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Hauptverfasser: Bao, Zean, Lu, Maobin, Deng, Fang, Chen, Jie
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2403.12542
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author Bao, Zean
Lu, Maobin
Deng, Fang
Chen, Jie
author_facet Bao, Zean
Lu, Maobin
Deng, Fang
Chen, Jie
contents In this paper, we investigate the attitude tracking problem of uncertain flexible spacecraft systems subject to external disturbances. In sharp contrast to existing results, the dynamics of flexible spacecraft systems and external disturbances are allowed to be unknown. To deal with the challenges by these unknown factors, we develop a class of nonlinear internal models which converts the attitude tracking problem of uncertain flexible spacecraft systems into a regulation problem of an augmented system. Furthermore, to overcome the difficulties caused by the unmeasurable modal variable, the uncertainty introduced by the internal model, and the cross-coupling of the uncertainties with the system state, we design an auxiliary dynamic system for auxiliary stabilization, a dynamic compensator for dynamic compensation, and a linearly parameterized transformation for adaptive regulation in sequence. By introducing a series of coordinate and input transformations, we propose an adaptive dynamic control law to achieve regulation of the augmented system and thus leading to the solution to the attitude tracking problem. In addition, we analyze the convergence issue of the estimated parameter to its true value by the persistently exciting condition. Finally, the effec tiveness of the developed approach is verified by its application to the attitude manoeuvre of a flexible spacecraft system in the presence of external disturbances.
format Preprint
id arxiv_https___arxiv_org_abs_2403_12542
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Attitude Tracking of Uncertain Flexible Spacecraft Systems Subject to Unknown External Disturbances
Bao, Zean
Lu, Maobin
Deng, Fang
Chen, Jie
Optimization and Control
In this paper, we investigate the attitude tracking problem of uncertain flexible spacecraft systems subject to external disturbances. In sharp contrast to existing results, the dynamics of flexible spacecraft systems and external disturbances are allowed to be unknown. To deal with the challenges by these unknown factors, we develop a class of nonlinear internal models which converts the attitude tracking problem of uncertain flexible spacecraft systems into a regulation problem of an augmented system. Furthermore, to overcome the difficulties caused by the unmeasurable modal variable, the uncertainty introduced by the internal model, and the cross-coupling of the uncertainties with the system state, we design an auxiliary dynamic system for auxiliary stabilization, a dynamic compensator for dynamic compensation, and a linearly parameterized transformation for adaptive regulation in sequence. By introducing a series of coordinate and input transformations, we propose an adaptive dynamic control law to achieve regulation of the augmented system and thus leading to the solution to the attitude tracking problem. In addition, we analyze the convergence issue of the estimated parameter to its true value by the persistently exciting condition. Finally, the effec tiveness of the developed approach is verified by its application to the attitude manoeuvre of a flexible spacecraft system in the presence of external disturbances.
title Attitude Tracking of Uncertain Flexible Spacecraft Systems Subject to Unknown External Disturbances
topic Optimization and Control
url https://arxiv.org/abs/2403.12542