In this paper, we present a complete analytical study of dynamic membership (aka churn) in structured peer-to-peer networks. We use a master-equation-based approach, which is used traditionally in non-equilibrium statistical mechanics to describe steady-state or transient phenomena. We demonstrate that this methodology is in fact also well suited to describing structured overlay networks by an application to the Chord system. For any rate of churn and stabilization rates, and any system size, we accurately account for the functional form of: the distribution of inter-node distances, the probability of network disconnection, the fraction of failed or incorrect successor and finger pointers and show how we can use these quantities to predict ...
Structured overlay networks form a major classof peer-to-peer systems, which are touted for their ab...
Ce rapport présente une étude qui établit une relation probabiliste entre la taille d'un noyau dans ...
This research is based on “Chord: A distributed overlay network mechanism for Peer-to-Peer Systems”....
In this paper, we present a complete analytical study of dynamic membership (aka churn) in structure...
In this paper, we present a complete analytical study of dynamic membership (aka churn) in structure...
In this paper, we present an analytical tool for understanding the performance of structured overlay...
In this paper, we present an analytical tool for understanding the performance of structured overl...
In this paper, we present an analytical study of proximity-aware structured peer-to-peer networks un...
In the majority of structured peer-to-peer overlay networks a graph with a desirable topology is con...
International audienceIn this paper we present an analytic study of the impact of churn in cluster-b...
In the majority of structured peer-to-peer overlay networks a graph with a desirable topology is con...
Unstructured peer-to-peer systems represent viable candidates for supporting distributed application...
Abstract—Distributed applications built on top of Structured Overlay Networks (SONs) operate based o...
We investigate the interaction between Network Partitioning and Churn (node turnover) in Structured ...
Distributed applications built on top of Structured Overlay Networks (SONs) operate based on certain...
Structured overlay networks form a major classof peer-to-peer systems, which are touted for their ab...
Ce rapport présente une étude qui établit une relation probabiliste entre la taille d'un noyau dans ...
This research is based on “Chord: A distributed overlay network mechanism for Peer-to-Peer Systems”....
In this paper, we present a complete analytical study of dynamic membership (aka churn) in structure...
In this paper, we present a complete analytical study of dynamic membership (aka churn) in structure...
In this paper, we present an analytical tool for understanding the performance of structured overlay...
In this paper, we present an analytical tool for understanding the performance of structured overl...
In this paper, we present an analytical study of proximity-aware structured peer-to-peer networks un...
In the majority of structured peer-to-peer overlay networks a graph with a desirable topology is con...
International audienceIn this paper we present an analytic study of the impact of churn in cluster-b...
In the majority of structured peer-to-peer overlay networks a graph with a desirable topology is con...
Unstructured peer-to-peer systems represent viable candidates for supporting distributed application...
Abstract—Distributed applications built on top of Structured Overlay Networks (SONs) operate based o...
We investigate the interaction between Network Partitioning and Churn (node turnover) in Structured ...
Distributed applications built on top of Structured Overlay Networks (SONs) operate based on certain...
Structured overlay networks form a major classof peer-to-peer systems, which are touted for their ab...
Ce rapport présente une étude qui établit une relation probabiliste entre la taille d'un noyau dans ...
This research is based on “Chord: A distributed overlay network mechanism for Peer-to-Peer Systems”....