
Tien-Hao Liao, California Institute of Technology, United States; Leung Tsang, University of Michigan, United States; Shurun Tan, Zhejiang University, China
WE-A3.1A.10: An Efficient Approach for Evaluation of Multilayered Media Green's Functions
Ozlem Ozgun, Hacettepe University, Turkey; Chao Li, Ecole Polytechnique de Montreal, Canada; Mustafa Kuzuoglu, Middle East Technical University, Turkey; Raj Mittra, University of Central Florida, United States

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