The minimal coverability set (MCS) of a Petri net is a finite representation of the downward-closure of its reachable markings. The minimal coverability set allows to decide several important problems like coverability, semi-liveness, place boundedness, etc. The classical algorithm to compute the MCS constructs the Karp&Miller (KM) tree [10]. Unfortunately the KM tree is often huge, even for small nets. An improvement of this KM algorithm is the Minimal Coverability Tree (MCT) algorithm [3], which has been introduced nearly 20 years ago, and implemented since then in several tools such as Pep [9]. Unfortunately, we show in this paper that the MCT is flawed: it might compute an under-approximation of the reachable markings. We propose a new ...
International audienceWe study Parametric Petri Nets (PPNs), i.e., Petri nets for which some arc wei...
International audienceKarp and Miller's algorithm is based on an exploration of the reachability tre...
International audienceWe investigate three particular instances of the marking coverability problem ...
International audienceThe verification of infinite-state systems is a challenging task. A prominent ...
In [1], an algorithm to compute a minimal coverability tree for Petri nets has been presented. This...
This paper presents the Monotone-Pruning algorithm (MP) for computing the minimal coverability set o...
This paper presents the Monotone-Pruning algorithm (MP) for computing the minimal coverability set o...
This publication addresses two bottlenecks in the construction of minimal coverability sets of Petri...
International audienceDownward closures of Petri net reachability sets can be finitely represented b...
In recent work it has been shown that infinite state model checking can be performed by a combinatio...
Petri nets represent a powerful tool for modeling the discrete event systems. The Petri net markings...
We show that the coverability problem in ν-Petri nets is complete for ‘double Ackermann’ time, thus ...
MinCoverPetri is a command-line application for the fast computation of the minimal coverability set...
AbstractWe define a new subclass of persistent Petri nets called single-path Petri nets. Our intenti...
Summary: The Petri net is a very efficient model to describe and analyse the behaviour of Discrete E...
International audienceWe study Parametric Petri Nets (PPNs), i.e., Petri nets for which some arc wei...
International audienceKarp and Miller's algorithm is based on an exploration of the reachability tre...
International audienceWe investigate three particular instances of the marking coverability problem ...
International audienceThe verification of infinite-state systems is a challenging task. A prominent ...
In [1], an algorithm to compute a minimal coverability tree for Petri nets has been presented. This...
This paper presents the Monotone-Pruning algorithm (MP) for computing the minimal coverability set o...
This paper presents the Monotone-Pruning algorithm (MP) for computing the minimal coverability set o...
This publication addresses two bottlenecks in the construction of minimal coverability sets of Petri...
International audienceDownward closures of Petri net reachability sets can be finitely represented b...
In recent work it has been shown that infinite state model checking can be performed by a combinatio...
Petri nets represent a powerful tool for modeling the discrete event systems. The Petri net markings...
We show that the coverability problem in ν-Petri nets is complete for ‘double Ackermann’ time, thus ...
MinCoverPetri is a command-line application for the fast computation of the minimal coverability set...
AbstractWe define a new subclass of persistent Petri nets called single-path Petri nets. Our intenti...
Summary: The Petri net is a very efficient model to describe and analyse the behaviour of Discrete E...
International audienceWe study Parametric Petri Nets (PPNs), i.e., Petri nets for which some arc wei...
International audienceKarp and Miller's algorithm is based on an exploration of the reachability tre...
International audienceWe investigate three particular instances of the marking coverability problem ...