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OAM-MIMO Multiplexing Transmission System for High-Capacity Wireless Communications on Millimeter-Wave Band

Hirofumi Sasaki, Yasunori Yagi, Hiroyuki Fukumoto, Doohwan Lee

2023IEEE Transactions on Wireless Communications40 citationsDOIOpen Access PDF

Abstract

This paper presents the performance analysis and experimental demonstrations of our orbital angular momentum-multiple-input multiple-output (OAM-MIMO) multiplexing system. OAM is a fixed orthogonal basis set, so OAM multiplexing has a high affinity to analog processing. We extend OAM multiplexing to OAM-MIMO multiplexing technology, which effectively combines the advantage of OAM multiplexing with that of MIMO-based digital signal processing with multiple uniform circular arrays (multi-UCAs) for line-of-sight wireless transmission. Basically, OAM-MIMO is classified as a practical form of analog-digital hybrid MIMO technology. Our multi-UCA-based OAM-MIMO multiplexing transmission system has two hybrid analog-digital architectures. We evaluated its performance through a comparison with different antenna arrangements and configurations. We implemented antennas of quadruple UCAs, with each UCA having a broadband Butler matrix circuit that generates and separates OAM modes as an analog part of hybrid MIMO on a 28-GHz frequency band. We experimentally demonstrated 130-Gbit/s wireless data transmission with 11 streams using five OAM modes (0, ±1, ±2) at a distance of 10 m. We also demonstrated simultaneous use of OAM-MIMO and polarization multiplexing and achieved wireless transmission over 200 Gbit/s with 21 streams. These results indicate the practicality and effectiveness of our system for high-capacity wireless communication.

Topics & Concepts

MIMOWirelessComputer scienceExtremely high frequencyMultiplexingTelecommunicationsTransmission (telecommunications)Spatial multiplexingComputer networkChannel capacityMulti-user MIMOElectronic engineeringEngineeringChannel (broadcasting)Millimeter-Wave Propagation and ModelingMicrowave Engineering and WaveguidesAntenna Design and Analysis