Safety and Resilience of Global Baltic Network of Critical Infrastructure Networks Related to Cascading Effects

• Autorzy: Blokus-Roszkowska A. , Dziula P. , Kołowrocki K.
• Języki publikacji: EN

Abstrakty

EN

The main aim of the paper is analysis of safety of the Global Baltic Network of Critical Infrastructure Networks (GBNCIN), taking into account interactions among particular critical infrastructure networks this network consists of. The safety function and other safety characteristics: the risk function and mean values and the standard deviations of the lifetimes in the safety state subsets are determined assuming the particular critical infrastructure networks have exponential safety functions. Finally, the coefficients of cascading effect impact on the intensities of degradation of the GBNCIN, and the indicator of that network resilience to cascading effect impact, are presented.

Słowa kluczowe

EN

critical infrastructure; critical infrastructures network; cascading effect; impact; safety

• Wydawca: Polskie Towarzystwo Bezpieczeństwa i Niezawodności
• Czasopismo: Journal of Polish Safety and Reliability Association
• Rocznik: 2018
• Tom: Vol. 9, No. 2
• Strony: 79--86
• Opis fizyczny: Bibliogr. 13 poz., wykr.

Twórcy

autor

Blokus-Roszkowska A.

• Gdynia Maritime University, Gdynia, Poland

autor

Dziula P.

• Gdynia Maritime University, Gdynia, Poland

autor

Kołowrocki K.

• Gdynia Maritime University, Gdynia, Poland

Bibliografia

• [1] Blokus-Roszkowska, A. & Kolowrocki, K. (2017a). Modelling reliability of multistate systems with dependent components and subsystems. Journal of Polish Safety and Reliability Association, Special Issue on EUCIRCLE Project Critical Infrastructure Impact Models for Operation Threats and Climate Hazards, Part 1, Critical Infrastructure Connections, 8(3), 23-42.
• [2] Blokus-Roszkowska, A. & Kolowrocki, K. (2017b). Modeling safety of interconnected critical infrastructure network cascading. Journal of Polish Safety and Reliability Association, Special Issue on EU-CIRCLE Project Critical Infrastructure Impact Models for Operation Threats and Climate Hazards, Part 1, Critical Infrastructure Connections, 8(3), 97-114.
• [3] Dziula, P. & Kołowrocki, K. (2017a). Modelling safety of Global Baltic Network of Critical Infrastructure Networks. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminnars, 8(3), 73-98.
• [4] Dziula, P. & Kołowrocki, K. (2017b). Integrated Impact Model on Global Baltic Network of Critical Infrastructure Networks Safety Related to Its Operation Process. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminnars, 8(4), 103-112.
• [5] EU-CIRCLE Report D1.2. 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.
• [6] EU-CIRCLE Report D3.1. Baltic Sea area critical infrastructures global network assets and interconnections (“network of networks” approach), 2016.
• [7] EU-CIRCLE Report D3.3. The Baltic Sea area critical infrastructures global network (“network of networks”) safety modelling, identification and prediction (without climate-weather change influence), 2016.
• [8] Kołowrocki, K. (2014). Reliability of Large and Complex Systems. Amsterdam, Boston, Heidelberd, London, New York, Oxford, Paris, San Diego, San Francisco, Singapore, Sidney, Tokyo.
• [9] Kołowrocki, K., Blokus-Roszkowska, A., Bogalecka, M., Dziula, P., Guze, S. & Soszyńska-Budny, J. (2017). WP3-Task3.3-D3.3-Part 1 - Inventory of Critical Infrastructure Impact Assessment Models for Climate Hazards, EUCIRCLE Report.
• [10] Kołowrocki, K. & Soszyńska-Budny, J. (2011). Reliability and Safety of Complex Technical Systems and Processes: Modeling - Identification - Prediction – Optimization. London, Dordrecht, Heildeberg, New York.
• [11] Kołowrocki, K. & Soszyńska-Budny J. (2012). Introduction to safety analysis of critical infrastructures. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars 3, 73-88.
• [12] Xue, J. (1985). On multi-state system analysis. IEEE Transaction on Reliability, 34, 329-337.
• [13] Xue, J. & Yang, K. (1995). Dynamic reliability analysis of coherent multi-state systems. IEEE Transaction on Reliability, 4(44), 683-688.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).