This thesis is concerned with the problem of formal verification of correctness specifications for continuous and hybrid dynamical systems. Our main focus will be on developing and automating general proof principles for temporal properties of systems described by non-linear ordinary differential equations (ODEs) under evolution constraints. The proof methods we consider will work directly with the differential equations and will not rely on the explicit knowledge of solutions, which are in practice rarely available. Our ultimate goal is to increase the scope of formal deductive verification tools for hybrid system designs. We give a comprehensive survey and comparison of available methods for checking set invariance in continuous ...
AbstractHybrid systems provide a formal model for physical systems controlled by discrete-state cont...
We introduce a first-order dynamic logic for reasoning about systems with discrete and continuous st...
AbstractWe demonstrate an automated method for proving temporal logic statements about solutions to ...
We define the notion of inductive invariants for continuous dynamical systems and use it to pres...
The standard method used for verifying the behaviour of a dynamical system is simulation. But simula...
. We investigate the feasibility of computer-aided deductive verification of hybrid systems. Hybrid ...
This paper presents a method for abstracting continuous dynamical systems by timed automata. The abs...
International audienceThis paper presents a method for generating semi-algebraic invariants for syst...
International audienceSafety verification of hybrid dynamical systems relies crucially on the abilit...
We propose a methodology for the specification, verification, and design of hybrid systems. The meth...
This thesis proposes a practical framework for the verification and synthesis of hybrid systems, tha...
© 2016 The Authors. Published by Elsevier. This is an open access article available under a Creative...
Formal verification techniques are used routinely in finite-state digital circuits. Theorem proving ...
This paper considers the problem of safety verification for discrete-time, possibly discontinuous dy...
Continuous invariants are an important component in deductive verification of hybrid and continuous ...
AbstractHybrid systems provide a formal model for physical systems controlled by discrete-state cont...
We introduce a first-order dynamic logic for reasoning about systems with discrete and continuous st...
AbstractWe demonstrate an automated method for proving temporal logic statements about solutions to ...
We define the notion of inductive invariants for continuous dynamical systems and use it to pres...
The standard method used for verifying the behaviour of a dynamical system is simulation. But simula...
. We investigate the feasibility of computer-aided deductive verification of hybrid systems. Hybrid ...
This paper presents a method for abstracting continuous dynamical systems by timed automata. The abs...
International audienceThis paper presents a method for generating semi-algebraic invariants for syst...
International audienceSafety verification of hybrid dynamical systems relies crucially on the abilit...
We propose a methodology for the specification, verification, and design of hybrid systems. The meth...
This thesis proposes a practical framework for the verification and synthesis of hybrid systems, tha...
© 2016 The Authors. Published by Elsevier. This is an open access article available under a Creative...
Formal verification techniques are used routinely in finite-state digital circuits. Theorem proving ...
This paper considers the problem of safety verification for discrete-time, possibly discontinuous dy...
Continuous invariants are an important component in deductive verification of hybrid and continuous ...
AbstractHybrid systems provide a formal model for physical systems controlled by discrete-state cont...
We introduce a first-order dynamic logic for reasoning about systems with discrete and continuous st...
AbstractWe demonstrate an automated method for proving temporal logic statements about solutions to ...