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Low-Overhead Cyclic Reference Signals for
Channel Estimation for FDD Massive MIMO
Rikke Apelfröjd
, Uppsala University (now at Ericsson),
Wolfgang Zirwas , Nokia Bell Labs, Munich, Germany, and
Mikael Sternad
, Uppsala University.
IEEE Transactions on Communications, vol. 67, no. 5,
May 2019, pp. 3279-3291.
DOI 10.1109/TCOMM.2019.2895059
© 2019 IEEE
In PDF
Corresponding
Extended Report r1701
Signals and Systems, Uppsala University,
Version 2.0, April 2018,
in Pdf.
Presentation Slides
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Abstract:
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Massive multiple input multiple output (MIMO) transmission and coordinated multipoint
transmission are candidate technologies for increasing data throughput in evolving
5G standards. Frequency division duplex (FDD) is likely to remain predominant in large
parts of the spectrum below 6 GHz for future 5G systems. Therefore, it is important
to estimate the downlink FDD channels from a very large number of antennas, while
avoiding an excessive downlink reference signal overhead.
We here propose and investigate a three part solution.
First, massive MIMO downlinks
use a fixed grid of beams. For each user, only a subset of beams
will then be relevant, and require estimation. Second, sets of coded
reference signal sequences, with
cyclic patterns over time, are used. Third, each terminal estimates its most relevant
channels. We here propose and compare a linear mean square
estimation and a Kalman
estimation. Both utilize frequency and antenna correlation, and the
later also utilizes temporal correlation.
In extensive simulations, this scheme provides channel estimates
that lead to an insignificant
beamforming performance degradation as compared to full channel knowledge.
The cyclic pattern of coded reference signals is found to be important
for reliable channel
estimation, without having to adjust the reference signals to specific users.
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Related publications:
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Paper at WSA 2016 Coded CSI reference signals
for 5G - Exploiting sparsity of FDD massive MIMO radio channels.
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Paper at IEEE PIMRC2017 on how this concept
can be used in the effective design of 5G
Massive MIMO and CoMP downlinks.
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PhD Thesis by Rikke Apelfröjd, April 2018, of which the Extended report version 2.0 constitutes Paper IV.
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Paper on robust coordinated multipoint transmission
based on predicted CSI.
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The Role of Small Cells, Coordinated Multipoint, and Massive MIMO in 5G
IEEE Communications Mag. 2014.
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Main
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4G and 5G wireless research
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