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International Journal of Control Volume 80, 2007 - Issue 7: Navigation, guidance and control of uninhabited underwater vehicles
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Original Articles

A controller design for autonomous underwater vehicle “MR-X1” using linear matrix inequalities

Y. Nasuno Department of Marine System Engineering, Graduate School of Tokyo University of Marine Science and Technology, Tokyo, 135-8533, JapanCorrespondence[email protected]
,
E. Shimizu Department of Marine Electronics and Mechanical Engineering, Tokyo University of Marine Science and Technology, Tokyo, 135-8533, Japan
,
M. Ito Department of Marine Electronics and Mechanical Engineering, Tokyo University of Marine Science and Technology, Tokyo, 135-8533, Japan
,
I. Yamamoto Japan Agency for Marine-Earth Science and Technology, Kanagawa, Japan
,
S. Tsukioka Japan Agency for Marine-Earth Science and Technology, Kanagawa, Japan
,
H. Yoshida Japan Agency for Marine-Earth Science and Technology, Kanagawa, Japan
,
T. Hyakudome Japan Agency for Marine-Earth Science and Technology, Kanagawa, Japan
,
S. Ishibashi Japan Agency for Marine-Earth Science and Technology, Kanagawa, Japan
&
T. Aoki Japan Agency for Marine-Earth Science and Technology, Kanagawa, Japan
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Pages 1125-1135 | Received 11 May 2006, Accepted 14 Feb 2007, Published online: 22 Dec 2008
 
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Abstract

The Independent Administrative Corporation Japan Agency for Marine-Earth Science and Technology (JAMSTEC) has been developing light-and-small autonomous underwater vehicles (AUV), named “Marine Robot Experimental 1” (“MR-X1”). In this paper, the motion control problem of “MR-X1” is considered. Since the dynamics of “MR-X1” depends upon its own speed, the problem in question becomes a non-linear control problem. A new controller design method using linear matrix inequalities (LMIs) is proposed in order to adapt the problem in question. The algorithm, which gives a solution of a linear matrix inequality (LMI), can adapt to solve numerous LMIs simultaneously. LMIs can be obtained by substituting several speeds into the dynamics of “MR-X1”. The proposed controller, which can be derived from the solution of LMIs, becomes a stabilizing controller for all substituted speeds.

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