A Peer-to-Peer (P2P) platform is considered for collaborative Information Retrieval (IR). Each peer hosts a collection of text documents with subjects related to its owner's interests. Without a global indexing mechanism, peers locally index their documents, and provide the service to answer queries. A decentralized protocol is designed, enabling the peers to collaboratively forward queries from the initiator to the peers with relevant documents. Semantic Overlay Network (SON) is one of the state-of-the-art solutions, where peers with semantically similar resources are clustered. IR can then be efficiently performed by forwarding queries to the relevant peer clusters in an informed way. SONs are built and maintained mainly via peer rewiring. Specifically, each peer periodically sends walkers to its neighborhood. The walkers walk along peer connections, aiming at discovering more similar peers to replace less similar neighbors of its initiator. The P2P network hence gradually evolves from a random overlay network to a SON. Random and greedy walk can be applied individually or integrated in peer rewiring as a constant strategy during the progress of network evolution. However, the evolution of the network topology may affect their performance. For example, when peers are randomly connected with each other, random walk performs better than greedy walk for exploring similar peers. But as peer clusters gradually emerge in the network, a walker can explore more similar peers by following a greedy strategy. This thesis proposes an evolving walking strategy based on Simulated Annealing (SA), which evolves from a random walk to a greedy walk along the progress of network evolution. According to the simulation results, SA-based strategy outperforms current approaches, both in the efficiency to build a SON and the effectiveness of the subsequent IR. This thesis contains several advancements with respect to the state-of-the-art in this field. First of all, we identify a generic peer rewiring pattern and formalize it as a three-step procedure. Our technique provides a consistent framework for peer rewiring, while allowing enough flexibility for the users/designers to specify its properties. Secondly, we formalize SON construction as a combinatorial optimization problem, with peer rewiring as its decentralized local search solution. Based on this model, we propose a novel SA-based approach to peer rewiring. Our approach is validated via an extensive experimental study on the effect of network rewiring on (i) SON building and (ii) IR in SONs.
|Titolo:||Metaheuristic based Peer Rewiring for Semantic Overlay Networks|
|Data di pubblicazione:||28-mar-2014|
|Parole Chiave:||Peer-to-Peer Networks ; Information Retrieval ; Semantic Overlay Networks ; Peer Rewiring ; Local Search ; Simulated Annealing|
|Settore Scientifico Disciplinare:||Settore INF/01 - Informatica|
|Citazione:||Metaheuristic based Peer Rewiring for Semantic Overlay Networks ; tutor: E. DAMIANI, L. BRUNIE, S. CALABRETTO. - Milano : Università degli studi di Milano. DIPARTIMENTO DI INFORMATICA, 2014 Mar 28. ((26. ciclo|
|Digital Object Identifier (DOI):||10.13130/yang-yulian_phd2014-03-28|
|Appare nelle tipologie:||Tesi di dottorato|