Yunhuai Liu scite author profile

Abstract-As battery-powered mobile devices become more popular and energy hungry, wireless power transfer technology receives intensive interests, as it allows the power to be transferred from a charger to ambient devices wirelessly. The existing studies mainly focus on the power transfer efficiency but overlook the health impairments caused by RF exposure. In this paper, we study the Safe Charging Problem (SCP) of scheduling power chargers so that more energy can be received while no location in the field has electromagnetic radiation (EMR) exceeding a given threshold Rt. We prove that SCP is NP-hard and propose a solution which provably outperforms the optimal solution to SCP with a relaxed EMR threshold (1 − )Rt. Testbed results based on 8 Powercast TX91501 chargers validate our results. Extensive simulation results show that the gap between our solution and the optimal one is only 6.7% when = 0.1, while a naive greedy algorithm is 34.6% below our solution.

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Towards mobility-based clustering

Liu

et al. 2010

162

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RASS: A real-time, accurate and scalable system for tracking transceiver-free objects

Zhang

Liu

2011

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Transceiver-free object tracking is to trace a moving object without carrying any communication device in an environment where the environment is pre-deployed with some monitoring nodes. Among all the tracking technologies, RF-based technology is an emerging research field facing many challenges. Although we proposed the original idea, until now there is no method achieving scalability without sacrificing latency and accuracy. In this paper, we put forward a real-time tracking system RASS, which can achieve this goal and is promising in the applications like the safeguard system. Our basic idea is to divide the tracking field into different areas, with adjacent areas using different communication channels. So the interference among different areas can be prevented. For each area, three communicating nodes are deployed on the ceiling as a regular triangle to monitor this area. In each triangle area, we use a Support Vector Regression (SVR) model to locate the object. This model simulates the relationship between the signal dynamics caused by the object and the object position. It not only considers the ideal case of signal dynamics caused by the object, but also utilizes their irregular information. As a result it can reach the tracking accuracy to around 1 by just using three nodes in a triangle area with 4 in each side. The experiments show that the tracking latency of the proposed RASS system is bounded by only about 0.26 . Our system scales well to a large deployment field without sacrificing the latency and accuracy.

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bCharge: Data-Driven Real-Time Charging Scheduling for Large-Scale Electric Bus Fleets

Wang

Xie

Zhang

et al. 2018

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Yunhuai Liu

Safe Charging for Wireless Power Transfer

Towards mobility-based clustering

RASS: A real-time, accurate and scalable system for tracking transceiver-free objects

bCharge: Data-Driven Real-Time Charging Scheduling for Large-Scale Electric Bus Fleets

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