Title :
New designs of fin type propulsive devices of robotic fish
Author :
Viba, Janis ; Beresnevich, Vitaly ; Tsyfansky, Semyon ; Kruusmaa, Maarja ; Fontaine, Jean-Guy ; Megill, William
Author_Institution :
Riga Tech. Univ., Riga, Latvia
Abstract :
Dynamics of a fin type propulsive device of robotic fish moving inside water is studied. On the basis of Pontryagin´s maximum principle the optimal control law for variation of additional area of vibrating tail, which ensures maximal positive impulse of motive forces acting on tail, is found. The proposed method makes it possible to minimize energy losses within operation cycles, when fin´s motion is affected by water resistance forces. Thanks to that useful tractive forces increase, and operation of fin propulsive device becomes more effective. Examples on synthesis of one-tail and two-tail propulsive devices with varying working area of vibrating tail are given.
Keywords :
maximum principle; mobile robots; motion control; robot dynamics; underwater vehicles; vibration control; Pontryagin´s maximum principle; energy losses; fin motion; fin propulsive device; fin type propulsive devices; maximal positive impulse; motive forces; one-tail propulsive device; operation cycles; optimal control law; robotic fish; tractive forces; two-tail propulsive devices; vibrating tail; water resistance forces; Educational institutions; Force; Marine animals; Mathematical model; Robots; Vehicles; Vibrations;
Conference_Titel :
Advanced Robotics (ICAR), 2011 15th International Conference on
Conference_Location :
Tallinn
Print_ISBN :
978-1-4577-1158-9
DOI :
10.1109/ICAR.2011.6088600
