Radial basis function for fast voltage stability assessment using Phasor Measurement Units

Radial basis function for fast voltage stability assessment using Phasor Measurement Units

A simple method, based on Machine Learning Radial Basis Functions, RBF, is developed for estimating voltage stability margins in power systems. A reduced set of magnitude and angles of bus voltage phasors is used as input. Observability optimization technique for locating Phasor Measurement Units, P...

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Bibliographic Details
Main Authors: Jorge W. Gonzalez, Idi A. Isaac, Gabriel J. Lopez, Hugo A. Cardona, Gabriel J. Salazar, John M. Rincon
Format: Article
Language:English
Published: Elsevier 2019-11-01
Series:Heliyon
Subjects:
Electrical engineering
Electrical system planning
Power engineering
Electric power transmission
Power system operation
Power system planning
Online Access:http://www.sciencedirect.com/science/article/pii/S2405844019363649
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spelling doaj-1b7c84dcb23b42dc859a9cab699c2d4f2020-11-25T03:01:15ZengElsevierHeliyon2405-84402019-11-01511e02704Radial basis function for fast voltage stability assessment using Phasor Measurement UnitsJorge W. Gonzalez0Idi A. Isaac1Gabriel J. Lopez2Hugo A. Cardona3Gabriel J. Salazar4John M. Rincon5Corresponding author.; Universidad Pontificia Bolivariana – Medellin, Antioquia, ColombiaUniversidad Pontificia Bolivariana – Medellin, Antioquia, ColombiaUniversidad Pontificia Bolivariana – Medellin, Antioquia, ColombiaUniversidad Pontificia Bolivariana – Medellin, Antioquia, ColombiaUniversidad Pontificia Bolivariana – Medellin, Antioquia, ColombiaUniversidad Pontificia Bolivariana – Medellin, Antioquia, ColombiaA simple method, based on Machine Learning Radial Basis Functions, RBF, is developed for estimating voltage stability margins in power systems. A reduced set of magnitude and angles of bus voltage phasors is used as input. Observability optimization technique for locating Phasor Measurement Units, PMUs, is applied. A RBF is designed and used for fast calculation of voltage stability margins for online applications with PMUs. The method allows estimating active local and global power margins in normal operation and under contingencies. Optimized placement of PMUs leads to a minimum number of these devices to estimate the margins, but is shown that it is not a matter of PMUs quantity but of PMUs location for decreasing training time or having success in estimation convergence. Compared with previous work, the most significant enhancement is that our RBF learns from PMU data. To test the proposed method, validations in the IEEE 14-bus system and in a real electrical network are done.http://www.sciencedirect.com/science/article/pii/S2405844019363649Electrical engineeringElectrical system planningPower engineeringElectric power transmissionPower system operationPower system planning
collection DOAJ
language English
format Article
sources DOAJ
author Jorge W. Gonzalez
Idi A. Isaac
Gabriel J. Lopez
Hugo A. Cardona
Gabriel J. Salazar
John M. Rincon
spellingShingle Jorge W. Gonzalez
Idi A. Isaac
Gabriel J. Lopez
Hugo A. Cardona
Gabriel J. Salazar
John M. Rincon
Radial basis function for fast voltage stability assessment using Phasor Measurement Units
Heliyon
Electrical engineering
Electrical system planning
Power engineering
Electric power transmission
Power system operation
Power system planning
author_facet Jorge W. Gonzalez
Idi A. Isaac
Gabriel J. Lopez
Hugo A. Cardona
Gabriel J. Salazar
John M. Rincon
author_sort Jorge W. Gonzalez
title Radial basis function for fast voltage stability assessment using Phasor Measurement Units
title_short Radial basis function for fast voltage stability assessment using Phasor Measurement Units
title_full Radial basis function for fast voltage stability assessment using Phasor Measurement Units
title_fullStr Radial basis function for fast voltage stability assessment using Phasor Measurement Units
title_full_unstemmed Radial basis function for fast voltage stability assessment using Phasor Measurement Units
title_sort radial basis function for fast voltage stability assessment using phasor measurement units
publisher Elsevier
series Heliyon
issn 2405-8440
publishDate 2019-11-01
description A simple method, based on Machine Learning Radial Basis Functions, RBF, is developed for estimating voltage stability margins in power systems. A reduced set of magnitude and angles of bus voltage phasors is used as input. Observability optimization technique for locating Phasor Measurement Units, PMUs, is applied. A RBF is designed and used for fast calculation of voltage stability margins for online applications with PMUs. The method allows estimating active local and global power margins in normal operation and under contingencies. Optimized placement of PMUs leads to a minimum number of these devices to estimate the margins, but is shown that it is not a matter of PMUs quantity but of PMUs location for decreasing training time or having success in estimation convergence. Compared with previous work, the most significant enhancement is that our RBF learns from PMU data. To test the proposed method, validations in the IEEE 14-bus system and in a real electrical network are done.
topic Electrical engineering
Electrical system planning
Power engineering
Electric power transmission
Power system operation
Power system planning
url http://www.sciencedirect.com/science/article/pii/S2405844019363649
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