Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of Energy

Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of Energy

Internet of Things (IoT) can provide an on-line monitoring system for power substations and therefore offer a much more reliable maintenance strategy for power devices. However, energizing the monitoring sensors in a power substation and around High Voltage (HV) devices is difficult and costly. It i...

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Main Authors: Mohammadjavad Hajikhani, Fabrice Labeau, Basile L. Agba
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Energy harvesting
wireless transfer of energy (WTE)
internet of things (IoT)
Online Access:https://ieeexplore.ieee.org/document/8852646/
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spelling doaj-5a198fc957d8479fab0804f53ca774c82021-03-29T23:54:11ZengIEEEIEEE Access2169-35362019-01-01714145614146510.1109/ACCESS.2019.29445788852646Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of EnergyMohammadjavad Hajikhani0https://orcid.org/0000-0001-8191-4231Fabrice Labeau1Basile L. Agba2Department of Electrical Engineering, McGill University, Montreal, QC, CanadaMcGill University, Montreal, QC, CanadaHydro-Quebec Research Institute (IREQ), Varennes, QC, CanadaInternet of Things (IoT) can provide an on-line monitoring system for power substations and therefore offer a much more reliable maintenance strategy for power devices. However, energizing the monitoring sensors in a power substation and around High Voltage (HV) devices is difficult and costly. It is possible to reduce the installation costs significantly if the monitoring sensors can be self-sustainable. In this work, we study an autonomous Wireless Sensor Network(WSN), based on energy harvesting and wireless transfer of energy. In order to optimize the performance of this system, we propose and analyze two power allocation techniques, aiming to energize the monitoring sensors wirelessly. This paper concludes that by optimizing the parameters of the system, a self-sustainable WSN in a power substation can be successfully deployed.https://ieeexplore.ieee.org/document/8852646/Energy harvestingwireless transfer of energy (WTE)internet of things (IoT)
collection DOAJ
language English
format Article
sources DOAJ
author Mohammadjavad Hajikhani
Fabrice Labeau
Basile L. Agba
spellingShingle Mohammadjavad Hajikhani
Fabrice Labeau
Basile L. Agba
Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of Energy
IEEE Access
Energy harvesting
wireless transfer of energy (WTE)
internet of things (IoT)
author_facet Mohammadjavad Hajikhani
Fabrice Labeau
Basile L. Agba
author_sort Mohammadjavad Hajikhani
title Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of Energy
title_short Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of Energy
title_full Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of Energy
title_fullStr Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of Energy
title_full_unstemmed Power Allocation for a Self-Sustainable Power Substation Monitoring System Using Wireless Transfer of Energy
title_sort power allocation for a self-sustainable power substation monitoring system using wireless transfer of energy
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description Internet of Things (IoT) can provide an on-line monitoring system for power substations and therefore offer a much more reliable maintenance strategy for power devices. However, energizing the monitoring sensors in a power substation and around High Voltage (HV) devices is difficult and costly. It is possible to reduce the installation costs significantly if the monitoring sensors can be self-sustainable. In this work, we study an autonomous Wireless Sensor Network(WSN), based on energy harvesting and wireless transfer of energy. In order to optimize the performance of this system, we propose and analyze two power allocation techniques, aiming to energize the monitoring sensors wirelessly. This paper concludes that by optimizing the parameters of the system, a self-sustainable WSN in a power substation can be successfully deployed.
topic Energy harvesting
wireless transfer of energy (WTE)
internet of things (IoT)
url https://ieeexplore.ieee.org/document/8852646/
work_keys_str_mv AT mohammadjavadhajikhani powerallocationforaselfsustainablepowersubstationmonitoringsystemusingwirelesstransferofenergy
AT fabricelabeau powerallocationforaselfsustainablepowersubstationmonitoringsystemusingwirelesstransferofenergy
AT basilelagba powerallocationforaselfsustainablepowersubstationmonitoringsystemusingwirelesstransferofenergy
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