Development of a stable localized visual inspection system for underwater structures |
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| Authors: | Yang Yang Shigeo Hirose Paulo Debenest Michele Guarnieri Norimitsu Izumi Koichi Suzumori |
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| Affiliation: | 1. Department of Mechanical and Aerospace Engineering, Tokyo Institute of Technology, Tokyo, Japan.;2. HiBot Corporation, Tokyo, Japan.;3. CTI Engineering Company Limited, Tokyo, Japan. |
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| Abstract: | To avert potential crisis from Japan’s aging infrastructure and declining birth rate, the Japanese Government is planning to introduce robotic technology for the inspection of social infrastructure (such as pipes, dams, and bridges). Recording underwater positions is a difficult task for human divers who undertake conventional dam inspections. This study presents the Anchor Diver 5.2 system for efficient and effectual dam inspection. Anchor Diver 5.2 is based on an extended-tether-maneuvered remotely operated vehicle (ROV) equipped with cameras. The ROV is lowered into water by a hoist system from a boat and implements a visual survey of the concrete underwater structure. To improve the visibility of the ROV in murky and cloudy water, a novel concept named Water Loupe is proposed. In addition, a simple boat-fixing method is proposed to provide a stable base on the water surface, and the underwater position of the ROV, which cannot be accessed by global positioning systems, is recorded using a feasible localization method. Finally, the developed system was evaluated in field experiments conducted in the Amagase Dam, Japan, and its merits and problems are discussed. |
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| Keywords: | Visual survey dam inspection infrastructure inspection extended-tether-maneuvered ROV underwater localization |
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