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A Simple Event-Based Average Consensus Clock Synchronization Scheme in Industrial Wireless Sensor Networks Under Communication Delays

Heng Wang, Ning Zhang, Xiaojiang Liu, Yan Zou, Min Li

2024IEEE Transactions on Industrial Informatics11 citationsDOI

Abstract

In industrial wireless sensor networks, the existing event-based consensus clock synchronization schemes can achieve network-wide clock synchronization without considering the communication delays. However, communication delays are a significant factor restricting the achievement of clock synchronization in realistic scenarios. Besides, a constraint to be considered in the design of synchronization scheme is the limited communication resources of sensor nodes. Therefore, in this article, we investigate an event-based consensus clock synchronization scheme under delays. On the one hand, a new low-pass filter is used to estimate the relative skew to resist the influence of communication delays. On the other hand, a new event-triggered scheme is utilized to reduce unnecessary information transmission. Finally, we provide the convergence proof and simulation results of the proposed scheme, which further proves that it can achieve clock synchronization under communication delays while decreasing communication overhead.

Topics & Concepts

Clock synchronizationSynchronization (alternating current)Computer scienceSelf-clocking signalClock skewTiming failureOverhead (engineering)Wireless sensor networkData synchronizationClock driftDigital clock managerReal-time computingTransmission (telecommunications)Scheme (mathematics)WirelessDistributed computingComputer networkTelecommunicationsMathematicsJitterChannel (broadcasting)Operating systemClock signalMathematical analysisNetwork Time Synchronization TechnologiesNonlinear Dynamics and Pattern FormationPetri Nets in System Modeling