Title :
Effect of wind and current on course control of a maneuvering vessel
Author :
Raman-Nair, Wayne ; Gash, Robert ; Sullivan, Michael
Author_Institution :
Nat. Res. Council of Canada, St. John´s, NL, Canada
Abstract :
The equations of motion of a maneuvering vessel under the action of wind, current, rudder and propulsion are solved by the MATLAB Runge-Kutta solver ode45. The hydrodynamic derivatives used are those presented by Clarke et al. (1982)[1]. Wind and current loads are applied to segments of the vessel via a relative velocity formulation and drag coefficients. Course control is achieved by autopilot gains derived from a first order Nomoto approximation. The intent is to provide a tool for assessing a vessel´s maneuvering capabilities in terms of a simple single parameter (track deviation) under various environmental conditions. Results of simulations are presented for various wind and current scenarios.
Keywords :
Runge-Kutta methods; approximation theory; drag; marine control; marine propulsion; wind; autopilot; course control; current loads; drag coefficients; environmental conditions; equations of motion; first order Nomoto approximation; maneuvering vessel; relative velocity formulation; vessel maneuvering capabilities; wind loads; Approximation methods; Equations; Force; Hydrodynamics; Marine vehicles; Mathematical model; Vectors; course control; current; maneuvering; track deviation; wind;
Conference_Titel :
Oceans - St. John's, 2014
Conference_Location :
St. John´s, NL
Print_ISBN :
978-1-4799-4920-5
DOI :
10.1109/OCEANS.2014.7003296
