We present a general framework for the formal specification and algorithmic analysis of hybrid systems. A hybrid system consists of a discrete program with an analog environment. We model hybrid systems as finite automata equipped with variables that evolve continuously with time according to dynamical aws. For verification purposes, we restrict ourselves to linear hybrid systems, where all variables follow piecewise-linear t ajectories. We provide decidability and undecidability results for classes of linear hybrid systems, and we show that standard program-analysis techniques can be adapted to linear hybrid systems. In particular, we consider symbolic model-checking and minimization procedures that are based on the reachability analysis o...
Hybrid systems are dynamical systems with the ability to describe mixed discrete-continuous evolutio...
Hybrid systems are real-time systems that react to both discrete and continuous activities (such as ...
Many systems, both natural and artificial, exhibit a mixed discrete-continuous behavior that cannot ...
We present a general framework for the formal specification and algorithmic analysis of hybrid syste...
AbstractWe present a general framework for the formal specification and algorithmic analysis of hybr...
A hybrid system is a dynamical system whose behavior exhibits both discrete and continuous change. A...
Linear hybrid systems are dynamical systems whose variables change both discretely and continuously ...
The use of formal methods, techniques and tools may generally guarantee a systems ’ safe operation. ...
We introduce the framework of hybrid automata as a model and speci cation language for hybrid system...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
Hybrid systems are dynamical systems with the ability to describe mixed discrete- continuous evoluti...
AbstractHybrid systems are dynamical systems with the ability to describe mixed discrete-continuous ...
This thesis discusses the modeling and analysis of hybrid systems. Hybrid modeling is an appropriate...
Hybrid systems combining discrete and continuous dynamics arise as mathematical models of various ar...
Hybrid systems combine differential equations with discrete event systems. We consider the reachabil...
Hybrid systems are dynamical systems with the ability to describe mixed discrete-continuous evolutio...
Hybrid systems are real-time systems that react to both discrete and continuous activities (such as ...
Many systems, both natural and artificial, exhibit a mixed discrete-continuous behavior that cannot ...
We present a general framework for the formal specification and algorithmic analysis of hybrid syste...
AbstractWe present a general framework for the formal specification and algorithmic analysis of hybr...
A hybrid system is a dynamical system whose behavior exhibits both discrete and continuous change. A...
Linear hybrid systems are dynamical systems whose variables change both discretely and continuously ...
The use of formal methods, techniques and tools may generally guarantee a systems ’ safe operation. ...
We introduce the framework of hybrid automata as a model and speci cation language for hybrid system...
Approximating automata are finite-state representations of the sequential inputoutput behaviors of h...
Hybrid systems are dynamical systems with the ability to describe mixed discrete- continuous evoluti...
AbstractHybrid systems are dynamical systems with the ability to describe mixed discrete-continuous ...
This thesis discusses the modeling and analysis of hybrid systems. Hybrid modeling is an appropriate...
Hybrid systems combining discrete and continuous dynamics arise as mathematical models of various ar...
Hybrid systems combine differential equations with discrete event systems. We consider the reachabil...
Hybrid systems are dynamical systems with the ability to describe mixed discrete-continuous evolutio...
Hybrid systems are real-time systems that react to both discrete and continuous activities (such as ...
Many systems, both natural and artificial, exhibit a mixed discrete-continuous behavior that cannot ...