Xuanyin Wang scite author profile

This paper concerns the problem of dynamic parameter identification of robot manipulators and proposes a closed-loop identification procedure using modified Fourier series (MFS) as exciting trajectories. First, a static continuous friction model is involved to model joint friction for realizable friction compensation in controller design. Second, MFS satisfying the boundary conditions are firstly designed as periodic exciting trajectories. To minimize the sensitivity to measurement noise, the coefficients of MFS are optimized according to the condition number criterion. Moreover, to obtain accurate parameter estimates, the maximum likelihood estimation (MLE) method considering the influence of measurement noise is adopted. The proposed identification procedure has been implemented on the first three axes of the QIANJIANG-I 6-DOF robot manipulator. Experiment results verify the effectiveness of the proposed approach, and comparison between identification using MFS and that using finite Fourier series (FFS) reveals that the proposed method achieves better identification accuracy.

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Observer-based cascade control of a 6-DOF parallel hydraulic manipulator in joint space coordinate

Wang

2010

Mechatronics

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Exergy analysis on throttle reduction efficiency based on real gas equations

Luo

Wang

2010

Energy

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Design and Kinematic Analysis of a Novel Humanoid Robot Eye Using Pneumatic Artificial Muscles

Wang

Zhang

et al. 2008

J Bionic Eng

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Xuanyin Wang

Trajectory tracking control of a 6-DOF hydraulic parallel robot manipulator with uncertain load disturbances

Closed-Loop Dynamic Parameter Identification of Robot Manipulators Using Modified Fourier Series

Observer-based cascade control of a 6-DOF parallel hydraulic manipulator in joint space coordinate

Exergy analysis on throttle reduction efficiency based on real gas equations

Design and Kinematic Analysis of a Novel Humanoid Robot Eye Using Pneumatic Artificial Muscles

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