AbstractIn this paper we describe some statistical results obtained by the verification of random graph transformation systems (GTSs). As a verification technique we use over-approximation of GTSs by Petri nets. Properties we want to verify are given by markings of Petri nets. We also use counterexample-guided abstraction refinement approach to refine the obtained approximation. A software tool (Augur) supports the verification procedure. The idea of the paper is to see how many of the generated systems can be successfully verified using this technique
We propose a technique for the analysis of infinite-state graph transformation systems, based on the...
AbstractWe propose a technique for the analysis of infinite-state graph transformation systems, base...
Graph transformation systems are a general specification language for systems with dynamically chang...
AbstractIn this paper we describe some statistical results obtained by the verification of random gr...
Graph transformation systems (GTSs) form a natural and convenient specification language which is us...
We describe the tool Augur for the verification of systems with dynamically evolving structure speci...
The verification of systems with respect to a desired set of behavioural properties is a crucial ste...
Non-functional requirements like performance and reliability play a prominent role in distributed an...
AbstractWe describe the design and the present state of the verification tool Augur 2 which is curre...
Abstract. Graph transformation systems are a general specication language for systems with dynamical...
A technique for approximating the behaviour of graph transformation systems (GTSs) by means of Petri...
Printed on archival quality paper. Random graph processes are most often used to investigate theoret...
We describe the design and the present state of the verification tool Augur 2 which is currently bei...
We propose a technique for the analysis of infinite-state graph transformation systems, based on the...
The unfolding semantics of graph transformation systems can represent a basis for their formal verif...
We propose a technique for the analysis of infinite-state graph transformation systems, based on the...
AbstractWe propose a technique for the analysis of infinite-state graph transformation systems, base...
Graph transformation systems are a general specification language for systems with dynamically chang...
AbstractIn this paper we describe some statistical results obtained by the verification of random gr...
Graph transformation systems (GTSs) form a natural and convenient specification language which is us...
We describe the tool Augur for the verification of systems with dynamically evolving structure speci...
The verification of systems with respect to a desired set of behavioural properties is a crucial ste...
Non-functional requirements like performance and reliability play a prominent role in distributed an...
AbstractWe describe the design and the present state of the verification tool Augur 2 which is curre...
Abstract. Graph transformation systems are a general specication language for systems with dynamical...
A technique for approximating the behaviour of graph transformation systems (GTSs) by means of Petri...
Printed on archival quality paper. Random graph processes are most often used to investigate theoret...
We describe the design and the present state of the verification tool Augur 2 which is currently bei...
We propose a technique for the analysis of infinite-state graph transformation systems, based on the...
The unfolding semantics of graph transformation systems can represent a basis for their formal verif...
We propose a technique for the analysis of infinite-state graph transformation systems, based on the...
AbstractWe propose a technique for the analysis of infinite-state graph transformation systems, base...
Graph transformation systems are a general specification language for systems with dynamically chang...