Distributed Full-duplex via Wireless Side Channels: Bounds and Protocols

TL;DR

This paper investigates how wireless side channels can enable distributed full-duplex communication in a three-node network, proposing schemes that approach capacity limits and significantly mitigate inter-node interference.

Contribution

It introduces four novel distributed full-duplex schemes leveraging side channels, with one scheme nearly achieving the capacity region across all parameters.

Findings

Bin-and-cancel scheme is within 1 bit/s/Hz of capacity.

Side-channel significantly improves multiplexing gains.

Proposed schemes outperform traditional methods in high interference regimes.

Abstract

In this paper, we study a three-node full-duplex network, where a base station is engaged in simultaneous up- and downlink communication in the same frequency band with two half-duplex mobile nodes. To reduce the impact of inter- node interference between the two mobile nodes on the system capacity, we study how an orthogonal side-channel between the two mobile nodes can be leveraged to achieve full-duplex-like multiplexing gains. We propose and characterize the achievable rates of four distributed full-duplex schemes, labeled bin-and- cancel, compress-and-cancel, estimate-and-cancel and decode- and-cancel. Of the four, bin-and-cancel is shown to achieve within 1 bit/s/Hz of the capacity region for all values of channel parameters. In contrast, the other three schemes achieve the near-optimal performance only in certain regimes of channel values. Asymptotic multiplexing gains of all proposed schemes are derived to show that the side-channel is extremely effective in regimes where inter-node interference has the highest impact.