Systems that Sustain Themselves: Energy Harvesting Sensor Nodes for Monitoring the Environment

Kaumudi Singh, K. NitheshNayak, Anup A. Kedilaya, T. V. Prabhakar, J. Kuri
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引用次数: 2

Abstract

Battery-less sensor networks, that harvest energy from the ambient, have attracted much attention in the last few years due to the promise of low maintenance and untethered perpetual operation. However, the major challenge in such networks is that the availability of nodes in the network depends on the energy profile of their harvesting sources. This might affect network reliability. In this work, we study the suitability of Energy Harvesting Sensor (EHS) nodes, powered using light and vibrations, for a simple temperature monitoring application. We evaluate whether such an EHS node-based system can sustain itself and compare its performance with that of a traditional battery-based system. To economize on energy expenditure in the EHS system, we implement an Autoregressive (AR) model based adaptive sampling algorithm on the EHS nodes. After thorough experimental investigations, we conclude that the EHS node-based system fares quite well. Results show that adaptive sampling helps achieve energy savings of 62.12% and a 52.33% reduction in the amount of sampled data.
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自我维持的系统:用于监测环境的能量收集传感器节点
从环境中获取能量的无电池传感器网络,由于其低维护和不受束缚的永久运行的前景,在过去几年中引起了人们的广泛关注。然而,这种网络的主要挑战是网络中节点的可用性取决于其收获源的能量分布。这可能会影响网络的可靠性。在这项工作中,我们研究了能量收集传感器(EHS)节点的适用性,该节点使用光和振动供电,用于简单的温度监测应用。我们评估了这种基于EHS节点的系统是否能够自我维持,并将其性能与传统的基于电池的系统进行了比较。为了节约EHS系统的能量消耗,我们在EHS节点上实现了一种基于自回归(AR)模型的自适应采样算法。经过深入的实验研究,我们得出结论,基于EHS节点的系统运行良好。结果表明,自适应采样可以节省62.12%的能量,减少52.33%的采样数据量。
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