Leveraging Energy Harvesting and Wake-Up Receivers for Long-Term Wireless Sensor Networks

Wireless sensor nodes are traditionally powered by individual batteries, and a significant effort has been devoted to maximizing the lifetime of these devices. However, as the batteries can only store a finite amount of energy, the network is still doomed to die, and changing the batteries is not al...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Switzerland), 2018-05, Vol.18 (5), p.1578
Main Authors: Ait Aoudia, Fayçal, Gautier, Matthieu, Magno, Michele, Berder, Olivier, Benini, Luca
Format: Article
Language:English
Subjects:
Access control
Computer Science
Energy consumption
Energy efficiency
Energy harvesting
Energy management
Engineering Sciences
Hardware Architecture
Nodes
Power efficiency
Power management
Receivers
Remote sensors
Sensors
Service life assessment
Signal and Image processing
Storage batteries
Wireless communications
Wireless sensor networks
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Summary:Wireless sensor nodes are traditionally powered by individual batteries, and a significant effort has been devoted to maximizing the lifetime of these devices. However, as the batteries can only store a finite amount of energy, the network is still doomed to die, and changing the batteries is not always possible. A promising solution is to enable each node to harvest energy directly in its environment, using individual energy harvesters. Moreover, novel ultra-low power wake-up receivers, which allow continuous listening of the channel with negligible power consumption, are emerging. These devices enable asynchronous communication, further reducing the power consumption related to communication, which is typically one the most energy-consuming tasks in wireless sensor networks. Energy harvesting and wake-up receivers can be combined to significantly increase the energy efficiency of sensor networks. In this paper, we propose an energy manager for energy harvesting wireless sensor nodes and an asynchronous medium access control protocol, which exploits ultra-low power wake-up receivers. The two components are designed to work together and especially to fit the stringent constraints of wireless sensor nodes. The proposed approach has been implemented on a real hardware platform and tested in the field. Experimental results demonstrate the benefits of the proposed approach in terms of energy efficiency, power consumption and throughput, which can be up to more than two-times higher compared to traditional schemes.
ISSN:1424-8220
1424-8220
DOI:10.3390/s18051578