End-Effector Trajectory Tracking Control of Space Robot with L 2 Gain Performance

Haibo Zhang; Dayi Wang; Chunling Wei; Bing Xiao

doi:10.1155/2015/175342

End-Effector Trajectory Tracking Control of Space Robot with L 2 Gain Performance

Haibo Zhang, Dayi Wang, Chunling Wei, Bing Xiao

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

6 Scopus citations

Abstract

This paper presents a novel solution to the control problem of end-effector robust trajectory tracking for space robot. External disturbance and system uncertainties are addressed. For the considered robot operating in free-floating mode, a Chebyshev neural network is introduced to estimate system uncertainties and external disturbances. An adaptive controller is then proposed. The closed-loop system is guaranteed to be ultimately uniformly bounded. The key feature of this proposed approach is that, by choosing appropriate control gains, it can achieve any given small level of L 2 gain disturbance attenuation from external disturbance to system output. The tracking performance is evaluated through a numerical example.

Original language	English
Article number	175342
Journal	Mathematical Problems in Engineering
Volume	2015
DOIs	https://doi.org/10.1155/2015/175342
State	Published - 2015
Externally published	Yes

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title = "End-Effector Trajectory Tracking Control of Space Robot with L 2 Gain Performance",

abstract = "This paper presents a novel solution to the control problem of end-effector robust trajectory tracking for space robot. External disturbance and system uncertainties are addressed. For the considered robot operating in free-floating mode, a Chebyshev neural network is introduced to estimate system uncertainties and external disturbances. An adaptive controller is then proposed. The closed-loop system is guaranteed to be ultimately uniformly bounded. The key feature of this proposed approach is that, by choosing appropriate control gains, it can achieve any given small level of L 2 gain disturbance attenuation from external disturbance to system output. The tracking performance is evaluated through a numerical example.",

author = "Haibo Zhang and Dayi Wang and Chunling Wei and Bing Xiao",

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AU - Wei, Chunling

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AB - This paper presents a novel solution to the control problem of end-effector robust trajectory tracking for space robot. External disturbance and system uncertainties are addressed. For the considered robot operating in free-floating mode, a Chebyshev neural network is introduced to estimate system uncertainties and external disturbances. An adaptive controller is then proposed. The closed-loop system is guaranteed to be ultimately uniformly bounded. The key feature of this proposed approach is that, by choosing appropriate control gains, it can achieve any given small level of L 2 gain disturbance attenuation from external disturbance to system output. The tracking performance is evaluated through a numerical example.

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JO - Mathematical Problems in Engineering

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End-Effector Trajectory Tracking Control of Space Robot with L 2 Gain Performance

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