1 research outputs found
Hybrid Beamforming with Selection for Multi-user Massive MIMO Systems
This work studies a variant of hybrid beamforming, namely, hybrid beamforming
with selection (HBwS), as an attractive solution to reduce the hardware cost of
multi-user Massive Multiple-Input-Multiple-Output systems, while retaining good
performance. Unlike conventional hybrid beamforming, in a transceiver with
HBwS, the antenna array is fed by an analog beamforming matrix with
input ports, where is larger than the number of up/down-conversion
chains . A bank of switches connects the instantaneously best
out of the input ports to the up/down-conversion chains.
The analog beamformer is designed based on average channel statistics and
therefore needs to be updated only infrequently, while the switches operate
based on instantaneous channel knowledge. HBwS allows use of simpler hardware
in the beamformer that only need to adjust to the statistics, while also
enabling the effective analog beams to adapt to the instantaneous channel
variations via switching. This provides better user separability, beamforming
gain, and/or simpler hardware than some conventional hybrid schemes. In this
work, a novel design for the analog beamformer is derived and approaches to
reduce the hardware and computational cost of a multi-user HBwS system are
explored. In addition, we study how , the switch bank architecture,
the number of users and the channel estimation overhead impact system
performance.Comment: Accepted to Transactions on Signal Processin