The contributions during the last few years on the structural theory of Petri nets can now be applied to formal verification. The structural theory provides methods to find efficient encoding schemes for symbolic representations of the reachable markings. It also provides approximations of the state space that allow one to alleviate many bottlenecks in the calculation of the reachability set by breadth or depth first search algorithms. The paper reviews some of the results on the structural theory and explains how they can be incorporated in a model checking verification framework for concurrent systems.Peer Reviewe
Reachability analysis is an attractive technique for analysis of concurrent programs because it is s...
Coloured Petri nets have proved to be a useful formalism for modeling distributed algorithms, i.e., ...
In hardware verification, the introduction of symbolic model checking has been considered a break-th...
The contributions during the last few years on the structural theory of Petri nets can now be applie...
This book presents a step-by-step development of a rigorous framework for the specification and veri...
Formal methods provide means for rigorously specifying the desired behaviour of a hardware or softwa...
Abstract: Model-Checking is a formal verified technique to check on whether a computing model, by se...
This paper presents a new formal method for the efficient verification of concurrent systems that ar...
Formal verification techniques allow rigorous reasoning about the operation of computer systems and ...
AbstractWe propose a rich assertional language to be used for symbolic verification of systems with ...
Humans make mistakes, especially when faced to complex tasks, such as the construction of modern har...
The control state reachability problem is decidable for well-structured infinite-state systems like ...
In this work, methods are presented for model checking finite state asynchronous systems, more speci...
AbstractWe propose a model that combines explicit and symbolic representations in an explicit-symbol...
Structural model abstraction is a powerful technique for reducing the complexity of a state based en...
Reachability analysis is an attractive technique for analysis of concurrent programs because it is s...
Coloured Petri nets have proved to be a useful formalism for modeling distributed algorithms, i.e., ...
In hardware verification, the introduction of symbolic model checking has been considered a break-th...
The contributions during the last few years on the structural theory of Petri nets can now be applie...
This book presents a step-by-step development of a rigorous framework for the specification and veri...
Formal methods provide means for rigorously specifying the desired behaviour of a hardware or softwa...
Abstract: Model-Checking is a formal verified technique to check on whether a computing model, by se...
This paper presents a new formal method for the efficient verification of concurrent systems that ar...
Formal verification techniques allow rigorous reasoning about the operation of computer systems and ...
AbstractWe propose a rich assertional language to be used for symbolic verification of systems with ...
Humans make mistakes, especially when faced to complex tasks, such as the construction of modern har...
The control state reachability problem is decidable for well-structured infinite-state systems like ...
In this work, methods are presented for model checking finite state asynchronous systems, more speci...
AbstractWe propose a model that combines explicit and symbolic representations in an explicit-symbol...
Structural model abstraction is a powerful technique for reducing the complexity of a state based en...
Reachability analysis is an attractive technique for analysis of concurrent programs because it is s...
Coloured Petri nets have proved to be a useful formalism for modeling distributed algorithms, i.e., ...
In hardware verification, the introduction of symbolic model checking has been considered a break-th...