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Heuristic Method of Safe Manoeuvre Selection Based on Collision Threat Parameters Areas

Abstract

This paper is a continuation of papers dedicated to a radar-based CTPA (Collision Threat Parameters Area) display designed to support safe manoeuvre selection. The display visualizes all the ships in an encounter and presents situational overview from the own ship’s point of view. It calculates and displays information on unsafe or unrealistic own ship’s course & speed allowing a user to select a safe manoeuvre. So far only the manual selection was possible, thus the paper aims at presenting a heuristic approach towards the manoeuvre selection when using the display.

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Category:
Articles
Type:
artykuły w czasopismach recenzowanych i innych wydawnictwach ciągłych
Published in:
TransNav - The International Journal on Marine Navigation and Safety of Sea Transportation no. 11, pages 591 - 596,
ISSN: 2083-6473
Language:
English
Publication year:
2017
Bibliographic description:
Szłapczyński R., Szłapczyńska J.: Heuristic Method of Safe Manoeuvre Selection Based on Collision Threat Parameters Areas// TransNav - The International Journal on Marine Navigation and Safety of Sea Transportation. -Vol. 11., nr. 4 (2017), s.591-596
DOI:
Digital Object Identifier (open in new tab) 10.12716/1001.11.04.03
Bibliography: test
  1. Birtley W. B. 1965. Electronic plotting board. United States Patent US3188631A
  2. Fleischer, H., Lipsky, P. and Tiblin, B. 1973. Collision avoidance display apparatus for maneuverable craft. United States Patent US3725918A
  3. Hakoyama, T., Kato, Y., Maeda, S. and Yamaguchi, H. 1996, Navigation display apparatus for collision avoidance utilizing polygonal safety regions and predicted danger areas. United States Patent US5515287A
  4. Lazarowska A. 2015. Ship's Trajectory Planning for Collision Avoidance at Sea Based on Ant Colony Optimisation. Journal of Navigation / Volume 68 / Issue 02 / March 2015, 298-307. open in new tab
  5. Lazarowska A. 2016. A new deterministic approach in a decision support system for ship's trajectory planning. Expert Systems With Applications, published online November 17, 2016, DOI: http://dx.doi.org/10.1016/j.eswa.2016.11.005 open in new tab
  6. Lenart, A.S. 1983. Collision threat parameters for a new radar display and plot technique. The Journal of Navigation, 36, 404-410 open in new tab
  7. Lenart, A.S. 1999 Manoeuvring to required approach parameters -CPA distance and time. Annual of Navigation, 1/99, 99-108
  8. Lisowski, J. 2013. Sensitivity of computer support game algorithms of safe ship control. International Journal of Applied Mathematics and Computer Science, Volume: 23 Issue: 2 Pages: 439-446. open in new tab
  9. Lisowski, J. 2014. Computational intelligence methods of a safe ship control. Knowledge-based and Intelligent Information & Engineering Systems -18th Annual Conference, KES-2014 Book Series: Procedia Computer Science Volume: 35 Pages: 634-643 open in new tab
  10. O'Sullivan, J. P. 1982. Collision avoidance apparatus. United States Patent US4313115A
  11. Qiao, L. and Pedersen, E. 2004. Direct perception of collision danger information for safe marine navigation, IEEE International Conference on Systems, Man and Cybernetics SMC ʹ04, 4., 3898 -3902.
  12. Qiao, L., Pedersen, E., Okazaki, T., Fukuto, J. and Tanaka, K. 2006. Direct perception interface for ship-ship collision avoidance, IEEE International Conference on Systems, Man and Cybernetics SMC ʹ06, 1, pp.808-813.
  13. Riggs, R. 1973. Shipʹs maneuver assessment system. United States Patent US3717873A open in new tab
  14. Szlapczynska J. 2015. Multi-objective Weather Routing with Customised Criteria and Constraints. The Journal of Navigation, 68, pp 338-354. open in new tab
  15. Szlapczynski R. 2008. Fuzzy Collision Threat Parameters Area (FCTPA) -A New Display Proposal. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 2, No. 4, pp. 359-362. open in new tab
  16. Szlapczynski, R., Szlapczynska J. 2015. A Target Information Display for Visualising Collision Avoidance Manoeuvres in Various Visibility Conditions. The Journal of Navigation / Volume 68 / Issue 06 / November 2015, pp. 1041-1055. open in new tab
  17. Szlapczynski, R., Szlapczynska J. 2017. A method of determining and visualizing safe motion parameters of a ship navigating in restricted waters. Ocean Engineering / Volume 129, 1 January 2017, pp. 363-373. open in new tab
  18. Weintrit A. 2009. The Electronic Chart Display and Information System (ECDIS), An Operational Handbook. A Balkema Book, CRC Press, Taylor & Francis Group Wood, T.E. and Yancey, J.F. 2002. Method and apparatus for providing accurate boundaries of predicted areas of danger for collision avoidance, United States Patent US6408248B1 open in new tab
  19. Zhao-lin, W. 1988. Analysis of Radar PAD Information and a Suggestion to Reshape the PAD, The Journal of Navigation, 41, 124-129 open in new tab
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Gdańsk University of Technology

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