You are not logged in.

Robust adaptive backstepping excitation controller design for simple power system models with external disturbances

Roy, T. K., Mahmud, M. A., Shen, W. X. and Oo, A. M. T. 2015, Robust adaptive backstepping excitation controller design for simple power system models with external disturbances, in CCA 2015: Proceedings of the 2015 IEEE Conference on Control and Applications, IEEE, Piscataway, N.J., pp. 715-720, doi: 10.1109/CCA.2015.7320701.

Attached Files
Name Description MIMEType Size Downloads

Title Robust adaptive backstepping excitation controller design for simple power system models with external disturbances
Author(s) Roy, T. K.
Mahmud, M. A.ORCID iD for Mahmud, M. A. orcid.org/0000-0002-5302-5338
Shen, W. X.
Oo, A. M. T.
Conference name IEEE Conference on Control and Applications (2015: Sydney, N.S.W.)
Conference location Sydney, N.S.W.
Conference dates 21-23 Sep. 2015
Title of proceedings CCA 2015: Proceedings of the 2015 IEEE Conference on Control and Applications
Publication date 2015
Start page 715
End page 720
Total pages 6
Publisher IEEE
Place of publication Piscataway, N.J.
Keyword(s) Science & Technology
Technology
Automation & Control Systems
Engineering, Electrical & Electronic
Engineering
TRANSIENT STABILIZATION
SYNCHRONOUS GENERATOR
ATTENUATION
STABILITY
Summary This paper presents a nonlinear robust adaptive excitation controller design for a simple power system model where a synchronous generator is connected to an infinite bus. The proposed controller is designed to obtain the adaption laws for estimating critical parameters of synchronous generators which are considered as unknown while providing the robustness against the bounded external disturbances. The convergence of different physical quantities of a single machine infinite bus (SMIB) system, with the proposed control scheme, is ensured through the negative definiteness of the derivative of Lyapunov functions. The effects of external disturbances are considered during formulation of Lyapunov function and thus, the proposed excitation controller can ensure the stability of the SMIB system under the variation of critical parameters as well as external disturbances including noises. Finally, the performance of the proposed scheme is investigated with the inclusion of external disturbances in the SMIB system and its superiority is demonstrated through the comparison with an existing robust adaptive excitation controller. Simulation results show that the proposed scheme provides faster responses of physical quantities than the existing controller.
ISSN 1085-1992
Language eng
DOI 10.1109/CCA.2015.7320701
Field of Research 091302 Automation and Control Engineering
090602 Control Systems, Robotics and Automation
Socio Economic Objective 970109 Expanding Knowledge in Engineering
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:30082825

Document type: Conference Paper
Collection: School of Engineering
Connect to link resolver
 
Unless expressly stated otherwise, the copyright for items in DRO is owned by the author, with all rights reserved.

Versions
Version Filter Type
Citation counts: TR Web of Science Citation Count  Cited 2 times in TR Web of Science
Scopus Citation Count Cited 4 times in Scopus
Google Scholar Search Google Scholar
Access Statistics: 95 Abstract Views, 2 File Downloads  -  Detailed Statistics
Created: Wed, 13 Apr 2016, 16:59:57 EST

Every reasonable effort has been made to ensure that permission has been obtained for items included in DRO. If you believe that your rights have been infringed by this repository, please contact drosupport@deakin.edu.au.