用无线传感器网络监测火山喷发

Proceeedings of the Second European Workshop on Wireless Sensor Networks, 2005. Pub Date : 2005-07-25 DOI:10.1109/EWSN.2005.1462003

Geoffrey Werner-Allen, Jeff Johnson, M. Ruiz, J. Lees, M. Welsh

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引用次数: 609

摘要

本文介绍了我们利用无线传感器网络利用低频声传感器监测火山喷发的经验。我们开发了一个无线传感器阵列，并于2004年7月在厄瓜多尔中部的活火山廷古拉瓦火山部署了它。该网络收集102赫兹的次声(低频声)信号，通过9公里的无线链路将数据传输到远程基站。在部署期间，我们收集了超过54小时的连续数据，其中包括至少9次大爆炸。节点使用单独的GPS接收器进行时间同步，我们的数据随后与附近有线传感器阵列获得的数据相关联。除了连续采样之外，我们还开发了一种分布式事件检测器，当多个节点接收到相关良好的信号时，它会自动触发数据传输。我们在降低能量和带宽使用以及次声信号检测的准确性方面评估了这种方法。

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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Monitoring volcanic eruptions with a wireless sensor network

This paper describes our experiences using a wireless sensor network to monitor volcanic eruptions with low-frequency acoustic sensors. We developed a wireless sensor array and deployed it in July 2004 at Volcan Tingurahua, an active volcano in central Ecuador. The network collected infrasonic (low-frequency acoustic) signals at 102 Hz, transmitting data over a 9 km wireless link to a remote base station. During the deployment, we collected over 54 hours of continuous data which included at least 9 large explosions. Nodes were time-synchronized using a separate GPS receiver, and our data was later correlated with that acquired at a nearby wired sensor array. In addition to continuous sampling, we have developed a distributed event detector that automatically triggers data transmission when a well-correlated signal is received by multiple nodes. We evaluate this approach in terms of reduced energy and bandwidth usage, as well as accuracy of infrasonic signal detection.

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Proceeedings of the Second European Workshop on Wireless Sensor Networks, 2005.

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