Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty Model

Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty Model

This paper presents a penalty-based sliding mode control (SMC) law for flexible bar system, which uses shape memory alloy (SMA) as actuator. SMA actuators are lightweight, compact and flexible which facilitate their integration into flexible structures. The proposed control law manipulates SMA curre...

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Main Authors: Najmeh Keshtkar, Sajjad Keshtkar, Alexander Poznyak
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Applied Sciences
Subjects:
sliding mode control
flexible structure
shape memory alloy
Online Access:https://www.mdpi.com/2076-3417/10/2/471
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spelling doaj-16072fe30c864a82a5a901645773a1022020-11-25T02:05:45ZengMDPI AGApplied Sciences2076-34172020-01-0110247110.3390/app10020471app10020471Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty ModelNajmeh Keshtkar0Sajjad Keshtkar1Alexander Poznyak2Department of Automatic Control, CINVESTAV del IPN, Mexico City 07360, MexicoSchool of Engineering and Science, Tecnologico de Monterrey, Tampico 89600, MexicoDepartment of Automatic Control, CINVESTAV del IPN, Mexico City 07360, MexicoThis paper presents a penalty-based sliding mode control (SMC) law for flexible bar system, which uses shape memory alloy (SMA) as actuator. SMA actuators are lightweight, compact and flexible which facilitate their integration into flexible structures. The proposed control law manipulates SMA current to exert the necessary force for deflecting the flexible bar into the desired state. Numerical simulations demonstrate that this new method can control the one-input, multi-output under-actuated system of the flexible bar efficiently. The mathematical model of the flexible system is obtained using physical discretization. The bar is modeled as a combination of rigid rods connected by joints without elasticity and friction. This model demonstrates the flexibility of the system in an effective way. The numerical simulation illustrates the feasibility of the proposed model for analyzing the oscillations of the system and the effectivness of proposed control algorithms.https://www.mdpi.com/2076-3417/10/2/471sliding mode controlflexible structureshape memory alloy
collection DOAJ
language English
format Article
sources DOAJ
author Najmeh Keshtkar
Sajjad Keshtkar
Alexander Poznyak
spellingShingle Najmeh Keshtkar
Sajjad Keshtkar
Alexander Poznyak
Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty Model
Applied Sciences
sliding mode control
flexible structure
shape memory alloy
author_facet Najmeh Keshtkar
Sajjad Keshtkar
Alexander Poznyak
author_sort Najmeh Keshtkar
title Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty Model
title_short Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty Model
title_full Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty Model
title_fullStr Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty Model
title_full_unstemmed Deflection Sliding Mode Control of a Flexible Bar Using a Shape Memory Alloy Actuator with an Uncertainty Model
title_sort deflection sliding mode control of a flexible bar using a shape memory alloy actuator with an uncertainty model
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2020-01-01
description This paper presents a penalty-based sliding mode control (SMC) law for flexible bar system, which uses shape memory alloy (SMA) as actuator. SMA actuators are lightweight, compact and flexible which facilitate their integration into flexible structures. The proposed control law manipulates SMA current to exert the necessary force for deflecting the flexible bar into the desired state. Numerical simulations demonstrate that this new method can control the one-input, multi-output under-actuated system of the flexible bar efficiently. The mathematical model of the flexible system is obtained using physical discretization. The bar is modeled as a combination of rigid rods connected by joints without elasticity and friction. This model demonstrates the flexibility of the system in an effective way. The numerical simulation illustrates the feasibility of the proposed model for analyzing the oscillations of the system and the effectivness of proposed control algorithms.
topic sliding mode control
flexible structure
shape memory alloy
url https://www.mdpi.com/2076-3417/10/2/471
work_keys_str_mv AT najmehkeshtkar deflectionslidingmodecontrolofaflexiblebarusingashapememoryalloyactuatorwithanuncertaintymodel
AT sajjadkeshtkar deflectionslidingmodecontrolofaflexiblebarusingashapememoryalloyactuatorwithanuncertaintymodel
AT alexanderpoznyak deflectionslidingmodecontrolofaflexiblebarusingashapememoryalloyactuatorwithanuncertaintymodel
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