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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
Risk Assessment for an Unmanned Merchant Ship
1 Norwegian Marine Technology Research Institute (MARINTEK), Norway
2 Fraunhofer Center for Maritime Logistics and Services (CML), Hamburg, Germany
ABSTRACT: The MUNIN project is doing a feasibility study on an unmanned bulk carrier on an intercontinental voyage. To develop the technical and operational concepts, MUNIN has used a risk-based design method, based on the Formal Safety Analysis method which is also recommended by the International Mari-time Organization. Scenario analysis has been used to identify risks and to simplify operational scope. Systematic hazard identification has been used to find critical safety and security risks and how to address these. Technology and operational concept testing is using a hypothesis-based test method, where the hypotheses have been created as a result of the risk assessment. Finally, the cost-benefit assessment will also use results from the risk assessment. This paper describes the risk assessment method, some of the most important results and also describes how the results have been or will be used in the different parts of the project.
REFERENCES
Brito, M. P., Griffiths, G., & Challenor, P. 2010. Risk analysis for autonomous underwater vehicle operations in extreme environments. Risk Analysis, 30(12), 1771-1788.
Bruhn, W. C., Burmeister, H. C., Long, M. T., & Moræus, J. A. 2014. Conducting look-out on an unmanned vessel: Introduction to the advanced sensor module for MUNIN’s autonomous dry bulk carrier. In Proceedings of International Symposium Information on Ships—ISIS 2014 (pp. 04-05).
Burmeister H.-C. & Bruhn W.C. 2014a, Designing an autonomous collision avoidance controller respecting COLREG, In Maritime-Port Technology and Development 2014, Taylor & Francis Group, London (2014), pp. 83-88
Burmeister H.C., Bruhn W., Rødseth Ø.J. & Porathe T. 2014b Autonomous Unmanned Merchant Vessel and its Contribution towards the e-Navigation Implementation: The MUNIN Perspective, in International Journal of e-Navigation and Maritime Economy 1 (2014) 1 – 13.
Griffiths, G., Millard, N. W., McPhail, S. D., Stevenson, P., & Challenor, P. G. 2003. On the reliability of the Autosub autonomous underwater vehicle. Underwater Technology: International Journal of the Society for Underwater Technology, 25(4), 175-184.
Griffiths, G., Bose, N., Ferguson, J., & Blidberg, D. R. 2007. Insurance for autonomous underwater vehicles. Underwater Technology, 27(2), 43-48.
IMO 2007. MSC 83/INF.2, Formal Safety Assessment: Consolidated text of the Guidelines for Formal Safety Assessment (FSA) for use in the IMO rule-making process. May 14, 2007
Krüger C. M. (ed.) 2014, MUNIN Deliverable D8.1, Test environment set-up description, November 2014 (Available from MUNIN project on request).
Podder, T. K., Sibenac, M., Thomas, H., Kirkwood, W. J., & Bellingham, J. G. 2004. Reliability growth of autonomous underwater vehicle-Dorado. In OCEANS'04. MTTS/IEEE TECHNO-OCEAN'04 (Vol. 2, pp. 856-862). IEEE.
Porathe, T. 2014. Remote Monitoring and Control of Unmanned Vessels–The MUNIN Shore Control Centre. In Proceedings of the 13th International Conference on Computer Applications and Information Technology in the Maritime Industries (COMPIT ‘14) (pp. 460-467).
Rødseth Ø.J. 2011, A Maritime ITS Architecture for e-Navigation and e-Maritime: Supporting Environment Friendly Ship Transport, in Proceedings of IEEE ITSC 2011, Washington, USA, 2011.
Rødseth Ø.J & Burmeister, H.-C. 2012. Developments toward the unmanned ship, in Proceedings of International Symposium Information on Ships – ISIS 2012, Hamburg, Germany, August 30-31, 2012.
Rødseth, Ø. J., Kvamstad, B., Porathe, T., & Burmeister, H.-C. 2013. Communication architecture for an unmanned merchant ship. In Proceedings of IEEE Oceans 2013. Bergen, Norway.
Rødseth, Ø. J & Tjora, Å. 2014. A risk based approach to the design of unmanned ship control systems. In Maritime-Port Technology and Development 2014. Taylor & Francis Group, London (2014).
Sage-Fuller B. (ed.) 2013a. MUNIN Deliverable D5.1, Legal Analysis and Liability for the Autonomous Navigation Systems, March 2013 (Available from MUNIN project on request).
Sage-Fuller B. (ed.) 2013b. MUNIN Deliverable D7.2, Legal Analysis and Liability for the Remote Controlled Vessels, August 2013 (Available from www.unmanned-ship.org January 2015 or from the MUNIN project on request).
Stokey, R., Austin, T., Von Alt, C., Purcell, M., Forrester, N., Goldsborough, R., & Allen, B. 1999. AUV Bloopers or Why Murphy Must have been an Optimist: A Practical Look at Achieving Mission Level Reliability in an Autonomous Underwater Vehicle. In Proceedings of the Eleventh International Symposium on Unmanned Untethered Submersible Technology (pp. 32-40).
Walther, L., Burmeister, H.-C. & Bruhn, W. 2014, Safe and efficient autonomous navigation with regards to weather, In: Proceedings of COMPIT'14, Redworth, UK, 12-14 May 2014, p. 303-317.
Citation note:
Rødseth Ø.J., Burmeister H.C.: Risk Assessment for an Unmanned Merchant Ship. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 9, No. 3, doi:10.12716/1001.09.03.08, pp. 357-364, 2015
Authors in other databases:
Hans-Christoph Burmeister:

Other publications of authors:

P.H. Meland, K. Bernsmed, E. Wille, Ø.J. Rødseth, D.A. Nesheim

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