Leveraging Context-Awareness in Duty-Cycled Broadcast Wireless Sensor Networks

Semantic Web Science and Real-World Applications Pub Date : 1900-01-01 DOI:10.4018/978-1-5225-7186-5.CH007

I. Jemili, Dhouha Ghrab, A. Belghith, M. Mosbah

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引用次数: 4

Abstract

Operating under duty-cycle mode allows wireless sensor networks to prolong their lifetime. However, this working pattern, with the temporary unavailability of nodes, brings challenges to the network design, mainly for a fundamental service like flooding. The challenging task is to authorize sensors to adopt a duty-cycle mode without inflicting any negative impact on the network performances. Context-awareness offers to sensors the ability to adapt their functional behavior according to many contexts in order to cope with network dynamics. In this context, the authors propose an Enhanced-Efficient Context-Aware Multi-hop Broadcast (E-ECAB) protocol, which relies on multi contextual information to optimize resources usage and satisfy the application requirements in a duty-cycled environment. The authors proved that only one transmission is required to achieve the broadcast operation in almost all situations. Simulation results show that E-ECAB achieves a significant improvement compared to previous work in terms of throughput and end-to-end delay without sacrificing energy efficiency.

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利用上下文感知在占空比广播无线传感器网络

在占空比模式下工作允许无线传感器网络延长其使用寿命。然而，这种工作模式由于节点的暂时不可用，给网络设计带来了挑战，主要是针对像洪水这样的基础服务。具有挑战性的任务是授权传感器采用占空比模式，而不会对网络性能造成任何负面影响。上下文感知为传感器提供了根据多种上下文调整其功能行为的能力，以应对网络动态。在此背景下，作者提出了一种增强型高效上下文感知多跳广播(E-ECAB)协议，该协议依赖于多上下文信息来优化资源使用并满足任务循环环境中的应用需求。作者证明，在几乎所有的情况下，只需要一次传输就可以实现广播操作。仿真结果表明，在不牺牲能量效率的情况下，E-ECAB在吞吐量和端到端延迟方面比以前的工作有了显著的改进。

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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Semantic Web Science and Real-World Applications

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