Design of an adaptive variable-structure voltage regulator using artificial neural network

In this paper an adaptive voltage regulator for power systems is proposed. The design of this regulator is based on variable structure control theory. To make the regulator adaptive to the power system operating conditions, an artificial neural network is used. The effect of the proposed regulator h...

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Main Authors: Aggoune, M.E., Boudjemaa, F., Bensenouci, A., Hellal, A., Vadari, S.V., Elmesai, M.R.
Format: Conference Proceeding
Language:English
Subjects:
Artificial neural networks
Control systems
Power generation
Power system modeling
Power system protection
Power system transients
Power systems
Regulators
Synchronous machines
Voltage control
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container_end_page 343 vol.1
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container_start_page 337
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creator Aggoune, M.E.
Boudjemaa, F.
Bensenouci, A.
Hellal, A.
Vadari, S.V.
Elmesai, M.R.
description In this paper an adaptive voltage regulator for power systems is proposed. The design of this regulator is based on variable structure control theory. To make the regulator adaptive to the power system operating conditions, an artificial neural network is used. The effect of the proposed regulator has been compared to that of the realistic regulator system proposed by the IEEE Excitation Committee. The results are discussed and the pertaining recommendations are given.< >
doi_str_mv 10.1109/CCA.1993.348268
format conference_proceeding
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Artificial neural networks
Control systems
Power generation
Power system modeling
Power system protection
Power system transients
Power systems
Regulators
Synchronous machines
Voltage control
title Design of an adaptive variable-structure voltage regulator using artificial neural network
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