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Fully Wireless Coherent Distributed Phased Array System for Networked Radar Applications

Jason M. Merlo, Samuel G. Wagner, John Lancaster, Jeffrey A. Nanzer

2024IEEE Microwave and Wireless Technology Letters10 citationsDOI

Abstract

In this work, we experimentally demonstrate, for the first time, a fully wireless () performing distributed transmit and receive beamforming for a down-range sensing application at microwave frequencies without the need for external frequency and time references such as s (s). We build on previous methods utilizing a () two-tone frequency transfer system and a pulsed two-tone time synchronization system to align the distributed platforms in both time and frequency. Coherent transmit and receive beamforming was performed utilizing 100 MHz () waveforms for sensing. Two experiments were performed: one imaging a static scene and one imaging a moving pedestrian holding a corner reflector. The beamforming gain is quantified in the static measurements yielding a median beamforming gain of 2.12 dB and a maximum gain of 2.86 dB (96.5% coherent beamforming gain).

Topics & Concepts

Phased arrayActive electronically scanned arrayComputer scienceWirelessRadarRadar engineering detailsTelecommunicationsRadar imagingAntenna (radio)Antenna Design and OptimizationAntenna Design and AnalysisMicrowave Engineering and Waveguides
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