基于机会占空比的无线传感器网络路由实验

I. Amdouni, C. Adjih, N. Aitsaadi, P. Mühlethaler
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引用次数: 7

摘要

本文提出、设计并实验了一种无线传感器网络的节能协议——基于机会占空比的无线传感器网络路由协议(ODYSSE)。ODYSSE的主要创新之处在于它明智地利用了三种机制。第一个是占空比,它包括随机开关收发器以节省能源。第二种是机会路由,其中下一跳不是严格固定的:任何更接近目的地的节点都可能成为中继。第三种是使用LDPC(低密度奇偶校验码)的源编码。以异步占空比为起点,上述技术非常适合,为高度受限的节点生成了健壮的低复杂度协议。ODYSSE在一个由45个Arduino节点组成的实验测试平台上实现和安装,该实验测试平台与大规模平台FIT IoT-LAB中部署的IEEE 802.15.4 (XBee)模块通信。结果表明,在高负载(图像)和轻负载(报告不频繁事件)两种情况下,所获得的性能都非常令人满意。
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Experiments with ODYSSE: Opportunistic Duty cYcle Based Routing for Wireless Sensor nEtworks
In this paper, we propose, design and experiment an energy efficient protocol for Wireless Sensor Networks (WSNs) named Opportunistic Duty cYcle based routing protocol for wirelesS Sensor nEtworks (ODYSSE). The main key innovation of ODYSSE is that it judiciously makes use of three mechanisms. The first one is duty cycling which consists in randomly switching on/off transceivers to save energy. The second one is opportunistic routing in which the next hop is not rigidly fixed: any node closer to the destination might become a relay. The third one, is source coding using LDPC, Low-Density Parity-Check codes. With asynchronous duty cycling as a starting point, the above techniques fit perfectly, yielding a robust low complexity protocol for highly constrained nodes. ODYSSE is implemented and installed in an experimental testbed composed of 45 Arduino nodes communicating with IEEE 802.15.4 (XBee) modules deployed in the large-scale platform FIT IoT-LAB. Results show that the performance obtained is very satisfying in both following scenarios: high load (images) and light load (reporting of infrequent event).
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