The failure of safety-critical embedded systems may have catastrophic consequences, therefore their development process requires a strong verification procedure to obtain a high confidence of correctness in the specification and implementation. Formal modelling and model checking provides a rigorous, mathematically precise verification method. Practical embedded systems are typically complex, distributed and asynchronous, thus they need expressive and compact formal models, and efficient model checking approaches. The saturation algorithm has an efficient iteration strategy. Combined with symbolic data structures, it can be used for state space generation and model checking of asynchronous systems. Coloured Petri nets are a good choice for ...
Abstract. Bounded model checking has received recent attention as an efficient verification method. ...
Abstract. High level Petri nets (HLPNs) have been widely applied to model concurrent and distributed...
Coloured Petri nets have proved to be a useful formalism for modeling distributed algorithms, i.e., ...
Formal verification is a collective name of techniques that aim to prove that a system design or imp...
Formal verification is becoming a fundamental step in assuring the correctness of safety-critical sy...
Colored Petri Nets (CP-nets or CPNs) are powerful modeling language for concurrent systems. As for C...
This paper deals with formal and simulation-based verification methods of a PRImary-to-SEcondary lea...
Although model checking is heavily used in the hardware domain, its use is not mainstream in softwar...
To gain confidence in safety-critical interactive systems, formal modelling and analysis plays a vit...
In this work, methods are presented for model checking finite state asynchronous systems, more speci...
Formal verification is becoming a fundamental step of safety-critical and model-based software devel...
In this paper we present a CTL-like logic which is interpreted over the state spaces of Coloured Pet...
Abstract. Formal verification is becoming a fundamental step of safety-critical and model-based soft...
In this work, methods are presented for model checking finite state asynchronous systems, more speci...
Abstract: Model-Checking is a formal verified technique to check on whether a computing model, by se...
Abstract. Bounded model checking has received recent attention as an efficient verification method. ...
Abstract. High level Petri nets (HLPNs) have been widely applied to model concurrent and distributed...
Coloured Petri nets have proved to be a useful formalism for modeling distributed algorithms, i.e., ...
Formal verification is a collective name of techniques that aim to prove that a system design or imp...
Formal verification is becoming a fundamental step in assuring the correctness of safety-critical sy...
Colored Petri Nets (CP-nets or CPNs) are powerful modeling language for concurrent systems. As for C...
This paper deals with formal and simulation-based verification methods of a PRImary-to-SEcondary lea...
Although model checking is heavily used in the hardware domain, its use is not mainstream in softwar...
To gain confidence in safety-critical interactive systems, formal modelling and analysis plays a vit...
In this work, methods are presented for model checking finite state asynchronous systems, more speci...
Formal verification is becoming a fundamental step of safety-critical and model-based software devel...
In this paper we present a CTL-like logic which is interpreted over the state spaces of Coloured Pet...
Abstract. Formal verification is becoming a fundamental step of safety-critical and model-based soft...
In this work, methods are presented for model checking finite state asynchronous systems, more speci...
Abstract: Model-Checking is a formal verified technique to check on whether a computing model, by se...
Abstract. Bounded model checking has received recent attention as an efficient verification method. ...
Abstract. High level Petri nets (HLPNs) have been widely applied to model concurrent and distributed...
Coloured Petri nets have proved to be a useful formalism for modeling distributed algorithms, i.e., ...