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ISSN 2083-6473
ISSN 2083-6481 (electronic version)
 

 

 

Editor-in-Chief

Associate Editor
Prof. Tomasz Neumann
 

Published by
TransNav, Faculty of Navigation
Gdynia Maritime University
3, John Paul II Avenue
81-345 Gdynia, POLAND
www http://www.transnav.eu
e-mail transnav@umg.edu.pl
Development of Analytical Method for Finding the High Risk Collision Areas
1 Tokai University, Tokyo, Japan
2 Tokyo University of Marine Science and Technology, Tokyo, Japan
ABSTRACT: The traffic condition has been analyzed by models that are based on Gas model and Obstacle Zone by Target (OZT) by using 1 year AIS data for Tsunami measure. By applying Gas model based method, it is possible to analyze the area in terms of ships' relative angle, size, speed and density. The OZT is originally developed to show the collision zone on the target ship's course. By using this method to the marine traffic analysis, high possibility of collision areas are estimated. Moreover, ships that courses are heading to OZT are identified and studied their position and how long they proceed course heading to OZT.
REFERENCES
Gen F. & Seung-Gi G. & A-Ra C. & Hye-Ri P. 2013, Traffic Risk Analysis Applying the Gas model method in Busan Port, Asia Navigation Conference 2013 Proceedings, Korean Institute of Navigation and Port Research, pp.349-356
Gen F. 2015, Marine Traffic Condtion Analysis for Developing Tsunami Countermeasure in Suruga Bay, Asia Navigation Conference 2015 Proceedings, Japan Institute of Navigation, pp.314-318
Gen F. & Kyoko T. 2015, Analyzing the marine traffic condition for estimating the high risk areas in the emergency evacuation, 2015 International Association of Institutes of Navigation World Congress Prague, Czech Republic
Gen F. & Ruri S. 2016, Estimating Collision Course Area Using OZT in Offshore Refugee Outside the Port, The Journal of Japan Institute of Navigation, Japan Institute of Navigation, Vol.135, pp.129-134
Gen F. 2016, The Study of the Non-SOLAS Vessel Movement in Suruga Bay, Asia Navigation Conference 2016 Proceedings
Hidenari M. & Novukazu W. & Yoshiji Y. & Shigeki S. 2011, Research on trend of ship evacuation behavior when Tsunami warnig, The Journal of Japan Institute of Navigation, Japan Institute of Navigation, Vol.125, pp.191-197
Hayama I., Junji F. & Masashi N. 2002, Obstacle Zone by Target and its Expression, The Journal of Japan Institute of Navigation, Japan Institute of Navigation, pp.191-197
Hayama I. 2014, Computation of OZT by using Collision Course, NAVIGATION, The Japan Institute of Navigation, Vol. 188, pp. 78-81
Kamaishi Japan Coast Guard 2004, Preparation for earthquake and tsunami, http://www.kaiho.mlit.go.jp/02kanku/kamais hi /tsun ami/ tsunami.html
Pedersen, P. T. 1995, Collision and Grounding Mechanic, Proceedings of WEMT’95, The Danish Society of Naval Architects and Marine Engineers, pp. 125-15
Citation note:
Fukuda G., Shoji R.: Development of Analytical Method for Finding the High Risk Collision Areas. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 11, No. 3, doi:10.12716/1001.11.03.20, pp. 531-536, 2017

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