Title :
An animatronic system including lifelike robotic fish
Author :
Terada, Yuuzi ; Yamamoto, Ikuo
Author_Institution :
Fukui Univ. of Technol., Japan
Abstract :
This paper provides an outline of a new animatronic system, based on the technology of the flexible oscillating fin. The oscillating fin propulsion system was designed and constructed to be combined with a ship model. The system´s feasibility has been confirmed by tank tests using the ship model. As a result, several advantages of the oscillating fin system have been found. A neural network was successfully applied for an identification of the ship model dynamics with the oscillating fin and its effectiveness was confirmed. The animatronic system is a computer-controlled biomechanically engineered model, rapidly gaining popularity throughout the world. We have developed aquatic robots with oscillating fins for the animatronics system to build a virtual aquarium. We have proposed an exhibition system for enhancing event spaces that includes an animatronic system for modern-day fish, coelacanths, and Cambrian-world creatures, able to swim under their own electric power.
Keywords :
computerised control; marine vehicles; mobile robots; neural nets; propulsion; robot dynamics; Cambrian world creatures; animatronic system; aquatic robots; computer controlled biomechanically engineered model; exhibition system; flexible oscillating fin; lifelike robotic fish; modern day fish; neural network; oscillating fin propulsion system; ship model dynamics; tank tests; virtual aquarium; Animation; Control systems; Deformable models; Marine animals; Marine vehicles; Neural networks; Orbital robotics; Propulsion; Robots; System testing; Animatronic system; fishlike swimming control; neural network; oscillating fin propulsion; robotic fish;
Journal_Title :
Proceedings of the IEEE
DOI :
10.1109/JPROC.2004.835363
