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Demonstration of photonics-based flexible integration of sensing and communication with adaptive waveforms for a W-band fiber-wireless integrated network

Boyu Dong, Junlian Jia, Guoqiang Li, Jianyang Shi, Haipeng Wang, Junwen Zhang, Nan Chi

2022Optics Express32 citationsDOIOpen Access PDF

Abstract

The integration of sensing and communication (ISAC) in millimeter-waves (MMW) will play an important role in future 6G applications. Photonics-based radar sensing and communication systems have the advantages of high bandwidth in terms of high-resolution sensing and high-speed data transmission and can be inherently integrated with fiber-optic networks. To support flexible application scenarios, in this paper, we proposed and experimentally demonstrated an MMW photonics-based flexible ISAC system with adaptive signal waveforms for a W-band fiber-wireless integrated network. Photonics-based W-band ISAC signals are generated by heterodyning two free-running external cavity lasers. Microwave photonics-based radar signal processing supports centralized and seamless fiber-wireless communication and sensing networks. In our proposed system, orthogonal frequency-division multiplexing (OFDM) and linear frequency modulation (LFM) signals were combined by frequency-division multiplexing to share this bandwidth. Therefore, we can adaptively allocate bandwidths to OFDM and LFM signals according to the application requirements and realize a flexible ISAC system with high-speed communication and high-resolution radar sensing. As a proof-of-concept, a flexible W-band fiber-wireless ISAC system at 96.5 GHz over 10-km fiber transmission was demonstrated, achieving adaptive access rates from 5.98 to 41.48 Gbit/s after transmission over 1-m free space, and adaptive sensing resolutions from 1.53 to 6.94 cm with the distance error after calibration less than 4 cm. The performance of both communication and sensing under different bandwidth ratios was also studied.

Topics & Concepts

Computer sciencePhotonicsBandwidth (computing)Orthogonal frequency-division multiplexingElectronic engineeringFree-space optical communicationMultiplexingWirelessTransmission (telecommunications)Communications systemOptical communicationTelecommunicationsEngineeringChannel (broadcasting)OpticsPhysicsAdvanced Photonic Communication SystemsAdvanced Fiber Optic SensorsAdvanced Fiber Laser Technologies