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Progressive caching in CCN

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Název: Progressive caching in CCN
Autoři: Wang, Min, Bensaou, Brahim
Rok vydání: 2012
Témata: Caching performance, Client-server models, Content-centric networkings, Fault-tolerant networks, Future internet architecture, Internet application, On-demand streaming, User-generated content, info, archi
Popis: The current Internet is based on the old concept of data networking whose role was to mainly build a fault-tolerant network infrastructure that enables efficient sharing of scarce and expensive resources such as storage and CPU time. Its main feature is the end-to-end principle of communication between any pair of hosts under the client-server model, which was well suited for early Internet applications, e.g., remote login (CPU sharing) and ftp (storage). In recent years, the main usage of the Internet has evolved to become a vehicle of content generation, sharing and retrieval, demonstrated by such extremely hot applications as P2P live and on-demand streaming, User-Generated Content (UGC) services (e.g., Youtube, Flickr ) and Social Networks (e.g., Facebook, Google+). To match such transformation, a clean-slate redesign of the future Internet architecture has been proposed under the generic name of Content-Centric Networking (CCN). In this paper, we propose a new caching scheme for such CCN networks and evaluate the in-network caching performance of this policy by comparing it with that of the default proposed policy via simulation. © 2012 IEEE.
Druh dokumentu: conference object
Jazyk: English
Relation: http://repository.ust.hk/ir/Record/1783.1-57466
Dostupnost: http://repository.ust.hk/ir/Record/1783.1-57466
Rights: undefined
Přístupové číslo: edsbas.C7590F41
Databáze: BASE
Popis
Abstrakt:The current Internet is based on the old concept of data networking whose role was to mainly build a fault-tolerant network infrastructure that enables efficient sharing of scarce and expensive resources such as storage and CPU time. Its main feature is the end-to-end principle of communication between any pair of hosts under the client-server model, which was well suited for early Internet applications, e.g., remote login (CPU sharing) and ftp (storage). In recent years, the main usage of the Internet has evolved to become a vehicle of content generation, sharing and retrieval, demonstrated by such extremely hot applications as P2P live and on-demand streaming, User-Generated Content (UGC) services (e.g., Youtube, Flickr ) and Social Networks (e.g., Facebook, Google+). To match such transformation, a clean-slate redesign of the future Internet architecture has been proposed under the generic name of Content-Centric Networking (CCN). In this paper, we propose a new caching scheme for such CCN networks and evaluate the in-network caching performance of this policy by comparing it with that of the default proposed policy via simulation. © 2012 IEEE.