Finite-Time Attitude Tracking of Spacecraft With Fault-Tolerant Capability

Bing Xiao; Qinglei Hu; Youmin Zhang

doi:10.1109/TCST.2014.2364124

Finite-Time Attitude Tracking of Spacecraft With Fault-Tolerant Capability

Bing Xiao, Qinglei Hu, Youmin Zhang

Research output: Contribution to journal › Article › peer-review

117 Scopus citations

Abstract

A finite-time attitude tracking control scheme is presented for rigid spacecraft subject to constant but unknown inertia and external disturbances. The controller, developed using sliding mode control technique, has great fault-tolerant capability to accommodate four types of actuator faults. Different from most of the existing works on attitude fault-tolerant control (FTC), the developed controller guarantees the desired attitude to be followed in finite time, which is critical for FTC systems. Moreover, the convergence time is an explicit parameter for designer's choice. Thus, the controller design simply meets the finite-time requirement. The attitude-tracking performance is evaluated through a numerical example.

Original language	English
Article number	6948343
Pages (from-to)	1338-1350
Number of pages	13
Journal	IEEE Transactions on Control Systems Technology
Volume	23
Issue number	4
DOIs	https://doi.org/10.1109/TCST.2014.2364124
State	Published - 1 Jul 2015
Externally published	Yes

Keywords

Attitude tracking
fault-tolerant control (FTC)
finite-time
sliding mode control (SMC)
spacecraft

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10.1109/TCST.2014.2364124

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title = "Finite-Time Attitude Tracking of Spacecraft With Fault-Tolerant Capability",

abstract = "A finite-time attitude tracking control scheme is presented for rigid spacecraft subject to constant but unknown inertia and external disturbances. The controller, developed using sliding mode control technique, has great fault-tolerant capability to accommodate four types of actuator faults. Different from most of the existing works on attitude fault-tolerant control (FTC), the developed controller guarantees the desired attitude to be followed in finite time, which is critical for FTC systems. Moreover, the convergence time is an explicit parameter for designer's choice. Thus, the controller design simply meets the finite-time requirement. The attitude-tracking performance is evaluated through a numerical example.",

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N2 - A finite-time attitude tracking control scheme is presented for rigid spacecraft subject to constant but unknown inertia and external disturbances. The controller, developed using sliding mode control technique, has great fault-tolerant capability to accommodate four types of actuator faults. Different from most of the existing works on attitude fault-tolerant control (FTC), the developed controller guarantees the desired attitude to be followed in finite time, which is critical for FTC systems. Moreover, the convergence time is an explicit parameter for designer's choice. Thus, the controller design simply meets the finite-time requirement. The attitude-tracking performance is evaluated through a numerical example.

AB - A finite-time attitude tracking control scheme is presented for rigid spacecraft subject to constant but unknown inertia and external disturbances. The controller, developed using sliding mode control technique, has great fault-tolerant capability to accommodate four types of actuator faults. Different from most of the existing works on attitude fault-tolerant control (FTC), the developed controller guarantees the desired attitude to be followed in finite time, which is critical for FTC systems. Moreover, the convergence time is an explicit parameter for designer's choice. Thus, the controller design simply meets the finite-time requirement. The attitude-tracking performance is evaluated through a numerical example.

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Finite-Time Attitude Tracking of Spacecraft With Fault-Tolerant Capability

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Keywords

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