Information rates of precoding for massive MIMO and base station cooperation in an indoor scenario

Information rates of precoding for massive MIMO and base station cooperation in an indoor scenario

Abstract The performance of centralized and distributed massive MIMO deployments are studied for simulated indoor office scenarios. The distributed deployments use one of the following precoding methods: (1) local precoding with local channel state information (CSI) to the user equipments (UEs) that...

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Bibliographic Details
Main Authors: Stefan Dierks, Gerhard Kramer, Berthold Panzner, Wolfgang Zirwas
Format: Article
Language:English
Published: SpringerOpen 2020-01-01
Series:EURASIP Journal on Wireless Communications and Networking
Subjects:
Mobile radio communication
5G
Indoor communication
Massive MIMO
Network MIMO
Base station cooperation
Online Access:https://doi.org/10.1186/s13638-019-1636-5
Description
Summary:Abstract The performance of centralized and distributed massive MIMO deployments are studied for simulated indoor office scenarios. The distributed deployments use one of the following precoding methods: (1) local precoding with local channel state information (CSI) to the user equipments (UEs) that it serves, (2) large-scale MIMO with local CSI to all UEs in the network, (3) network MIMO with global CSI. For the distributed deployment (3), it is found that using twice as many base station antennas as data streams provides many of the massive MIMO benefits in terms of spectral efficiency and fairness. This is in contrast to the centralized and distributed deployments using (1) or (2) where more antennas are needed. Two main conclusions are that distributing base stations helps to overcome wall penetration loss; however, a backhaul is required to mitigate inter-cell interference. The effect of estimation errors on the performance is also quantified.
ISSN:1687-1499

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