We exhibit an algorithm to compute the strongest algebraic (or polynomial) invariants that hold at each location of a given guard-free linear hybrid automaton (i.e., a hybrid automaton having only unguarded transitions, all of whose assignments are given by affine expressions, and all of whose continuous dynamics are given by linear differential equations). Our main tool is a control-theoretic result of independent interest: given such a linear hybrid automaton, we show how to discretise the continuous dynamics in such a way that the resulting automaton has precisely the same algebraic invariants
International audienceThis paper presents a method for generating semi-algebraic invariants for syst...
We present a general framework for the formal specification and algorithmic analysis of hybrid syste...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
We exhibit an algorithm to compute the strongest algebraic (or polynomial) invariants that hold at e...
Hybrid systems are dynamical systems with interacting discrete computation and continuous physical p...
Abstract. We present a powerful computational method for automat-ically generating polynomial invari...
Inspired by Switching Systems and Automata theory, we investigate how combinatorial analysis techniq...
peer reviewedThis work addresses the computation of the set of reachable configurations of linear hy...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Fundação de Amparo à Pesquisa do Estado...
Abstract. This work addresses the computation of the set of reachable configurations of linear hybri...
A hybrid system is a dynamical system whose behavior exhibits both discrete and continuous change. A...
We propose an algebraic model for hybrid systems and illustrate its usefulness by proving theorems ...
AbstractWe present a general framework for the formal specification and algorithmic analysis of hybr...
AbstractWe propose an algebraic model for hybrid systems and illustrate its usefulness by proving th...
peer reviewedThis paper addresses the problem of computing an exact and effective representation of ...
International audienceThis paper presents a method for generating semi-algebraic invariants for syst...
We present a general framework for the formal specification and algorithmic analysis of hybrid syste...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
We exhibit an algorithm to compute the strongest algebraic (or polynomial) invariants that hold at e...
Hybrid systems are dynamical systems with interacting discrete computation and continuous physical p...
Abstract. We present a powerful computational method for automat-ically generating polynomial invari...
Inspired by Switching Systems and Automata theory, we investigate how combinatorial analysis techniq...
peer reviewedThis work addresses the computation of the set of reachable configurations of linear hy...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Fundação de Amparo à Pesquisa do Estado...
Abstract. This work addresses the computation of the set of reachable configurations of linear hybri...
A hybrid system is a dynamical system whose behavior exhibits both discrete and continuous change. A...
We propose an algebraic model for hybrid systems and illustrate its usefulness by proving theorems ...
AbstractWe present a general framework for the formal specification and algorithmic analysis of hybr...
AbstractWe propose an algebraic model for hybrid systems and illustrate its usefulness by proving th...
peer reviewedThis paper addresses the problem of computing an exact and effective representation of ...
International audienceThis paper presents a method for generating semi-algebraic invariants for syst...
We present a general framework for the formal specification and algorithmic analysis of hybrid syste...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...