SURE: A Modeling and Simulation Integration Platform for Evaluation of Secure and Resilient Cyber–Physical Systems
Title | SURE: A Modeling and Simulation Integration Platform for Evaluation of Secure and Resilient Cyber–Physical Systems |
Publication Type | Journal Article |
Year of Publication | 2018 |
Authors | Xenofon Koutsoukos, Gabor Karsai, Aron Laszka, Himanshu Neema, Bradley Potteiger, Peter Volgyesi, Yevgeniy Vorobeychik, Janos Sztipanovits |
Journal | Proceedings of the IEEE |
Volume | 106 |
Pagination | 93-112 |
Date Published | Jan |
ISSN | 0018-9219 |
Keywords | attacker-defender games, closed-loop systems, communication technologies, Computational modeling, Control, cyber components, Cyber-physical systems, Cyber–physical systems (CPSs), Cyberspace, denial-of-service attacks, Energy management, Games, information and communication technologies, information and communication technology, learning, Modeling and Simulation, modeling and simulation integration platform, physical means, resilience, resilient cyber-physical systems, Safety, secure cyber-physical systems, security, security and resilience, security of data, smart transportation systems, SURE, System Dynamics, system properties, Transportation, Transportation networks, Vanderbilt |
Abstract | The exponential growth of information and communication technologies have caused a profound shift in the way humans engineer systems leading to the emergence of closed-loop systems involving strong integration and coordination of physical and cyber components, often referred to as cyber-physical systems (CPSs). Because of these disruptive changes, physical systems can now be attacked through cyberspace and cyberspace can be attacked through physical means. The paper considers security and resilience as system properties emerging from the intersection of system dynamics and the computing architecture. A modeling and simulation integration platform for experimentation and evaluation of resilient CPSs is presented using smart transportation systems as the application domain. Evaluation of resilience is based on attacker-defender games using simulations of sufficient fidelity. The platform integrates 1) realistic models of cyber and physical components and their interactions; 2) cyber attack models that focus on the impact of attacks to CPS behavior and operation; and 3) operational scenarios that can be used for evaluation of cybersecurity risks. Three case studies are presented to demonstrate the advantages of the platform: 1) vulnerability analysis of transportation networks to traffic signal tampering; 2) resilient sensor selection for forecasting traffic flow; and 3) resilient traffic signal control in the presence of denial-of-service attacks. |
URL | http://www.vuse.vanderbilt.edu/~koutsoxd/www/Publications/08010538.pdf |
DOI | 10.1109/JPROC.2017.2731741 |
Citation Key | 8010538 |
- cyber components
- Transportation Networks
- security and resilience
- modeling and simulation
- Cyber–physical systems (CPSs)
- energy management
- information and communication technology
- Safety
- cyber-physical systems
- Games
- Computational modeling
- Transportation
- secure cyber-physical systems
- resilient cyber-physical systems
- communication technologies
- closed-loop systems
- security of data
- Cyberspace
- physical means
- security
- system properties
- control
- learning
- System Dynamics
- smart transportation systems
- attacker-defender games
- denial-of-service attacks
- SURE
- information and communication technologies
- modeling and simulation integration platform
- resilience
- Vanderbilt