通过中继和扩展组合测试提高IEEE 802.15.4e LLDN性能

A. Berger, Alexander Entinger, Albert Potsch, A. Springer
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引用次数: 10

摘要

工厂和过程自动化中的许多应用需要强大的无线传感器网络(wsn)来收集传感器数据,采样和传输速率高达100 Hz,来自电池供电的传感器节点。为了在星型网络拓扑下建立实时通信,IEEE 802.15.4e修正案发布了LLDN模式。我们提出了一个演示系统,该系统应用了最近引入的与LLDN模式兼容的中继方法,该方法使用专用中继节点,从而提高了网络的可靠性,同时降低了传感器节点的能耗。在此基础上,提出了基于传感器节点和中继节点错误接收报文的分组合并方案,并进行了应用和分析。用该系统进行的测量表明,96.4%的错误传输可以被正确恢复。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving IEEE 802.15.4e LLDN performance by relaying and extension of combinatorial testing
Many applications in factory and process automation require robust wireless sensor networks (WSNs) for collecting sensor data with sampling and transmission rates up to 100 Hz from battery powered sensor nodes. To establish real-time communication in a star network topology, the LLDN mode of IEEE 802.15.4e amendment was released. We present a demonstration system which applies a recently introduced relaying method compatible to the LLDN mode, which uses dedicated relay nodes, thus increasing the reliability of the network while reducing the energy consumption of the sensor nodes. Furthermore, packet combining schemes on packets received erroneously from both, sensor node and relay node, are proposed, applied, and analyzed. Measurements with the demonstration system have shown that 96.4% of these erroneous transmissions could be recovered correctly.
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