Symmetry-induced broadband transmission enhancement enables quantitative recovery of unknown scatterer characteristics across a barrier by optimizing programmable scatterers in a mirror-symmetric chaotic cavity setup.
Channel estimation via tensor decomposition for dynamic metasurface antennas with known mutual coupling: Algorithms and experiments
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An experimentally calibrated multiport-network model enables optimization of dynamic metasurface antenna configuration sequences for joint DoA-polarization estimation, delivering the largest gains over random sequences in the intermediate-SNR and intermediate-length regime.
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Symmetry-Empowered Through-Barrier Sensing in Complex Media
Symmetry-induced broadband transmission enhancement enables quantitative recovery of unknown scatterer characteristics across a barrier by optimizing programmable scatterers in a mirror-symmetric chaotic cavity setup.
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Optimizing Dynamic Metasurface Antenna Configurations for Direction-of-Arrival and Polarization Estimation Using an Experimentally Calibrated Multiport-Network Model
An experimentally calibrated multiport-network model enables optimization of dynamic metasurface antenna configuration sequences for joint DoA-polarization estimation, delivering the largest gains over random sequences in the intermediate-SNR and intermediate-length regime.