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Main Authors: Lei, Jiakun, Meng, Tao, Wang, Kun, Wang, Weijia, Sun, Shujian, Wang, Lei
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2305.19645
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_version_ 1866909105507008512
author Lei, Jiakun
Meng, Tao
Wang, Kun
Wang, Weijia
Sun, Shujian
Wang, Lei
author_facet Lei, Jiakun
Meng, Tao
Wang, Kun
Wang, Weijia
Sun, Shujian
Wang, Lei
contents This paper investigates the boresight alignment control problem under safety constraints and performance requirements, involving pointing-forbidden constraint, attitude angular velocity limitation, and pointing accuracy requirement. Meanwhile, the parameter uncertainty issue is taken into account simultaneously. To address this problem, we propose a modified composite framework integrating the Artificial Potential Field (APF) methodology and the Prescribed Performance Control (PPC) scheme. The APF scheme ensures safety, while the PPC scheme is employed to realize an accuracy-guaranteed control. A Switched Prescribed Performance Function (SPPF) is proposed to facilitate the integration, which monitors various constraints and further establishes compatibility between safety and performance concerns by leveraging a special PPC freezing mechanism. To further address the parameter uncertainty, we introduce the Immersion-and-Invariance (I\&I) adaptive control technique to derive an adaptive APF-PPC composite controller, further guaranteeing the closed-loop system's asymptotic convergence. Finally, numerical simulations are carried out to validate the effectiveness of the proposed scheme.
format Preprint
id arxiv_https___arxiv_org_abs_2305_19645
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Adaptive Reduced-Attitude Control for Spacecraft Boresight Alignment with Safety Constraints and Accuracy Requirements
Lei, Jiakun
Meng, Tao
Wang, Kun
Wang, Weijia
Sun, Shujian
Wang, Lei
Systems and Control
This paper investigates the boresight alignment control problem under safety constraints and performance requirements, involving pointing-forbidden constraint, attitude angular velocity limitation, and pointing accuracy requirement. Meanwhile, the parameter uncertainty issue is taken into account simultaneously. To address this problem, we propose a modified composite framework integrating the Artificial Potential Field (APF) methodology and the Prescribed Performance Control (PPC) scheme. The APF scheme ensures safety, while the PPC scheme is employed to realize an accuracy-guaranteed control. A Switched Prescribed Performance Function (SPPF) is proposed to facilitate the integration, which monitors various constraints and further establishes compatibility between safety and performance concerns by leveraging a special PPC freezing mechanism. To further address the parameter uncertainty, we introduce the Immersion-and-Invariance (I\&I) adaptive control technique to derive an adaptive APF-PPC composite controller, further guaranteeing the closed-loop system's asymptotic convergence. Finally, numerical simulations are carried out to validate the effectiveness of the proposed scheme.
title Adaptive Reduced-Attitude Control for Spacecraft Boresight Alignment with Safety Constraints and Accuracy Requirements
topic Systems and Control
url https://arxiv.org/abs/2305.19645