用于恶劣环境条件下PTP时间同步的时钟状态估计器

D. Fontanelli, D. Macii, P. Wolfrum, D. Obradovic, Guenter Steindl
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引用次数: 21

摘要

在基于精确时间协议(PTP)的工业自动化网络中,大的温度变化以及机械冲击和振动可能严重影响为网络节点计时的本地振荡器的性能,从而使精确的时间同步变得困难。这个问题在具有长线性路径的大型工业网络中尤其重要,因为当PTP事件消息被转发到从时钟时,多个不确定性源往往会累积。本文描述了一种基于特殊卡尔曼滤波器的时钟状态估计器的性能以及PTP通信机制的详细模型。所报道的网络节点受多变环境条件影响时的仿真结果为在给定边界内保持工业网络的同步精度提供了有益的指导。
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A clock state estimator for PTP time synchronization in harsh environmental conditions
In industrial automation networks based on the Precision Time Protocol (PTP) large temperature changes as well as mechanical shocks and vibrations may severely affect the performance of the local oscillators clocking the network nodes, thus making accurate time synchronization challenging. This problem is particularly critical in large industrial networks with long linear paths, as multiple uncertainty sources tend to accumulate while PTP event messages are forwarded towards the slave clocks. In this paper, the performance of a clock state estimator based on a special Kalman filter as well as on a detailed model of the PTP communication mechanism is described. The reported simulation results when the network nodes are subject to changeable environmental conditions provide interesting guidelines to keep synchronization accuracy in industrial networks within given boundaries.
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