We develop a theory of refinement for timed asynchronous systems, in the setting of Communicating Timed Automata (CTA). Our refinement applies point-wise to the components of a system of CTA, and only affecting their time constraints—in this way, we achieve compositionality and decidability. We then establish a decidable condition under which our refinement preserves behavioural properties of systems,such as their global and local progress. Our theory provides guidelines on how to implement timed protocols using the real-time primitives of programming languages. We validate our theory through a series of experiments, supported by an open-source tool which implements our verification techniques
In this paper, we address the verification problem for timed asynchronous programs. We associate to ...
AbstractWe define formally the notion of implementation for time critical systems in terms of provab...
AbstractCoordination languages and models promote the idea of separating computation and interaction...
We develop a theory of refinement for timed asynchronous systems, in the setting of Communicating Ti...
We develop a theory of refinement for timed asynchronous systems, in the setting of Communicating Ti...
This paper studies safety, progress, and non-zeno properties of Communicating Timed Automata (CTAs),...
AbstractA theory of timewise refinement is presented. This allows the translation of specifications ...
Programming embedded and cyber-physical systems requires attention not only to functional behavior a...
Programming embedded and cyber-physical systems requires attention not only to functional behavior a...
A theory of timewise refinement is presented. This allows the translation of specifications and proo...
We propose a typing theory, based on multiparty session types, for modular verification of real-time...
We propose a typing theory, based on multiparty session types, for modular verification of real-time...
We study an urgent semantics of asynchronous timed session types, where input actions happen as soon...
AbstractWe study the expressive power of an augmented version of Timed CSP and show that it is preci...
Timed automata have been designed for modeling a real-time system behavior over time. Main obstacle ...
In this paper, we address the verification problem for timed asynchronous programs. We associate to ...
AbstractWe define formally the notion of implementation for time critical systems in terms of provab...
AbstractCoordination languages and models promote the idea of separating computation and interaction...
We develop a theory of refinement for timed asynchronous systems, in the setting of Communicating Ti...
We develop a theory of refinement for timed asynchronous systems, in the setting of Communicating Ti...
This paper studies safety, progress, and non-zeno properties of Communicating Timed Automata (CTAs),...
AbstractA theory of timewise refinement is presented. This allows the translation of specifications ...
Programming embedded and cyber-physical systems requires attention not only to functional behavior a...
Programming embedded and cyber-physical systems requires attention not only to functional behavior a...
A theory of timewise refinement is presented. This allows the translation of specifications and proo...
We propose a typing theory, based on multiparty session types, for modular verification of real-time...
We propose a typing theory, based on multiparty session types, for modular verification of real-time...
We study an urgent semantics of asynchronous timed session types, where input actions happen as soon...
AbstractWe study the expressive power of an augmented version of Timed CSP and show that it is preci...
Timed automata have been designed for modeling a real-time system behavior over time. Main obstacle ...
In this paper, we address the verification problem for timed asynchronous programs. We associate to ...
AbstractWe define formally the notion of implementation for time critical systems in terms of provab...
AbstractCoordination languages and models promote the idea of separating computation and interaction...