Abstract. We show how theorem proving and methods for handling real algebraic constraints can be combined for hybrid system verification. In particular, we highlight the interaction of deductive and algebraic reasoning that is used for handling the joint discrete and continuous behaviour of hybrid systems. We illustrate proof tasks that oc-cur when verifying scenarios with cooperative traffic agents. From the experience with these examples, we analyse proof strategies for dealing with the practical challenges for integrated algebraic and deductive verification of hybrid systems, and we propose an iterative background closure strategy
Algebraic transition systems are extended from labeled transition systems by allowing transitions la...
In many applicative fields, there is the need to model and design complex systems having a mixed dis...
Abstract. We address the problem of model checking hybrid systems which exhibit nontrivial discrete ...
Abstract. We show how theorem proving and methods for handling real algebraic constraints can be com...
This thesis aims at the computer aided verification of hybrid systems using deductive techniques. We...
Formal verification techniques are used routinely in finite-state digital circuits. Theorem proving ...
. We investigate the feasibility of computer-aided deductive verification of hybrid systems. Hybrid ...
Abstract. Hybrid systems is a mathematical model of embedded sys-tems, and has been widely used in t...
In this paper we propose a verification method for hybrid systems that is based on a successive elim...
Abstract: In this paper we introduce two improvements to the method of verification of hybrid system...
Abstract. Hybrid systems with both discrete and continuous dynamics are an important model for real-...
We propose an algebraic model for hybrid systems and illustrate its usefulness by proving theorems ...
We introduce a first-order dynamic logic for reasoning about systems with discrete and continuous st...
In many applicative fields, there is the need to model and design complex systems having a mixed dis...
AbstractWe propose an algebraic model for hybrid systems and illustrate its usefulness by proving th...
Algebraic transition systems are extended from labeled transition systems by allowing transitions la...
In many applicative fields, there is the need to model and design complex systems having a mixed dis...
Abstract. We address the problem of model checking hybrid systems which exhibit nontrivial discrete ...
Abstract. We show how theorem proving and methods for handling real algebraic constraints can be com...
This thesis aims at the computer aided verification of hybrid systems using deductive techniques. We...
Formal verification techniques are used routinely in finite-state digital circuits. Theorem proving ...
. We investigate the feasibility of computer-aided deductive verification of hybrid systems. Hybrid ...
Abstract. Hybrid systems is a mathematical model of embedded sys-tems, and has been widely used in t...
In this paper we propose a verification method for hybrid systems that is based on a successive elim...
Abstract: In this paper we introduce two improvements to the method of verification of hybrid system...
Abstract. Hybrid systems with both discrete and continuous dynamics are an important model for real-...
We propose an algebraic model for hybrid systems and illustrate its usefulness by proving theorems ...
We introduce a first-order dynamic logic for reasoning about systems with discrete and continuous st...
In many applicative fields, there is the need to model and design complex systems having a mixed dis...
AbstractWe propose an algebraic model for hybrid systems and illustrate its usefulness by proving th...
Algebraic transition systems are extended from labeled transition systems by allowing transitions la...
In many applicative fields, there is the need to model and design complex systems having a mixed dis...
Abstract. We address the problem of model checking hybrid systems which exhibit nontrivial discrete ...