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Linear Temporal Logic Satisfaction in Adversarial Environments using Secure Control Barrier Certificates
- Publication Year :
- 2019
-
Abstract
- This paper studies the satisfaction of a class of temporal properties for cyber-physical systems (CPSs) over a finite-time horizon in the presence of an adversary, in an environment described by discrete-time dynamics. The temporal logic specification is given in safe-LTL_F, a fragment of linear temporal logic over traces of finite length. The interaction of the CPS with the adversary is modeled as a two-player zero-sum discrete-time dynamic stochastic game with the CPS as defender. We formulate a dynamic programming based approach to determine a stationary defender policy that maximized the probability of satisfaction of a safe-LTL_F formula over a finite time-horizon under any stationary adversary policy. We introduce secure control barrier certificates (S-CBCs), a generalization of barrier certificates and control barrier certificates that accounts for the presence of an adversary, and use S-CBCs to provide a lower bound on the above satisfaction probability. When the dynamics of the evolution of the system state has a specific underlying structure, we present a way to determine an S-CBC as a polynomial in the state variables using sum-of-squares optimization. An illustrative example demonstrates our approach.<br />Comment: Proc. of GameSec2019 (to appear). This version corrects a typo in the simulation, and clarifies some ambiguous material from the Proceedings version
Details
- Database :
- arXiv
- Publication Type :
- Report
- Accession number :
- edsarx.1910.12282
- Document Type :
- Working Paper