We extend here the Population Protocol model of Angluin et al. [2] in order to model more powerful networks of very small resource-limited artefacts (agents) that are possibly mobile. The main feature of our extended model is to allow edges of the communication graph, G, to have states that belong to a constant size set. We also allow edges to have readable only costs, whose values also belong to a constant size set. Our protocol specifications are still independent of the population size and do not use agent ids, i.e. they preserve uniformity and anonymity. Our Mediated Population Protocols (MPP) can stably compute graph properties of the communication graph. We show this for the properties of maximal matchings (in undirected communication...
Abstract. We study here the problem of determining the majority type in an arbitrary connected netwo...
We explore the computational power of networks of small resource-limited mobile agents. We define tw...
This paper considers the fundamental problem of \emph{self-stabilizing leader election} ($\mathcal{S...
AbstractWe extend here the Population Protocol (PP) model of Angluin et al. (2004, 2006) [2,4] in or...
We extend here the Population Protocol (PP) model of Angluin et al. [2004,2006] in order to model mo...
We work on an extension of the Population Protocol model of Angluin et al. that allows edges of the ...
We explore the capability of a network of extremely limited computational entities to decide propert...
Abstract. The population protocol model (PP) proposed by Angluin et al. [2] describes sensor network...
The population protocol model (PP) proposed by Angluin et al. [2] describes sensor networks consisti...
n mobile agents (finite-state) mobility passive: uncontrollable by the agents fair: protocols make p...
Population protocols were introduced by Angluin et al. in 2004 to study the theoretical properties o...
We consider the model of population protocols introduced by Angluin et al. [AAD + 04], in which anon...
Abstract. We define a general model capturing the behavior of a pop-ulation of anonymous agents that...
Mediated population protocols are an extension of popula-tion protocols in which communication links...
This work focuses on the computational power of the Mediated Population Protocol model on complete c...
Abstract. We study here the problem of determining the majority type in an arbitrary connected netwo...
We explore the computational power of networks of small resource-limited mobile agents. We define tw...
This paper considers the fundamental problem of \emph{self-stabilizing leader election} ($\mathcal{S...
AbstractWe extend here the Population Protocol (PP) model of Angluin et al. (2004, 2006) [2,4] in or...
We extend here the Population Protocol (PP) model of Angluin et al. [2004,2006] in order to model mo...
We work on an extension of the Population Protocol model of Angluin et al. that allows edges of the ...
We explore the capability of a network of extremely limited computational entities to decide propert...
Abstract. The population protocol model (PP) proposed by Angluin et al. [2] describes sensor network...
The population protocol model (PP) proposed by Angluin et al. [2] describes sensor networks consisti...
n mobile agents (finite-state) mobility passive: uncontrollable by the agents fair: protocols make p...
Population protocols were introduced by Angluin et al. in 2004 to study the theoretical properties o...
We consider the model of population protocols introduced by Angluin et al. [AAD + 04], in which anon...
Abstract. We define a general model capturing the behavior of a pop-ulation of anonymous agents that...
Mediated population protocols are an extension of popula-tion protocols in which communication links...
This work focuses on the computational power of the Mediated Population Protocol model on complete c...
Abstract. We study here the problem of determining the majority type in an arbitrary connected netwo...
We explore the computational power of networks of small resource-limited mobile agents. We define tw...
This paper considers the fundamental problem of \emph{self-stabilizing leader election} ($\mathcal{S...