Critical assessment of reverse-MISO techniques for system identification of coupled roll motion of ships Academic Article

abstract

• 2016, JASNAOE. Of the six degrees of freedom of a vessel at sea, roll motion is the most poorly understood. While the other modes such as heave and pitch motions behave fairly linearly, the roll motion exhibits a nonlinear behavior due to the effect of softening stiffness and viscous damping. This makes predicting the roll motion parameters from experimental time series fairly difficult. The identification of system parameters from the input and output time histories is termed as system identification and is the usual approach to predict parameters from experimental data. This paper investigates the application of a reverse Multiple Input Single Output (R-MISO) method to analyze the nonlinear roll motion of a ship. The paper provides a detailed theoretical description of the method followed by an example demonstrating its application to coupled roll and sway motions of a ship at sea. While the methods validity is demonstrated by application to simulated data, a discussion on the limitations of the method is also provided which we believe has not received adequate emphasis in the existing literature on the subject.

authors

• Falzarano, Jeffrey

published proceedings

• Journal of Marine Science and Technology

author list (cited authors)

• Somayajula, A., & Falzarano, J.

citation count

• 8

complete list of authors

• Somayajula, Abhilash||Falzarano, Jeffrey

publication date

• June 2017

publisher

• Springer Nature  Publisher

keywords

• 40 Engineering
• 4015 Maritime Engineering

Digital Object Identifier (DOI)

• 10.1007/s00773-016-0406-x

start page

• 231

end page

• 244

volume

• 22

issue

• 2

URL

• http://dx.doi.org/10.1007/s00773-016-0406-x