This paper presents a method for abstracting continuous dynamical systems by timed automata. The abstraction is based on partitioning the state space of a dynamical system using positive invariant sets, which form cells that represent locations of a timed automaton. The abstraction is intended to enable formal verification of temporal properties of dynamical systems without simulating any system trajectory, which is currently not possible. Therefore, conditions for obtaining sound, complete, and refinable abstractions are set up. The novelty of the method is the partitioning of the state space, which is generated utilizing sub-level sets of Lyapunov functions, as they are positive invariant sets. It is shown that this partition generates so...
Abstract. This article introduces a fully automated verification technique that permits to analyze r...
We present a technique designed to automatically compute predicate abstractions for dense real-timed...
Abstract. The objective of this paper is to show how verification of dense-time systems modeled as t...
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...
This paper proposes an LMI-based algorithm for abstracting dynamical systems by timed automata, whic...
Abstract — In this report proofs are presented for a method for abstracting continuous dynamical sys...
Formal methods are mathematical techniques that enable the rigorous specification and verification o...
Abstract — We consider temporal logic verification of (pos-sibly nonlinear) dynamical systems evolvi...
This thesis is concerned with the problem of formal verification of correctness specifications for ...
This paper reports the results of a case study on the feasibility of developing and applying mechani...
In this thesis we propose a complete formal framework for the analysis of timed systems, with the em...
Abstract In real-time systems, correctness depends on the time at which events occur. Examples of re...
Invited contribution at FORMATS'22International audienceTimed automata have been introduced by Rajee...
This papers describes modifications to and the implementation of algorithms previously described in ...
Abstract. This article introduces a fully automated verification technique that permits to analyze r...
We present a technique designed to automatically compute predicate abstractions for dense real-timed...
Abstract. The objective of this paper is to show how verification of dense-time systems modeled as t...
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...
This paper proposes an LMI-based algorithm for abstracting dynamical systems by timed automata, whic...
Abstract — In this report proofs are presented for a method for abstracting continuous dynamical sys...
Formal methods are mathematical techniques that enable the rigorous specification and verification o...
Abstract — We consider temporal logic verification of (pos-sibly nonlinear) dynamical systems evolvi...
This thesis is concerned with the problem of formal verification of correctness specifications for ...
This paper reports the results of a case study on the feasibility of developing and applying mechani...
In this thesis we propose a complete formal framework for the analysis of timed systems, with the em...
Abstract In real-time systems, correctness depends on the time at which events occur. Examples of re...
Invited contribution at FORMATS'22International audienceTimed automata have been introduced by Rajee...
This papers describes modifications to and the implementation of algorithms previously described in ...
Abstract. This article introduces a fully automated verification technique that permits to analyze r...
We present a technique designed to automatically compute predicate abstractions for dense real-timed...
Abstract. The objective of this paper is to show how verification of dense-time systems modeled as t...