International audienceSemi-algebraic abstraction is an approach to the safety verification problem for polynomial dynamical systems where the state space is partitioned according to the sign of a set of polynomials. Similarly to predicate abstraction for discrete systems, the number of abstract states is exponential in the number of polynomials. Hence, semi-algebraic abstraction is expensive to explicitly compute and then analyze (e.g., to prove a safety property or extract invariants). In this paper, we propose an implicit encoding of the semi-algebraic abstraction, which avoids the explicit enumeration of the abstract states: the safety verification problem for dynamical systems is reduced to a corresponding problem for infinite-state tra...
Hybrid systems are dynamical systems with interacting discrete computation and continuous physical p...
We consider the MSO model-checking problem for simple linear loops, or equivalently discrete-time li...
In this paper, we present an abstraction refinement approach for model checking safety properties of...
International audienceSemi-algebraic abstraction is an approach to the safety verification problem f...
International audienceThis paper presents a method for generating semi-algebraic invariants for syst...
International audienceWe introduce a term algebra as a new formal specification language for the coo...
In this paper, we consider an extended concept of invariant for polynomial dynamical systems (PDSs) ...
Verification of continuous systems remains one of the main obstacles in the safety verification of h...
Polynomial abstraction has been developed for data abstrac-tion of sequential circuits, where the fu...
We present a fully-symbolic LTL model checking approach for infinite-state transition systems. We ex...
Abstract-In this paper, we approximate a hybrid system with arbitrary flow functions by systems with...
Abstract Due to increasing amount of concurrency, systems have become difficult to design and analys...
Invariant sets are a key ingredient for verifying safety and other properties of cyber-physical syst...
AbstractAbstraction reduces the problem of whether an infinite state system satisfies a temporal log...
AbstractIn this paper, we present an abstraction refinement approach for model checking safety prope...
Hybrid systems are dynamical systems with interacting discrete computation and continuous physical p...
We consider the MSO model-checking problem for simple linear loops, or equivalently discrete-time li...
In this paper, we present an abstraction refinement approach for model checking safety properties of...
International audienceSemi-algebraic abstraction is an approach to the safety verification problem f...
International audienceThis paper presents a method for generating semi-algebraic invariants for syst...
International audienceWe introduce a term algebra as a new formal specification language for the coo...
In this paper, we consider an extended concept of invariant for polynomial dynamical systems (PDSs) ...
Verification of continuous systems remains one of the main obstacles in the safety verification of h...
Polynomial abstraction has been developed for data abstrac-tion of sequential circuits, where the fu...
We present a fully-symbolic LTL model checking approach for infinite-state transition systems. We ex...
Abstract-In this paper, we approximate a hybrid system with arbitrary flow functions by systems with...
Abstract Due to increasing amount of concurrency, systems have become difficult to design and analys...
Invariant sets are a key ingredient for verifying safety and other properties of cyber-physical syst...
AbstractAbstraction reduces the problem of whether an infinite state system satisfies a temporal log...
AbstractIn this paper, we present an abstraction refinement approach for model checking safety prope...
Hybrid systems are dynamical systems with interacting discrete computation and continuous physical p...
We consider the MSO model-checking problem for simple linear loops, or equivalently discrete-time li...
In this paper, we present an abstraction refinement approach for model checking safety properties of...