We introduce partial S-invariants of Petri nets, which can help to determine invariants and to prove safety if large nets are built from smaller ones using parallel composition with synchronous communication. We show how partial S-invariants can support compositional reduction and, in particular, a specific form of it called the fixed-point approach. With the latter, infinite parameterized families of concurrent systems can be verified. Partial S-invariants and the fixed-point approach are used to prove the correctness of two solutions to the MUTEX-problem based on token rings; for this, we only have to prove liveness of a simplified version due to previous results
We revisit the classic problem of proving safety over parameterised concurrent systems, i.e., an inf...
AbstractWe show that the pomset-trace equivalence problem for 1-safe, finite Petri nets is decidable...
. We present in this paper a method combining path decomposition and bottom-up computation features ...
We introduce partial S-invariants of Petri nets, which can help to determine invariants and to prove...
The use of invariants is an important tool for analysis of distributed and concurrent systems modele...
The use of invariants is an important tool for analysis of distributed and concurrent systems modele...
Abstract. Verification by network invariants is a heuristic to solve uniform verification of paramet...
This paper presents a new formal method for the efficient verification of concurrent systems that ar...
We investigate the verification problem of two classes of infinite state systems w.r.t. nonregular p...
We consider concurrent systems consisting of a finite but unknown number of components , that are re...
International audienceWe consider parameterized concurrent systems consisting of a finite but unknow...
Formal methods provide means for rigorously specifying the desired behaviour of a hardware or softwa...
We prove that (strong) fully-concurrent bisimilarity and causal-net bisimilarity are decidable for f...
In this paper, we address the modular verification problem for a Petri net obtained by composition o...
This book presents a step-by-step development of a rigorous framework for the specification and veri...
We revisit the classic problem of proving safety over parameterised concurrent systems, i.e., an inf...
AbstractWe show that the pomset-trace equivalence problem for 1-safe, finite Petri nets is decidable...
. We present in this paper a method combining path decomposition and bottom-up computation features ...
We introduce partial S-invariants of Petri nets, which can help to determine invariants and to prove...
The use of invariants is an important tool for analysis of distributed and concurrent systems modele...
The use of invariants is an important tool for analysis of distributed and concurrent systems modele...
Abstract. Verification by network invariants is a heuristic to solve uniform verification of paramet...
This paper presents a new formal method for the efficient verification of concurrent systems that ar...
We investigate the verification problem of two classes of infinite state systems w.r.t. nonregular p...
We consider concurrent systems consisting of a finite but unknown number of components , that are re...
International audienceWe consider parameterized concurrent systems consisting of a finite but unknow...
Formal methods provide means for rigorously specifying the desired behaviour of a hardware or softwa...
We prove that (strong) fully-concurrent bisimilarity and causal-net bisimilarity are decidable for f...
In this paper, we address the modular verification problem for a Petri net obtained by composition o...
This book presents a step-by-step development of a rigorous framework for the specification and veri...
We revisit the classic problem of proving safety over parameterised concurrent systems, i.e., an inf...
AbstractWe show that the pomset-trace equivalence problem for 1-safe, finite Petri nets is decidable...
. We present in this paper a method combining path decomposition and bottom-up computation features ...