Contribution
Authors: Jonathan Lukas Mandl , Olaf Saßnick , Thomas Rosenstatter
Industry 4.0 demands optimized industrial process control and enhanced data permeability, necessitating more capable edge-level hardware. While personal computers with real-time Linux operating systems offer ample computing power at low cost, they suffer from limitations in low-level connectivity, standardized compact form factors, and uncertain long-term supplies. This paper explores the Raspberry Pi 5 as a viable alternative, highlighting its excellent low-level connectivity, compact form factor, and guaranteed long-term availability until 2036. This study investigates the Raspberry Pi 5’s Performance in real-time communication scenarios using Open Platform Communications Unified Architecture (OPC UA) over Time- Sensitive Networking (TSN), a critical requirement for industrial applications. By outlining necessary modifications to the Raspberry Pi 5 and its Linux kernel, we enable real-time communication via TSN. Performance measurements in an OPC UA PubSub scenario are then compared with industrial PCs, highlighting the Raspberry Pi 5’s potential as an alternative edge device.
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How to Cite: Mandl, J. L. , Saßnick, O. & Rosenstatter, T. (2025) “Low-Cost Open-Source Real-Time Communication in Industrial IoT: Using the Raspberry Pi 5 with OPC UA over TSN”, ARW Proceedings. 25(1). doi: https://doi.org/10.34749/3061-0710.2025.10