Title :
Modeling, Simulation, and Performance of a Synergistically Propelled Ichthyoid
Author :
Strefling, Paul C. ; Helium, Aren M. ; Mukherjee, Ranjan
Author_Institution :
Dept. of Mech. Eng., Michigan State Univ., East Lansing, MI, USA
Abstract :
We have developed a novel type of submersible named the Synergistically Propelled Ichthyoid (SPI). The SPI is propelled by the synergistic combination of jet action and oscillatory motion of a fluttering fluid-conveying tail. Two dynamic models for an SPI are presented and solved: an analytically tractable model and a more complex model that captures the complete dynamics in two dimensions. The latter model has been solved numerically-these simulations show a benefit of using a fluttering tail relative to a dimensionally identical rigid tail. Construction details of an exper- imental realization are provided, and preliminary measurements taken using that platform are also provided. These measurements qualitatively confirm the simulation´s conclusion that a fluttering flexible tail is capable of higher speed than a dimensionally identical rigid tail.
Keywords :
biomimetics; marine propulsion; mobile robots; robot dynamics; underwater vehicles; SPI dynamic models; fluttering fluid conveying tail; jet action; oscillatory motion; synergistically propelled ichthyoid; Analytical models; Electron tubes; Equations; Force; Mathematical model; Numerical models; Propulsion; Biomimetic; compliant mechanisms; computational modeling; energy efficiency; fluid flow; fluid jet; fluid-conveying pipe; flutter instability; force; hydrodynamic model; hydrodynamics, marine vehicles, mathematical model, mobile robots; propulsion; robotic fish; traveling wave;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2011.2172950
