Reachability solution characterization of parametric real-time systems

https://doi.org/10.1016/j.tcs.2004.07.014Get rights and content
Under an Elsevier user license
open archive

Abstract

We investigate the problem of characterizing the solution spaces for timed automata augmented by unknown timing parameters (called timing parameter automata (TPA)). The main contribution of this paper is that we identify three non-trivial subclasses of TPAs, namely, upper-bound, lower-bound and bipartite TPAs, and analyze how hard it is to characterize the solution spaces. As it turns out, we are able to give complexity bounds for the sizes of the minimal (resp., maximal) elements which completely characterize the upward-closed (resp., downward-closed) solution spaces of upper-bound (resp., lower-bound) TPAs. For bipartite TPAs, it is shown that their solution spaces are not semilinear in general. We also extend our analysis to TPAs equipped with counters without zero-test capabilities.

Keywords

Reachability
Timing parameter automata

Cited by (0)

1

Supported in part by NSC Grants 92-2213-E-002-103 and 92-2213-E-002-104.

2

Partially supported by NSC Grant 92-2213-E-002-018.