2015
DOI: 10.5957/josr.59.2.140059
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Stochastic Dynamic Analysis and Reliability of a Vessel Rolling in Random Beam Seas

Abstract: This article presents a four-dimensional (4D) path integration (PI) approach to study the stochastic roll response and reliability of a vessel in random beam seas. Specifically, a 4D Markov dynamic system is established by combing the single-degree-offreedom model used to represent the ship rolling behavior in random beam seas with a second-order linear filter used to approximate the stationary roll excitation moment. On the basis of the Markov property of the coupled 4D dynamic system, the response statistics… Show more

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Cited by 30 publications
(36 citation statements)
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“…where b 44 , b 44q , c 1 , c 3 are relative roll parameters [24]. In this case, the spectrum of the relative wave excitation moment, S mm (ω), can be expressed as:…”
Section: Mathematical Model Of Roll Motionmentioning
confidence: 99%
See 3 more Smart Citations
“…where b 44 , b 44q , c 1 , c 3 are relative roll parameters [24]. In this case, the spectrum of the relative wave excitation moment, S mm (ω), can be expressed as:…”
Section: Mathematical Model Of Roll Motionmentioning
confidence: 99%
“…In Figure 9, the mean upcrossing rate obtained by the 4D PI approach and the Rice formula (24) and the empirical estimation of the upcrossing rateˆ() v as well as the 95% confidence interval provided by the Monte Carlo simulation are plotted.…”
Section: Stochastic Roll Response In Random Seasmentioning
confidence: 99%
See 2 more Smart Citations
“…To the best knowledge of the authors, the numerical solution of a 4D system calculated by the method described in section 2 has not been reported before. We should mention though that the PDF of 4D systems has been computed in [11,30], applying a variation of the PI method where the Fourier transform is utilized to convert the integration in Equation 2.2 to a convolution. This approach has been found to increase the efficiency of the PI code with respect to the execution time.…”
Section: Linear Tuned Mass Dampermentioning
confidence: 99%