Integrated model of critical infrastructure accident consequences

Bogalecka, M.; Kołowrocki, K.

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Tytuł artykułu

Integrated model of critical infrastructure accident consequences

Autorzy

Bogalecka M. , Kołowrocki K.

Treść / Zawartość

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Języki publikacji

Abstrakty

An integrated general model of critical infrastructure accident consequences including the process of initiating events, the process of environment threats and the process of environment degradation models is presented. The model is proposed to the evaluation of losses associated with the environment degradation caused by the critical infrastructure accident.

Słowa kluczowe

critical infrastructure accident initiating events environment threats environment degradation losses

Wydawca

Polskie Towarzystwo Bezpieczeństwa i Niezawodności

Czasopismo

Journal of Polish Safety and Reliability Association

Rocznik

2017

Tom

Vol. 8, No. 3

Strony

43--54

Opis fizyczny

Bibliogr. 37 poz.

Twórcy

autor

Bogalecka M.

Gdynia Maritime University, Gdynia, Poland

autor

Kołowrocki K.

Gdynia Maritime University, Gdynia, Poland

Bibliografia

1. Bogalecka M., Analysis of sea accidents initial events. Polish Journal of Environmental Studies, 19 (4A), 5-8, 2010
2. Bogalecka M., Kołowrocki K., Probabilistic approach to risk analysis of chemical spills at sea. International Journal of Automation and Computing, 2, 117-124, 2006
3. Bogalecka M., Kołowrocki K., Modelling, identification and prediction of environment degradation initial events process generated by critical infrastructure accidents. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 6(1), 47-66, 2015a
4. Bogalecka M., Kołowrocki K., The process of sea environment threats generated by hazardous chemicals release. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 6(1), 67-74, 2015b
5. Bogalecka M., Kołowrocki K., Modelling critical infrastructure accident consequences - an overall approach. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 7(1), 1-13, 2016
6. Bogalecka M., Kołowrocki K., Statistical identification of critical infrastructure accident consequences process. Part 1. Process of initiating events. Proc. 17th Conference of the Applied Stochastic Models and Data Analysis (ASMDA) International Society and the Demographics2017 Workshop, London, UK, (in press), 2017a
7. Bogalecka M., Kołowrocki K., Statistical identification of critical infrastructure accident consequences process. Part 2. Process of environment threats. Proc. 17th Conference of the Applied Stochastic Models and Data Analysis (ASMDA) International Society and the Demographics2017 Workshop, London, UK, (in press), 2017b
8. Bogalecka M., Kołowrocki K., Statistical identification of critical infrastructure accident consequences process. Part 3. Process of environment degradation. Proc. 17th Conference of the Applied Stochastic Models and Data Analysis (ASMDA) International Society and the Demographics2017 Workshop, London, UK, (in press), 2017c
9. Dziula P., Kołowrocki K., Siergiejczyk M., Critical infrastructure systems modeling. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 5(1), 41-46, 2014
10. 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
11. EU-CIRCLE Report D3.3-GMU21, Modelling critical infrastructure accident consequences – designing the General Model of Critical Infrastructure Accident Consequences (GMCIAC), 2016
12. EU-CIRCLE Report D3.3-GMU22, Identification of unknown parameters of the General Model of Critical Infrastructure Accident Consequences (GMCIAC), 2016
13. EU-CIRCLE Report D3.3-GMU23, Adaptation of the general model of critical infrastructure accident consequences (GMCIAC) to the prediction of critical infrastructure accident consequences, 2016
14. EU-CIRCLE Report D3.3-GMU24, Practical application of the General Model of Critical Infrastructure Accident Consequences (GMCIAC) to the chemical spill consequences generated by the accident of one of the ships of the ship critical infrastructure network operating at the Baltic Sea waters, 2017
15. EU-CIRCLE Report D6.4., Case Study 2: sea surge and extreme winds at Baltic Sea area , Scenario 2, Chemical spill due to extreme surges, 2018
16. Grabski F., Semi-Markov processes: applications in system reliability and maintenance. Elsevier, 2015
17. IMO, Casualty-related matters reports on marine casualties and incidents. MSC-MEPC.3/Circ.3, London, 2008
18. Jakusik E., Czernecki B., Marosz M., Pilarski M., Miętus M., Changes of wave height in the Southern Baltic in the 21st century, [in:] J. Wibig and E. Jakusik (eds.). Climatological and ocean-graphical conditions in Poland and Southern Baltic. Climate change projections and guidelines for developing adaptation strategies. Monograph, 216-232, 2012a
19. Jakusik E., Wójcik R., Pilarski M., Biernacik D., Miętus M., Sea level in the Polish coastal zone - the current state and projected future changes, [in:] J. Wibig and E. Jakusik (eds.). Climatological and ocean-graphical conditions in Poland and Southern Baltic. Climate change projections and guidelines for developing adaptation strategies. Monograph, 146169, 2012b
20. Klabjan D., Adelman D., Existence of optimal policies for semi-Markov decision processes using duality for infinite linear programming. SIAM Journal on Control and Optimization, 44(6), 21042122, 2006
21. Kołowrocki K., Safety of critical infrastructures. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 4(1), 5172, 2013a
22. Kołowrocki K., Safety of critical infrastructures - an overall approach, Keynote Speech. International Conference on Safety and Reliability - KONBiN 2013, 2013b
23. Kołowrocki K., Modeling reliability of critical infrastructures with application to port oil transportation system. Proc. 11th International Fatigue Congress – IFC 2014, Melbourne, Australia, 2014, Advances Materials research Vols. 891-892, 1565-1570, 2014a
24. 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
25. Kołowrocki K., Kuligowska E., Soszyńska-Budny J., Monte Carlo simulation application to reliability assessment of an exemplary system operating at variable conditions. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 6(1), 137-144, 2015a
26. Kołowrocki K., Kuligowska E., Soszyńska-Budny J., Reliability assessment of an exemplary system operating at variable conditions. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 6(1), 129-136, 2015b
27. 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
28. Kołowrocki K., Soszyńska-Budny J., Introduction to safety analysis of critical infrastructures. Proc. International Conference on Quality, Reliability, Risk, Maintenance and Safety Engineering - QR2MSE-2012, Chendgu, China, 1-6, 2012a
29. Kołowrocki K., Soszyńska-Budny J., Preliminary approach to safety analysis of critical infrastructures. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 3(1), 7388, 2012b
30. Kołowrocki K., Soszyńska-Budny J., Safety of complex technical systems - an overall approach. Keynote Speech, International Conference on Quality, Reliability, Risk, Maintenance and Safety Engineering - QR2MSE-2012, Chendgu, China, Final Program, 10, 2012c
31. Kołowrocki K., Soszyńska-Budny J., Safety of complex technical systems - an overall approach with application in maritime transport, Plenary Talk, Proc. International Symposium on Advanced Intelligent Maritime Safety Technology, Ai-MAST 2012, Mokpo, South Korea, 4-13, 2012d
32. Kołowrocki K., Soszyńska-Budny J., On safety of critical infrastructure modeling with application to port oil transportation system, Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars, 4(2), 189-204, 2013
33. Kołowrocki K., Soszyńska-Budny J., Optimization of critical infrastructures safety, Proc. 10th International Conference on Digital Technologies – DT 2014, Zilina, Slovakia, 150-156, 2014a
34. Kołowrocki K., Soszyńska-Budny J., Prediction of critical infrastructures safety, Proc. 10th International Conference on Digital Technologies - DT 2014, Zilina, Slovakia, 141-149, 2014b
35. Soszyńska J., Systems reliability analysis in variable operation conditions. International Journal of Reliability, Quality and Safety Engineering. Special Issue: System Reliability and Safety, 14(6), 617-634, 2007
36. Soszyńska-Budny J., Optimizing reliability of critical infrastructures with application to port oil piping transportation system. Proc. 11th International Fatigue Congress - ICF 2014, Melbourne, Australia, 2014, Advances Materials Research, 891-892, 2014
37. Tang H., Yin B.G., Xi H.S., Error bounds of optimization algorithms for semi-Markov decision processes, International Journal of Systems Science, 38(9), 725-736, 2007

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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