[1. Abramowicz-Gerigk T., Burciu Z.: Inflatable life raft design for operation - novel solutions. 20th International Conference on Hydrodynamics in Ship Design and Operation HYDRONAV’2014, Wroclaw, Poland, June 2014.]Search in Google Scholar
[2. Abramowicz-Gerigk T., Burciu Z.: Safety assessment of maritime transport - Bayesian risk-based approach in different fields of maritime transport. Proceedings of IMAM 2013, 15th International Congress of the International Maritime Association of the Mediterranean (IMAM), Spain, Developments in Maritime Transportation and Exploitation of Sea Resources. Guedes Soares & Lopez Pena (eds), Volume 2, 2014 Taylor&Francis Group, London, UK, pp. 699-703, 2013?.10.1201/b15813-86]Search in Google Scholar
[3. Abramowicz-Gerigk T., Burciu Z., Kornacka E., Jachowski J., Stefurak W.: Innovative Liferaft. TransNav - The International Journal on Marine Navigation and Safety of Sea Transportation ,2015. Vol 9/4, pp. 573-577.10.12716/1001.09.04.15]Search in Google Scholar
[4. Burciu Z.: Modelling of search areas in the aspect of transport of persons at sea ( in Polish) Oficyna Wydawnicza Politechniki Warszawskiej ( Publishing House of Warsaw University of Technology), 2003.]Search in Google Scholar
[5. Burciu Z., Grabski Fr.: The experimental and theoretical study on the reliability of the life rafts. Reliability Engineering and System Safety 96 (2011), pp. 1456-146.]Search in Google Scholar
[6. EU Directive of Marine Equipment 96/98/EC. 1996. ]Search in Google Scholar
[7. Gerigk M.:Assessment of safety of ships after the collision and during the ship salvage using the matrix type risk model and uncertainties. In: Sustainable Maritime Transportation and Exploitation of Sea Resources. Proceedings of the 14th International Congress of the International Maritime Association of the Mediterranean (IMAM), Volume 2, pp.715-719, Balkema, London , 2012.10.1201/b11810-108]Search in Google Scholar
[8. Hervey C. L. , Jordan D. J.: Model tests of inflatable life rafts in breaking waves. Final Report for U.S. Coast Guard. U.S. Department of Transportation, United States Coast Guard, Office of Engineering, Logistics, and Development, Washington, 1990.]Search in Google Scholar
[9. IMO MSC.1/Circ.1447.: Guidelines for the Development of Plans and Procedures for Recovery of Persons From the Water. 2012.]Search in Google Scholar
[10. IMO Resolution MSC. 48(66). Life Saving Appliances Code. 1996.]Search in Google Scholar
[11. Code LSA - Life Saving Appliances, Including LSA code. 2010.]Search in Google Scholar
[12. Marchenko A. V. J.: The floating behaviour of a small body acted upon by a surface wave. J. Appl Maths Mechs, 1999, Vol. 63, No. 3, pp. 471-478. 10.1016/S0021-8928(99)00059-3]Search in Google Scholar
[13. Patent application No. P.418573, Life raft, Polish Patent Office, 2016.]Search in Google Scholar
[14. SOLAS’74.. International Convention of Safety of Life at Sea. International Maritime Organization, 1980]Search in Google Scholar
[15. Standards for Life Rafts and Inflatable Rescue Platforms. Marine Safety Directorate Transport , Canada, Ottawa. 1992.]Search in Google Scholar
[16. Raman-Nair W., Power J., Simoes Re A.: Towing dynamics of a life raft and fast rescue craft in a surface wave. Ocean Engineering, 35 ,2008, pp.1252- 1258.10.1016/j.oceaneng.2008.03.009]Search in Google Scholar
[17. Det Norske Veritas: Rules for Classification of Ships, Newbuildings, Hull and Equipment , Main Class, Part 3, Chapter 6: Life Saving Appliances and Arrangements. January 1998.]Search in Google Scholar
[18. Gdynia Maritime University ( Navigational Faculty, Department of Ship Operation): Innovative means of transport for search and rescue at sea. Technical report 2014, R&D Project No. POiG 01.04.00.00-272/13.]Search in Google Scholar
[19. https://fv-tech.com Flow Vision HPC, access date: 27-01-2016.]Search in Google Scholar
[20. www. lubawa.com.pl.]Search in Google Scholar