Determination of vibration parameters of the ship under the action of waves
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https://doi.org/10.54939/1859-1043.j.mst.80.2022.168-177Keywords:
Vibration of ship; Yaw; Pitch; Heave; Roll; Surge; Wave; Sway.Abstract
This paper presents a method to determine the mathematical model of ship's vibration and load model of ocean waves, serving the theoretical calculation of ship's vibration by using an application of the Marine Simulation System - MSS. Simultaneously, in the second part, the article proposes a solution to carry out an experimental system for measuring the ship's vibrations on waves and using an inertial mechatronic sensor (IMU) to perform the measurement. The measurement results are consistent with the theoretical calculation results (about amplitude, frequency, and phase of oscillation), from which it can be confirmed that the measurement method used in the study is reliable.
References
[1]. Araki, M., et al., "Estimating maneuvering coefficients using system identification methods with experimental, system-based, and CFD free-running trial data". Ocean Engineering. 51: pp. 63-84, (2012).
[2]. Sadat-Hosseini, H., et al., "CFD, system-based and EFD study of ship dynamic instability events: Surf-riding, periodic motion, and broaching". Ocean Engineering. 38(1): pp. 88-110, (2011).
[3]. Araki, M., et al. "Broaching prediction using an improved system-based approach". in Proceedings of 28th Symposium on Naval Hydrodynamics. (2010).
[4]. Stern, F., et al., "Experience from SIMMAN 2008—the first workshop on verification and validation of ship maneuvering simulation methods". Journal of Ship Research. 55(02): pp. 135-147, (2011).
[5]. Shi, C., et al., "2 Identification of ship maneuvering model using extended Kalman filters", in Marine Navigation and Safety of Sea Transportation. CRC Press. pp. 355-360, (2009).
[6]. Newman, J.N., "The theory of ship motions, in Advances in applied mechanics". Elsevier. pp. 221-283, (1979).
[7]. Fonseca, N. and C. Guedes Soares, "Comparison of numerical and experimental results of nonlinear wave-induced vertical ship motions and loads". Journal of Marine Science and Technology. 6(4): pp. 193-204, (2002).
[8]. Fossen, T.I., "Marine Control Systems: Guidance, Navigation and Control of Ships, Rigs and Underwater Vehicles". Marine Cybernetics, (2002).