Symbolic domains and reachability for nets with trajectories
Abstract
This paper addresses the problem of reachability for timed models handling additional quantities progressing linearly such as distance of moving objects to a target. We first introduce a variant of Petri nets called trajectory nets where some places are standard control places containing tokens, and other places contain a simplified representation of trajectories of objects instead of tokens. We give a semantics for this model, and propose an abstraction of sets of equivalent configurations into symbolic domains. We show how to compute in polynomial time a symbolic representation of successors of configurations appearing in a domain, and prove that domains are closed under calculus of successors. Further, the set of domains for a fixed trajectory net is finite. When the control part of the model is bounded, reachability, coverability and safety properties involving distances can be checked in PSPACE on a sound, complete, and finite abstraction called a state class graph.
Domains
Computer Science [cs]Origin | Files produced by the author(s) |
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