Scaling mmWave WLANs With Single RF Chain Multiuser Beamforming

Multi-user transmission in 60 GHz Wi-Fi can achieve data rates up to 100 Gbps by multiplexing multiple user data streams. However, a fundamental limit in the approach is that each RF chain is limited to supporting one stream or one user. In this paper, we scale multi-user 60 GHz WLAN data rate by overcoming this limit and propose SIngle RF chain Multi-user BeAmforming (SIMBA), a novel framework for multi-stream multi- user downlink transmission via a single RF chain. We build on single beamformed transmission via overlayed constellations to multiplex multiple users' modulated symbols such that grouped users at different locations can share the same transmit beam from the AP. For this, we introduce user grouping and beam selection policies that span tradeoffs in data rate, training, and computation overhead. We implement a programmable WLAN testbed using software-defined radios and commercial 60 GHz transceivers and collect over-the-air measurements for different indoor WLAN deployments using a 12-element phased antenna array as well as horn antennas with varying beamwidth. We show that in comparison to single-user transmissions, SIMBA achieves 2x improvement in aggregate rate and two-fold delay reduction for simultaneous transmission to four users.

Automated summary

This paper proposes a novel framework called SIMBA, which enables multi-stream multi-user downlink transmission via a single RF chain. By introducing user grouping and beam selection policies, SIMBA achieves high data rates and low latency for multi-user transmission. It is of significant importance for scaling the data rate of multi-user 60 GHz WLAN.