Battery recovery aware sensor networks

2009 7th International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks Pub Date : 2009-06-23 DOI:10.1109/WIOPT.2009.5291623

Chi-Kin Chau, M. H. Wahab, Fei Qin, Yunsheng Wang, Yang Yang

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引用次数: 20

Abstract

Many applications of sensor networks require batteries as the energy source, and hence critically rely on energy optimisation of sensor batteries. But as often neglected by the networking community, most batteries are non-ideal energy reservoirs and can exhibit battery recovery effect — the deliverable energy in batteries can be replenished per se, if left idling for sufficient duration. We made several contributions towards harnessing battery recovery effect in sensor networks. First, we empirically examine the gain of battery runtime due to battery recovery effect, and found this effect significant and duration-dependent. Second, based on our findings, we model the battery recovery effect in the presence of random sensing activities by a Markov chain model, and study the effect of duty cycling and buffering to harness battery recovery effect. Third, we propose a more energy-efficient duty cycling scheme that is aware of battery recovery effect, and analyse its performance with respect to the latency of data delivery.

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电池回收感知传感器网络

传感器网络的许多应用都需要电池作为能量来源，因此严重依赖于传感器电池的能量优化。但是，正如经常被网络社区所忽视的那样，大多数电池都不是理想的能量储存器，并且可以表现出电池回收效应——如果闲置足够长的时间，电池中的可交付能量可以自行补充。我们在利用传感器网络中的电池回收效应方面做出了一些贡献。首先，我们实证检验了由于电池回收效应而增加的电池运行时间，发现这种效应显著且依赖于持续时间。其次，在此基础上，利用马尔可夫链模型对随机感知活动下的电池回收效应进行建模，并研究了占空比和缓冲对电池回收效应的影响。第三，我们提出了一种更节能的占空比方案，该方案意识到电池回收效应，并分析了其在数据传输延迟方面的性能。

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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来源期刊

2009 7th International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks

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