Reachability Analysis of Time Basic Petri Nets: a Time Coverage Approach
Abstract
We introduce a technique for reachability analysis of Time-Basic (TB) Petri nets, a powerful formalism for real- time systems where time constraints are expressed as intervals, representing possible transition firing times, whose bounds are functions of marking's time description. The technique consists of building a symbolic reachability graph relying on a sort of time coverage, and overcomes the limitations of the only available analyzer for TB nets, based in turn on a time-bounded inspection of a (possibly infinite) reachability-tree. The graph construction algorithm has been automated by a tool-set, briefly described in the paper together with its main functionality and analysis capability. A running example is used throughout the paper to sketch the symbolic graph construction. A use case describing a small real system - that the running example is an excerpt from - has been employed to benchmark the technique and the tool-set. The main outcome of this test are also presented in the paper. Ongoing work, in the perspective of integrating with a model-checking engine, is shortly discussed.
Keywords
Cite
@article{arxiv.1107.1166,
title = {Reachability Analysis of Time Basic Petri Nets: a Time Coverage Approach},
author = {Carlo Bellettini and Lorenzo Capra},
journal= {arXiv preprint arXiv:1107.1166},
year = {2011}
}
Comments
8 pages, submitted to conference for publication