IMPLEMENTATION OF RISK ASSESSMENT FOR CRITICAL INFRASTRUCTURE PROTECTION WITH THE USE OF RISK MATRIX

  • Olena Ivanenko National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institutе»
Keywords: risk, economic losses, emergency situations, critical infrastructure, consequences, threats, priorities

Abstract

The object of research: risk assessment for critical infrastructure protection in Ukraine.

Investigated problem: adaptation and implementation of European Union’s approach to the risk assessment for critical infrastructure for the conditions of Ukraine.

The main scientific results: The most relevant types of threats of natural and man-made origin for the security of critical infrastructure in Ukraine are investigated. The adaptation and implementation of European Union’s approach to the risk assessment for critical infrastructure for the conditions of Ukraine is realized. For this the character of changes of natural and man-made emergencies in Ukraine in the context of impact on critical infrastructure is investigated. The risk of economic losses due to emergencies in Ukraine has been evaluated with the use of risk matrix, taking into account the adapted approach applied in the European Union.

Field of practical use of research results: Critical infrastructure facility including systems and physical or virtual resources that provide functions and services, failure of which can lead to significant negative consequences for society, social and economic development of the country and ensuring national security. Among them the most important are objects of electric-power industry, especially important objects of the oil and gas industry; units of the state government and local administration; objects of possible terrorist attacks; facilities subject to protection and defense in emergencies and during special periods; facilities subject to mandatory protection by the State Protection Service under contracts.

Innovative technology product: methodology for assessing threats and risks to critical infrastructure, which can greatly contribute to the development of measures to prevent and minimize the negative consequences of emergencies possible in Ukraine at critical infrastructure objects.

Scope of the innovative technology product: state system for critical infrastructure protection in Ukraine.

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Author Biography

Olena Ivanenko, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institutе»

Department of Ecology and Technology of Plant Polymers

References

Biryukov, D. S., Kondratov, S. I. (2016). Green Paper on critical infrastructure protection in Ukraine. National Institute for Strategic Studies, 176.

Code of Civil Protection of Ukraine (2020). Available at: http://zakon3.rada.gov.ua/laws/show/5403-17

Terminology on Disaster Risk Reduction. (2009). United Nations International Strategy for Disaster Reduction. Available at: https://www.undrr.org/publication/2009-unisdr-terminology-disaster-risk-reduction

ISO 31000:2009. Risk management. Principles and guidelines. (2009). International Organization for Standardization.

Global Assessment Report on Disaster Risk Reduction. Revealing Risk, Redefining Development (2011). United Nations. Available at: www.preventionweb.net/gar

World Bank. 2010. Natural hazards, unnatural disasters: The economics of effective prevention (2011). Washington: World Bank and United Nations, 587.

Bychenok, M. M, Ivanuta, S. P, Yakovlev, Ye. O. (2007). On complex assessment of life-threatening risks in potentially hazardous regions. Ecology and Resources, 17, 33–42.

Leschinsky, O. L., Shkolny, O. V. (2005). Economic risk and methods of its measurement. Moscow, 112.

Bernstein, P. L. (1996). Against the Gods: the Remarkable Story of Risk. John Wiley & Sons, 383.

Morgan, M. G., Henrion, M. (1990). Uncertainty: A Guide to Dealing with Uncertainty in Quantitative Risk and Policy Analysis. Cambridge University Press, 344. doi: http://doi.org/10.1017/cbo9780511840609

Ivanuta, S. P. (2017). Environmental and man-made threats in the zone of military conflict in Eastern Ukraine. Strategic Panorama, 1, 53–60.

Kachinsky, A. B. (2004). Security, Threats and Risks: Scientific Concepts and Mathematical Methods. Kyiv, 472.

Beck, U. (1998). World Risk Society. Cambridge, 425.

Long, S. O., Ivanchenko, V. V. et. al. (2016). Assimilation potential of the geological environment of Ukraine and its estimation. National Academy of Sciences of Ukraine, Institute of Telecommunications and Global Information Space, 176.

Ivanyuta, S. P., Kachinsky, A. B. (2012). Ecological and natural-technogenic safety of Ukraine: a regional dimension of threats and risks. National Institute for Strategic Studies, 308.

Opara, N. M., Dudar, N. I. (2013). Chadny gas: influence on the human body, ways of personal protection and safe behavior. Aspects of safety of work, life and environment of the person, 42–45. Available at: http://dspace.pdaa.edu.ua:8080/handle/123456789/798

Panov, E. N., Shilovich, I. L., Ivanenko, E. I., Buryak, V. V. (2012). Thermal and chemical aspects of formation со in the process of baking of electrodes. Eastern-European Journal of Enterprise Technologies, 4 (6 (58)), 15–18. Available at: http://journals.uran.ua/eejet/article/view/5586/5026

Panov, Y., Gomelia, N., Ivanenko, O., Vahin, A., Leleka, S. (2019). Estimation of the effect of temperature, the concentration of oxygen and catalysts on the oxidation of the thermoanthracite carbon material. Eastern-European Journal of Enterprise Technologies, 2 (6 (98)), 43–50. doi: http://doi.org/10.15587/1729-4061.2019.162474

Ivanenko, O., Panov, Y., Gomelia, N., Vahin, A., Leleka, S. (2020). Assessment of the Effect of Oxygen and Carbon Dioxide Concentrations on Gas Evolution During Heat Treatment of Thermoanthracite Carbon Material. Journal of Ecological Engineering, 21 (2), 139–149. doi: http://doi.org/10.12911/22998993/116326

Environmental passport of Zaporizhzhia region for 2018 (2019). Available at: https://menr.gov.ua/news/33529.html

Information and analytical information on the emergence of the National Assembly in Ukraine during 2016 (2017). Available at: http://www.dsns.gov.ua/ua/Dovidka-za-kvartal/57279.html

Information and analytical information on the emergence of the National Assembly in Ukraine during the first quarter of 2017 (2017). Available at: http://www.dsns.gov.ua/ua/Dovidka-za-kvartal/61431.html

The OSCE called for the protection of important infrastructure in the Donbass (2017). Available at: http://www.theinsider.ua/politics/593595f08e98b/

International Decade for Natural Disasters Reduction. Yokohama Strategy and Plan of Action for a safer world (1994). Available at: http://www.ifrc.org/Docs/idrl/I248EN.pdf

Sendai Framework for Disaster Risk Reduction 2015–2030 (2015). Available at: http://www.unisdr.org

Risk assessment methodologies for critical infrastructure protection. Part II: A new approach (2015). Publications Office of the European Union, 40. Available at: https://publications.jrc.ec.europa.eu


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Published
2020-06-30
How to Cite
Ivanenko, O. (2020). IMPLEMENTATION OF RISK ASSESSMENT FOR CRITICAL INFRASTRUCTURE PROTECTION WITH THE USE OF RISK MATRIX. ScienceRise, (2), 26-38. https://doi.org/10.21303/2313-8416.2020.001340
Section
Innovative technologies in industry