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Practical method for evaluating wind influence on autonomous ship operations (2nd report)
Citation Link: https://doi.org/10.15480/882.13290
Publikationstyp
Journal Article
Date Issued
2024-08-28
Sprache
English
TORE-DOI
Volume
29
Issue
4
Start Page
876
End Page
884
Citation
Journal of Marine Science and Technology 29 (4): 876-884 (2024)
Publisher DOI
Scopus ID
Publisher
Springer
Recently, a considerable number of research and development projects have focused on automatic vessels. A highly realistic simulator is needed to validate control algorithms for autonomous vessels. For instance, when considering the automatic berthing/unberthing of a vessel, the effect of wind in such low-speed operations cannot be ignored because of the low rudder performance during slow harbor maneuvers. Therefore, a simulator used to validate an automatic berthing/unberthing control algorithm should be able to reproduce the time histories of wind speed and wind direction realistically. Therefore, in our first report on this topic, to obtain the wind speed distribution, we proposed a simple algorithm to generate the time series and distribution of wind speed only from the mean wind speed. However, for wind direction, the spectral distribution could not be determined based on our literature surveys, and hence, a simple method for estimating the coefficients of the stochastic differential equation (SDE) could not be proposed. In this study, we propose a new methodology for generating the time history of wind direction based on the results of Kuwajima et al.’s work. They proposed a regression equation of the standard deviation of wind direction variation for the mean wind speed. In this study, we assumed that the wind direction distribution can be represented by a linear filter as in our previous paper, and its coefficients are derived from Kuwajima’s proposed equation. Then, as in the previous report, the time series of wind speed and wind direction can be calculated easily by analytically solving the one-dimensional SDE. The joint probability density functions of wind speed and wind direction obtained by computing them independently agree well with the measurement results.
Subjects
Estimation of drift and diffusion
Liner filter
Stochastic differential equation
Wind speed and direction
DDC Class
629: Other Branches
620: Engineering
518: Numerical Analysis
551: Geology, Hydrology Meteorology
Publication version
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