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Modelling Safety of Global Baltic Network of Critical Infrastructure Networks

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The main aim of the paper is to present the safety model for Global Baltic Network of Critical Infrastructure Networks. To achieve this, the basis of the multistate ageing approach to safety modelling is introduced. Following, the basic parameters important for the safety and risk prediction are presented. Next, the particular elements of the Global Baltic Network of Critical Infrastructure Networks are defined and described. Finally, the safety and risk analysis of the network of networks are presented.
Rocznik
Strony
73--98
Opis fizyczny
Bibliogr. 23 poz., rys., wykr.
Twórcy
autor
  • Gdynia Maritime University, Gdynia, Poland
  • Gdynia Maritime University, Gdynia, Poland
Bibliografia
  • 1. Amari S.V., Misra R.B., Comment on: Dynamic reliability analysis of coherent multistate systems. IEEE Transactions on Reliability, 46, 460-461, 1997
  • 2. Aven T., Reliability evaluation of multistate systems with multistate components. IEEE Transactions on Reliability, 34, 473-479, 1985
  • 3. Aven T., Jensen U., Stochastic Models in Reliability. Springer-Verlag, New York, 1999
  • 4. Aven T., On performance measures for multistate monotone systems. Reliability Engineering and System Safety, 41, 259-266, 1993
  • 5. Barlow R.E., Wu A.S., Coherent systems with multistate components. Mathematics of Operations Research, 4, 275-281, 1978
  • 6. Brunelle R.D., Kapur K.C., Review and classification of reliability measures for multistate and continuum models. IEEE Transactions,31, 11171180, 1999
  • 7. EU-CIRCLE Report D1.1, EU-CIRCLE Taxonomy, 2015
  • 8. EU-CIRCLE Report D1.2-GMU1. Identification of existing critical infrastructures at the Baltic Sea area and its seaside, their scopes, parameters and accidents in terms of climate change impacts, 2016
  • 9. EU-CIRCLE Report D3.1-GMU4, Baltic Sea area critical infrastructures global network assets and interconnections (“network of networks” approach), 2016
  • 10. EU-CIRCLE Report D3.3-GMU11, The Baltic Sea area critical infrastructures global network (“network of networks”) safety modelling, identification and prediction (without climate-weather change influence), 2016
  • 11. Guze S., Kołowrocki K., Reliability analysis of multi-state ageing consecutive „k out of n: F” systems. International Journal of Materials and Structural Reliability, Vol. 6, No 1, 47-60, 2008
  • 12. Hudson J.C., Kapur K.C., Reliability theory for multistate systems with multistate components. Microelectronics Reliability, 22, 1-7, 1982
  • 13. Hudson J., Kapur K., Reliability bounds for multistate systems with multistate components. Operations Research, 33, 735-744, 1985
  • 14. Kołowrocki K., Reliability of Large and Complex Systems, Amsterdam, Boston, Heidelberd, London, New York, Oxford, Paris, San Diego, San Francisco, Singapore, Sidney, Tokyo, Elsevier, 2014b
  • 15. Kołowrocki K., Soszyńska-Budny J., Reliability and Safety of Complex Technical Systems and Processes: Modeling - Identification - Prediction - Optimization, London, Dordrecht, Heildeberg, New York, Springer, 2011
  • 16. Lisnianski A., Levitin G., Multi-State System Reliability. Assessment, Optimisation and Applications. World Scientific Publishing Co. Pte. Ltd., New Jersey, London, Singapore, Hong Kong, 2003
  • 17. Natvig B., Two suggestions of how to define a multistate coherent system. Advancesin Applied Probability, 14, 434-455, 1982
  • 18. Ohio F., Nishida T., (1984) On multistate coherent systems. IEEE Transactions on Reliability, 33, 284287, 1984
  • 19. Wilk P., Cross-border energy infrastructure in the Baltic Sea Region, Electronic Publications of Pan European Institute 7/2012, 2012
  • 20. Xue J., On multi-state system analysis. IEEE Transactions on Reliability, 34, 329-337, 1985
  • 21. Xue J., Yang K., Dynamic reliability analysis of coherent multi-state systems, IEEE Trans on Reliab. 4(44), 683-688, 1995a
  • 22. Xue J., Yang K., Symmetric relations in multi-state systems, IEEE Trans on Reliab 4(44), 689-693, 1995b
  • 23. Yu K., Koren I., Guo Y., Generalised multistate monotone coherent systems.IEEE Transactions on Reliability 43, 242-250, 1994
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8f6f2de5-6ad3-4cf5-8103-17b2c13c6406
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