Design of Mine Warfare Diving Technology. Standardisation Requirements

1 Kłos R. 2019a. Designing of diving technologies – process approach. Polish Hyperbaric Research. 1, 2019a, Tom 66, DOI: 10.2478/phr-2019-0001, strony 7-24. Open DOISearch in Google Scholar

2 Kłos R. 2019b. Context analysis in the development of diving technologies. Polish Hyperbaric Research. 2, 2019b, Tom 67, DOI: 10.2478/phr-2019-0005, strony 7 – 58. Open DOISearch in Google Scholar

3 Kłos R. 2000. Aparaty Nurkowe z regeneracją czynnika oddechowego. Poznań : COOPgraf, 2000. ISBN 83-909187-2-2. Search in Google Scholar

4 Kłos R. 2011. Możliwości doboru dekompresji dla aparatu nurkowego typu CRABE - założenia do nurkowań standardowych i eksperymentalnych. Gdynia : Polskie Towarzystwo Medycyny i Techniki Hiperbarycznej, 2011. ISBN 978-83-924989-4-0. Search in Google Scholar

5 Kłos R. 2016. System trymiksowej dekompresji dla aparatu nurkowego typu CRABE. Gdynia : Polskie Towarzystwo Medycyny i Techniki Hiperbarycznej, 2016. ISBN 978-83-938322-5-5. Search in Google Scholar

6 (Klos R., Nishi R., Olszanski R., 2002) Search in Google Scholar

7 Kłos R. 2007. Zastosowanie metod statystycznych w technice nurkowej - Skrypt. Gdynia : Polskie Towarzystwo Medycyny i Techniki Hiperbarycznej, 2007. ISBN 978-83-924989-26. Search in Google Scholar

8 Wienke B.R., 2016 Search in Google Scholar

9 Wald A. 1947. Sequential Analysis. New York : Jon Willey & Sons, Inc., 1947. Search in Google Scholar

10 Homer L.D. Weathersby P.K. 1985. Statistical aspects of the design and testing of decompression tables. Undersea Biomedical Research. 1985, Tom 12, 3, strony 239-249. Search in Google Scholar

11 ANEP-16. APRIL 1989. Mine Countermeasure Vessels SUPPLEMENT 2 to STANAG 4154 -General Criteria and Common Procedures for Seakeeping Performance Assess-ment mine counter measure vessels. Edition 1. Brussels : NATO Standardization Office, APRIL 1989. CPT 2041. Search in Google Scholar

12 STANAG 4154. 22 February 2018. Common procedures for seakeeping in the ship design process. Edition 4. Brussels : NATO Standardization Office, 22 February 2018. NSO/0241(2018)SDCG/4154. Search in Google Scholar

13 MTP-24. May 2002. Naval mine countermeasures - tactics and execution. Brussels : NATO Standardization Agency, May 2002. Tom I. MTP-24(C) VOL I. Search in Google Scholar

14 STANAG 1132. 26 September 2016. Naval mine countermeasures - tactics and execution. Brussels : The NATO Standardization Office, 26 September 2016. NSO(NAVAL)1177(2016)NMW/1132. Search in Google Scholar

15 ADivP-01. September 2019. Allied guide to diving operations. Edition C Version 3. Brussels : NATO Standardization Office, September 2019. Search in Google Scholar

16 AEODP-10. February 2020. Explosive ordnance disposal (EOD) principles and minimum standards of proficiency. Edition C Version 1. Brussels : NATO Standardization Office, February 2020. Search in Google Scholar

17 STANAG 2143. 7 FEBRUARY 2020. Explosive ordnance disposal (EOD) principles and minimum standards of proficiency. 7. Brussels : NATO Standardization Office, 7 FEBRUARY 2020. Search in Google Scholar

18 AEODP-14. June 2016. NATO EOD publications set (NEPS) – Identification and disposal of surface, air, and underwater munitions. Edition A Version 1. Brussels : NATO Allied Explosive Ordnance Disposal Publication, June 2016. Search in Google Scholar

19 STANAG 2369. June 2016. EOD publications set (NEPS) – Identification and disposal of sur-face, air, and underwater munitions. Edition 4. Brussels : The NATO Standardization Office, June 2016. NSO(ARMY)0845(2016)EOD/2369. Search in Google Scholar

20 STANAG 2295. 8 February 2018. Allied joint doctrine for countering improvised explosive devices (C-IED). 4. Brussels : NATO Standardization Office, 8 February 2018. NSO(JOINT)0176(2018)C-IED/2295. Search in Google Scholar

21 AJP-3.15. February 2018. Allied joint doctrine for countering improvised explosive devices. Edition C Version 1. Brussels : NATO Standardization Office, February 2018. Search in Google Scholar

22 STANAG 1372. 28 July 2014. Allied guide to diving operations. 11. Brussels : The NATO Standardization Office, 28 July 2014. NSO(NAVAL)1054(2014)UD/1372. Search in Google Scholar

23 AMP-15. May 2013. Standards for naval mine warfare acoustic measurements. Edition (A) Version (1). Brussels : NATO Standardization Agency, May 2013. Search in Google Scholar

24 STANAG 1418. 7 May 2013. Standards for naval mine warfare acoustic measurements. Brussels : NATO Standardization Office, 7 May 2013. NSA(NAVAL)0766(2013)NMW/1418. Search in Google Scholar

25 AEODP-07. November 2015. Explosive ordnance disposal equipment requirements and equipment. Edition B Version 1. Brussels : NATO Allied explosive ordnance disposal publication, November 2015. Search in Google Scholar

26 Korenbaum V., Kostiv A., Gorovoy S., Dorozhko V., Shiryaev A. 2020. Underwater Noises of Open-Circuit Scuba Diver. Archives of Acoustics. 2020, Tom 45, 2, strony 349–357. Search in Google Scholar

27 Pozański P. 2011. Współczesne zagrożenia elementów infrastruktury morskiej oraz systemy ich detekcji. Polish Hyperbaric Research. 2011, Tom 35, strony 7-34. Search in Google Scholar

28 Greenlaw J. 2013. Sea mines and naval mine countermeasures: are autonomous underwater vehicles the answer, and is the Royal Canadian Navy ready for the new paradigm?. Toronto : Canadian Forces College, 2013. JCSP 39. Search in Google Scholar

29 Ligęza K. 2013. Leksykon działąń sił morskich. Gdynia : Akademia Marynarki Wojennej, 2013. ISBN 978-83-60278-71-0. Search in Google Scholar