Quantitative verification techniques have been developed for the formal analysis of a variety of probabilistic models, such as Markov chains, Markov decision process and their variants. They can be used to produce guarantees on quantitative aspects of system behaviour, for example safety, reliability and performance, or to help synthesise controllers that ensure such guarantees are met. We propose the model of turn-based probabilistic timed multi-player games, which incorporates probabilistic choice, real-time clocks and nondeterministic behaviour across multiple players. Building on the digital clocks approach for the simpler model of probabilistic timed automata, we show how to compute the key measures that underlie quantitative verificat...
Design and control of computer systems that operate in uncertain, competitive or adversarial, enviro...
We consider the timed automata model of Alur and Dill (Theoret. Comput. Sci. 126 (1994) 183–235), wh...
We propose automated techniques for the verification and control of probabilistic real-time systems ...
Quantitative verification techniques have been developed for the formal analysis of a variety of pro...
Quantitative verification techniques have been developed for the formal analysis of a variety of pro...
We present automatic verification techniques for concurrent stochastic multi-player games (CSGs) wit...
Probabilistic timed automata (PTAs) are used for formal modelling and verifi-cation of systems with ...
We present automatic verification techniques for the modelling and analysis of probabilistic systems...
We present automatic verification techniques for concurrent stochastic multi-player games (CSGs) wit...
We present automatic verification techniques for the modelling and analysis of probabilistic systems...
Abstract. We present automatic verification techniques for the mod-elling and analysis of probabilis...
. We consider the timed automata model of [3], which allows the analysis of real-time systems expres...
AbstractDesign and control of computer systems that operate in uncertain, competitive or adversarial...
Abstract We present automatic verification techniques for the modelling and analysis of probabilisti...
AbstractWe consider the timed automata model of Alur and Dill (Theoret. Comput. Sci. 126 (1994) 183–...
Design and control of computer systems that operate in uncertain, competitive or adversarial, enviro...
We consider the timed automata model of Alur and Dill (Theoret. Comput. Sci. 126 (1994) 183–235), wh...
We propose automated techniques for the verification and control of probabilistic real-time systems ...
Quantitative verification techniques have been developed for the formal analysis of a variety of pro...
Quantitative verification techniques have been developed for the formal analysis of a variety of pro...
We present automatic verification techniques for concurrent stochastic multi-player games (CSGs) wit...
Probabilistic timed automata (PTAs) are used for formal modelling and verifi-cation of systems with ...
We present automatic verification techniques for the modelling and analysis of probabilistic systems...
We present automatic verification techniques for concurrent stochastic multi-player games (CSGs) wit...
We present automatic verification techniques for the modelling and analysis of probabilistic systems...
Abstract. We present automatic verification techniques for the mod-elling and analysis of probabilis...
. We consider the timed automata model of [3], which allows the analysis of real-time systems expres...
AbstractDesign and control of computer systems that operate in uncertain, competitive or adversarial...
Abstract We present automatic verification techniques for the modelling and analysis of probabilisti...
AbstractWe consider the timed automata model of Alur and Dill (Theoret. Comput. Sci. 126 (1994) 183–...
Design and control of computer systems that operate in uncertain, competitive or adversarial, enviro...
We consider the timed automata model of Alur and Dill (Theoret. Comput. Sci. 126 (1994) 183–235), wh...
We propose automated techniques for the verification and control of probabilistic real-time systems ...