AbstractInteraction systems were proposed and implemented by Sifakis et al. as a model for the design and study of component based systems. We investigate here the property of liveness in interaction systems where liveness of an action, a component or a set of components means that the action (component, set of components) will repeatedly participate in every run of the global system. We show that deciding liveness is NP-hard. Then we present a characterization of liveness. Finally, by exploiting local information, we establish a polynomial-time criterion that guarantees liveness. We combine the criterion with the characterization to obtain a test for liveness
We present a polynomial-time reduction from 3-SAT to DLIS, where DLIS is the set of interaction syst...
Abstract. Whereas the traditional liveness property for Petri nets guar-antees that each transition ...
When proving the correctness of algorithms in distributed systems, one generally consid-ers safety c...
AbstractInteraction systems were proposed and implemented by Sifakis et al. as a model for the desig...
Interaction systems are a formal model for component-based systems. It has been shown that in this f...
Interaction systems are a formal model for component-based systems. Combining components via connect...
We treat the effect of absence/failure of ports or components on properties of component-based syste...
We propose results ensuring properties of a component-based system from properties of its interactio...
We exhibit sufficient conditions for generic properties of component based systems. The model we use...
AbstractWhen proving the correctness of algorithms in distributed systems, one generally considerssa...
We investigate the fine-grained complexity of liveness verification for leader contributor systems. ...
We present a simple but novel algorithm for checking liveness properties of finite-state systems, ca...
This paper presents liveness properties that need to be preserved by Event-B models of distributed s...
This dissertation is concerned with the theoretical analysis of component-based models for concurren...
We present a simulation-based proof method for liveness properties. Our method is based on simulatio...
We present a polynomial-time reduction from 3-SAT to DLIS, where DLIS is the set of interaction syst...
Abstract. Whereas the traditional liveness property for Petri nets guar-antees that each transition ...
When proving the correctness of algorithms in distributed systems, one generally consid-ers safety c...
AbstractInteraction systems were proposed and implemented by Sifakis et al. as a model for the desig...
Interaction systems are a formal model for component-based systems. It has been shown that in this f...
Interaction systems are a formal model for component-based systems. Combining components via connect...
We treat the effect of absence/failure of ports or components on properties of component-based syste...
We propose results ensuring properties of a component-based system from properties of its interactio...
We exhibit sufficient conditions for generic properties of component based systems. The model we use...
AbstractWhen proving the correctness of algorithms in distributed systems, one generally considerssa...
We investigate the fine-grained complexity of liveness verification for leader contributor systems. ...
We present a simple but novel algorithm for checking liveness properties of finite-state systems, ca...
This paper presents liveness properties that need to be preserved by Event-B models of distributed s...
This dissertation is concerned with the theoretical analysis of component-based models for concurren...
We present a simulation-based proof method for liveness properties. Our method is based on simulatio...
We present a polynomial-time reduction from 3-SAT to DLIS, where DLIS is the set of interaction syst...
Abstract. Whereas the traditional liveness property for Petri nets guar-antees that each transition ...
When proving the correctness of algorithms in distributed systems, one generally consid-ers safety c...