Opportunistic Relaying in Wireless Body Area Networks: Coexistence Performance

TL;DR

This paper investigates how opportunistic relaying enhances interference mitigation and signal quality in wireless body area networks through a cooperative two-hop scheme, using real channel measurements and TDMA coordination.

Contribution

It introduces a cooperative two-hop opportunistic relaying scheme for WBANs and evaluates its effectiveness in interference mitigation without network coordination.

Findings

Opportunistic relaying improves SINR at outage probability of 10% by 5 dB on average.

The scheme significantly reduces level crossing rate at low SINR thresholds.

Performance gains are greater when on-body channels have less slow fading.

Abstract

In this paper, a cooperative two-hop communication scheme, together with opportunistic relaying (OR), is applied within a mobile wireless body area network (WBAN). Its effectiveness in interference mitigation is investigated in a scenario where there are multiple closely-located networks. Due to a typical WBAN's nature, no coordination is used among different WBANs. A suitable time-division-multiple-access (TDMA) is adopted as both an intra-network and also an inter-network access scheme. Extensive on-body and off-body channel gain measurements are employed to gauge performance, which are overlaid to simulate a realistic WBAN working environment. It is found that opportunistic relaying is able to improve the signal-to-interference-and-noise ratio (SINR) threshold value at outage probability of 10% by an average of 5 dB, and it is also shown that it can reduce level crossing rate (LCR) significantly at a low SINR threshold value. Furthermore, this scheme is more efficient when on-body channels fade less slowly.