This paper considers the issue of developing approximate abstractions of stochastic hybrid systems. The stochastic continuous behaviour breaks many essential properties of hybrid automata. Our approach departs from the progress in stochastic reachability analysis and Markov chain approximations. For this purpose we have to introduce a new approximation scheme and look for a suitable metric. We construct an exponential timestepping approximation scheme for general Markov processes. This approximation scheme relies on the complex space of system trajectories involving a sensible choice of the metric. Fortunately, the Skorokhod metric is sly enough to overcome the problems
A stochastic hybrid system contains a collection of interacting discrete and continuous compo-nents,...
We study the problem of approximating a stochastic, possibly hybrid, system by means of some abstrac...
For stochastic hybrid systems, safety verification methods are very little supported mainly because ...
This paper considers the issue of developing approximate abstractions of stochastic hybrid systems. ...
Abstract: This paper considers the issue of developing approximate abstractions of stochastic hybrid...
Abstract—We present a constructive procedure for obtaining a finite approximate abstraction of a dis...
Abstract — This paper introduces a method for approximat-ing the dynamics of deterministic hybrid sy...
For stochastic hybrid systems, stochastic reachability is very little supported mainly because of co...
The verification problem for stochastic hybrid systems is quite difficult. One method to verify thes...
Abstract. The objective of this study is to introduce an abstraction procedure that applies to a gen...
Reachability analysis is the core of model checking of time systems. For stochastic hybrid systems, ...
This paper develops a notion of approximation for a class of stochastic hybrid systems that includes...
In this paper, we present a sound integration mechanism for Markov processes that are abstractions o...
Abstract. This work investigates the approximate verification of prob-abilistic specifications expre...
In this paper we propose a compositional framework for the construction of approximations of the int...
A stochastic hybrid system contains a collection of interacting discrete and continuous compo-nents,...
We study the problem of approximating a stochastic, possibly hybrid, system by means of some abstrac...
For stochastic hybrid systems, safety verification methods are very little supported mainly because ...
This paper considers the issue of developing approximate abstractions of stochastic hybrid systems. ...
Abstract: This paper considers the issue of developing approximate abstractions of stochastic hybrid...
Abstract—We present a constructive procedure for obtaining a finite approximate abstraction of a dis...
Abstract — This paper introduces a method for approximat-ing the dynamics of deterministic hybrid sy...
For stochastic hybrid systems, stochastic reachability is very little supported mainly because of co...
The verification problem for stochastic hybrid systems is quite difficult. One method to verify thes...
Abstract. The objective of this study is to introduce an abstraction procedure that applies to a gen...
Reachability analysis is the core of model checking of time systems. For stochastic hybrid systems, ...
This paper develops a notion of approximation for a class of stochastic hybrid systems that includes...
In this paper, we present a sound integration mechanism for Markov processes that are abstractions o...
Abstract. This work investigates the approximate verification of prob-abilistic specifications expre...
In this paper we propose a compositional framework for the construction of approximations of the int...
A stochastic hybrid system contains a collection of interacting discrete and continuous compo-nents,...
We study the problem of approximating a stochastic, possibly hybrid, system by means of some abstrac...
For stochastic hybrid systems, safety verification methods are very little supported mainly because ...