Add to ORKGIn this paper, we work on the notion of k-synchronizability: a system is k-synchronizable if any of its executions, up to reordering causally independent actions, can be divided into a succession of k-bounded interaction phases. We show two results (both for mailbox and peer-to-peer automata): first, the reachability problem is decidable for k-synchronizable systems; second, the membership problem (whether a given system is k-synchronizable) is decidable as well. Our proofs fix several important issues in previous attempts to prove these two results for mailbox automata
We present a unified, axiomatic approach to proving lower bounds for the k-set agreement problem in ...
We study the problem of synchronization of automata with random inputs. We present a series of autom...
We extend the concept of a synchronizing word from deterministic finite-state automata (DFA) to nest...
Distributed systems are ubiquitous and their implementation is complex and error-prone. In order to ...
Long version (submitted)A system of communicating finite state machines is synchronizable if its sen...
International audienceWe address the problem of verifying message passing programs , defined as a se...
This paper proposes a sound procedure to verify properties of communicating session automata (csa), ...
Les systèmes distribués sont omniprésents, cependant leur implémentation est complexe et sujette aux...
This paper proposes a sound procedure to verify properties of communicating session automata (CSA), ...
A deterministic finite-state automaton A is said to be synchronizing if there is a synchronizing wor...
We consider the careful synchronization of partial automata with only one undefined transition and t...
Abstract. The problem of synchronizing automata is concerned with the existence of a word that sends...
The problem of synchronizing automata is concerned with the existence of a word that sends all state...
The problem of synchronizing automata is concerned with the existence of a word that sends all state...
Finite state systems, also called automata, are key tools for modelling physical systems, for emulat...
We present a unified, axiomatic approach to proving lower bounds for the k-set agreement problem in ...
We study the problem of synchronization of automata with random inputs. We present a series of autom...
We extend the concept of a synchronizing word from deterministic finite-state automata (DFA) to nest...
Distributed systems are ubiquitous and their implementation is complex and error-prone. In order to ...
Long version (submitted)A system of communicating finite state machines is synchronizable if its sen...
International audienceWe address the problem of verifying message passing programs , defined as a se...
This paper proposes a sound procedure to verify properties of communicating session automata (csa), ...
Les systèmes distribués sont omniprésents, cependant leur implémentation est complexe et sujette aux...
This paper proposes a sound procedure to verify properties of communicating session automata (CSA), ...
A deterministic finite-state automaton A is said to be synchronizing if there is a synchronizing wor...
We consider the careful synchronization of partial automata with only one undefined transition and t...
Abstract. The problem of synchronizing automata is concerned with the existence of a word that sends...
The problem of synchronizing automata is concerned with the existence of a word that sends all state...
The problem of synchronizing automata is concerned with the existence of a word that sends all state...
Finite state systems, also called automata, are key tools for modelling physical systems, for emulat...
We present a unified, axiomatic approach to proving lower bounds for the k-set agreement problem in ...
We study the problem of synchronization of automata with random inputs. We present a series of autom...
We extend the concept of a synchronizing word from deterministic finite-state automata (DFA) to nest...