FLOPSYNC-QACS: quantization-aware clock synchronization for wireless sensor networks

SIGBED Rev. Pub Date : 2017-10-01 DOI:10.1145/3177803.3177809

F. Terraneo, A. Papadopoulos, A. Leva, M. Prandini

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引用次数: 7

Abstract

The development of distributed real-time systems often relies on clock synchronization. However, achieving precise synchronization in the field of Wireless Sensor Networks (WSNs) is hampered by competing design challenges, such as energy consumption and cost constraints, e.g., in Internet of Things applications. For these reasons many WSN hardware platforms rely on a low frequency clock crystal to provide the local timebase. Although this solution is inexpensive and allows for a remarkably low energy consumption, it limits the resolution at which time can be measured. The FLOPSYNC synchronization scheme provides low-energy synchronization that takes into account the quartz crystal imperfections. The main limitation of the approach are the effects of quantization. In this paper we propose a clock synchronization scheme that explicitly takes into account quantization effects caused by low frequency clock crystal, thus addressing the clock synchronization issue in cost-sensitive WSN node platforms. The solution adopts switched control for minimizing the effect of quantization, with minimal overhead. We provide experimental evidence that the approach manages to reach a synchronization error of at most 1 clock tick in a real WSN.

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FLOPSYNC-QACS:无线传感器网络的量化感知时钟同步

分布式实时系统的开发往往依赖于时钟同步。然而，在无线传感器网络(WSNs)领域实现精确同步受到竞争设计挑战的阻碍，例如物联网应用中的能耗和成本限制。由于这些原因，许多无线传感器网络硬件平台依赖于一个低频时钟晶体来提供本地时基。尽管这种解决方案价格低廉，能耗也非常低，但它限制了测量时间的分辨率。FLOPSYNC同步方案提供了考虑到石英晶体缺陷的低能量同步。该方法的主要限制是量化的影响。本文提出了一种明确考虑低频时钟晶体引起的量化效应的时钟同步方案，从而解决了成本敏感型WSN节点平台中的时钟同步问题。该方案采用开关控制，以最小的开销最小化量化的影响。我们提供的实验证据表明，该方法在实际的WSN中可以达到最多1个时钟滴答的同步误差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SIGBED Rev.

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