English

Practical Automated Partial Verification of Multi-Paradigm Real-Time Models

Logic in Computer Science 2013-08-14 v2

Abstract

This article introduces a fully automated verification technique that permits to analyze real-time systems described using a continuous notion of time and a mixture of operational (i.e., automata-based) and descriptive (i.e., logic-based) formalisms. The technique relies on the reduction, under reasonable assumptions, of the continuous-time verification problem to its discrete-time counterpart. This reconciles in a viable and effective way the dense/discrete and operational/descriptive dichotomies that are often encountered in practice when it comes to specifying and analyzing complex critical systems. The article investigates the applicability of the technique through a significant example centered on a communication protocol. More precisely, concurrent runs of the protocol are formalized by parallel instances of a Timed Automaton, while the synchronization rules between these instances are specified through Metric Temporal Logic formulas, thus creating a multi-paradigm model. Verification tests run on this model using a bounded validity checker implementing the technique show consistent results and interesting performances.

Keywords

Cite

@article{arxiv.0804.4383,
  title  = {Practical Automated Partial Verification of Multi-Paradigm Real-Time Models},
  author = {Carlo A. Furia and Matteo Pradella and Matteo Rossi},
  journal= {arXiv preprint arXiv:0804.4383},
  year   = {2013}
}

Comments

33 pages; fixed a few typos and added data to Table 2

R2 v1 2026-06-21T10:35:09.812Z