Add to ORKGIn this paper, we analyze the problem of network disconnection in the context of large-scale P2P networks and understand how both static and dynamic patterns of node failure affect the resilience of such graphs. We start by applying classical results from random graph theory to show that a large variety of deterministic and random P2P graphs almost surely (i.e., with probability 1-o(1)) remain connected under random failure if and only if they have no isolated nodes. This simple, yet powerful, result subsequently allows us to derive in closed-form the probability that a P2P network develops isolated nodes, and therefore partitions, under both types of node failure. We finish the paper by demonstrating that our models match simulations very ...
We revisit link lifetimes in random P2P graphs under dynamic node failure and create a unifying stoc...
We propose a simple model that captures the salient properties of distribution networks, and study t...
Previous analytical results on the resilience of unstructured P2P systems have not explicitly modele...
In this paper, we analyze the problem of network disconnection in the context of large-scale P2P net...
In this paper, we analyze the problem of network disconnection in the context of large-scale P2P net...
Abstract — To model P2P networks that are commonly faced with high rates of churn and random departu...
Previous analytical work on the resilience of P2P networks has been restricted to disconnection aris...
Prior work has shown that resilience of random P2P graphs under dynamic node failure can be improved...
Abstract—Prior work has shown that resilience of random P2P graphs under dynamic node failure can be...
Previous analytical results on the resilience of unstructured P2P systems have not explicitly modele...
Previous analytical studies [12], [18] of unstructured P2P resilience have assumed exponential user ...
Abstract—Previous analytical results on the resilience of unstructured P2P systems have not explicit...
This dissertation presents a novel modeling framework for understanding the dynamics of peer-to-peer...
We revisit link lifetimes in random P2P graphs under dynamic node failure and create a unifying stoc...
We propose a simple model that captures the salient properties of distribution networks, and study t...
We revisit link lifetimes in random P2P graphs under dynamic node failure and create a unifying stoc...
We propose a simple model that captures the salient properties of distribution networks, and study t...
Previous analytical results on the resilience of unstructured P2P systems have not explicitly modele...
In this paper, we analyze the problem of network disconnection in the context of large-scale P2P net...
In this paper, we analyze the problem of network disconnection in the context of large-scale P2P net...
Abstract — To model P2P networks that are commonly faced with high rates of churn and random departu...
Previous analytical work on the resilience of P2P networks has been restricted to disconnection aris...
Prior work has shown that resilience of random P2P graphs under dynamic node failure can be improved...
Abstract—Prior work has shown that resilience of random P2P graphs under dynamic node failure can be...
Previous analytical results on the resilience of unstructured P2P systems have not explicitly modele...
Previous analytical studies [12], [18] of unstructured P2P resilience have assumed exponential user ...
Abstract—Previous analytical results on the resilience of unstructured P2P systems have not explicit...
This dissertation presents a novel modeling framework for understanding the dynamics of peer-to-peer...
We revisit link lifetimes in random P2P graphs under dynamic node failure and create a unifying stoc...
We propose a simple model that captures the salient properties of distribution networks, and study t...
We revisit link lifetimes in random P2P graphs under dynamic node failure and create a unifying stoc...
We propose a simple model that captures the salient properties of distribution networks, and study t...
Previous analytical results on the resilience of unstructured P2P systems have not explicitly modele...