Path-Following Algorithms for Beamforming and Signal Splitting in RF Energy Harvesting Networks

Ali A. Nasir; Hoang D. Tuan; Duy T. Ngo; Salman Durrani; Dong In Kim

doi:10.1109/LCOMM.2016.2578921

Path-Following Algorithms for Beamforming and Signal Splitting in RF Energy Harvesting Networks

Ali A. Nasir
, Hoang D. Tuan
, Duy T. Ngo
, Salman Durrani
, Dong In Kim

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

18 Scopus citations

Abstract

We consider the joint design of transmit beamforming and receive signal-splitting ratios in the downlink of a wireless network with simultaneous radio frequency information and energy transfer. Under constraints on the signal-to-interference-plus-noise ratio at each user and the total transmit power at the base station, the design objective is to maximize either the sum harvested energy or the minimum harvested energy. We develop a computationally efficient path-following method to solve these challenging nonconvex optimization problems. We mathematically show that the proposed algorithms iteratively progress and converge to locally optimal solutions. Simulation results further show that these locally optimal solutions are the same as the globally optimal solutions for the considered practical network settings.

Original language	English
Article number	7488192
Pages (from-to)	1687-1690
Number of pages	4
Journal	IEEE Communications Letters
Volume	20
Issue number	8
DOIs	https://doi.org/10.1109/LCOMM.2016.2578921
State	Published - Aug 2016
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016 IEEE.

Keywords

Energy harvesting
Transmit beamforming
nonconvex optimization
path-following algorithm
signal splitting

ASJC Scopus subject areas

Modeling and Simulation
Computer Science Applications
Electrical and Electronic Engineering

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10.1109/LCOMM.2016.2578921

Cite this

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title = "Path-Following Algorithms for Beamforming and Signal Splitting in RF Energy Harvesting Networks",

abstract = "We consider the joint design of transmit beamforming and receive signal-splitting ratios in the downlink of a wireless network with simultaneous radio frequency information and energy transfer. Under constraints on the signal-to-interference-plus-noise ratio at each user and the total transmit power at the base station, the design objective is to maximize either the sum harvested energy or the minimum harvested energy. We develop a computationally efficient path-following method to solve these challenging nonconvex optimization problems. We mathematically show that the proposed algorithms iteratively progress and converge to locally optimal solutions. Simulation results further show that these locally optimal solutions are the same as the globally optimal solutions for the considered practical network settings.",

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author = "Nasir, \{Ali A.\} and Tuan, \{Hoang D.\} and Ngo, \{Duy T.\} and Salman Durrani and Kim, \{Dong In\}",

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doi = "10.1109/LCOMM.2016.2578921",

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AU - Nasir, Ali A.

AU - Tuan, Hoang D.

AU - Ngo, Duy T.

AU - Durrani, Salman

AU - Kim, Dong In

PY - 2016/8

Y1 - 2016/8

N2 - We consider the joint design of transmit beamforming and receive signal-splitting ratios in the downlink of a wireless network with simultaneous radio frequency information and energy transfer. Under constraints on the signal-to-interference-plus-noise ratio at each user and the total transmit power at the base station, the design objective is to maximize either the sum harvested energy or the minimum harvested energy. We develop a computationally efficient path-following method to solve these challenging nonconvex optimization problems. We mathematically show that the proposed algorithms iteratively progress and converge to locally optimal solutions. Simulation results further show that these locally optimal solutions are the same as the globally optimal solutions for the considered practical network settings.

AB - We consider the joint design of transmit beamforming and receive signal-splitting ratios in the downlink of a wireless network with simultaneous radio frequency information and energy transfer. Under constraints on the signal-to-interference-plus-noise ratio at each user and the total transmit power at the base station, the design objective is to maximize either the sum harvested energy or the minimum harvested energy. We develop a computationally efficient path-following method to solve these challenging nonconvex optimization problems. We mathematically show that the proposed algorithms iteratively progress and converge to locally optimal solutions. Simulation results further show that these locally optimal solutions are the same as the globally optimal solutions for the considered practical network settings.

KW - Energy harvesting

KW - Transmit beamforming

KW - nonconvex optimization

KW - path-following algorithm

KW - signal splitting

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JO - IEEE Communications Letters

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ER -

Path-Following Algorithms for Beamforming and Signal Splitting in RF Energy Harvesting Networks

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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