AbstractWe propose an improved symbolic algorithm for the verification of linear hybrid automata with large discrete state spaces (where an explicit representation of discrete states is difficult). Here both the discrete part and the continuous part of the hybrid state space are represented by one symbolic representation called LinAIGs. LinAIGs represent (possibly non-convex) polyhedra extended by Boolean variables. Key components of our method for state space traversal are redundancy elimination and constraint minimization: redundancy elimination eliminates so-called redundant linear constraints from LinAIG representations by a suitable exploitation of the capabilities of SMT (Satisfiability Modulo Theories) solvers. Constraint minimizatio...
We address the problem of model checking hybrid systems which exhibit nontrivial discrete behavior a...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
AbstractThe control paradigm of physical processes being supervised by digital programs has lead to ...
International audienceWe propose an improved symbolic algorithm for the verification of linear hybri...
AbstractWe propose an improved symbolic algorithm for the verification of linear hybrid automata wit...
We propose algorithms significantly extending the limits for maintaining exact representations in th...
Linear hybrid systems are dynamical systems whose variables change both discretely and continuously ...
This paper provides a suite of optimization techniques for the verification of safety properties of ...
We present a general framework for the formal specification and algorithmic analysis of hybrid syste...
We present a general framework for the formal specification and algorithmic analysis of hybrid sys...
AbstractWe present a general framework for the formal specification and algorithmic analysis of hybr...
Abstract. Linear hybrid automata (LHAs) are of particular interest to formal verification because se...
A hybrid system is a dynamical system whose behavior exhibits both discrete and continuous change. A...
Abstract. An important case of hybrid systems are the rectangular automata. First, rectangular dynam...
Abstract. We address the problem of model checking hybrid systems which exhibit nontrivial discrete ...
We address the problem of model checking hybrid systems which exhibit nontrivial discrete behavior a...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
AbstractThe control paradigm of physical processes being supervised by digital programs has lead to ...
International audienceWe propose an improved symbolic algorithm for the verification of linear hybri...
AbstractWe propose an improved symbolic algorithm for the verification of linear hybrid automata wit...
We propose algorithms significantly extending the limits for maintaining exact representations in th...
Linear hybrid systems are dynamical systems whose variables change both discretely and continuously ...
This paper provides a suite of optimization techniques for the verification of safety properties of ...
We present a general framework for the formal specification and algorithmic analysis of hybrid syste...
We present a general framework for the formal specification and algorithmic analysis of hybrid sys...
AbstractWe present a general framework for the formal specification and algorithmic analysis of hybr...
Abstract. Linear hybrid automata (LHAs) are of particular interest to formal verification because se...
A hybrid system is a dynamical system whose behavior exhibits both discrete and continuous change. A...
Abstract. An important case of hybrid systems are the rectangular automata. First, rectangular dynam...
Abstract. We address the problem of model checking hybrid systems which exhibit nontrivial discrete ...
We address the problem of model checking hybrid systems which exhibit nontrivial discrete behavior a...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
AbstractThe control paradigm of physical processes being supervised by digital programs has lead to ...