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Joint communication and radar sensing functions system based on photonics at the W-band

Yanyi Wang, Jiaxuan Liu, Junjie Ding, Mingxu Wang, Feng Zhao, Jianjun Yu

2022Optics Express58 citationsDOIOpen Access PDF

Abstract

The photonics-based technology has the advantages of wide bandwidth in millimeter wave (mm-wave) communication and radar sensing systems. In the present work, we propose a novel joint communication and radar sensing functions system based on photonics at the W-band. In the proposed system, the broadband linear frequency modulated (LFM) signal and high-speed M-quadrature amplitude modulation (MQAM) signal are simultaneously obtained by heterodyning two free-running external cavity lasers (ECLs). Based on this system, a communication rate of 78 Gbit/s and a radar with a 5-GHz bandwidth is achieved. This is a good solution to incorporate a high-speed communication and high-resolution radar sensing functions system.

Topics & Concepts

RadarBroadbandComputer scienceBandwidth (computing)Electronic engineeringPhotonicsFrequency modulationFree-space optical communicationCommunications systemOpticsExtremely high frequencySignal processingContinuous-wave radarRadar engineering detailsRemote sensingAmplitude modulationOptical communicationModulation (music)Bistatic radarJoint (building)LaserPassive radarSIGNAL (programming language)Radar lock-onPulse-Doppler radarTelecommunicationsRadar imagingMillimeterPhase modulationAmplitudeAdvanced Photonic Communication SystemsRadar Systems and Signal ProcessingFull-Duplex Wireless Communications
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