International Journal of Naval Architecture and Ocean Engineering

The Society of Naval Architects of Korea (대한조선학회)
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A study on ship automatic berthing with assistance of auxiliary devices

  • Tran, Van Luong (The Faculty of Navigation, Vietnam Maritime University) ;
  • Im, Nam-Kyun (The Faculty of Marine Transportation System, Mokpo National Maritime University)
  • Published : 2012.09.30
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Abstract

The recent researches on the automatic berthing control problems have used various kinds of tools as a control method such as expert system, fuzzy logic controllers and artificial neural network (ANN). Among them, ANN has proved to be one of the most effective and attractive options. In a marine context, the berthing maneuver is a complicated procedure in which both human experience and intensive control operations are involved. Nowadays, in most cases of berthing operation, auxiliary devices are used to make the schedule safer and faster but none of above researches has taken into account. In this study, ANN is applied to design the controllers for automatic ship berthing using assistant devices such as bow thruster and tug. Using back-propagation algorithm, we trained ANN with set of teaching data to get a minimal error between output values and desired values of four control outputs including rudder, propeller revolution, bow thruster and tug. Then, computer simulations of automatic berthing were carried out to verify the effectiveness of the system. The results of the simulations showed good performance for the proposed berthing control system.

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References

  1. Hawkins, S. et al., 1965. The use of maneuvering propulsion devices on merchant ships. Robert Taggart, Inc. Report RT-8518, Contract MA-3293.
  2. Im, N.K. and Hasegawa, K., 2001. A study on automatic ship berthing using parallel neural controller. Journal of the Kansai Society of Naval Architects, Japan, 236, pp.65-70.
  3. Im, N.K. and Hasegawa, K., 2002. Motion identification using neural networks and its application to automatic ship berthing under wind. Journal of Ship & Ocean Technology, 6(1), pp.16-26.
  4. Kijima , K., Nakiri ,Y. and Furukawa, Y., 1990. On the maneuvering performance of a ship with the parameter of loading condition. Journal of the Society of Naval Architects of Japan, 168(2), pp.141-148.
  5. Ogawa, A. and Hamamoto, M., 1981. Principle of the mathematical model of ship maneuverability. Proceedings of the 3rd symposium on the ship maneuverability. Japan, Society of Naval Architects of Japan. pp.9-26.
  6. Zhang, Y., Hearn, G.E. and Sen, P., 1997. A multivariable neural controller for automatic ship berthing. Control System Magazine, IEEE, 17(4), pp.31-45. https://doi.org/10.1109/37.608535