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Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model

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Zeitschriftentitel: Asian Journal of Control
Personen und Körperschaften: Zaafouri, Chaker, Torchani, Borhen, Sellami, Anis, Garcia, Germain
In: Asian Journal of Control, 20, 2018, 2, S. 802-818
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Control and Systems Engineering
Electrical and Electronic Engineering
Mathematics (miscellaneous)
author_facet Zaafouri, Chaker
Torchani, Borhen
Sellami, Anis
Garcia, Germain
Zaafouri, Chaker
Torchani, Borhen
Sellami, Anis
Garcia, Germain
author Zaafouri, Chaker
Torchani, Borhen
Sellami, Anis
Garcia, Germain
spellingShingle Zaafouri, Chaker
Torchani, Borhen
Sellami, Anis
Garcia, Germain
Asian Journal of Control
Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
Control and Systems Engineering
Electrical and Electronic Engineering
Mathematics (miscellaneous)
author_sort zaafouri, chaker
spelling Zaafouri, Chaker Torchani, Borhen Sellami, Anis Garcia, Germain 1561-8625 1934-6093 Wiley Control and Systems Engineering Electrical and Electronic Engineering Mathematics (miscellaneous) http://dx.doi.org/10.1002/asjc.1594 <jats:title>Abstract</jats:title><jats:p>The aim of this paper is to propose a new design variable speed wind turbine control by discrete‐time sliding mode approach. The control objective is to obtain a maximum extraction of wind energy, while reducing mechanical loads and rotor speed tracking combined with an electromagnetic torque. For this application, we designed a discrete time sliding mode control using the equivalent discrete time reaching law. Furthermore, a systematic and improved design procedure for uncertainties discrete‐time sliding mode control (SMC) with saturation problem is provided in this paper. The saturation constraint is reported on inputs vector. LMI technique and polytopic models are used in the design of the switching surface. To achieve some performance requirements and good robustness, in the sliding mode, the pole clustering method is investigated. Based on the unit vector control approach, a robust control is developed, then, to direct and maintain the system states onto the sliding manifold in finite time. Finally, a systematic design procedure for DSMC required to achieve a given performance level is provided and its effectiveness is varied by applying it to variable speed wind turbine systems.</jats:p> Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model Asian Journal of Control
doi_str_mv 10.1002/asjc.1594
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series Asian Journal of Control
source_id 49
title Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_unstemmed Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_full Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_fullStr Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_full_unstemmed Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_short Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_sort uncertain saturated discrete‐time sliding mode control for a wind turbine using a two‐mass model
topic Control and Systems Engineering
Electrical and Electronic Engineering
Mathematics (miscellaneous)
url http://dx.doi.org/10.1002/asjc.1594
publishDate 2018
physical 802-818
description <jats:title>Abstract</jats:title><jats:p>The aim of this paper is to propose a new design variable speed wind turbine control by discrete‐time sliding mode approach. The control objective is to obtain a maximum extraction of wind energy, while reducing mechanical loads and rotor speed tracking combined with an electromagnetic torque. For this application, we designed a discrete time sliding mode control using the equivalent discrete time reaching law. Furthermore, a systematic and improved design procedure for uncertainties discrete‐time sliding mode control (SMC) with saturation problem is provided in this paper. The saturation constraint is reported on inputs vector. LMI technique and polytopic models are used in the design of the switching surface. To achieve some performance requirements and good robustness, in the sliding mode, the pole clustering method is investigated. Based on the unit vector control approach, a robust control is developed, then, to direct and maintain the system states onto the sliding manifold in finite time. Finally, a systematic design procedure for DSMC required to achieve a given performance level is provided and its effectiveness is varied by applying it to variable speed wind turbine systems.</jats:p>
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author Zaafouri, Chaker, Torchani, Borhen, Sellami, Anis, Garcia, Germain
author_facet Zaafouri, Chaker, Torchani, Borhen, Sellami, Anis, Garcia, Germain, Zaafouri, Chaker, Torchani, Borhen, Sellami, Anis, Garcia, Germain
author_sort zaafouri, chaker
container_issue 2
container_start_page 802
container_title Asian Journal of Control
container_volume 20
description <jats:title>Abstract</jats:title><jats:p>The aim of this paper is to propose a new design variable speed wind turbine control by discrete‐time sliding mode approach. The control objective is to obtain a maximum extraction of wind energy, while reducing mechanical loads and rotor speed tracking combined with an electromagnetic torque. For this application, we designed a discrete time sliding mode control using the equivalent discrete time reaching law. Furthermore, a systematic and improved design procedure for uncertainties discrete‐time sliding mode control (SMC) with saturation problem is provided in this paper. The saturation constraint is reported on inputs vector. LMI technique and polytopic models are used in the design of the switching surface. To achieve some performance requirements and good robustness, in the sliding mode, the pole clustering method is investigated. Based on the unit vector control approach, a robust control is developed, then, to direct and maintain the system states onto the sliding manifold in finite time. Finally, a systematic design procedure for DSMC required to achieve a given performance level is provided and its effectiveness is varied by applying it to variable speed wind turbine systems.</jats:p>
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id ai-49-aHR0cDovL2R4LmRvaS5vcmcvMTAuMTAwMi9hc2pjLjE1OTQ
imprint Wiley, 2018
imprint_str_mv Wiley, 2018
institution DE-15, DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1, DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-D161, DE-Gla1, DE-Zi4
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physical 802-818
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series Asian Journal of Control
source_id 49
spelling Zaafouri, Chaker Torchani, Borhen Sellami, Anis Garcia, Germain 1561-8625 1934-6093 Wiley Control and Systems Engineering Electrical and Electronic Engineering Mathematics (miscellaneous) http://dx.doi.org/10.1002/asjc.1594 <jats:title>Abstract</jats:title><jats:p>The aim of this paper is to propose a new design variable speed wind turbine control by discrete‐time sliding mode approach. The control objective is to obtain a maximum extraction of wind energy, while reducing mechanical loads and rotor speed tracking combined with an electromagnetic torque. For this application, we designed a discrete time sliding mode control using the equivalent discrete time reaching law. Furthermore, a systematic and improved design procedure for uncertainties discrete‐time sliding mode control (SMC) with saturation problem is provided in this paper. The saturation constraint is reported on inputs vector. LMI technique and polytopic models are used in the design of the switching surface. To achieve some performance requirements and good robustness, in the sliding mode, the pole clustering method is investigated. Based on the unit vector control approach, a robust control is developed, then, to direct and maintain the system states onto the sliding manifold in finite time. Finally, a systematic design procedure for DSMC required to achieve a given performance level is provided and its effectiveness is varied by applying it to variable speed wind turbine systems.</jats:p> Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model Asian Journal of Control
spellingShingle Zaafouri, Chaker, Torchani, Borhen, Sellami, Anis, Garcia, Germain, Asian Journal of Control, Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model, Control and Systems Engineering, Electrical and Electronic Engineering, Mathematics (miscellaneous)
title Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_full Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_fullStr Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_full_unstemmed Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_short Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
title_sort uncertain saturated discrete‐time sliding mode control for a wind turbine using a two‐mass model
title_unstemmed Uncertain Saturated Discrete‐Time Sliding Mode Control for A Wind Turbine Using A Two‐Mass Model
topic Control and Systems Engineering, Electrical and Electronic Engineering, Mathematics (miscellaneous)
url http://dx.doi.org/10.1002/asjc.1594