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Measurement method for end-to-end Time synchronization of wired and wireless TSN

Susruth Sudhakaran, Christopher S. Hall, Dave Cavalcanti, Alberto Morato, Claudio Zunino, Federico Tramarin

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Abstract

Modern industrial systems require some important features such as clock synchronization, deterministic behavior, low latency, and well as high scalability, flexibility, and reliability. Time-sensitive networking (TSN) is the perfect candidate to meet these requirements since it is meant to seamlessly provide real-time performance both on wired and wireless networks. To achieve this, TSN deeply relies on the capability of synchronizing to a primary clock across the network. In this paper, we provide a measurement approach for end-to-end time synchronization in a wired and wireless heterogeneous TSN-capable network. The paper provides insight into a set of features available on commercial–grade TSN-ready devices, useful to measure time synchronization error with high accuracy and repeatability. Moreover, the paper also describes preliminary experimental results that validate the proposed measurement methodology.

Topics & Concepts

SynchronizingComputer scienceSynchronization (alternating current)Clock synchronizationScalabilityLatency (audio)End-to-end principleWirelessTime synchronizationReliability (semiconductor)Wireless sensor networkLow latency (capital markets)Clock driftComputer networkFlexibility (engineering)Data synchronizationWireless networkReal-time computingEmbedded systemChannel (broadcasting)TelecommunicationsDatabasePhysicsTransmission (telecommunications)StatisticsPower (physics)Quantum mechanicsMathematicsNetwork Time Synchronization TechnologiesSoftware-Defined Networks and 5GReal-Time Systems Scheduling
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