Title :
Nonlinear dynamics of ship oscillations
Author :
Kreuzer, Edwin ; Wendt, Mareike
Author_Institution :
Tech. Univ. Hamburg-Harburg, Germany
Abstract :
The stability of a ship´s motions is crucial for the safety of its crew, its cargo, and the environment. To prevent losses due to unstable motions, particularly in high seas, a better understanding of ship stability is necessary. We analyze the stability of ship motions using a hydrodynamic model accounting for all the rigid body motions of a ship, as well as memory effects in the fluid. The analysis of a particular ship shows that ship´s dynamics depend strongly on the nonlinearities of the ship-fluid-system. Before the ship capsizes we notice a bifurcation when wave heights increase. A path following method is employed to determine in a systematic manner the stability limits. The application for a simplified system shows the importance of the nonlinearities of the mathematical model
Keywords :
bifurcation; mechanical stability; nonlinear dynamical systems; oscillations; safety; ships; bifurcation; crew safety; high seas; hydrodynamic model; memory effects; nonlinear dynamics; path following; rigid body motions; ship motions stability; ship oscillations; ship-fluid-system; unstable motions; Fluid dynamics; Hydrodynamics; Marine safety; Marine vehicles; Motion analysis; Probability; Stability analysis; Stability criteria; Strips; Weather forecasting;
Conference_Titel :
Control of Oscillations and Chaos, 2000. Proceedings. 2000 2nd International Conference
Conference_Location :
St. Petersburg
Print_ISBN :
0-7803-6434-1
DOI :
10.1109/COC.2000.873981
