Geometry-based beamforming delivers 18.75 dB power gain in LoS (0.82 dB below CSI-based) but drops to a 3.83 dB gap in obstructed scenarios with a 41-antenna 920 MHz array.
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2 Pith papers cite this work. Polarity classification is still indexing.
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An adaptive PID controller is integrated into a Network Digital Twin to enhance real-time traffic state synchronization, with results demonstrated via an interactive user interface.
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Experimental Evaluation of Geometry and Reciprocity-Based Beamforming with Large Arrays for RF Wireless Power Transfer
Geometry-based beamforming delivers 18.75 dB power gain in LoS (0.82 dB below CSI-based) but drops to a 3.83 dB gap in obstructed scenarios with a 41-antenna 920 MHz array.
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Building Network Digital Twins Part II: Real-Time Adaptive PID for Enhanced State Synchronization
An adaptive PID controller is integrated into a Network Digital Twin to enhance real-time traffic state synchronization, with results demonstrated via an interactive user interface.