We present a new model-checking technique for CSP-OZ-DC, a combination of CSP, Object-Z and Duration Calculus, that allows reasoning about systems exhibiting communication, data and real-time aspects. As intermediate layer we will use a new kind of timed automata that preserve events and data variables of the specification. These automata have a simple operational semantics that is amenable to verification by a constraint-based abstraction-refinement model checker. By means of a case study, a simple elevator parameterised by the number of floors, we show that this approach admits model-checking parameterised and infinite state real-time systems
Model Checking is an automatic technique becoming widely used by software industry. However, in som...
International audienceThis chapter surveys timed automata as a formalism for model checking real-tim...
The behavior of practical safety critical systems often combines real-time behavior with structured ...
We present a new model-checking technique for CSP-OZ-DC, a combination of CSP, Object-Z and Duration...
Abstract. We present a new model-checking technique for CSP-OZ-DC, a com-bination of CSP, Object-Z a...
This paper gives an overview of results of the project “Beyond Timed Automata ” carried out in the C...
AbstractThis paper gives an overview of results of the project “Beyond Timed Automata” carried out i...
Abstract. We present a new combination CSP-OZ-DC of three well re-searched formal techniques for the...
Model checking of real-time systems with respect to Duration Calculus (DC) specifications requires ...
Abstract. CSP-OZ-DC is a new combination of three well researched formal techniques for the specific...
Abstract. Model checking of real-time systems with respect to Duration Calculus (DC) specifications ...
Modeling and verifying complex real-time systems are challenging research problems. The de facto app...
Model checking is a technique to automatically analyse systems that have been modeled in a formal la...
We consider the problem of model checking message-passing systems with real-time requirements. As be...
Formal methods are mathematical techniques that enable the rigorous specification and verification o...
Model Checking is an automatic technique becoming widely used by software industry. However, in som...
International audienceThis chapter surveys timed automata as a formalism for model checking real-tim...
The behavior of practical safety critical systems often combines real-time behavior with structured ...
We present a new model-checking technique for CSP-OZ-DC, a combination of CSP, Object-Z and Duration...
Abstract. We present a new model-checking technique for CSP-OZ-DC, a com-bination of CSP, Object-Z a...
This paper gives an overview of results of the project “Beyond Timed Automata ” carried out in the C...
AbstractThis paper gives an overview of results of the project “Beyond Timed Automata” carried out i...
Abstract. We present a new combination CSP-OZ-DC of three well re-searched formal techniques for the...
Model checking of real-time systems with respect to Duration Calculus (DC) specifications requires ...
Abstract. CSP-OZ-DC is a new combination of three well researched formal techniques for the specific...
Abstract. Model checking of real-time systems with respect to Duration Calculus (DC) specifications ...
Modeling and verifying complex real-time systems are challenging research problems. The de facto app...
Model checking is a technique to automatically analyse systems that have been modeled in a formal la...
We consider the problem of model checking message-passing systems with real-time requirements. As be...
Formal methods are mathematical techniques that enable the rigorous specification and verification o...
Model Checking is an automatic technique becoming widely used by software industry. However, in som...
International audienceThis chapter surveys timed automata as a formalism for model checking real-tim...
The behavior of practical safety critical systems often combines real-time behavior with structured ...