Modeling of the nonlinear drift oscillations of moored vessels subject to non-Gaussian random sea-wave excitation

Modeling of the nonlinear drift oscillations of moored vessels subject to non-Gaussian random sea-wave excitation

A quadratic system model based on Volterra series representation is utilized to model the nonlinear response of moored vessels subjected to random seas. The key idea is to represent the relationship between the incident sea wave (input) and corresponding sway response of the moored vessel (output) w...

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Veröffentlicht in:IEEE journal of oceanic engineering 1987-10, Vol.12 (4), p.568-575
Hauptverfasser: Kyoung Kim, Powers, E., Ritz, C., Miksad, R., Fischer, F.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Buildings. Public works
Control system analysis
Control system synthesis
Data analysis
drift
Exact sciences and technology
Frequency
Hydraulic constructions
input output
Kernel
Marine
marine transportation
modeling
mooring motion effects
Nonlinear systems
Offshore structure (platforms, tanks, etc.)
oscillation
oscillations
Power engineering and energy
ships
Statistics
Testing
Transfer functions
Volterra series
wave forces
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Beschreibung
Zusammenfassung:A quadratic system model based on Volterra series representation is utilized to model the nonlinear response of moored vessels subjected to random seas. The key idea is to represent the relationship between the incident sea wave (input) and corresponding sway response of the moored vessel (output) with a parallel combination of linear and quadratic transfer functions, and to estimate them by processing actual input and output data. Compared to previous approaches, we take the important step of removing the restriction that the random input must possess Gaussian statistics. The feasibility and validity of the approach is demonstrated by analyzing experimental data taken in model basin tests. We also describe some of the deleterious consequences of assuming Gaussian sea-wave excitation when in fact the excitation is non-Gaussian.
ISSN:0364-9059
1558-1691
DOI:10.1109/JOE.1987.1145286