Co-Buchi Barrier Certificates for Discrete-time Dynamical Systems

Abstract

Barrier certificates provide functional overapproximations for the reachable set of dynamical systems and provide inductive guarantees on the safe evolution of the system. In automata-theoretic verification, a key query is to determine whether the system visits a given predicate over the states finitely often, typically resulting from the complement of the traditional Buchi acceptance condition. This paper proposes a barrier certificate approach to answer such queries by developing a notion of co-Buchi barrier certificates (CBBCs) that generalize classic barrier certificates to ensure that the traces of a system visit a given predicate a fixed number of times. Our notion of CBBC is inspired from bounded synthesis paradigm to LTL realizability, where the LTL specifications are converted to safety automata via universal co-Buchi automata with a bound on final state visitations provided as a hyperparameter. Our application of CBBCs in verification is analogous: we fix a bound and search for a suitable barrier certificate, increasing the bound if no suitable function can be found. We then use these CBBCs to verify our system against properties specified by co-Buchi automata and demonstrate their effectiveness via some case studies.

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