The Chord protocol is the best known example of implementation of logarithmic complexity routing for structured peer-to-peer networks. Its routing algorithm, however, does not provide an optimal trade-off between resources exploited (the size of the ‘finger table’) and performance (the average or worst-case number of hops to reach destination). Cordasco et al. showed that a finger table based on Fibonacci distances provides lower number of hops with fewer table entries. In this paper we generalize this result, showing how to construct an improved finger table when the objective is to reduce the number of hops, possibly at the expense of an increased size of the finger table. Our results can also be exploited to guarantee low routing time in...
In dynamic P2P networks, nodes join and depart from the system frequently, which partially damages t...
Abstract — Existing solutions to balance load in DHTs incur a high overhead either in terms of routi...
By randomly mapping items and nodes to a common address space, most P2P index structures based on DH...
The Chord protocol is the best known example of implementation of logarithmic complexity routing for...
The Chord protocol is the best known example of implementation of logarithmic complexity routing for...
Today an application developer using a distributed hash table (DHT) with n nodes must choose a DHT p...
Resource location in structured P2P system has a critical influence on the system performance. Exist...
Copyright © 2014 Wei Zhou et al.This is an open access article distributed under theCreativeCommonsA...
Abstract. We propose a family of novel schemes based on Chord retaining all positive aspects that ma...
We define a DHT system whose aim is to combine the routing efficiency typical of randomized networks...
We propose a family of novel Chord-based P2P schemes retaining all positive aspects that made Chord ...
High scalability in Peer-to-Peer (P2P) systems has been achieved with the emergence of the networks ...
This document defines DHT-independent and DHT-dependent features of DHT algorithms and presents a co...
During the last decade, overlay networks based on distributed hash tables have become the de facto s...
Abstract—FRT-2-Chord is a DHT based on Flexible Routing Tables, a method for designing routing algor...
In dynamic P2P networks, nodes join and depart from the system frequently, which partially damages t...
Abstract — Existing solutions to balance load in DHTs incur a high overhead either in terms of routi...
By randomly mapping items and nodes to a common address space, most P2P index structures based on DH...
The Chord protocol is the best known example of implementation of logarithmic complexity routing for...
The Chord protocol is the best known example of implementation of logarithmic complexity routing for...
Today an application developer using a distributed hash table (DHT) with n nodes must choose a DHT p...
Resource location in structured P2P system has a critical influence on the system performance. Exist...
Copyright © 2014 Wei Zhou et al.This is an open access article distributed under theCreativeCommonsA...
Abstract. We propose a family of novel schemes based on Chord retaining all positive aspects that ma...
We define a DHT system whose aim is to combine the routing efficiency typical of randomized networks...
We propose a family of novel Chord-based P2P schemes retaining all positive aspects that made Chord ...
High scalability in Peer-to-Peer (P2P) systems has been achieved with the emergence of the networks ...
This document defines DHT-independent and DHT-dependent features of DHT algorithms and presents a co...
During the last decade, overlay networks based on distributed hash tables have become the de facto s...
Abstract—FRT-2-Chord is a DHT based on Flexible Routing Tables, a method for designing routing algor...
In dynamic P2P networks, nodes join and depart from the system frequently, which partially damages t...
Abstract — Existing solutions to balance load in DHTs incur a high overhead either in terms of routi...
By randomly mapping items and nodes to a common address space, most P2P index structures based on DH...
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