Lingkun Fu scite author profile

As a pioneering experimental platform of wireless rechargeable sensor networks, the Wireless Identification and Sensing Platform (WISP) is an open-source platform that integrates sensing and computation capabilities to the traditional RFID tags. Different from traditional tags, a RFID-based wireless rechargeable sensor node needs to charge its onboard energy storage above a threshold in order to power its sensing, computation and communication components. Consequently, such charging delay imposes a unique design challenge for deploying wireless rechargeable sensor networks. In this paper, we tackle this problem by planning the optimal movement strategy of the RFID reader, such that the time to charge all nodes in the network above their energy threshold is minimized. We first propose an optimal solution using the linear programming method. To further reduce the computational complexity, we then introduce a heuristic solution with a provable approximation ratio of (1 + θ)/(1 − ε) by discretizing the charging power on a twodimensional space. Through extensive evaluations, we demonstrate that our design outperforms the set-cover-based design by an average of 24.7% while the computational complexity is O((N/ε) 2 ).

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Optimal Charging in Wireless Rechargeable Sensor Networks

Cheng

Gü

et al. 2016

IEEE Trans. Veh. Technol.

187

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DoS Attack Energy Management Against Remote State Estimation

Zhang

et al. 2018

IEEE Trans. Control Netw. Syst.

177

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<italic>ESync</italic>: Energy Synchronized Mobile Charging in Rechargeable Wireless Sensor Networks

Cheng

et al. 2016

IEEE Trans. Veh. Technol.

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Lingkun Fu

Minimizing charging delay in wireless rechargeable sensor networks

Optimal Charging in Wireless Rechargeable Sensor Networks

DoS Attack Energy Management Against Remote State Estimation

<italic>ESync</italic>: Energy Synchronized Mobile Charging in Rechargeable Wireless Sensor Networks

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