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Unsupervised Deep Learning for Massive MIMO Hybrid Beamforming

Hamed Hojatian, Jeremy Nadal, Jean-Francois Frigon, Francois Leduc-Primeau

2021IEEE Transactions on Wireless Communications90 citationsDOIOpen Access PDF

Abstract

Hybrid beamforming is a promising technique to reduce the complexity and cost of massive multiple-input multiple-output (MIMO) systems while providing high data rate. However, the hybrid precoder design is a challenging task requiring channel state information (CSI) feedback and solving a complex optimization problem. This paper proposes a novel RSSI-based unsupervised deep learning method to design the hybrid beamforming in massive MIMO systems. Furthermore, we propose i) a method to design the synchronization signal (SS) in initial access (IA); and ii) a method to design the codebook for the analog precoder. We also evaluate the system performance through a realistic channel model in various scenarios. We show that the proposed method not only greatly increases the spectral efficiency especially in frequency-division duplex (FDD) communication by using partial CSI feedback, but also has near-optimal sum-rate and outperforms other state-of-the-art full-CSI solutions.

Topics & Concepts

CodebookComputer scienceBeamformingDeep learningMIMOChannel state informationArtificial intelligencePrecodingUnsupervised learningSynchronization (alternating current)Spectral efficiencyChannel (broadcasting)Computer engineeringDuplex (building)Machine learningSignal processingTelecommunications linkAlgorithmSIGNAL (programming language)WirelessElectronic engineeringHybrid systemCommunications system3G MIMOPattern recognition (psychology)Computational complexity theoryArtificial neural networkAdvanced MIMO Systems OptimizationMillimeter-Wave Propagation and ModelingAdvanced Wireless Communication Technologies
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