Real-Time Validation of Intelligent Super-Twisting Sliding Mode Control for Variable-Speed DFIG Using dSPACE 1104 Board

The super-twisting sliding mode controller (STSMC) is considered one of the simplest and easiest to implement nonlinear controls, as it can be easily applied in industrial systems. Using this controller leads to reducing the phenomenon of chatter and significantly increasing the durability of the sy...

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Published in	IEEE access Vol. 12; pp. 31892 - 31915
Main Authors	Yessef, Mourad, Benbouhenni, Habib, Taoussi, Mohammed, Lagrioui, Ahmed, Colak, Ilhami, Mobayen, Saleh, Zhilenkov, Anton, Bossoufi, Badre
Format	Journal Article
Language	English
Published	Piscataway IEEE 2024 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Controllers Costs Doubly fed induction generators doubly-feed induction generator dSPACE 1104 Card Durability Generators Induction generators Neural algorithms Neural networks Nonlinear control Power control Production Pulse duration modulation Sliding mode control super-twisting-direct power command Twisting Wind energy generation Wind speed Wind turbines
Online Access	Get full text
ISSN	2169-3536 2169-3536
DOI	10.1109/ACCESS.2024.3367828

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Abstract	The super-twisting sliding mode controller (STSMC) is considered one of the simplest and easiest to implement nonlinear controls, as it can be easily applied in industrial systems. Using this controller leads to reducing the phenomenon of chatter and significantly increasing the durability of the systems. However, this controller has several drawbacks and problems, as its use does not lead to improving the systems as required. In this study, an idea has been proposed based on the use of neural networks in order to overcome the defects and problems of the STSMC strategy. This proposed strategy is used to increase the durability and improve the characteristics of an energy system based on wind turbines using a dual induction generator. The latter is controlled by direct power control (DPC). The proposed controller was used to control energies, where the pulse width modulation strategy was used to convert voltage reference values into pulses to operate the rotor side converter. Therefore, simplicity, durability, outstanding performance, ease of implementation, few gains, and low cost are among the most prominent features of the proposed intelligent STSMC technique and control. The MATLAB environment was used first to implement the proposed energy system under different working conditions using variable wind speed, where the proposed controller was compared with the performance of the STSMC technique. The proposed intelligent STSMC technique was implemented experimentally using the dSPACE 1104 Card to verify the performance and the validity of the simulated results. The experimental results show the effectiveness and ability of the proposed controller to improve the characteristics of the DPC strategy and the energy system as a whole.
AbstractList	The super-twisting sliding mode controller (STSMC) is considered one of the simplest and easiest to implement nonlinear controls, as it can be easily applied in industrial systems. Using this controller leads to reducing the phenomenon of chatter and significantly increasing the durability of the systems. However, this controller has several drawbacks and problems, as its use does not lead to improving the systems as required. In this study, an idea has been proposed based on the use of neural networks in order to overcome the defects and problems of the STSMC strategy. This proposed strategy is used to increase the durability and improve the characteristics of an energy system based on wind turbines using a dual induction generator. The latter is controlled by direct power control (DPC). The proposed controller was used to control energies, where the pulse width modulation strategy was used to convert voltage reference values into pulses to operate the rotor side converter. Therefore, simplicity, durability, outstanding performance, ease of implementation, few gains, and low cost are among the most prominent features of the proposed intelligent STSMC technique and control. The MATLAB environment was used first to implement the proposed energy system under different working conditions using variable wind speed, where the proposed controller was compared with the performance of the STSMC technique. The proposed intelligent STSMC technique was implemented experimentally using the dSPACE 1104 Card to verify the performance and the validity of the simulated results. The experimental results show the effectiveness and ability of the proposed controller to improve the characteristics of the DPC strategy and the energy system as a whole.
Author	Taoussi, Mohammed Yessef, Mourad Bossoufi, Badre Zhilenkov, Anton Colak, Ilhami Benbouhenni, Habib Lagrioui, Ahmed Mobayen, Saleh
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Snippet	The super-twisting sliding mode controller (STSMC) is considered one of the simplest and easiest to implement nonlinear controls, as it can be easily applied...
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StartPage	31892
SubjectTerms	Controllers Costs Doubly fed induction generators doubly-feed induction generator dSPACE 1104 Card Durability Generators Induction generators Neural algorithms Neural networks Nonlinear control Power control Production Pulse duration modulation Sliding mode control super-twisting-direct power command Twisting Wind energy generation Wind speed Wind turbines
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Title	Real-Time Validation of Intelligent Super-Twisting Sliding Mode Control for Variable-Speed DFIG Using dSPACE 1104 Board
URI	https://ieeexplore.ieee.org/document/10440332 https://www.proquest.com/docview/2938005846 https://doi.org/10.1109/access.2024.3367828 https://doaj.org/article/2815589d71ca46c290400c08957814cc
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