论文信息 - Decentralized Energy and Power Estimation in Solar-Powered Wireless Sensor Networks

Decentralized Energy and Power Estimation in Solar-Powered Wireless Sensor Networks

Solar powered wireless sensor networks are very adapted to smart city applications, since they can operate for extended durations with minimal installation costs. Nonetheless, they require energy management schemes to operate reliably, unlike their grid-powered counterparts. Such schemes require the forecasting of future solar power inputs for each wireless sensor node, over a time horizon. They also require the determination of battery energy parameters in real time. To address both requirements, we propose a collaborative solar power forecasting framework combined to a real time battery capacity estimation model, which can be used to optimize the node schedules over the corresponding horizon.

Jeff S. Shamma | Ahmad H. Dehwah | Christian G. Claudel | Souhaib Ben Taieb

[1] Ahmad H. Dehwah,et al. A Sensor Network Architecture for Urban Traffic State Estimation with Mixed Eulerian/Lagrangian Sensing Based on Distributed Computing , 2014, ARCS.

[2] Christian G. Claudel,et al. Energy Parameter Estimation in Solar Powered Wireless Sensor Networks , 2014, REALWSN.

[3] R. Olfati-Saber,et al. Consensus Filters for Sensor Networks and Distributed Sensor Fusion , 2005, Proceedings of the 44th IEEE Conference on Decision and Control.

[4] Christian G. Claudel,et al. A wireless computational platform for distributed computing based traffic monitoring involving mixed Eulerian-Lagrangian sensing , 2013, 2013 8th IEEE International Symposium on Industrial Embedded Systems (SIES).

[5] Ahmad H. Dehwah,et al. Lessons learned on solar powered wireless sensor network deployments in urban, desert environments , 2015, Ad Hoc Networks.

[6] Hamidou Tembine,et al. Poster abstract: A decentralized routing scheme based on a zero-sum game to optimize energy in solar powered sensor networks , 2014, IPSN-14 Proceedings of the 13th International Symposium on Information Processing in Sensor Networks.