Design of a visual guiding system for IAUV docking

IAUV (Intervention Autonomous Underwater Vehicle) is a main direction for AUV's future development. An important feature for IAUV is the capability of autonomous underwater docking. On this other hand, underwater vision in IAUV is gaining increasing attention nowadays. To achieve a high reliabl...

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Published in2009 International Conference on Mechatronics and Automation pp. 2107 - 2112
Main Authors Xinqian Bian, Xiaojuan Wang, Wei Zhang, Zheping Yan
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.08.2009
Subjects
Basic design
Control systems
Hardware
Intervention AUV
Joining processes
Underwater docking
Underwater vehicles
Vehicle dynamics
Visual guiding
Visual system
Online AccessGet full text
ISBN1424426928
9781424426928
ISSN2152-7431
DOI10.1109/ICMA.2009.5246053

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Abstract IAUV (Intervention Autonomous Underwater Vehicle) is a main direction for AUV's future development. An important feature for IAUV is the capability of autonomous underwater docking. On this other hand, underwater vision in IAUV is gaining increasing attention nowadays. To achieve a high reliable, optimized docking system, a guiding system for docking based on the philosophy of visual dynamic positioning to line was put forward. Approaches of visual ranging and heading measurement were studied and their resolutions were analyzed. Based on this, a scheme for the guiding system's fundamental structure and guiding & control approach were defined attaching priority to the overall reliability. The fundamental hardware selection principles and results were also enclosed. This design course set a ground for further realization of a reliable correct docking system and could act as a reference for other underwater visual system design.
AbstractList IAUV (Intervention Autonomous Underwater Vehicle) is a main direction for AUV's future development. An important feature for IAUV is the capability of autonomous underwater docking. On this other hand, underwater vision in IAUV is gaining increasing attention nowadays. To achieve a high reliable, optimized docking system, a guiding system for docking based on the philosophy of visual dynamic positioning to line was put forward. Approaches of visual ranging and heading measurement were studied and their resolutions were analyzed. Based on this, a scheme for the guiding system's fundamental structure and guiding & control approach were defined attaching priority to the overall reliability. The fundamental hardware selection principles and results were also enclosed. This design course set a ground for further realization of a reliable correct docking system and could act as a reference for other underwater visual system design.
Author Wei Zhang
Zheping Yan
Xinqian Bian
Xiaojuan Wang
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  organization: Dept. of Autom., Harbin Eng. Univ., Harbin, China
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  organization: Dept. of Autom., Harbin Eng. Univ., Harbin, China
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  organization: Dept. of Autom., Harbin Eng. Univ., Harbin, China
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  surname: Zheping Yan
  fullname: Zheping Yan
  organization: Dept. of Autom., Harbin Eng. Univ., Harbin, China
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SubjectTerms Basic design
Control systems
Hardware
Intervention AUV
Joining processes
Underwater docking
Underwater vehicles
Vehicle dynamics
Visual guiding
Visual system
Title Design of a visual guiding system for IAUV docking
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