Capacity Scaling of Single-source Wireless Networks: Effect of Multiple Antennas

Abstract

We consider a wireless network in which a single source node located at the center of a unit area having m antennas transmits messages to n randomly located destination nodes in the same area having a single antenna each. To achieve the sum-rate proportional to m by transmit beamforming, channel state information (CSI) is essentially required at the transmitter (CSIT), which is hard to obtain in practice because of the time-varying nature of the channels and feedback overhead. We show that, even without CSIT, the achievable sum-rate scales as (m m) if a cooperation between receivers is allowed. By deriving the cut-set upper bound, we also show that (m m) scaling is optimal. Specifically, for n=ω(m2), the simple TDMA-based quantize-and-forward is enough to achieve the capacity scaling. For n=ω(m) and n=O(m2), on the other hand, we apply the hierarchical cooperation to achieve the capacity scaling.