TIIM: technology-independent interference mitigation for low-power wireless networks

Proceedings of the 14th International Conference on Information Processing in Sensor Networks Pub Date : 2015-04-13 DOI:10.1145/2737095.2737104

Anwar Hithnawi, Hossein Shafagh, S. Duquennoy

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引用次数: 46

Abstract

The rise of heterogeneity in wireless technologies operating in the unlicensed bands has been shown to adversely affect the performance of low-power wireless networks. Cross-Technology Interference (CTI) is highly uncertain and raises the need for agile methods that assess the channel conditions and apply actions maximizing communication success. In this paper, we present TIIM, a lightweight Technology-Independent Interference Mitigation solution that detects, quantifies, and reacts to CTI in realtime. TIIM employs a lightweight machine learning classifier to (i) decide whether communication is viable over the interfered link, (ii) characterize the ambient conditions and apply the best coexistence mitigation strategy. We present an in-depth experimental characterization of the effect of CTI on 802.15.4 links, which motivated and influenced the design of TIIM. Our evaluation shows that TIIM, while exposed to extensive and heterogeneous interference, can achieve a total PRR improvement of 30% with an additional transmission overhead of 5.6%.

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TIIM:针对低功耗无线网络的技术无关干扰缓解

在未授权频带中运行的无线技术的异构性的增加已被证明对低功率无线网络的性能产生不利影响。跨技术干扰(CTI)是高度不确定的，提出了对敏捷方法的需求，以评估通道条件并应用最大化通信成功的行动。在本文中，我们提出了TIIM，一种轻量级的技术无关干扰缓解解决方案，可以实时检测，量化和响应CTI。TIIM采用轻量级机器学习分类器(i)决定在受干扰链路上通信是否可行，(ii)表征环境条件并应用最佳共存缓解策略。我们对CTI对802.15.4链路的影响进行了深入的实验表征，这激发并影响了TIIM的设计。我们的评估表明，TIIM虽然暴露于广泛和异构干扰，但可以实现30%的总PRR改进，并增加5.6%的传输开销。

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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Proceedings of the 14th International Conference on Information Processing in Sensor Networks

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