Ariadne is an in-progress open environment to design algorithms for computing with hybrid automata, that relies on a rigorous computable analysis theory to represent geometric objects, in order to achieve provable approximation bounds along the computations. In this paper we discuss the problem of reachability analysis of hybrid automata to decide safety properties. We describe in details the algorithm used in Ariadne to compute over-approximations of reachable sets. Then we show how it works on a simple example. Finally, we discuss the lower-approximation approach to the reachability problem and how to extend Ariadne to support it
AbstractUndecidability of the reachability problem is ubiquitous in the context of hybrid automata. ...
Hybrid automata are a natural framework for modeling and analyzing systems which exhibit a mixed dis...
In many applicative fields, there is the need to model and design complex systems having a mixed dis...
Ariadne is an in-progress open environment to design algorithms for computing with hybrid automata, ...
Ariadne is an in-progress open environment to design algorithms for computing with hybrid automata, ...
When designing embedded systems, often the need arises to model systems having a mixed discrete and ...
When designing embedded systems, often the need arises to model systems having a mixed discrete and ...
The paper describes an early implementation of the library Ariadne for reachability analysis of hybr...
The reachability problem for hybrid automata is undecidable, even for linear hybrid automata. This n...
A new approach is presented for computing approximations of the reached sets of linear hybrid automa...
The paper reports the first implementation of the library Ariadne to compute the reachable set of an...
In this talk we will present material on the semantics, computability, and algorithms for the evolut...
Hybrid automata are a powerful formalism for the representation of systems evolving according to bot...
AbstractHybrid automata are a powerful formalism for the representation of systems evolving accordin...
This thesis addresses the problem of reachability analysis with the focus on linear hybrid systems. ...
AbstractUndecidability of the reachability problem is ubiquitous in the context of hybrid automata. ...
Hybrid automata are a natural framework for modeling and analyzing systems which exhibit a mixed dis...
In many applicative fields, there is the need to model and design complex systems having a mixed dis...
Ariadne is an in-progress open environment to design algorithms for computing with hybrid automata, ...
Ariadne is an in-progress open environment to design algorithms for computing with hybrid automata, ...
When designing embedded systems, often the need arises to model systems having a mixed discrete and ...
When designing embedded systems, often the need arises to model systems having a mixed discrete and ...
The paper describes an early implementation of the library Ariadne for reachability analysis of hybr...
The reachability problem for hybrid automata is undecidable, even for linear hybrid automata. This n...
A new approach is presented for computing approximations of the reached sets of linear hybrid automa...
The paper reports the first implementation of the library Ariadne to compute the reachable set of an...
In this talk we will present material on the semantics, computability, and algorithms for the evolut...
Hybrid automata are a powerful formalism for the representation of systems evolving according to bot...
AbstractHybrid automata are a powerful formalism for the representation of systems evolving accordin...
This thesis addresses the problem of reachability analysis with the focus on linear hybrid systems. ...
AbstractUndecidability of the reachability problem is ubiquitous in the context of hybrid automata. ...
Hybrid automata are a natural framework for modeling and analyzing systems which exhibit a mixed dis...
In many applicative fields, there is the need to model and design complex systems having a mixed dis...