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Machine Learning-Based CSI Feedback With Variable Length in FDD Massive MIMO

Matteo Nerini, Valentina Rizzello, Michael Joham, Wolfgang Utschick, Bruno Clerckx

2022IEEE Transactions on Wireless Communications19 citationsDOI

Abstract

To fully unlock the benefits of multiple-input multiple-output (MIMO) networks, downlink channel state information (CSI) is required at the base station (BS). In frequency division duplex (FDD) systems, the CSI is acquired through a feedback signal from the user equipment (UE). However, this may lead to an important overhead in FDD massive MIMO systems. Focusing on these systems, in this study, we propose a novel strategy to design the CSI feedback. Our strategy allows to optimally design variable length feedback, that is promising compared to fixed feedback since users experience channel matrices differently sparse. Specifically, principal component analysis (PCA) is used to compress the channel into a latent space with adaptive dimensionality. To quantize this compressed channel, the feedback bits are smartly allocated to the latent space dimensions by minimizing the normalized mean squared error (NMSE) distortion. Finally, the quantization codebook is determined with <inline-formula xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink"> <tex-math notation="LaTeX">$k$ </tex-math></inline-formula> -means clustering. Numerical simulations show that our strategy improves the zero-forcing beamforming sum rate by 17%, compared to CsiNetPro. The number of model parameters is reduced by 23.4 times, thus causing a significantly smaller offloading overhead. At the same time, PCA is characterized by a lightweight unsupervised training, requiring eight times fewer training samples than CsiNetPro.

Topics & Concepts

CodebookChannel state informationMIMOComputer scienceTelecommunications linkBeamformingBase stationOverhead (engineering)Cluster analysisQuantization (signal processing)Duplex (building)AlgorithmStiefel manifoldControl theory (sociology)MathematicsArtificial intelligenceWirelessTelecommunicationsGeometryBiologyDNAOperating systemControl (management)GeneticsAdvanced MIMO Systems OptimizationFull-Duplex Wireless CommunicationsEnergy Harvesting in Wireless Networks