Title :
A highly versatile autonomous underwater vehicle with biomechanical propulsion
Author :
Simons, D.G. ; Bergers, M.M.C. ; Henrion, S. ; Hulzenga, J.I.J. ; Jutte, R.W. ; Pas, W.M.G. ; van Schravendijk, M. ; Vercruyssen, T.G.A. ; Wilken, A.P.
Author_Institution :
Dept. of Earth Obs. & Space Syst., Delft Univ. of Technol., Delft, Netherlands
Abstract :
An autonomous underwater vehicle with a biomechanical propulsion system is a possible answer to the demand for small, silent sensor platforms in many fields. The design of Galatea, a bio-mimetic AUV, involves four aspects: hydrodynamic shape, the propulsion, the motion control systems and payload. The shape of the hull is based on a modified Wortmann FX 71-L-150/20 airfoil. Wind tunnel tests have been conducted to determine the hydrodynamic force coefficients. The propulsion system is based on bio-mimetic undulating fin propulsion. A test set-up is build to get more insight in the fundamentals of this mechanism. The swimming behaviour is currently manually controlled and will be developed into an fully autonomous system. In the future, more research on the undulating fin propulsion system will be carried out and a second, modular prototype robot will be developed.
Keywords :
biomechanics; hydrodynamics; mobile robots; motion control; remotely operated vehicles; underwater vehicles; Galatea; Wortmann FX 71-L-150/20 airfoil; bio-mimetic autonomous underwater vehicle; bio-mimetic undulating fin propulsion; biomechanical propulsion system; hydrodynamic force coefficients; hydrodynamic shape; modular prototype robot; motion control systems; silent sensor platforms; swimming behaviour; wind tunnel tests; Automotive components; Biosensors; Hydrodynamics; Motion control; Payloads; Propulsion; Sensor systems; Shape control; Testing; Underwater vehicles;
Conference_Titel :
OCEANS 2009 - EUROPE
Conference_Location :
Bremen
Print_ISBN :
978-1-4244-2522-8
Electronic_ISBN :
978-1-4244-2523-5
DOI :
10.1109/OCEANSE.2009.5278175
