Attitude Exponential Stabilization Control of Rigid Bodies via Disturbance Observer

Bing Xiao; Lu Cao; Dechao Ran

doi:10.1109/TSMC.2019.2916839

Attitude Exponential Stabilization Control of Rigid Bodies via Disturbance Observer

Bing Xiao, Lu Cao, Dechao Ran

School of Automation

Academy of Military Medical Science China

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

26 Scopus citations

Abstract

The attitude stabilization problem of rigid bodies with external disturbance is studied. A novel disturbance observer-based control scheme is presented. Comparing with the existing observers for external disturbance, the proposed observer releases the assumption that the external disturbance should be constant or with the minor rate of change. The closed-loop attitude stabilization system is governed by the controller to be exponentially stable with disturbance rejected. The observer error of disturbance, the attitude, and the angular velocity are exponentially stabilized to be zero or within a small set with an arbitrary radius. The key feature of this scheme is that it ensures the control performance to be more robust to any external disturbance. The controller has a simple structure and does not involve complicated computation. The effectiveness of the presented solution is validated by a rigid satellite example.

Original language	English
Article number	8730525
Pages (from-to)	2751-2759
Number of pages	9
Journal	IEEE Transactions on Systems, Man, and Cybernetics: Systems
Volume	51
Issue number	5
DOIs	https://doi.org/10.1109/TSMC.2019.2916839
State	Published - May 2021

Keywords

Attitude stabilization
disturbance observer (DO)
exponential stability
rigid bodies

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10.1109/TSMC.2019.2916839

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title = "Attitude Exponential Stabilization Control of Rigid Bodies via Disturbance Observer",

abstract = "The attitude stabilization problem of rigid bodies with external disturbance is studied. A novel disturbance observer-based control scheme is presented. Comparing with the existing observers for external disturbance, the proposed observer releases the assumption that the external disturbance should be constant or with the minor rate of change. The closed-loop attitude stabilization system is governed by the controller to be exponentially stable with disturbance rejected. The observer error of disturbance, the attitude, and the angular velocity are exponentially stabilized to be zero or within a small set with an arbitrary radius. The key feature of this scheme is that it ensures the control performance to be more robust to any external disturbance. The controller has a simple structure and does not involve complicated computation. The effectiveness of the presented solution is validated by a rigid satellite example.",

keywords = "Attitude stabilization, disturbance observer (DO), exponential stability, rigid bodies",

author = "Bing Xiao and Lu Cao and Dechao Ran",

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T1 - Attitude Exponential Stabilization Control of Rigid Bodies via Disturbance Observer

AU - Xiao, Bing

AU - Cao, Lu

AU - Ran, Dechao

PY - 2021/5

Y1 - 2021/5

N2 - The attitude stabilization problem of rigid bodies with external disturbance is studied. A novel disturbance observer-based control scheme is presented. Comparing with the existing observers for external disturbance, the proposed observer releases the assumption that the external disturbance should be constant or with the minor rate of change. The closed-loop attitude stabilization system is governed by the controller to be exponentially stable with disturbance rejected. The observer error of disturbance, the attitude, and the angular velocity are exponentially stabilized to be zero or within a small set with an arbitrary radius. The key feature of this scheme is that it ensures the control performance to be more robust to any external disturbance. The controller has a simple structure and does not involve complicated computation. The effectiveness of the presented solution is validated by a rigid satellite example.

AB - The attitude stabilization problem of rigid bodies with external disturbance is studied. A novel disturbance observer-based control scheme is presented. Comparing with the existing observers for external disturbance, the proposed observer releases the assumption that the external disturbance should be constant or with the minor rate of change. The closed-loop attitude stabilization system is governed by the controller to be exponentially stable with disturbance rejected. The observer error of disturbance, the attitude, and the angular velocity are exponentially stabilized to be zero or within a small set with an arbitrary radius. The key feature of this scheme is that it ensures the control performance to be more robust to any external disturbance. The controller has a simple structure and does not involve complicated computation. The effectiveness of the presented solution is validated by a rigid satellite example.

KW - Attitude stabilization

KW - disturbance observer (DO)

KW - exponential stability

KW - rigid bodies

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SN - 2168-2216

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JO - IEEE Transactions on Systems, Man, and Cybernetics: Systems

JF - IEEE Transactions on Systems, Man, and Cybernetics: Systems

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Attitude Exponential Stabilization Control of Rigid Bodies via Disturbance Observer

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