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Distributed agent-based control scheme for single-phase parallel inverters in microgrids with photovoltaic systems

Rahman, M. S., Mahmud, M. A., Maung Than Oo, A. and Orchi, T. F. 2015, Distributed agent-based control scheme for single-phase parallel inverters in microgrids with photovoltaic systems, in AUPEC 2015 : Challenges for future grids : Proceedings of the 25th Australian Universities Power Engineering Conference, IEEE, Piscataway, N.J., pp. 1-6.

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Title Distributed agent-based control scheme for single-phase parallel inverters in microgrids with photovoltaic systems
Author(s) Rahman, M. S.
Mahmud, M. A.ORCID iD for Mahmud, M. A. orcid.org/0000-0002-5302-5338
Maung Than Oo, A.
Orchi, T. F.
Conference name Australian Universities Power Engineering. Conference (25th : 2015 : Wollongong, New South Wales)
Conference location Wollongong, N.S.W.
Conference dates 27-30 Sep. 2015
Title of proceedings AUPEC 2015 : Challenges for future grids : Proceedings of the 25th Australian Universities Power Engineering Conference
Publication date 2015
Start page 1
End page 6
Total pages 6
Publisher IEEE
Place of publication Piscataway, N.J.
Keyword(s) inverter
agent
microgrid
control
PV systems
Summary In this paper, an agent-based distributed control scheme is presented to control single-phase parallel inverters in solar photovoltaic (PV) systems connected to microgrids. A communication assisted multi-agent framework is developed within microgrids where agents perform their tasks in a distributed manner with an aim of stabilizing load voltage and current under normal and faulted conditions through the asymptotic tracking of the reference current signal. The distributed agent-based control scheme requires information from the neighboring agents through communication network to decide control actions. The proposed control scheme utilizes Ziegler-Nichols (Z-N) tuning approach to design proportional integral (PI) controllers for controlling inverters within the multi-agent system (MAS). A microgrid with parallel inverter-connected solar PV systems is considered for simulations under normal and faulted conditions where results show the excellency of the proposed agent-based scheme in comparison to the conventional scheme without MAS.
ISBN 9781479987252
Language eng
Field of Research 090602 Control Systems, Robotics and Automation
090603 Industrial Electronics
090608 Renewable Power and Energy Systems Engineering (excl Solar Cells)
Socio Economic Objective 850504 Solar-Photovoltaic Energy
HERDC Research category E1 Full written paper - refereed
ERA Research output type E Conference publication
Copyright notice ©2015, IEEE
Persistent URL http://hdl.handle.net/10536/DRO/DU:30080957

Document type: Conference Paper
Collection: School of Engineering
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