Excellence in Antennas and Propagation Research Spotlight on Women’s Contributions | Part 3
Excellence in Antennas and Propagation Research Spotlight on Women’s Contributions | Part 3
Research by Francesca published in IEEE TAP
- Multi-Antenna System for In-Line Food Imaging at Microwave Frequencies
- A Multiresolution Domain Decomposition Preconditioner for the MoM Solution of Multiscale Complex Structures
- Method of Moments for the Dispersion Modeling of Glide-Symmetric Periodic Structures
- On the Use of a Localized Huygens’ Surface Scheme for the Adaptive H-Refinement of Multiscale Problems
- A Multi-Resolution Preconditioner for Nonconformal Meshes in the MoM Solution of Large Multiscale Structures
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Research by Mei published in IEEE TAP
- A Compact, Single-Layer, Index-Modulated Microstrip Antenna With Stable Customized Tilted Beam Over a Wide Bandwidth
- A Miniaturized Dual-band Dual-beam Filtering Patch Antenna with Orthogonal Beam Pointing
- Broadband Circularly Polarized Microstrip Antenna With Customized Tilted Beam Based on Index-Modulated Folded Split Ring Resonator
- Planar Single-Layer Wideband Electrically Small Quasi-Isotropic Antenna Characterized by Filtering Response
- Tightly Packed Small Broadbeam Self-Decoupling Patch Antenna Pair With High Isolation by Seamless Integration of Coupled-Resonator Filters
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Research by Thi Hai-Yen published in IEEE TAP
- Surface Wave Suppression for Improved Isolation and Bore-Sight Gain Based on Dipole Moment Conversion
- Geometry-Independent Excitation of Dark Modes Using Dipole Moment Transitions
Research by Bing published in IEEE TAP
Research by Tiantian published in IEEE TAP
- Subspace-Rytov Approximation Inversion Method for Inverse Scattering Problems
- Subspace-Based Distorted-Rytov Iterative Method for Solving Inverse Scattering Problems
- Far-Field Approximation Learning Method for Millimeter-Wave Short-Range Imaging
- Learning Approach to FMCW Radar Target Classification With Feature Extraction From Wave Physics
- Electric Flux Density Learning Method for Solving 3-D Electromagnetic Scattering Problems
Discover more articles by Tiantian here.