Elektrická energie je klíčem k sociálně-ekonomické udržitelnosti a rozvoji všech aspektů společnosti, což z ní činí klíčovou kritickou infrastrukturu pro jakýkoli národ. Spolehlivá funkčnost zdroje generace je zásadní pro celkovou výrobu. Cílem studie je podívat se na rizika, zranitelnosti a hrozby spojené s elektřinou jako kritickou infrastrukturou. Diplomo-vá práce představuje rizika spojená s elektrárnami na výrobu vodních elektráren s důrazem na osobní rizika a doporučení ke zmírnění těchto rizik pro kontinuální a efektivní výrobu elektrické energie.
Annotation in English
Electric power is key to the socio-economic sustainability and development of every aspect of the society, making it a key critical infrastructure to any nation. The reliable functionali-ty of the source of generation is vital to the overall production. The goal of the study is to look at the risk, vulnerabilities and threats associated with Electric power as a critical in-frastructure. The Diploma thesis presents risks associated with Hydropower generating plants with emphasis on personnel risks and recommendations on mitigating these risks for continuous and efficient electric power generation.
Elektrická energie je klíčem k sociálně-ekonomické udržitelnosti a rozvoji všech aspektů společnosti, což z ní činí klíčovou kritickou infrastrukturu pro jakýkoli národ. Spolehlivá funkčnost zdroje generace je zásadní pro celkovou výrobu. Cílem studie je podívat se na rizika, zranitelnosti a hrozby spojené s elektřinou jako kritickou infrastrukturou. Diplomo-vá práce představuje rizika spojená s elektrárnami na výrobu vodních elektráren s důrazem na osobní rizika a doporučení ke zmírnění těchto rizik pro kontinuální a efektivní výrobu elektrické energie.
Annotation in English
Electric power is key to the socio-economic sustainability and development of every aspect of the society, making it a key critical infrastructure to any nation. The reliable functionali-ty of the source of generation is vital to the overall production. The goal of the study is to look at the risk, vulnerabilities and threats associated with Electric power as a critical in-frastructure. The Diploma thesis presents risks associated with Hydropower generating plants with emphasis on personnel risks and recommendations on mitigating these risks for continuous and efficient electric power generation.
Elaborate a literature review on critical infrastructure.
Discuss the general principles of critical infrastructure protection.
Do the evaluation of various types of security application used in selected critical infrastructure sector.
Analyze the current state of selected critical infrastructure sector protection in Nigeria.
Design and propose suitable security applications for selected critical infrastructure sector protection in Nigeria.
Research Plan
Elaborate a literature review on critical infrastructure.
Discuss the general principles of critical infrastructure protection.
Do the evaluation of various types of security application used in selected critical infrastructure sector.
Analyze the current state of selected critical infrastructure sector protection in Nigeria.
Design and propose suitable security applications for selected critical infrastructure sector protection in Nigeria.
Recommended resources
European Commission. (2019). Evaluation of Council Directive 2008/114 on Identification and Designation of European Critical Infrastructures and the Assessment of the need to improve their protection (SWD/2019/310).
Bologna, S., Bertocchi, G., Carducci, G., Carrozzi, L., Cavallini, S., Lazari, A., Oliva, G., Traballesi, A. (2016). Guidelines for Critical Infrastructure Resilience Evaluation. Roma: Italian Association of Critical Infrastructures? Experts.
Brown, T. (2008). Infrastructure Dependency Indicators. In J.G. Voeller (Ed.), Wiley Handbook of Science and Technology for Homeland Security. Hoboken, NJ: John Wiley & Sons. DOI: 10.1002/9780470087923.hhs248.
DHS. (2013). The National Infrastructure Protection Plan 2013: Partneringfor Critical Infrastructure Security and Resilience. Washington, DC: The Department of Homeland Security.
Fekete, A. (2011). Common Criteria for the Assessment of Critical Infrastructures. International Journal of Disaster Risk Science, 2(1): 15-24. DOI: 10.1007/s13753- 011-0002-y.
Řehák, D., Hromada, M. (2018). Failures in a Critical Infrastructure System. In T. Nakamura (Ed.), System of System Failures. London: IntechOpen, pp. 75-93. DOI: 10.5772/intechopen.70446.
Recommended resources
European Commission. (2019). Evaluation of Council Directive 2008/114 on Identification and Designation of European Critical Infrastructures and the Assessment of the need to improve their protection (SWD/2019/310).
Bologna, S., Bertocchi, G., Carducci, G., Carrozzi, L., Cavallini, S., Lazari, A., Oliva, G., Traballesi, A. (2016). Guidelines for Critical Infrastructure Resilience Evaluation. Roma: Italian Association of Critical Infrastructures? Experts.
Brown, T. (2008). Infrastructure Dependency Indicators. In J.G. Voeller (Ed.), Wiley Handbook of Science and Technology for Homeland Security. Hoboken, NJ: John Wiley & Sons. DOI: 10.1002/9780470087923.hhs248.
DHS. (2013). The National Infrastructure Protection Plan 2013: Partneringfor Critical Infrastructure Security and Resilience. Washington, DC: The Department of Homeland Security.
Fekete, A. (2011). Common Criteria for the Assessment of Critical Infrastructures. International Journal of Disaster Risk Science, 2(1): 15-24. DOI: 10.1007/s13753- 011-0002-y.
Řehák, D., Hromada, M. (2018). Failures in a Critical Infrastructure System. In T. Nakamura (Ed.), System of System Failures. London: IntechOpen, pp. 75-93. DOI: 10.5772/intechopen.70446.