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Roll-induced bifurcation in ship maneuvering under model uncertainty
Authors:Anil Kumar Dash  Praveen Perumpulissery Chandran  Mohammed Kareem Khan  Vishwanath Nagarajan  Om Prakash Sha
Affiliation:1.Department of Ocean Engineering and Naval Architecture,IIT Kharagpur,Kharagpur,India;2.Naval Science and Technological Laboratory (NSTL),Visakhapatnam,India
Abstract:In this paper, a mathematical model is developed for the maneuvering motion of a naval ship and bifurcations of its equilibrium are identified in roll-coupled motion. The subject ship is a high-speed surface combatant with twin-propeller twin-rudder system. Captive model tests are conducted for the ship using planar motion mechanism. Maneuvering coefficients are calculated by polynomial curve fitting of the test data. Uncertainty distribution in the coefficients is assumed same as that of the curve fitting errors. Uncertainty in the model coefficients is propagated to full-scale simulation results by the stochastic response surface method (SRSM). This method is computationally efficient as compared to standard Monte Carlo simulation technique. The SRSM uses polynomial chaos expansion of orthogonal to fit any probability distribution. Bifurcation analysis of the mathematical model is performed by varying the vertical center of gravity as the bifurcation parameter. Hopf bifurcation is identified. It is found that the bifurcations occur due to the coupling of roll motion with sway, yaw motion and rudder angle. In the presence of wind, roll angle response in bifurcation diagram is discussed.
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