State space computation and analysis of Time Petri Nets

GUILLAUME GARDEY; OLIVIER H. ROUX; OLIVIER F. ROUX

doi:10.1017/S147106840600264X

Abstract

The theory of Petri Nets provides a general framework to specify the behaviors of real-time reactive systems and Time Petri Nets were introduced to take also temporal specifications into account. We present in this paper a forward zone-based algorithm to compute the state space of a bounded Time Petri Net: the method is different and more efficient than the classical State Class Graph. We prove the algorithm to be exact with respect to the reachability problem. Furthermore, we propose a translation of the computed state space into a Timed Automaton, proved to be timed bisimilar to the original Time Petri Net. As the method produce a single Timed Automaton, syntactical clocks reduction methods (DAWS and YOVINE for instance) may be applied to produce an automaton with fewer clocks. Then, our method allows to model-check T-TPN by the use of efficient Timed Automata tools.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Gardey, Guillaume Lime, Didier Magnin, Morgan and Roux, Olivier (H. ) 2005. Computer Aided Verification. Vol. 3576, Issue. , p. 418.

Lime, Didier and Roux, Olivier H. 2006. Model Checking of Time Petri Nets Using the State Class Timed Automaton. Discrete Event Dynamic Systems, Vol. 16, Issue. 2, p. 179.

Allahham, Adib and Alla, Hassane 2006. Monitoring of timed discrete events systems: Application to manufacturing systems. p. 3609.

D’Aprile, Davide Donatelli, Susanna Sangnier, Arnaud and Sproston, Jeremy 2007. Tools and Algorithms for the Construction and Analysis of Systems. Vol. 4424, Issue. , p. 216.

Magnin, Morgan Lime, Didier and Roux, Olivier 2008. Applications and Theory of Petri Nets. Vol. 5062, Issue. , p. 307.

Allahham, Adib and Alla, Hassane 2008. Post and pre-initialized stopwatch Petri nets: Formal semantics and state space computation. Nonlinear Analysis: Hybrid Systems, Vol. 2, Issue. 4, p. 1175.

Nassar, Khaled and Casavant, Albert 2008. ANALYSIS OF TIMED PETRI NETS FOR REACHABILITY IN CONSTRUCTION APPLICATIONS/PETRI LAIKO TINKLŲ PASIEKIAMUMO TAIKYMO STATYBOJE ANALIZĖ. JOURNAL OF CIVIL ENGINEERING AND MANAGEMENT, Vol. 14, Issue. 3, p. 189.

Lime, Didier Roux, Olivier H. Seidner, Charlotte and Traonouez, Louis-Marie 2009. Tools and Algorithms for the Construction and Analysis of Systems. Vol. 5505, Issue. , p. 54.

Lime, Didier and Roux, Olivier (H. ) 2009. Formal verification of real-time systems with preemptive scheduling. Real-Time Systems, Vol. 41, Issue. 2, p. 118.

Rakkay, Hind Boucheneb, Hanifa and Roux, Olivier H. 2009. Time Arc Petri Nets and Their Analysis. p. 138.

Zhang, Yongquan Xu, Kelin Zhou, Guosheng and Yu, Jinwei 2009. Simulation and optimization of hull erection based on P-FTPN. p. 1860.

Balaguer, Sandie Chatain, Thomas and Haar, Stefan 2010. A Concurrency-Preserving Translation from Time Petri Nets to Networks of Timed Automata. p. 77.

Jiang, Duyi Cui, Wenlin Yang, Jianqiang and Wang, Juan 2010. A New Generation of Mobile Surveillance Response System in the Marine Environment Monitoring. p. 1.

Boucheneb, Hanifa and Barkaoui, Kamel 2011. Relevant Timed Schedules/Clock Vectors for Constructing Time Petri Net Reachability Graphs. Discrete Event Dynamic Systems, Vol. 21, Issue. 2, p. 171.

Balaguer, Sandie Chatain, Thomas and Haar, Stefan 2012. A concurrency-preserving translation from time Petri nets to networks of timed automata. Formal Methods in System Design, Vol. 40, Issue. 3, p. 330.

Jard, Claude Lime, Didier Roux, Olivier H. and Traonouez, Louis-Marie 2013. Symbolic unfolding of parametric stopwatch Petri nets. Formal Methods in System Design, Vol. 43, Issue. 3, p. 493.

Boel, René K. and Jiroveanu, George 2013. Control of Discrete-Event Systems. Vol. 433, Issue. , p. 343.

2014. Service Orchestration As Organization. p. 257.

Camilli, Matteo Gargantini, Angelo and Scandurra, Patrizia 2015. Specifying and verifying real-time self-adaptive systems. p. 303.

Camilli, Matteo Gargantini, Angelo and Scandurra, Patrizia 2018. Zone-based formal specification and timing analysis of real-time self-adaptive systems. Science of Computer Programming, Vol. 159, Issue. , p. 28.

Download full list

Article contents

State space computation and analysis of Time Petri Nets

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

State space computation and analysis of Time Petri Nets

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests