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Adam Olejnik and Piotr Siermontowski

B ibliography 1. Olejnik A.: The present state of technology of remotely controlled abyssal vehicles Polish Hyperbaric Research 2009, 3(28), pp. 23 – 46; 2. Olejnik A.: The future of underwater technologies – a diver or a robot? Podwodny Świat 2002, 6 (32) 2002; pp. 22-26; 3. Beebe W.: 923 metres into the ocean. Trzaska, Evert i Michalski S.A., Warsaw 1935, p. 306; 4. Olejnik A.: The method of diagnosis surfaces of underwater objects with the use of a visual system, Scientific Journal of Polish Naval Academy, Gdynia 2015, 200A, p. 156, DOI

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Bartłomiej Jakus and Adam Olejnik

underwater robot ever replace the diver? A rather poor progress or a great success?; Polish Hyperbaric Research No. 1, Vol. 54 2016, pp. 7-18, ISSN 1734-7009, DOI: 10.1515/phr-2016-0001; 18. Olejnik A.: Trends in the development of unmanned marine technology; Polish Hyperbaric Research No. 2, Vol. 55 2016, pp. 7-28, ISSN 1734- 7009, DOI: 10.1515/phr-2016-0008; 19. Olejnik A., Chrabąszcz P.: Studies on the drive system of a prototypical remotely controlled underwater vehicle; Polish Hyperbaric Research No. 3(36) 2011 pp. 7 - 34; ISSN 1734

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Arkadiusz Woźniak

research; 10. Pyzdek T. Six Sigma Handbook. New York: the McGraw Hill Companies, Inc., 2003. ISBN 0-07-141596-3; DOI: 10,1036/0071415963; 11. Regulation of the Minister of National Defence of 13 July 2005 regarding performance of underwater works in the organizational units subordinate to or supervised by the Minister of National Defence (JL No. 185, it.1547); 12. Regulation of the Minister of National Defence of 21 June 2012 regarding safety of underwater works in the organizational units subordinate to or supervised by the Minister of National Defence

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Arkadiusz Woźniak

in the process of production of electric motors, Scientific Papers of the Silesian University of Technology 2012 12. Pyzdek T. Six Sigma Handbook, The McGraw Hill Companies 2003

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Marek Dawidziuk and Adam Olejnik

References 1. Olejnik A. The Development of the Technique of Underwater Remotely Operated Vehicles. Polish Hyperbaric Research 2009;3(28):7-21, ISSN 1734-7009; 2. Meccano Magazine, Meccano Ltd. 1963; 2(48), 49; 3. Collective work edited by R. F. Busby. Remotely Operated Vehicles. U.S. National Oceanic and Atmospheric Administration - Office of Ocean Engineering, Washington D.C. 1979; 4. The Ogden Standard-Examiner, Ogden Utah 17.05.1953; 2; 5. Zdanowicz R. The Basics of Robotics

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Zbigniew Talaśka

References [1] Kłos R., The new generation of hyperbaric breathing simulator, Akademia Marynarki Wojennej [Polish Naval Acadeny, Department of Underwater Works Technology], Gdynia 2010.

Open access

Arkadiusz Woźniak

Abstract

The quality of breathing air plays a key role in the safety of divers and hyperbaric facilities. Paradoxically, the change of regulations concerning quality requirements for breathing mixes has imposed the need for verification of the technical and laboratory bases used in their production and control. This article presents the results of research related to the rationalisation of the process of production and supply of breathing air for the purposes of hyperbaric oxygenation. The work was carried out using the SixSigma method.

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J. Łabanowski, D. Fydrych and G. Rogalski

References Lesiński K. J.: State of the art of underwater cutting and welding. Proceedings of conference "Problems of underwater cutting and welding", Gdańsk University of Technology, Gdańsk 1985 (in Polish). Lesiński K. J., Piątkowski T., Kiełczyński W.: Evaluation of quality of welds obtained by underwater welding - stage I. Report. Gdańsk University of Technology, Gdańsk 1989 (in Polish). Lesiński K. J.: Semiautomatic underwater cutting. Proceedings of conference "Problems of

Open access

Zbigniew Talaśka

Abstract

This article presents a description of the water cooling system in the pool of the "Kobuz" decompression chamber constituting a part of the DGKN-120 hyperbaric simulator used at the Department of Underwater Works Technologies of the Naval Academy in Gdynia.