Experimental Evaluation of Seamless Redundancy Applied to Industrial Wi-Fi Networks

TL;DR

This paper experimentally evaluates the use of seamless redundancy in industrial Wi-Fi networks, demonstrating that transmitting duplicate packets over uncorrelated channels improves latency and reduces frame loss.

Contribution

It provides a thorough experimental analysis confirming the effectiveness of seamless redundancy in real industrial Wi-Fi environments, validating theoretical assumptions about channel independence.

Findings

Redundant links improve communication predictability.

Measured link quality aligns with theoretical expectations within 10%.

Redundancy offers tangible advantages over standard Wi-Fi.

Abstract

Seamless redundancy can be profitably exploited to improve predictability of wireless networks in general and, in particular, IEEE 802.11. According to this approach, packets are transmitted by senders on two (or more) channels at the same time and duplicate copies are discarded by receivers. As long as the behavior of physical channels is uncorrelated, communication quality improves noticeably, in terms of both transmission latencies and percentage of dropped frames. In this paper, communication over redundant links has been analyzed by means of a thorough experimental campaign, based on measurements carried out on real devices. Results confirm that, under typical operating conditions, the assumption of independence among channels in properly designed systems is verified reasonably well. Indeed, in our experiments, measured link quality indices did not differ more than 10% from what we expected from theory. This grants for redundant solutions tangible advantages over conventional Wi-Fi networks.