Finite-time attitude control for spacecraft with actuator misalignment

Xing Huo; Qinglei Hu; Bing Xiao

Finite-time attitude control for spacecraft with actuator misalignment

Xing Huo, Qinglei Hu, Bing Xiao

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

A novel attitude stabilization control scheme is presented for spacecraft subject to disturbance and actuator misalignment. A sliding-mode based observer is first designed to reconstruct disturbance torque and the torque introduced by actuator misalignment on-line. It is proved by Lyapuonv analysis that precise reconstruction with zero observer error is achieved in finite time. Together with the system states, the reconstructed information is then used to synthesize a nonlinear controller. The closed-loop attitude system is finite-time stable. The attitude and the angular velocity are stabilized in finite time. Simulation results of an application to a spacecraft are presented to demonstrate the effectiveness of the proposed control scheme.

Original language	English
Title of host publication	Proceedings of the 32nd Chinese Control Conference, CCC 2013
Publisher	IEEE Computer Society
Pages	6197-6201
Number of pages	5
ISBN (Print)	9789881563835
State	Published - 18 Oct 2013
Externally published	Yes
Event	32nd Chinese Control Conference, CCC 2013 - Xi'an, China Duration: 26 Jul 2013 → 28 Jul 2013

Publication series

Name	Chinese Control Conference, CCC
ISSN (Print)	1934-1768
ISSN (Electronic)	2161-2927

Conference

Conference	32nd Chinese Control Conference, CCC 2013
Country/Territory	China
City	Xi'an
Period	26/07/13 → 28/07/13

Keywords

actuator misalignment
attitude stabilization
sliding mode observer
Spacecraft

Cite this

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title = "Finite-time attitude control for spacecraft with actuator misalignment",

abstract = "A novel attitude stabilization control scheme is presented for spacecraft subject to disturbance and actuator misalignment. A sliding-mode based observer is first designed to reconstruct disturbance torque and the torque introduced by actuator misalignment on-line. It is proved by Lyapuonv analysis that precise reconstruction with zero observer error is achieved in finite time. Together with the system states, the reconstructed information is then used to synthesize a nonlinear controller. The closed-loop attitude system is finite-time stable. The attitude and the angular velocity are stabilized in finite time. Simulation results of an application to a spacecraft are presented to demonstrate the effectiveness of the proposed control scheme.",

keywords = "actuator misalignment, attitude stabilization, sliding mode observer, Spacecraft",

author = "Xing Huo and Qinglei Hu and Bing Xiao",

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language = "英语",

isbn = "9789881563835",

series = "Chinese Control Conference, CCC",

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T1 - Finite-time attitude control for spacecraft with actuator misalignment

AU - Huo, Xing

AU - Hu, Qinglei

AU - Xiao, Bing

PY - 2013/10/18

Y1 - 2013/10/18

N2 - A novel attitude stabilization control scheme is presented for spacecraft subject to disturbance and actuator misalignment. A sliding-mode based observer is first designed to reconstruct disturbance torque and the torque introduced by actuator misalignment on-line. It is proved by Lyapuonv analysis that precise reconstruction with zero observer error is achieved in finite time. Together with the system states, the reconstructed information is then used to synthesize a nonlinear controller. The closed-loop attitude system is finite-time stable. The attitude and the angular velocity are stabilized in finite time. Simulation results of an application to a spacecraft are presented to demonstrate the effectiveness of the proposed control scheme.

AB - A novel attitude stabilization control scheme is presented for spacecraft subject to disturbance and actuator misalignment. A sliding-mode based observer is first designed to reconstruct disturbance torque and the torque introduced by actuator misalignment on-line. It is proved by Lyapuonv analysis that precise reconstruction with zero observer error is achieved in finite time. Together with the system states, the reconstructed information is then used to synthesize a nonlinear controller. The closed-loop attitude system is finite-time stable. The attitude and the angular velocity are stabilized in finite time. Simulation results of an application to a spacecraft are presented to demonstrate the effectiveness of the proposed control scheme.

KW - actuator misalignment

KW - attitude stabilization

KW - sliding mode observer

KW - Spacecraft

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M3 - 会议稿件

AN - SCOPUS:84890497731

SN - 9789881563835

T3 - Chinese Control Conference, CCC

SP - 6197

EP - 6201

BT - Proceedings of the 32nd Chinese Control Conference, CCC 2013

PB - IEEE Computer Society

T2 - 32nd Chinese Control Conference, CCC 2013

Y2 - 26 July 2013 through 28 July 2013

ER -

Finite-time attitude control for spacecraft with actuator misalignment

Abstract

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Keywords

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