The ever more used and widespread Time-Sensitive Networking (TSN) has changed real-time networks, enabling reliable communication for time-critical applications. At the same time Software-Defined Networking (SDN) has emerged as a solution to ensure proper quality of service for managing dynamic network configurations even in evolving topologies. This paper investigates the integration between TSN and SDN to enable dynamic network re-configuration and improve performance for time-critical applications. We present an experimental setup designed to evaluate this approach. The setup focuses on scenarios where an SDN controller can dynamically reroute critical data flows across different TSN network devices to avoid interference and maintain consistent Quality-of-Service (QoS).
Time-Sensitive Networking and Software-Defined Networking: An Experimental Setup for Realistic Performances / Zunino, C.; Cheminod, M.; Vitturi, S.; Morato, A.; Ferrari, E.; Cavalcanti, D.; Sudhakaran, S.; Tramarin, F.. - (2024), pp. 1-7. (Intervento presentato al convegno 29th IEEE International Conference on Emerging Technologies and Factory Automation, ETFA 2024 tenutosi a ita nel 2024) [10.1109/ETFA61755.2024.10710787].
Time-Sensitive Networking and Software-Defined Networking: An Experimental Setup for Realistic Performances
Tramarin F.
2024
Abstract
The ever more used and widespread Time-Sensitive Networking (TSN) has changed real-time networks, enabling reliable communication for time-critical applications. At the same time Software-Defined Networking (SDN) has emerged as a solution to ensure proper quality of service for managing dynamic network configurations even in evolving topologies. This paper investigates the integration between TSN and SDN to enable dynamic network re-configuration and improve performance for time-critical applications. We present an experimental setup designed to evaluate this approach. The setup focuses on scenarios where an SDN controller can dynamically reroute critical data flows across different TSN network devices to avoid interference and maintain consistent Quality-of-Service (QoS).
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