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and reliability level in such a type systems. In literature there are also some
positions concerning qualitative and quantitative methods of evaluation the re-
liability structure for complex technical systems e.g. [3, 7, 9].
Acknowledgments.
The author's research presented in this article was carried
out by the project: Grant NCN 2011/01/D/ST8/07827: ”Importance analysis of
components in reliability structure of complex technical systems illustrated by
marine power plant”.
References
1. Chybowski, L.: Tendencje rozwojowe w ocenie waznosci elementow i grup elemen-
tow w strukturze niezawodnosciowej systemow. Studia i Materia y Polskiego Sto-
warzyszenia Zarz dzania Wiedz 45, 77-86 (2011) (in Polish)
2. Chybowski, L.: The problems of modeling the reliability structure of the complex
technical system on the basis of a steam-water system of the engine room. Man-
agement Systems in Production Engineering 2(6), 12-17 (2012)
3. Chybowski, L.: Qualitative and Quantitative Multi-Criteria Models of the Impor-
tance of the Components in Reliability Structure of a Complex Technical System.
Journal of KONBIN 24(4), 33-48 (2012)
4. Chybowski, L.: Safety criterion in assessing the importance of an element in the
complex technological system reliability structure. Management Systems in Pro-
duction Engineering 5(1), 10-13 (2012)
5. Chybowski, L., Idziaszczyk, D., Wisnicki, B.: A Comparative Components Impor-
tance analysis of A Complex Technical System with The Use of Different Impor-
tance Measures. Systems Supporting Production engineering. Review of Problems
and Solutions (ed. J. Kazmierczak). P.A. NOVA, Gliwice 23-33 (2014)
6. Chybowski, L.: Components Importance Analysis in Complex Technical Systems.
ITEE Radom 2014 (in Polish) ISBN: 978-83-7789-309-8
7. Chybowski, L., Laskowski, R., Gawdziska, K.: An overview of systems supplying
water into the combustion chamber of diesel engines to decrease the amount of
nitrogen oxides in exhaust gas. Journal of Marine Science and Technology. Springer,
Tokyo (2015) doi:10.1007/s00773-015-0303-8
8. Karpinski, J., Korczak, E.: Metody oceny niezawodnosci dwustanowych systemow
technicznych. Instytut Bada Systemowych PAN, pp. 162-165. Omnitech Press,
Warszawa (1990) (in Polish)
9. Montewka, J., Ehlers, S., Goerlandt, F., Hinz, T., Tabri, K., Kujala, P.: A frame-
work for risk assessment for maritime transportation systems-A case study for
open sea collisions involving RoPax vessels. Reliability Engineering and System
Safety 124, 142-157 (2014)
10. Prazewska, M., Korczak, E., Zaremba, M., Tuszynska, J., Tuszynski, J.: Nieza-
wodnosc urz...dzen elektronicznych. WKi, Warszawa (1987)
11. Inzynieria niezawodnosci poradnik. Praca zbiorowa pod red. J. Migdalskiego. ATR
Bydgoszcz; ZETOM, Warszawa, in Polish (1992)
12. Karlinski, J., Ptak, M., Dzialak, P.: Simulation tests of roll-over protection struc-
ture. Archives of Civil and Mechanical Engineering 13(1), 57-63 (2013)
13. Ptak, M., Rusinski, E., Karlinski, J., Dragan, S.: Evaluation of kinematics of SUV
to pedestrian impact - lower leg impactor and dummy approach. Archives of Civil
and Mechanical Engineering 12(1), 68-73 (2012)
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