Litcius/Paper detail

Beyond 5G Without Obstacles: mmWave-over-Fiber Distributed Antenna Systems

Arno Moerman, Joris Van Kerrebrouck, Olivier Caytan, Igor Lima de Paula, Laurens Bogaert, Guy Torfs, Piet Demeester, Hendrik Rogier, Sam Lemey

2022IEEE Communications Magazine60 citationsDOIOpen Access PDF

Abstract

Beyond-5G wireless systems require significant improvement to enable the Internet of Everything, offering ultra-reliability, ultra-low-latency and high data-rates for holographic telepresence, immersive augmented and virtual reality, and cyber-physical systems in Industry 4.0. The mmWave frequency band (30–300 GHz) provides the required bandwidths, but very challenging propagation conditions exist. Conventional co-located multi-antenna systems counter higher path loss, but are insufficient in challenging real-life scenarios with frequent non-line-of-sight conditions. For distributed massive MIMO systems or large intelligent surfaces, we advocate optically-enabled distributed antenna systems (DAS) to alleviate these issues. To ensure tight synchronization and scalability, we propose a mmWave-over-fiber based architecture with low-complexity high-performance remote antenna units (RAUs). Strategically distributing and integrating RAUs in the user equipments' environment yield high throughput and reliable coverage. We demonstrate a mmWave-over-fiber DAS yielding multi-Gb/s mmWave communication in a harsh indoor environment with non-line-of-sight conditions, measuring wireless data rates up to 24 Gb/s, by selecting the RAU yielding the best link quality, and up to 48 Gb/s, by leveraging distributed MIMO techniques.

Topics & Concepts

Computer scienceLow latency (capital markets)WirelessScalabilityDistributed antenna systemAntenna (radio)Synchronization (alternating current)Path lossMIMOComputer networkChannel (broadcasting)TelecommunicationsDatabaseMillimeter-Wave Propagation and ModelingAdvanced Wireless Communication TechnologiesOptical Wireless Communication Technologies