Optimal transmission policy in decoupled RF energy harvesting networks

Yu Min Hwang; Jun Hee Jung; Yoan Shin; Jin Young Kim; Dong In Kim

doi:10.1587/transfun.E101.A.516

Optimal transmission policy in decoupled RF energy harvesting networks

Yu Min Hwang
, Jun Hee Jung
, Yoan Shin
, Jin Young Kim
, Dong In Kim

Department of Electronic and Electrical Engineering

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

Abstract

In this letter, we study a scenario based on decoupled RF energy harvesting networks (DRF-EHNs) that separate energy sources from information sources to overcome the doubly near-far problem and improve harvesting efficiency. We propose an algorithm to maximize energy efficiency (EE) while satisfying constraints on the maximum transmit power of the hybrid access point (H-AP) and power beacon (PB), while further satisfying constraints on the minimum quality of service and minimum amount of harvested power in multi-user Rayleigh fading channel. Using nonlinear fractional programming and Lagrangian dual decomposition, we optimize EE with four optimization arguments: the transmit power from the H-AP and PB, time-splitting ratio, and power-splitting ratio. Numerical results show that the proposed algorithm is more energy-efficient compared to baseline schemes.

Original language	English
Pages (from-to)	516-520
Number of pages	5
Journal	IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences
Volume	E101A
Issue number	2
DOIs	https://doi.org/10.1587/transfun.E101.A.516
State	Published - Feb 2018

Keywords

Doubly near-far problem
Energy efficiency
Optimization
Radio frequency energy harvesting
Resource allocation

UN SDGs

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

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10.1587/transfun.E101.A.516

Cite this

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title = "Optimal transmission policy in decoupled RF energy harvesting networks",

abstract = "In this letter, we study a scenario based on decoupled RF energy harvesting networks (DRF-EHNs) that separate energy sources from information sources to overcome the doubly near-far problem and improve harvesting efficiency. We propose an algorithm to maximize energy efficiency (EE) while satisfying constraints on the maximum transmit power of the hybrid access point (H-AP) and power beacon (PB), while further satisfying constraints on the minimum quality of service and minimum amount of harvested power in multi-user Rayleigh fading channel. Using nonlinear fractional programming and Lagrangian dual decomposition, we optimize EE with four optimization arguments: the transmit power from the H-AP and PB, time-splitting ratio, and power-splitting ratio. Numerical results show that the proposed algorithm is more energy-efficient compared to baseline schemes.",

keywords = "Doubly near-far problem, Energy efficiency, Optimization, Radio frequency energy harvesting, Resource allocation",

author = "Hwang, \{Yu Min\} and Jung, \{Jun Hee\} and Yoan Shin and Kim, \{Jin Young\} and Kim, \{Dong In\}",

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doi = "10.1587/transfun.E101.A.516",

language = "English",

volume = "E101A",

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TY - JOUR

T1 - Optimal transmission policy in decoupled RF energy harvesting networks

AU - Hwang, Yu Min

AU - Jung, Jun Hee

AU - Shin, Yoan

AU - Kim, Jin Young

AU - Kim, Dong In

PY - 2018/2

Y1 - 2018/2

N2 - In this letter, we study a scenario based on decoupled RF energy harvesting networks (DRF-EHNs) that separate energy sources from information sources to overcome the doubly near-far problem and improve harvesting efficiency. We propose an algorithm to maximize energy efficiency (EE) while satisfying constraints on the maximum transmit power of the hybrid access point (H-AP) and power beacon (PB), while further satisfying constraints on the minimum quality of service and minimum amount of harvested power in multi-user Rayleigh fading channel. Using nonlinear fractional programming and Lagrangian dual decomposition, we optimize EE with four optimization arguments: the transmit power from the H-AP and PB, time-splitting ratio, and power-splitting ratio. Numerical results show that the proposed algorithm is more energy-efficient compared to baseline schemes.

AB - In this letter, we study a scenario based on decoupled RF energy harvesting networks (DRF-EHNs) that separate energy sources from information sources to overcome the doubly near-far problem and improve harvesting efficiency. We propose an algorithm to maximize energy efficiency (EE) while satisfying constraints on the maximum transmit power of the hybrid access point (H-AP) and power beacon (PB), while further satisfying constraints on the minimum quality of service and minimum amount of harvested power in multi-user Rayleigh fading channel. Using nonlinear fractional programming and Lagrangian dual decomposition, we optimize EE with four optimization arguments: the transmit power from the H-AP and PB, time-splitting ratio, and power-splitting ratio. Numerical results show that the proposed algorithm is more energy-efficient compared to baseline schemes.

KW - Doubly near-far problem

KW - Energy efficiency

KW - Optimization

KW - Radio frequency energy harvesting

KW - Resource allocation

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DO - 10.1587/transfun.E101.A.516

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SN - 0916-8508

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JO - IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences

JF - IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences

IS - 2

ER -

Optimal transmission policy in decoupled RF energy harvesting networks

Abstract

Keywords

UN SDGs

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