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An Improved Network Time Protocol for Industrial Internet of Things

Ting‐Chao Hou, Lin-Hung Liu, Yan-Kai Lan, Yi-Ting Chen, Yuan‐Sun Chu

2022Sensors16 citationsDOIOpen Access PDF

Abstract

In the industrial Internet of Things, the network time protocol (NTP) can be used for time synchronization, allowing machines to run in sync so that machines can take critical actions within 1 ms. However, the commonly used NTP mechanism does not take into account that the network packet travel time over a link is time-varying, which causes the NTP to make incorrect synchronization decisions. Therefore, this paper proposed a low-cost modification to NTP with clock skew compensation and adaptive clock adjustment, so that the clock difference between the NTP client and NTP server can be controlled within 1 ms in the wired network environment. The adaptive clock adjustment skips the clock offset calculation when the NTP packet run trip time (RTT) exceeds a certain threshold. The clock skew compensation addresses the inherent issue that different clocks (or oscillators) naturally drift away from each other. Both adaptive clock adjustment and clock skew compensation are environment dependent and device dependent. The measurement result in our experimental environment shows that the when the RTT threshold is set at 1.7 ms, the best synchronization accuracy is achieved.

Topics & Concepts

Network Time ProtocolClock driftClock synchronizationDigital clock managerClock skewComputer scienceReal-time computingTiming failuresyncNetwork packetTimestampSynchronization (alternating current)SkewMaster clockClock domain crossingOffset (computer science)Computer networkTime synchronizationSynchronous circuitClock signalTelecommunicationsOperating systemJitterChannel (broadcasting)Network Time Synchronization TechnologiesReal-Time Systems SchedulingPower Line Communications and Noise
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