English

Maximally Permissive Controlled System Synthesis for Modal Logic

Formal Languages and Automata Theory 2014-08-15 v1 Logic in Computer Science Systems and Control

Abstract

We propose a new method for controlled system synthesis on non-deterministic automata, which includes the synthesis for deadlock-freeness, as well as invariant and reachability expressions. Our technique restricts the behavior of a Kripke-structure with labeled transitions, representing the uncontrolled system, such that it adheres to a given requirement specification in an expressive modal logic. while all non-invalidating behavior is retained. This induces maximal permissiveness in the context of supervisory control. Research presented in this paper allows a system model to be constrained according to a broad set of liveness, safety and fairness specifications of desired behavior, and embraces most concepts from Ramadge-Wonham supervisory control, including controllability and marker-state reachability. Synthesis is defined in this paper as a formal construction, which allowed a careful validation of its correctness using the Coq proof assistant.

Keywords

Cite

@article{arxiv.1408.3317,
  title  = {Maximally Permissive Controlled System Synthesis for Modal Logic},
  author = {Allan van Hulst and Michel Reniers and Wan Fokkink},
  journal= {arXiv preprint arXiv:1408.3317},
  year   = {2014}
}

Comments

SOFSEM 2015

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