We present a technique designed to automatically compute predicate abstractions for dense real-timed models represented as networks of timed automata. We use the CIPM algorithm in our previous work which computes new invariants for timed automata control locations and prunes the model, to compute a predicate abstraction of the model. We do so by taking information regarding control locations and their newly computed invariants into account. We also discuss a prototype implementation of our technique
We present an approximation technique that can render real-time model checking of safety and univers...
This paper shows how to abstract networks of timed automata in order to accelerate the analysis of q...
Abstract—Timed automata are popular for formally analyz-ing real-time systems. However, it is diffic...
We present a technique designed to automatically compute predicate abstractions for dense real-timed...
We present a technique designed to automatically compute predicate abstractions for dense real-timed...
We present an algorithm that generates invariants for real-time models. The algorithm, further, prun...
We propose predicate abstraction as a means for verifying a rich class of safety and liveness proper...
AbstractWe propose predicate abstraction as a means for verifying a rich class of safety and livenes...
AbstractWe propose a format of predicate diagrams for the verification of real-time systems. We cons...
In this paper, we present an abstraction refinement approach for model checking safety properties of...
AbstractWe extend the approach of model checking parameterized networks of processes by means of net...
AbstractIn this paper, we present an abstraction refinement approach for model checking safety prope...
Abstract In real-time systems, correctness depends on the time at which events occur. Examples of re...
This paper presents a new methodology for model checking real-time systems based on the abstraction ...
In this talk we describe a new automata-theoretic approach to model checking real-time systems. We s...
We present an approximation technique that can render real-time model checking of safety and univers...
This paper shows how to abstract networks of timed automata in order to accelerate the analysis of q...
Abstract—Timed automata are popular for formally analyz-ing real-time systems. However, it is diffic...
We present a technique designed to automatically compute predicate abstractions for dense real-timed...
We present a technique designed to automatically compute predicate abstractions for dense real-timed...
We present an algorithm that generates invariants for real-time models. The algorithm, further, prun...
We propose predicate abstraction as a means for verifying a rich class of safety and liveness proper...
AbstractWe propose predicate abstraction as a means for verifying a rich class of safety and livenes...
AbstractWe propose a format of predicate diagrams for the verification of real-time systems. We cons...
In this paper, we present an abstraction refinement approach for model checking safety properties of...
AbstractWe extend the approach of model checking parameterized networks of processes by means of net...
AbstractIn this paper, we present an abstraction refinement approach for model checking safety prope...
Abstract In real-time systems, correctness depends on the time at which events occur. Examples of re...
This paper presents a new methodology for model checking real-time systems based on the abstraction ...
In this talk we describe a new automata-theoretic approach to model checking real-time systems. We s...
We present an approximation technique that can render real-time model checking of safety and univers...
This paper shows how to abstract networks of timed automata in order to accelerate the analysis of q...
Abstract—Timed automata are popular for formally analyz-ing real-time systems. However, it is diffic...