Real-Time Performance of OPC UA

Abstract

OPC UA is an industry-standard machine-to-machine communication protocol in the Industrial Internet of Things. It relies on time-sensitive networking to meet the real-time requirements of various applications. Time-sensitive networking is implemented through various queueing disciplines (qdiscs), including Time Aware Priority, Multiqueue Priority, Earliest TxTime First, and Credit-Based Shaper. Despite their significance, prior studies on these qdiscs have been limited to a few. They have often been confined to point-to-point network topologies using proprietary software or specialized hardware. This study builds upon existing research by evaluating all these qdiscs in point-to-point and bridged topologies using open-source software on commercial off-the-shelf hardware. We first identify the optimal configuration for each qdisc and then compare their jitter, latency, and reliability through experiments. Our results show that open-source OPC UA on commercial off-the-shelf hardware can effectively meet the stringent real-time requirements of many industrial applications and provide a foundation for future research and practical deployments.

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