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Abstrakty
We propose a unified model for the enforcement of safety and security of cyber-physical systems in critical applications. We argue that the need for resilience of a critical system requires simultaneous protection from hazards (safety) and from unauthorized access (security). We review how the critical system properties are handled and present a framework for their modeling. Then we present a model for the enforcement of critical system properties through situational awareness, including threat monitoring, data analysis and state prediction for decision making. We conclude by presenting a case study of a power grid simulation and advocate the ability to move from today's reactive approaches to proactive ones that aim at avoiding system failures.
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Rocznik
Tom
Strony
279--294
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
- Dept. of Software Engineering, Florida Gulf Coast University, Ft. Myers, FL 33965, USA
autor
- Ying Wu College of Computing, New Jersey Institute of Technology, Newark, NJ 07102, USA
autor
- Dept. of Software Engineering, Florida Gulf Coast University, Ft. Myers, FL 33965, USA
Bibliografia
- [1] Ekholm B 2019 President CEO: Ericsson Mobility Report. Special Edition, World Economic Forum
- [2] Subramanian N and Zalewski J 2016 Quantitative Assessment of Safety and Security of System Architectures for Cyberphysical Systems Using the NFR Approach, IEEE Systems Journal 10 (2) 397
- [3] Thomas M S and McDonald J D 2015 Power System SCADA and Smart Grids, CRC Press, Florida
- [4] Peng C. et al. 2019 A Comprehensive Analysis of Smart Grid Systems against Cyber-Physical Attacks, IEEE Trans. Systems, Man and Cybernetics
- [5] Wadhawan Y, AlMajali A and Neuman C 2018 A Survey on Security Communication and Control for Smart Grids under Malicious Cyber Attacks, Electronics (Switzerland) 7 (249)
- [6] Otuoze A O, Mustafa M W and Larik R M 2018 Smart Grids Security Challenges: Classification by Sources of Threats, J. of Electrical Systems Information Techn. 5 468
- [7] Wang W and Lu Z 2013 Cyber Security in the Smart Grid: Survey and Challenges, Computer Networks 57 1344
- [8] Sridhar S, Hahn A and Govindarasu M 2012 Cyber-Physical System Security for the Electric Power Grid, Proc. of the IEEE 100 (1) 210
- [9] Sanz R and Zalewski J 2003 Pattern Based Control Systems European Control Conference (ECC 2013)Engineering, IEEE Control Systems 23 (3) 43
- [10] McDonald M J et al. 2010 Modeling and Simulation for Cyber-Physical System Security Research, Development and Applications. Report SAND2010-0568, Sandia National Laboratories
- [11] Sandberg H 2013 Secure Control and Applications in Power Systems. Tutorial, European Control Conference (ECC 2013)
- [12] Bayardo R J Jr et al. 1997 InfoSleuth: Agent-Based Semantic Integration of Information in Open and Dynamic Environments (in:) Proceedings SIGMOD’97, ACM International Conference on Management of Data 195
- [13] Gonzalez F G 2013 An Intelligent Controller for the Smart Grid, Procedia Computer Science 16 776
- [14] Public Safety and Emergency Preparedness Canada. Ontario–U.S. Power Outage – Impacts on Critical Infrastructure 2006, Incident Analysis Report IA06-002
- [15] Kornecki A and Zalewski J 2015 Aviation Software: Safety and Security (in:) Wiley Encyclopedia of Electrical and Electronics Engineering, John Wiley Sons, New York
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
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