Dynamic Games for Secure and Resilient Control System Design
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by
Yunhan Huang, Juntao Chen, Linan Huang, Quanyan Zhu
2019
Abstract
Modern control systems are featured by their hierarchical structure composing
of cyber, physical, and human layers. The intricate dependencies among multiple
layers and units of modern control systems require an integrated framework to
address cross-layer design issues related to security and resilience
challenges. To this end, game theory provides a bottom-up modeling paradigm to
capture the strategic interactions among multiple components of the complex
system and enables a holistic view to understand and design
cyber-physical-human control systems. In this review, we first provide a
multi-layer perspective toward increasingly complex and integrated control
systems and then introduce several variants of dynamic games for modeling
different layers of control systems. We present game-theoretic methods for
understanding the fundamental tradeoffs of robustness, security, and resilience
and developing a clean-slate cross-layer approach to enhance the system
performance in various adversarial environments. This review also includes
three quintessential research problems that represent three research directions
where dynamic game approaches can bridge between multiple research areas and
make significant contributions to the design of modern control systems. The
paper is concluded with a discussion on emerging areas of research that
crosscut dynamic games and control systems.
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1910.07510v1
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