Radio Channel Quality in Industrial Wireless Sensor Networks

2005 Sensors for Industry Conference Pub Date : 2005-02-01 DOI:10.1109/SICON.2005.257875

D. Sexton, M. Mahony, M. Lapinski, J. Werb

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引用次数: 76

Abstract

Wireless mesh sensor networks are being deployed today in various monitoring and control applications. Some radio network designs, such as ZigBee, presume that radio connectivity is reasonably consistent over time. Others take the opposite approach of presuming that links are entirely unreliable, and build large degrees of physical redundancy into the network in the hope that a collection of redundant but unreliable individual links will result in a reliable overall system. Surprisingly little work has been done in the middle ground, endeavoring to understand the root cause of link failure in real-world factory environments and applying this knowledge in the design of protocols that adoptively detect and use workable radio channels. In collaboration under a Department of Energy grant for the Industries of the Future, General Electric and Sensicast Systems have studied theoretical and actual performance of 2.4 GHz IEEE 802.15.4 radio transceivers on the lab bench and on the factory floor, with particular attention to jamming from 802.11 and multipath fading. Temporal and frequency variations in link quality are explored. The implications for network reliability and protocol design are discussed

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工业无线传感器网络中的无线信道质量

无线网状传感器网络目前被部署在各种监测和控制应用中。一些无线网络设计，如ZigBee，假定无线电连接随着时间的推移是相当一致的。另一些人则采取相反的方法，假设链路完全不可靠，并在网络中建立很大程度的物理冗余，希望冗余但不可靠的单个链路的集合将导致可靠的整体系统。令人惊讶的是，在中间地带几乎没有做什么工作，努力了解真实工厂环境中链路故障的根本原因，并将这些知识应用于协议的设计中，采用自适应检测和使用可行的无线电信道。通用电气公司和Sensicast系统公司在能源部未来工业资助下合作，在实验室工作台上和工厂车间研究了2.4 GHz IEEE 802.15.4无线电收发器的理论和实际性能，特别关注802.11和多径衰落的干扰。探讨了链路质量的时间和频率变化。讨论了对网络可靠性和协议设计的影响

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2005 Sensors for Industry Conference

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