Spectrum and Energy Efficiency in Dynamic UAV-Powered Millimeter Wave Networks

Yongxu Zhu; Gan Zheng; Kai Kit Wong; Tasos Dagiuklas

doi:10.1109/LCOMM.2020.3001357

Spectrum and Energy Efficiency in Dynamic UAV-Powered Millimeter Wave Networks

Yongxu Zhu, Gan Zheng, Kai Kit Wong, Tasos Dagiuklas

London South Bank University

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

This letter investigates a dynamic scheme to analyze and optimize unmanned-aerial-vehicle-(UAV)-to-ground millimeter-wave (MMW) networks. First, a downlink energy transfer is proposed, followed by the uplink information transfer process between the UAV base stations (BSs) and a ground Internet of things (IoT) network. The UAVs fly above the ground IoT network in the energy transfer phase with the dynamic regulation to minimize the path loss fading. Afterwards, the ground-based IoT devices use the received energy to transmit the uplink information using vertical links. The UAV BSs are modeled with gain from multiple three-dimensional uniform linear antenna arrays. After deriving new statistical properties, we analyze the spectrum efficiency and energy efficiency for the system. Our numerical results have shown that the dynamic scheme in UAV-to-ground IoT networks provides great advantages than a traditional static deployment.

Original language	English
Article number	9113401
Pages (from-to)	2290-2294
Number of pages	5
Journal	IEEE Communications Letters
Volume	24
Issue number	10
DOIs	https://doi.org/10.1109/LCOMM.2020.3001357 https://doi.org/10.1109/LCOMM.2020.3001357
Publication status	Published - 10 Jun 2020

Bibliographical note

Publisher Copyright:
© 1997-2012 IEEE.

Keywords

Unmanned aerial vehicles
millimeter wave
energy efficiency
wireless power transfer

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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abstract = "This letter investigates a dynamic scheme to analyze and optimize unmanned-aerial-vehicle-(UAV)-to-ground millimeter-wave (MMW) networks. First, a downlink energy transfer is proposed, followed by the uplink information transfer process between the UAV base stations (BSs) and a ground Internet of things (IoT) network. The UAVs fly above the ground IoT network in the energy transfer phase with the dynamic regulation to minimize the path loss fading. Afterwards, the ground-based IoT devices use the received energy to transmit the uplink information using vertical links. The UAV BSs are modeled with gain from multiple three-dimensional uniform linear antenna arrays. After deriving new statistical properties, we analyze the spectrum efficiency and energy efficiency for the system. Our numerical results have shown that the dynamic scheme in UAV-to-ground IoT networks provides great advantages than a traditional static deployment.",

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AB - This letter investigates a dynamic scheme to analyze and optimize unmanned-aerial-vehicle-(UAV)-to-ground millimeter-wave (MMW) networks. First, a downlink energy transfer is proposed, followed by the uplink information transfer process between the UAV base stations (BSs) and a ground Internet of things (IoT) network. The UAVs fly above the ground IoT network in the energy transfer phase with the dynamic regulation to minimize the path loss fading. Afterwards, the ground-based IoT devices use the received energy to transmit the uplink information using vertical links. The UAV BSs are modeled with gain from multiple three-dimensional uniform linear antenna arrays. After deriving new statistical properties, we analyze the spectrum efficiency and energy efficiency for the system. Our numerical results have shown that the dynamic scheme in UAV-to-ground IoT networks provides great advantages than a traditional static deployment.

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Spectrum and Energy Efficiency in Dynamic UAV-Powered Millimeter Wave Networks

Abstract

Bibliographical note

Keywords

UN SDGs

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