Study on the algorithm of collision avoidance for large container in shallow confined waterway
Son, N.S.; Furukawa, Y. (2009). Study on the algorithm of collision avoidance for large container in shallow confined waterway, in: Eloot, K. et al. (Ed.) International Conference on Ship Manoeuvring in Shallow and Confined Water: Bank Effects. pp. 113-120 In: Eloot, K.; Vantorre, M. (Ed.) (2009). International Conference on Ship Manoeuvring in Shallow and Confined Water: Bank Effects. Flanders Hydraulics Research/Ghent University/The Royal Institution of Naval Architects: London. ISBN 978-1-905040-46-9. IX, 152 pp., more |
| Available in | Authors | | Document type: Conference paper
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| Keywords | Algorithms
Collision avoidance
Container ships > Containerships
Water > Shallow water
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| Abstract | The manoeuvrability of a large container vessel of 9,000 TEU is estimated in the condition of deep sea through Freerunning test. In shallow water in which minimum H(depth)/d(draft) is 1.2, the manoeuvrability of 9,000TEU container vessel is estimated by using the Kijima’s practical prediction method. For safe navigation, an algorithm of collision avoidance is developed by using fuzzy algorithm and the concept of Changeable Action Space (CAS). To take the consideration of constraints of fairway, Virtual Searching Antenna (VSA) is newly-designed to control searching range.
In order to test the performance of a newly-designed algorithm of collision avoidance, numerical simulations are carried out on the shallow confined waterway of Gwang-yang in Korea. In this paper, the procedure and results of simulation for validation are introduced on the scenarios of traffic problems such as passage share and passage crossing. |
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