Adaptive Multi-Channel Offset Assignment for Reliable IEEE 802.15.4 TSCH Networks

2018 Global Information Infrastructure and Networking Symposium (GIIS) Pub Date : 2018-10-01 DOI:10.1109/GIIS.2018.8635751

Vasileios Kotsiou, Georgios Z. Papadopoulos, P. Chatzimisios, Fabrice Théoleyre

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引用次数: 7

Abstract

More and more IoT applications require low-power operations and high reliability (close to 100%). Unfortunately, radio transmissions are unreliable by nature since they are prone to collision and external interference. The IEEE 802.15.4–2015 TSCH standard has been recently proposed to provide high reliability through radio channel hopping and by appropriately scheduling all the transmissions. Since some of the radio channels still suffer from external interference, blacklisting techniques consist in detecting bad radio channels, and in privileging the good ones to transmit the packets. MABO-TSCH is a centralized scheduling algorithm which allocates several channel offsets to allow each radio link to apply a localized blacklist. However, such strategy is inefficient for large blacklists. In this study, we propose to allocate the channel offsets dynamically at each timeslot according to the number of parallel transmissions, while still avoiding collisions. We evaluate the performance of our solution relying on a real experimental dataset, highlighting the relevance of dynamic and per timeslot channel offset assignment for environments with high external interference, such as a smart building.

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可靠IEEE 802.15.4 TSCH网络的自适应多通道偏移分配

越来越多的物联网应用需要低功耗运行和高可靠性(接近100%)。不幸的是，无线电传输本质上是不可靠的，因为它们容易受到碰撞和外部干扰。IEEE 802.15.4-2015 TSCH标准最近被提出，通过无线电信道跳变和适当调度所有传输来提供高可靠性。由于一些无线电信道仍然受到外部干扰，黑名单技术包括检测坏的无线电信道，并赋予好的无线电信道传输数据包的特权。MABO-TSCH是一种集中式调度算法，它分配多个信道偏移量，允许每个无线电链路应用本地化黑名单。然而，这种策略对于大型黑名单来说是低效的。在本研究中，我们提出在每个时隙根据并行传输的数量动态分配信道偏移，同时仍然避免冲突。我们根据真实的实验数据集评估了我们的解决方案的性能，突出了动态和每个时隙信道偏移分配在高外部干扰环境(如智能建筑)中的相关性。

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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2018 Global Information Infrastructure and Networking Symposium (GIIS)

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