HOSVD-based tensor algorithm for IRS-assisted monostatic sensing estimates delay, Doppler and angle parameters individually at low complexity while matching reference performance in simulations.
RIS in cellular net- works – challenges and issues
3 Pith papers cite this work. Polarity classification is still indexing.
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A 12-by-8 PCB RIS prototype at 100 GHz using orthogonal-polarization slot-coupled patches and 4-by-4 subarray partitioning with AlGaAs SP3T switches delivers measured gain enhancement of ~10 dB from 86-100 GHz and ~5 dB from 100-106 GHz at 0.165 W.
Repeater gain optimization in dynamic TDD massive MIMO can improve downlink and uplink spectral efficiency by amplifying desired signals while limiting amplified noise and cross-link interference.
citing papers explorer
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Low-Complexity Tensor-Based Monostatic Sensing for IRS-Assisted Communication Systems
HOSVD-based tensor algorithm for IRS-assisted monostatic sensing estimates delay, Doppler and angle parameters individually at low complexity while matching reference performance in simulations.
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A 100 GHz Wideband Reconfigurable Intelligent Surface Based on Orthogonal Polarization and Sub-Array Partitioning Concepts
A 12-by-8 PCB RIS prototype at 100 GHz using orthogonal-polarization slot-coupled patches and 4-by-4 subarray partitioning with AlGaAs SP3T switches delivers measured gain enhancement of ~10 dB from 86-100 GHz and ~5 dB from 100-106 GHz at 0.165 W.
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Is Repeater-Assisted Massive MIMO Compatible with Dynamic TDD?
Repeater gain optimization in dynamic TDD massive MIMO can improve downlink and uplink spectral efficiency by amplifying desired signals while limiting amplified noise and cross-link interference.