An approximate analytical solution of the rolling motion equation is obtained by means of a perturbation method. The analysis shows that the presenc of deviations from linearity in the mathematical model describing rolling motion of a ship can greatly influence the statistical distribution of the response to a given excitation, particularly when narrow band excitation is considered
We analyze the problem of parametric roll in random seas, where the random wave excitation is mod...
In this work, the path integration method and the energy-based stochastic averaging method are intro...
In this work, the path integration method and the energy-based stochastic averaging method are intro...
The rolling motion of a ship in the presence of a narrow band stochastic beam sea is studied by mean...
A physically based averaging procedure is applied to a stochastic nonlinear single-degree-of-freedom...
The extensive analysis carried out in last years on the nonlinear rolling of a ship, through the use...
A review of the work done in the last years in deterministic, \u201cquasi deterministic\u201d (bifur...
In this paper, the energy-based stochastic averaging method and the path integration method are appl...
Ship roll dynamics is treated as an inverted pendulum restrained by nonlinear buoyant restoring mome...
For a vessel in open seas, the sudden indirect excitation of roll motions due to waves from the fron...
The rolling motion of a ship has been described by a nonlinear differential equation explicitly taki...
The loss of a ship is often a consequence of large amplitude rolling. This is thus examined from a p...
This paper addresses, starting from an extensive series of tests in longitudinal regular waves (alre...
The rolling motion of a ship exhibits well known nonlinear features already for moderate sea excitat...
A short review of the work done in the last years in deterministic, quasi deterministic and stochast...
We analyze the problem of parametric roll in random seas, where the random wave excitation is mod...
In this work, the path integration method and the energy-based stochastic averaging method are intro...
In this work, the path integration method and the energy-based stochastic averaging method are intro...
The rolling motion of a ship in the presence of a narrow band stochastic beam sea is studied by mean...
A physically based averaging procedure is applied to a stochastic nonlinear single-degree-of-freedom...
The extensive analysis carried out in last years on the nonlinear rolling of a ship, through the use...
A review of the work done in the last years in deterministic, \u201cquasi deterministic\u201d (bifur...
In this paper, the energy-based stochastic averaging method and the path integration method are appl...
Ship roll dynamics is treated as an inverted pendulum restrained by nonlinear buoyant restoring mome...
For a vessel in open seas, the sudden indirect excitation of roll motions due to waves from the fron...
The rolling motion of a ship has been described by a nonlinear differential equation explicitly taki...
The loss of a ship is often a consequence of large amplitude rolling. This is thus examined from a p...
This paper addresses, starting from an extensive series of tests in longitudinal regular waves (alre...
The rolling motion of a ship exhibits well known nonlinear features already for moderate sea excitat...
A short review of the work done in the last years in deterministic, quasi deterministic and stochast...
We analyze the problem of parametric roll in random seas, where the random wave excitation is mod...
In this work, the path integration method and the energy-based stochastic averaging method are intro...
In this work, the path integration method and the energy-based stochastic averaging method are intro...