Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft

Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft

The three-axis attitude tracking manoeuvre and vibration suppression of a flexible spacecraft in the presence of external disturbances are investigated in this paper. The spacecraft consists of a rigid hub and two flexible appendages. The Euler–Bernoulli beam theory is used to model the flexible par...

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Main Authors: Reza Nadafi, Mansour Kabganian, Ali Kamali, Mahboobeh Hossein Nejad
Format: Article
Language:English
Published: SAGE Publishing 2019-09-01
Series:Measurement + Control
Online Access:https://doi.org/10.1177/0020294019847696
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spelling doaj-cad8c05e893b4d8fa6e6fd0d2ab3b3fc2020-11-25T03:52:30ZengSAGE PublishingMeasurement + Control0020-29402019-09-015210.1177/0020294019847696Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraftReza Nadafi0Mansour Kabganian1Ali Kamali2Mahboobeh Hossein Nejad3Institute of Space Science and Technology, Amirkabir University of Technology, Tehran, IranDepartment of Mechanical Engineering, Amirkabir University of Technology, Tehran, IranDepartment of Mechanical Engineering, Amirkabir University of Technology, Tehran, IranDepartment of Mechanical Engineering, Amirkabir University of Technology, Tehran, IranThe three-axis attitude tracking manoeuvre and vibration suppression of a flexible spacecraft in the presence of external disturbances are investigated in this paper. The spacecraft consists of a rigid hub and two flexible appendages. The Euler–Bernoulli beam theory is used to model the flexible parts. The attitude dynamic equations of motion are derived using the law of conservation of angular momentum, and the flexural equations are derived. The attitude of the spacecraft is represented using the quaternion parameters. The controller is designed based on the super-twisting sliding mode control. The sliding surfaces are introduced and the global asymptotic stability of the flexible spacecraft on the sliding surfaces is assured via Lyapunov method. The control law is designed such that the sliding condition is satisfied and the system reaches the sliding surfaces in finite time. The simulation results verify the performance of the controller in the presence of bounded disturbances, sensor noises and abrupt changes in parameters.https://doi.org/10.1177/0020294019847696
collection DOAJ
language English
format Article
sources DOAJ
author Reza Nadafi
Mansour Kabganian
Ali Kamali
Mahboobeh Hossein Nejad
spellingShingle Reza Nadafi
Mansour Kabganian
Ali Kamali
Mahboobeh Hossein Nejad
Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft
Measurement + Control
author_facet Reza Nadafi
Mansour Kabganian
Ali Kamali
Mahboobeh Hossein Nejad
author_sort Reza Nadafi
title Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft
title_short Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft
title_full Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft
title_fullStr Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft
title_full_unstemmed Super-twisting sliding mode control design based on Lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft
title_sort super-twisting sliding mode control design based on lyapunov criteria for attitude tracking control and vibration suppression of a flexible spacecraft
publisher SAGE Publishing
series Measurement + Control
issn 0020-2940
publishDate 2019-09-01
description The three-axis attitude tracking manoeuvre and vibration suppression of a flexible spacecraft in the presence of external disturbances are investigated in this paper. The spacecraft consists of a rigid hub and two flexible appendages. The Euler–Bernoulli beam theory is used to model the flexible parts. The attitude dynamic equations of motion are derived using the law of conservation of angular momentum, and the flexural equations are derived. The attitude of the spacecraft is represented using the quaternion parameters. The controller is designed based on the super-twisting sliding mode control. The sliding surfaces are introduced and the global asymptotic stability of the flexible spacecraft on the sliding surfaces is assured via Lyapunov method. The control law is designed such that the sliding condition is satisfied and the system reaches the sliding surfaces in finite time. The simulation results verify the performance of the controller in the presence of bounded disturbances, sensor noises and abrupt changes in parameters.
url https://doi.org/10.1177/0020294019847696
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AT mansourkabganian supertwistingslidingmodecontroldesignbasedonlyapunovcriteriaforattitudetrackingcontrolandvibrationsuppressionofaflexiblespacecraft
AT alikamali supertwistingslidingmodecontroldesignbasedonlyapunovcriteriaforattitudetrackingcontrolandvibrationsuppressionofaflexiblespacecraft
AT mahboobehhosseinnejad supertwistingslidingmodecontroldesignbasedonlyapunovcriteriaforattitudetrackingcontrolandvibrationsuppressionofaflexiblespacecraft
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