Title :
Control performance in the horizontal plane of a fish robot with mechanical pectoral fins
Author_Institution :
Dept. of Marine Design & Eng., Tokai Univ., Shizuoka, Japan
Abstract :
The mechanism of locomotion of aquatic animals can provide us with new insight into the maneuverability and stabilization of underwater robots. This paper focuses on biomimesis in the maneuvering performance of aquatic animals to develop a new device for maneuvering underwater robots. In this paper, guidance and control in the horizontal plane of a fish robot equipped with a pair of two-motor-driven mechanical pectoral fins on both sides of the robot in water currents is presented. The fish robot demonstrates high performance in terms of maneuverability in such activities as lateral swimming. The use of fuzzy control enables the fish robot to perform rendezvous and docking with an underwater post in water currents.
Keywords :
biomimetics; fuzzy control; mobile robots; motion control; remotely operated vehicles; underwater vehicles; aquatic animals; biomimesis; control performance; docking; fish robot; fuzzy control; horizontal plane; lateral swimming; locomotion mechanism; manoeuvrability; mechanical pectoral fins; motion control; rendezvous; stabilization; two-motor-driven fins; underwater post; underwater robots; water currents; Associate members; Force measurement; Fuzzy control; Marine animals; Motion analysis; Propulsion; Robots; Turning; Underwater vehicles;
Journal_Title :
Oceanic Engineering, IEEE Journal of
