Nonlinear underwater robot controller design with adaptive disturbance prediction

Xin Songa; Fang Liue; ZaoJian Zoub; Yue-Min Zhuc; JianChuan Yinb; Feng Xub

doi:10.2991/ijcis.2011.4.4.19

International Journal of Computational Intelligence Systems (Aug 2011)

Nonlinear underwater robot controller design with adaptive disturbance prediction

Xin Songa,
Fang Liue,
ZaoJian Zoub,
Yue-Min Zhuc,
JianChuan Yinb,
Feng Xub

Affiliations

Xin Songa
Fang Liue
ZaoJian Zoub
Yue-Min Zhuc
JianChuan Yinb
Feng Xub

DOI: https://doi.org/10.2991/ijcis.2011.4.4.19
Journal volume & issue: Vol. 4, no. 4

Abstract

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A new hybrid adaptive control algorithm is proposed for the nonlinear system controller design of underwater robot. Compared with the previous works in the controller design of underwater robot, the main advantages of this work are: (1) A new disturbance prediction and compensation model is proposed; (2) A new adaptive fuzzy smoother is proposed for the control input; (3) A time-varying flow disturbance is considered for the control design which is always neglected in many previous works and several practical experiments under different environment were implemented to verify the control performance. The Lyapunov stability theory proves the stability and convergence of this new control system. Simulation and experiment results demonstrate the performance and the effectiveness of this new algorithm.

adaptive control; fuzzy sliding mode; underwater robot; disturbance prediction; compensation

Published in International Journal of Computational Intelligence Systems

ISSN: 1875-6891 (Print); 1875-6883 (Online)
Publisher: Springer
Country of publisher: Switzerland
LCC subjects: Science: Mathematics: Instruments and machines: Electronic computers. Computer science
Website: https://www.springer.com/journal/44196

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