This paper proposes an LMI-based algorithm for abstracting dynamical systems by timed automata, which enables automatic formal verification of linear systems. The proposed abstraction is based on partitioning the state space of the system using positive invariant sets, generated by Lyapunov functions. This partitioning ensures that the vector field of the dynamical system is transversal to all facets of the cells, which induces some desirable properties of the abstraction. The algorithm is based on identifying intersections of level sets of quadratic Lyapunov functions, and determining the minimum and maximum time that a trajectory of the system can stay in a set, defined as the set-difference of sub-level sets of Lyapunov functions. The ...
In this paper we present an abstraction algorithm that produces a finite bisimulation quotient for a...
This paper proposes a method for discretizing the state space of mechanical systems. This is a first...
International audienceFormal verification of timed systems is well understood, but their \emphimplem...
This paper presents a method for abstracting continuous dynamical systems by timed automata. The abs...
To enable formal verification of a dynamical system, given by a set of differential equations, it is...
This paper considers the development of a method for abstracting continuous dynamical systems by tim...
Abstract — In this report proofs are presented for a method for abstracting continuous dynamical sys...
This paper addresses the generation of complete abstractions of polynomial dynamical systems by time...
We present an extension of the model checker Uppaal capable of synthesizing linear parameter constra...
In this work, we continue our study on discrete abstractions of dynamical systems. To this end, we u...
Abstract — We consider temporal logic verification of (pos-sibly nonlinear) dynamical systems evolvi...
The reachability problem, whether some unsafe state can be reached, is known to be undecidable for n...
This paper addresses the generation of complete abstractions of polynomial dynamical systems by time...
This paper reports the results of a case study on the feasibility of developing and applying mechani...
This papers describes modifications to and the implementation of algorithms previously described in ...
In this paper we present an abstraction algorithm that produces a finite bisimulation quotient for a...
This paper proposes a method for discretizing the state space of mechanical systems. This is a first...
International audienceFormal verification of timed systems is well understood, but their \emphimplem...
This paper presents a method for abstracting continuous dynamical systems by timed automata. The abs...
To enable formal verification of a dynamical system, given by a set of differential equations, it is...
This paper considers the development of a method for abstracting continuous dynamical systems by tim...
Abstract — In this report proofs are presented for a method for abstracting continuous dynamical sys...
This paper addresses the generation of complete abstractions of polynomial dynamical systems by time...
We present an extension of the model checker Uppaal capable of synthesizing linear parameter constra...
In this work, we continue our study on discrete abstractions of dynamical systems. To this end, we u...
Abstract — We consider temporal logic verification of (pos-sibly nonlinear) dynamical systems evolvi...
The reachability problem, whether some unsafe state can be reached, is known to be undecidable for n...
This paper addresses the generation of complete abstractions of polynomial dynamical systems by time...
This paper reports the results of a case study on the feasibility of developing and applying mechani...
This papers describes modifications to and the implementation of algorithms previously described in ...
In this paper we present an abstraction algorithm that produces a finite bisimulation quotient for a...
This paper proposes a method for discretizing the state space of mechanical systems. This is a first...
International audienceFormal verification of timed systems is well understood, but their \emphimplem...