Opportunistic Network Decoupling With Virtual Full-Duplex Operation in Multi-Source Interfering Relay Networks

TL;DR

This paper proposes an opportunistic network decoupling scheme that enables virtual full-duplex operation in multi-source relay networks, achieving high degrees of freedom with distributed implementation.

Contribution

Introduction of a novel relay scheduling strategy for interference mitigation, enabling full degrees of freedom in interfering relay networks under certain scaling conditions.

Findings

Achieves K degrees of freedom in interfering relay networks

Operates with distributed local channel information

Validated through numerical simulations

Abstract

We introduce a new achievability scheme, termed opportunistic network decoupling (OND), operating in virtual full-duplex mode. In the scheme, a novel relay scheduling strategy is utilized in the $K\times N\times K$ channel with interfering relays, consisting of $K$ source--destination pairs and $N$ half-duplex relays in-between them. A subset of relays using alternate relaying is opportunistically selected in terms of producing the minimum total interference level, thereby resulting in network decoupling. As our main result, it is shown that under a certain relay scaling condition, the OND protocol achieves $K$ degrees of freedom even in the presence of interfering links among relays. Numerical evaluation is also shown to validate the performance of the proposed OND. Our protocol basically operates in a fully distributed fashion along with local channel state information, thereby resulting in a relatively easy implementation.