Combinatorial topology is used in distributed computing to model concurrency and asynchrony. The basic structure in combinatorial topology is the simplicial complex, a collection of subsets called simplices of a set of vertices, closed under containment. Pure simplicial complexes describe message passing in asynchronous systems where all processes (agents) are alive, whereas impure simplicial complexes describe message passing in synchronous systems where processes may be dead (have crashed). Properties of impure simplicial complexes can be described in a three-valued multi-agent epistemic logic where the third value represents formulas that are undefined, e.g., the knowledge and local propositions of dead agents. In this work we present th...
Modal logic S5 is commonly viewed as an epistemic logic that captures the most basic properties of k...
In this paper we provide a strongly complete axiomatization of a temporal epistemic logic in which n...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...
Combinatorial topology is used in distributed computing to model concurrencyand asynchrony. The basi...
In recent years, several authors have been investigating simplicial models, a model of epistemic log...
The standard semantics of multi-agent epistemic logic S5 is based on Kripke models whose accessibili...
The standard semantics of multi-agent epistemic logic S5n is based on Kripke models whose accessibil...
Simplicial complexes are a versatile and convenient paradigm on which to build all the tools and tec...
The field of fault-tolerant protocols studies which concurrent tasks are solvable in various computa...
AbstractThis paper is a survey of the new notions and results scattered in [13,11,12]. However the s...
The famous asynchronous computability theorem (ACT) relates the existence of an asynchronous wait-fr...
AbstractRecent advances in Multiagent Systems (MAS) and Epistemic Logic within Distributed Systems T...
The area of fault-tolerant distributed computability is concerned with the solvability of decision t...
Abstract We give necessary and sufficient combinatorial conditions characterizing the class of decis...
International audienceThe famous asynchronous computability theorem (ACT) relates the existence of a...
Modal logic S5 is commonly viewed as an epistemic logic that captures the most basic properties of k...
In this paper we provide a strongly complete axiomatization of a temporal epistemic logic in which n...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...
Combinatorial topology is used in distributed computing to model concurrencyand asynchrony. The basi...
In recent years, several authors have been investigating simplicial models, a model of epistemic log...
The standard semantics of multi-agent epistemic logic S5 is based on Kripke models whose accessibili...
The standard semantics of multi-agent epistemic logic S5n is based on Kripke models whose accessibil...
Simplicial complexes are a versatile and convenient paradigm on which to build all the tools and tec...
The field of fault-tolerant protocols studies which concurrent tasks are solvable in various computa...
AbstractThis paper is a survey of the new notions and results scattered in [13,11,12]. However the s...
The famous asynchronous computability theorem (ACT) relates the existence of an asynchronous wait-fr...
AbstractRecent advances in Multiagent Systems (MAS) and Epistemic Logic within Distributed Systems T...
The area of fault-tolerant distributed computability is concerned with the solvability of decision t...
Abstract We give necessary and sufficient combinatorial conditions characterizing the class of decis...
International audienceThe famous asynchronous computability theorem (ACT) relates the existence of a...
Modal logic S5 is commonly viewed as an epistemic logic that captures the most basic properties of k...
In this paper we provide a strongly complete axiomatization of a temporal epistemic logic in which n...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...