Liang Pu scite author profile

Radio frequency (RF) based wireless power transfer provides an attractive solution to extend the lifetime of power-constrained wireless sensor networks. Through harvesting RF energy from surrounding environments or dedicated energy sources, low-power wireless devices can be self-sustaining and environment-friendly. These features make the RF energy harvesting wireless communication (RF-EHWC) technique attractive to a wide range of applications. The objective of this article is to investigate the latest research activities on the practical RF-EHWC design. The distribution of RF energy in the real environment, the hardware design of RF-EHWC devices and the practical issues in the implementation of RF-EHWC networks are discussed. At the end of this article, we introduce several interesting applications that exploit the RF-EHWC technology to provide smart healthcare services for animals, wirelessly charge the wearable devices, and implement 5G-assisted RF-EHWC.

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Challenges and Opportunities of Underwater Cognitive Acoustic Networks

Luo

Zuba

et al. 2014

IEEE Trans. Emerg. Topics Comput.

106

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In oceans, both the natural acoustic systems (such as marine mammals) and artificial acoustic systems [like underwater acoustic networks (UANs) and sonar users] use acoustic signal for communication, echolocation, sensing, and detection. This makes the channel spectrum heavily shared by various underwater acoustic systems. Nevertheless, the precious spectrum resource is still underutilized temporally and spatially in underwater environments. To efficiently utilize the spectrum while avoiding harmful interference with other acoustic systems, a smart UAN should be aware of the surrounding environment and reconfigure their operation parameters. Unfortunately, existing UAN designs have mainly focused on the single network scenario, and very few studies have considered the presence of nearby acoustic activities. In this paper, we advocate cognitive acoustic as a promising technique to develop an environment-friendly UAN with high spectrum utilization. However, underwater cognitive acoustic networks (UCANs) also pose grand challenges due to the unique features of underwater channel and acoustic systems. In this paper, we comprehensively investigate these unique characteristics and their impact on the UCAN design. Finally, possible solutions to tackle such challenges are advocated.

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Numerical investigation on thermal performance of ground heat exchangers using phase change materials as grout for ground source heat pump system

Sun

et al. 2016

Applied Thermal Engineering

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Comparing underwater MAC protocols in real sea experiments

Luo

et al. 2015

Computer Communications

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RSS-based secret key generation in underwater acoustic networks: advantages, challenges, and performance improvements

Luo¹,

Pu²,

Peng³

et al. 2016

IEEE Commun. Mag.

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Liang Pu

RF Energy Harvesting Wireless Communications: RF Environment, Device Hardware and Practical Issues

Challenges and Opportunities of Underwater Cognitive Acoustic Networks

Numerical investigation on thermal performance of ground heat exchangers using phase change materials as grout for ground source heat pump system

Comparing underwater MAC protocols in real sea experiments

RSS-based secret key generation in underwater acoustic networks: advantages, challenges, and performance improvements

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