Low-Complexity Prescribed Performance Control for Approaching and Tracking a Non-Cooperative Target

Ze Yang Yin; Jian Jun Luo; Cai Sheng Wei; Jian Ping Yuan

doi:10.3873/j.issn.1000-1328.2017.08.010

Low-Complexity Prescribed Performance Control for Approaching and Tracking a Non-Cooperative Target

Ze Yang Yin, Jian Jun Luo, Cai Sheng Wei, Jian Ping Yuan

School of Astronautics

Northwestern Polytechnical University Xian

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

11 Scopus citations

Abstract

A low-complexity prescribed performance control (LCPPC) method on basis of the prescribed performance control theory is proposed in this paper for a chasing spacecraft approaching and tracking a non-cooperative target spacecraft. Any information of the system parameters, including the mass and inertia matrix of the chasing and target spacecraft, is unnecessary. Moreover, the transient performance as well as the steady performance of the system can be prescribed and guaranteed despite the external disturbance, parameter uncertainties and unknown non-cooperative target's maneuver. The simulation results show that the high precision real-time control is realized for approaching and tracking the non-cooperative target in a line-of-sight coordinate system.

Original language	English
Pages (from-to)	855-864
Number of pages	10
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	38
Issue number	8
DOIs	https://doi.org/10.3873/j.issn.1000-1328.2017.08.010
State	Published - 30 Aug 2017

Keywords

Low-complexity
Model-free
Non-cooperative target
Prescribed performance control
Robust control

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10.3873/j.issn.1000-1328.2017.08.010

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title = "Low-Complexity Prescribed Performance Control for Approaching and Tracking a Non-Cooperative Target",

abstract = "A low-complexity prescribed performance control (LCPPC) method on basis of the prescribed performance control theory is proposed in this paper for a chasing spacecraft approaching and tracking a non-cooperative target spacecraft. Any information of the system parameters, including the mass and inertia matrix of the chasing and target spacecraft, is unnecessary. Moreover, the transient performance as well as the steady performance of the system can be prescribed and guaranteed despite the external disturbance, parameter uncertainties and unknown non-cooperative target's maneuver. The simulation results show that the high precision real-time control is realized for approaching and tracking the non-cooperative target in a line-of-sight coordinate system.",

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AU - Yin, Ze Yang

AU - Luo, Jian Jun

AU - Wei, Cai Sheng

AU - Yuan, Jian Ping

PY - 2017/8/30

Y1 - 2017/8/30

N2 - A low-complexity prescribed performance control (LCPPC) method on basis of the prescribed performance control theory is proposed in this paper for a chasing spacecraft approaching and tracking a non-cooperative target spacecraft. Any information of the system parameters, including the mass and inertia matrix of the chasing and target spacecraft, is unnecessary. Moreover, the transient performance as well as the steady performance of the system can be prescribed and guaranteed despite the external disturbance, parameter uncertainties and unknown non-cooperative target's maneuver. The simulation results show that the high precision real-time control is realized for approaching and tracking the non-cooperative target in a line-of-sight coordinate system.

AB - A low-complexity prescribed performance control (LCPPC) method on basis of the prescribed performance control theory is proposed in this paper for a chasing spacecraft approaching and tracking a non-cooperative target spacecraft. Any information of the system parameters, including the mass and inertia matrix of the chasing and target spacecraft, is unnecessary. Moreover, the transient performance as well as the steady performance of the system can be prescribed and guaranteed despite the external disturbance, parameter uncertainties and unknown non-cooperative target's maneuver. The simulation results show that the high precision real-time control is realized for approaching and tracking the non-cooperative target in a line-of-sight coordinate system.

KW - Low-complexity

KW - Model-free

KW - Non-cooperative target

KW - Prescribed performance control

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Low-Complexity Prescribed Performance Control for Approaching and Tracking a Non-Cooperative Target

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