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Vision-Based Autonomous Hovering for the Biomimetic Underwater Robot—RobCutt-II

Rui Wang, Shuo Wang, Yu Wang, Min Tan

Year
2018
Citations
43

Abstract

This paper aims to investigate the method of autonomous hovering control for the biomimetic underwater robot named RobCutt-II. First, a modular configuration for mimicry of undulatory propulsion is presented, followed by a coordinated control of dual fins for enhancing the maneuverability and stability of the RobCutt-II. Then the vision-based hovering problem is formulated. A dual-loop hovering control framework integrating an image processing module, a tracking differentiator, a hovering controller, a velocity controller, and a fuzzy-based control allocation module is proposed to govern the locomotion of the RobCutt-II. Finally, simulations and experimental results demonstrate the effectiveness of the proposed mechanical design and control methods.

Keywords

RobotModular designControl engineeringDifferentiatorControl theory (sociology)Controller (irrigation)UnderwaterBionicsEngineeringFuzzy control system

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