Compensating of Added Mass Terms in Dynamically Positioned Surface Vehicles: a Continuous Robust Control Approach
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Open Access Color
BRONZE
Green Open Access
Yes
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No
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Top 10%
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Abstract
In this work, we provide a tracking controller formulation for dynamically positioned surface vessels with an asymmetric added mass terms that affects the overall system dynamics at the acceleration level. Specifically a novel continuous robust controller is proposed for surface vessels that in addition to unstructured uncertainties in its dynamics, contains added mass effects in its inertia matrix. The proposed controller compensates the overall system uncertainties while ensuring asymptotic tracking by utilizing the knowledge of the leading principal minors of the input gain matrix. Stability of the closed–loop system and asymptotic convergence are proven via Lyapunov based approaches. Simulation studies are also presented to illustrate the viability of the proposed method
Description
Fields of Science
0209 industrial biotechnology, 0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology
Citation
Bıdıklı, B., Tatlıcıoğlu, E., and Zergeroğlu, E. (2017). Compensating of added mass terms in dynamically positioned surface vehicles: A continuous robust control approach. Ocean Engineering, 139, 198-198. doi:10.1016/j.oceaneng.2017.05.002
WoS Q
Q1
Scopus Q
Q1
OpenCitations Citation Count
12
Source
Ocean Engineering
Volume
139
Issue
Start Page
198
End Page
204
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CrossRef : 2
Scopus : 15
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Mendeley Readers : 8
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15
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Web of Science™ Citations
14
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964
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Downloads
399
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