Alternative Awaiting and Broadcast for Two-Way Relay Fading Channels

TL;DR

This paper introduces the AAB protocol for two-way relay fading channels, which overcomes the capacity limitations of traditional methods, leading to higher sum-rates with minimal delay.

Contribution

The paper proposes the AAB protocol that cancels min operations in TWR channels, providing new capacity bounds and a practical encoding/decoding scheme.

Findings

AAB significantly improves ergodic sum-rate over traditional protocols.

The average delay of signal transmission remains very small and negligible.

The protocol's convergence and capacity bounds are analytically characterized.

Abstract

We investigate a two-way relay (TWR) fading channel where two source nodes wish to exchange information with the help of a relay node. Given traditional TWR protocols, transmission rates in both directions are known to be limited by the hop with lower capacity, i.e., the min operations between uplink and downlink. In this paper, we propose a new transmission protocol, named as alternative awaiting and broadcast (AAB), to cancel the min operations in the TWR fading channels. The operational principles, new upper bound on ergodic sum-capacity (ESC) and convergence behavior of average delay of signal transmission (ST) (in relay buffer) for the proposed AAB protocol are analyzed. Moreover, we propose a suboptimal encoding/decoding solution for the AAB protocol and derive an achievable ergodic sum-rate (ESR) with corresponding average delay of ST. Numerical results show that 1) the proposed AAB protocol significantly improves the achievable ESR compared to the traditional TWR protocols, 2) considering the average delay of system service (SS) (in source buffer), the average delay of ST induced by the proposed AAB protocol is very small and negligible.