基于T-S模糊干扰建模的挠性卫星自适应滑模容错姿态控制

Adaptive sliding mode fault-tolerant attitude control for flexible satellites based on T-S fuzzy disturbance modeling.

作者信息

Hang Bin, Su Beibei, Deng Weiwei

机构信息

School of Automation, Northwestern Polytechnical University, Xi'an 710072, China.

Wuxi Vocational College of Science and Technology, Wuxi 214111, China.

出版信息

Math Biosci Eng. 2023 May 30;20(7):12700-12717. doi: 10.3934/mbe.2023566.

DOI:10.3934/mbe.2023566

PMID:37501462

Abstract

This paper investigates the fault tolerance problem of flexible satellites subject to actuator faults and multiple disturbances. An adaptive sliding mode fault tolerant control (ASMFTC) approach based on Takagi-Sugeno (T-S) fuzzy disturbance observer (TSFDO) is presented for attitude control system (ACS) under loss of actuator effectiveness, environmental disturbance torque and elastic modal generated by flexible appendages. Compared with the traditional disturbance observer based control (DOBC) methods, the T-S fuzzy technology is applied to estimate the unknown nonlinear elastic modal. Then, the energy bounded disturbance is eliminated by designing an adaptive sliding mode controller. The proposed ASMFTC design can guarantee the sliding surface to approach zero. Finally, the effectiveness of the control method proposed in this paper is further verified by comparative simulation.

摘要

本文研究了受执行器故障和多重干扰影响的挠性卫星的容错问题。针对执行器失效、环境干扰力矩和挠性附件产生的弹性模态作用下的姿态控制系统（ACS），提出了一种基于Takagi-Sugeno（T-S）模糊干扰观测器（TSFDO）的自适应滑模容错控制（ASMFTC）方法。与传统的基于干扰观测器的控制（DOBC）方法相比，采用T-S模糊技术来估计未知的非线性弹性模态。然后，通过设计自适应滑模控制器消除能量有界干扰。所提出的ASMFTC设计能够保证滑模面趋近于零。最后，通过对比仿真进一步验证了本文所提控制方法的有效性。

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基于T-S模糊干扰建模的挠性卫星自适应滑模容错姿态控制

Adaptive sliding mode fault-tolerant attitude control for flexible satellites based on T-S fuzzy disturbance modeling.

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