An Energy-Efficient Duty-Cycled Wake-Up Radio Protocol for Avoiding Overhearing in Wireless Sensor Networks

无线传感网络(英文) Pub Date : 2016-08-05 DOI:10.4236/WSN.2016.88015

J. Lebreton, S. Kandukuri, N. Murad, R. Lorion

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引用次数: 12

Abstract

Wake-up radio (WuR) system is often presented as the best candidate for replacing traditional duty cycled Medium Access Control (MAC) protocols in Wireless Sensor Networks (WSNs). The Double Radio (DoRa) protocol is a new MAC protocol for in-band WuR system with addressing capabilities. While the DoRa protocol improves the WSNs energy efficiency, it still suffers from an overhearing problem when the WuR system is very often requested. The WuR wastes a noticeable amount of energy when overhearing to wake-up demand intended to other nodes, but it is neither measured nor solved in other works. In this paper, an adaptive duty-cycled DoRa (DC-DoRa) is then proposed to solve the overhearing problem. The primary concept of the work is to enable the WuR functionality before the node is addressed and to disable the WuR after the node sent data. Extensive simulations under OMNeT++ using real input parameters are then performed to show the significant energy-savings through the two protocols and the nearly suppression of overhearing with DC-DoRa. In fact, the mean power consumption is three-order below using the DoRa protocol compared to traditional MAC protocols. While overhearing can represent up to 93% of the WuR energy consumption with the DoRa protocol, it is reduced to only 1% with the DC-DoRa protocol.

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一种避免无线传感器网络偷听的高能效占空比唤醒无线电协议

在无线传感器网络(WSNs)中，唤醒无线电(WuR)系统通常被认为是取代传统占空比介质访问控制(MAC)协议的最佳选择。双无线电(DoRa)协议是一种具有寻址功能的带内WuR系统的新MAC协议。虽然DoRa协议提高了wsn的能源效率，但当WuR系统被频繁请求时，它仍然存在侦听问题。当无意中听到其他节点的唤醒需求时，WuR浪费了大量的能量，但在其他工作中既没有测量也没有解决。本文提出了一种自适应占空比DoRa (DC-DoRa)来解决监听问题。这项工作的主要概念是在节点被寻址之前启用WuR功能，并在节点发送数据之后禁用WuR。利用实际输入参数在omnet++下进行了大量仿真，结果表明两种协议的节能效果显著，DC-DoRa几乎可以抑制偷听。实际上，与传统MAC协议相比，使用DoRa协议的平均功耗要低三个数量级。虽然在DoRa协议中，偷听可以代表高达93%的WuR能耗，但在DC-DoRa协议中，这一比例仅为1%。

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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无线传感网络(英文)

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279