A hybrid system is a dynamical system whose behavior exhibits both discrete and continuous change. A hybrid automaton is a mathematical model for hybrid systems, which combines, in a single formalism, automaton transitions for capturing discrete change with differential equations for capturing continuous change. In this survey, we demonstrate symbolic algorithms for the verification and controller synthesis of linear hybrid automata, a subclass of hybrid automata that can be analyzed automatically
International audienceThis paper deals with formal controller synthesis for discrete-time dynamical ...
We introduce the framework of hybrid automata as a model and speci cation language for hybrid system...
International audienceWe consider a new way of describing complex control problems for dynamic syste...
AbstractWe present a general framework for the formal specification and algorithmic analysis of hybr...
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 syste...
AbstractWe propose an algebraic model for hybrid systems and illustrate its usefulness by proving th...
The use of formal methods, techniques and tools may generally guarantee a systems ’ safe operation. ...
Wherever continuous and discrete dynamics interact, hybrid systems arise. This is especially the cas...
We propose an algebraic model for hybrid systems and illustrate its usefulness by proving theorems ...
The distinguishing characteristic of hybrid systems is the interaction between a continuous-time and...
Hybrid systems air he/erogenous dynamical systems cliaracterized by interacting continuous and discr...
Hybrid systems are real-time systems that react to both discrete and continuous activities (such as ...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
A hybrid system is a dynamical system exhibiting both continuous and discrete behaviors. Motivated b...
International audienceThis paper deals with formal controller synthesis for discrete-time dynamical ...
We introduce the framework of hybrid automata as a model and speci cation language for hybrid system...
International audienceWe consider a new way of describing complex control problems for dynamic syste...
AbstractWe present a general framework for the formal specification and algorithmic analysis of hybr...
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 syste...
AbstractWe propose an algebraic model for hybrid systems and illustrate its usefulness by proving th...
The use of formal methods, techniques and tools may generally guarantee a systems ’ safe operation. ...
Wherever continuous and discrete dynamics interact, hybrid systems arise. This is especially the cas...
We propose an algebraic model for hybrid systems and illustrate its usefulness by proving theorems ...
The distinguishing characteristic of hybrid systems is the interaction between a continuous-time and...
Hybrid systems air he/erogenous dynamical systems cliaracterized by interacting continuous and discr...
Hybrid systems are real-time systems that react to both discrete and continuous activities (such as ...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
A hybrid system is a dynamical system exhibiting both continuous and discrete behaviors. Motivated b...
International audienceThis paper deals with formal controller synthesis for discrete-time dynamical ...
We introduce the framework of hybrid automata as a model and speci cation language for hybrid system...
International audienceWe consider a new way of describing complex control problems for dynamic syste...