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Millimeter-wave over fiber integrated sensing and communication system using self-coherent OFDM

Fengwei Liu, Peixuan Li, Ningyuan Zhong, Xiong Deng, Lianshan Yan, Wei Pan, Xihua Zou

2024Optics Express21 citationsDOIOpen Access PDF

Abstract

Orthogonal frequency-division multiplexing (OFDM) waveform is highly preferred as a dual-function candidate for integrated sensing and communication (ISAC) systems. However, the sensitivity to both carrier frequency offset (CFO) and phase noise greatly impedes its applications in millimeter-wave ISAC systems. Here, we propose and experimentally demonstrate a photonic millimeter-wave ISAC system employing the virtual-carrier-aided self-coherent OFDM technique, wherein a digitally-generated local oscillator is transmitted along with the OFDM signal. Then, a compact CFO-immune and phase noise-immune envelope detection method is implemented for down-converting millimeter-wave communication and radar echo signals. In experiments, a V-band ISAC system is successfully implemented with a simplified remote radio unit, using the remote photonic millimeter-wave heterodyning up-conversion for downlink and the envelope detection-assisted down-conversion for uplink (or radar echoes). In the converged transmission link with a 5-km fiber link and 2-m space link, the Kramers-Kronig (KK) receiver supports a communication data rate up to 16-Gbit/s by mitigating signal-signal beat interference (SSBI). More significantly, the SSBI leads to negligible effects on the sensing performance when classic matched filtering is adopted for target identification. Consequently, a 4.8-cm range resolution and a 4-mm range accuracy are obtained for the radar sensing function.

Topics & Concepts

Orthogonal frequency-division multiplexingPhase noiseFrequency offsetExtremely high frequencyElectronic engineeringComputer scienceRadio over fiberLocal oscillatorPhotonicsOpticsPhysicsTelecommunicationsTransmission (telecommunications)EngineeringChannel (broadcasting)Advanced Photonic Communication SystemsAdvanced Fiber Laser TechnologiesPhotonic and Optical Devices
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