论文信息 - STECA – Security Threats, Effects and Criticality Analysis: Definition and Application to Smart Grids

STECA – Security Threats, Effects and Criticality Analysis: Definition and Application to Smart Grids

The reliability of electrical power systems, since their first use, has been addressed focusing on ensuring the continuous power supply and on the management of critical situations in order to avoid electrical disruption due to potential failures. In the last decade, we are witnessing the increasing development of Smart Grids, with e3.15 billion investment in Smart Grids projects amongst the EU-28 Member States only in the period 2002–2014 [1]. Smart Grids enhance the classical electrical systems by introducing optimization of grid management, both from transmission and quick reaction to power disruption through real-time and automated technologies; deploying and integrating of large-scale renewable energy systems; reducing management and power costs, for final users; and introducing and integrating of smart appliances and consumer devices. While these new aspects make the electrical systems effective, they become more and more interconnected thus making them vulnerable to cyber and physical attacks [2–4]. Indeed, it is possible to remotely perform changes (e.g., to instructions, commands and configurations), disabling actions, shut down or in general interfere with the

Nuno Silva | Tommaso Zoppi | Andrea Ceccarelli | Nicola Nostro | Mario Rui Baptista

[1] Steve Lipner,et al. Security development lifecycle , 2010, Datenschutz und Datensicherheit - DuD.

[2] Andrea Bondavalli,et al. On Security Countermeasures Ranking through Threat Analysis , 2014, SAFECOMP Workshops.

[3] Raymond C. Parks,et al. Advanced Metering Infrastructure Security Considerations , 2007 .

[4] Technologie. NIST Special Publication 800-53 , 2010 .

[5] Eric Armengaud,et al. A Combined Safety-Hazards and Security-Threat Analysis Method for Automotive Systems , 2014, SAFECOMP Workshops.

[6] Deepa Kundur,et al. Towards a Framework for Cyber Attack Impact Analysis of the Electric Smart Grid , 2010, 2010 First IEEE International Conference on Smart Grid Communications.

[7] Tanya L. Brewer,et al. Smart Grid Cyber Security Strategy and Requirements , 2009 .

[8] Nuno Silva,et al. Adding Security Concerns to Safety Critical Certification , 2014, 2014 IEEE International Symposium on Software Reliability Engineering Workshops.

[9] Christoph Schmittner,et al. Security Application of Failure Mode and Effect Analysis (FMEA) , 2014, SAFECOMP.

[10] Joint Task Force Transformation Initiative,et al. Security and Privacy Controls for Federal Information Systems and Organizations , 2013 .