Audur—A platform for synchrophasor-based power system wide-area control system implementation

Audur—A platform for synchrophasor-based power system wide-area control system implementation

Electrical power systems continue to grow in size and complexity, resulting in new challenges to control and stabilize them. Measurement based Wide-Area Control Systems (WACS) have been extensively researched in the last decade to enhance power system stability. However, very few WACS implementation...

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Main Authors: L. Vanfretti, G.M. Jónsdóttir, M.S. Almas, E. Rebello, S.R. Firouzi, M. Baudette
Format: Article
Language:English
Published: Elsevier 2018-01-01
Series:SoftwareX
Online Access:http://www.sciencedirect.com/science/article/pii/S2352711018301730
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spelling doaj-cb1edbfef26d4b00a0ef11599587be042020-11-25T01:34:34ZengElsevierSoftwareX2352-71102018-01-017294301Audur—A platform for synchrophasor-based power system wide-area control system implementationL. Vanfretti0G.M. Jónsdóttir1M.S. Almas2E. Rebello3S.R. Firouzi4M. Baudette5Department of Electrical, Computer & Systems Engineering, School of Engineering, Rensselaer Polytechnic Institute, Troy, NY, USA; Corresponding author.School of Electrical & Electronic Engineering, University College Dublin, Dublin, IrelandSchool of Electrical Engineering and Computer Science, KTH Royal Institute of Technology, Stockholm, SwedenWind Energy Institute of Canada, Prince Edward Island, CanadaSchool of Electrical Engineering and Computer Science, KTH Royal Institute of Technology, Stockholm, SwedenGrid Integration Group, Energy Storage & Distributed Resources Division, Lawrence Berkeley National Laboratory, Berkeley, CA, USAElectrical power systems continue to grow in size and complexity, resulting in new challenges to control and stabilize them. Measurement based Wide-Area Control Systems (WACS) have been extensively researched in the last decade to enhance power system stability. However, very few WACS implementations in the field have been carried out so far. To bridge this gap the LabVIEW package, Audur, presented in this paper, allows users to easily implement their custom WACS design on a National Instruments hardware platform. The hardware controller receives synchrophasor measurements compliant with the IEEE C37.118.2 protocol and generates a control signal that, in principle, can be configured as a supplementary control system to drive any active component in the power system. Keywords: Power systems, Wide-area control systems, Oscillation damping, Inter-area oscillations, Synchrophasorshttp://www.sciencedirect.com/science/article/pii/S2352711018301730
collection DOAJ
language English
format Article
sources DOAJ
author L. Vanfretti
G.M. Jónsdóttir
M.S. Almas
E. Rebello
S.R. Firouzi
M. Baudette
spellingShingle L. Vanfretti
G.M. Jónsdóttir
M.S. Almas
E. Rebello
S.R. Firouzi
M. Baudette
Audur—A platform for synchrophasor-based power system wide-area control system implementation
SoftwareX
author_facet L. Vanfretti
G.M. Jónsdóttir
M.S. Almas
E. Rebello
S.R. Firouzi
M. Baudette
author_sort L. Vanfretti
title Audur—A platform for synchrophasor-based power system wide-area control system implementation
title_short Audur—A platform for synchrophasor-based power system wide-area control system implementation
title_full Audur—A platform for synchrophasor-based power system wide-area control system implementation
title_fullStr Audur—A platform for synchrophasor-based power system wide-area control system implementation
title_full_unstemmed Audur—A platform for synchrophasor-based power system wide-area control system implementation
title_sort audur—a platform for synchrophasor-based power system wide-area control system implementation
publisher Elsevier
series SoftwareX
issn 2352-7110
publishDate 2018-01-01
description Electrical power systems continue to grow in size and complexity, resulting in new challenges to control and stabilize them. Measurement based Wide-Area Control Systems (WACS) have been extensively researched in the last decade to enhance power system stability. However, very few WACS implementations in the field have been carried out so far. To bridge this gap the LabVIEW package, Audur, presented in this paper, allows users to easily implement their custom WACS design on a National Instruments hardware platform. The hardware controller receives synchrophasor measurements compliant with the IEEE C37.118.2 protocol and generates a control signal that, in principle, can be configured as a supplementary control system to drive any active component in the power system. Keywords: Power systems, Wide-area control systems, Oscillation damping, Inter-area oscillations, Synchrophasors
url http://www.sciencedirect.com/science/article/pii/S2352711018301730
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