KEYWORD |
ALCATEL LUCENT BELL LABS France - on the evolution of Content Distribution Networks (CDN)
Tesi esterna in azienda Tesi all'estero
Parole chiave CONTENT CACHING, INTERNET TRAFFIC
Riferimenti MARCO MELLIA
Riferimenti esterni Samir Ghamri-Doudane – Bell Labs, Alcatel-Lucent – samir.ghamri-doudane@alcatel-lucent.com Giovanna Carofiglio – Bell Labs, Alcatel-Lucent – giovanna.carofiglio@alcatel-lucent.com
Gruppi di ricerca Alcatel Lucent Bell Labs - France, Telecommunication Networks Group
Tipo tesi MODELING AND EXPERIMENTAL
Descrizione The Internet has evolved from a medium providing host-to-host data communication to a multi- tenant complex system centered on content distribution. This trend, together with the ever increasing growth of Internet traffic, called for the birth of content distribution network (CDN) architectures to serve content providers needs and user demand. Although these solutions responded to the challenge, they still show inefficiencies. For instance, the misuse of DNS [1] for request routing introduces additional latency, lack of reactivity and localization inaccuracy. Moreover, the connection-oriented nature of the HTTP/TCP transport model makes it hard to deal with both user and content mobility with consequent performance degradation.
The Information-Centric Networking (ICN) paradigm has been proposed to answer the above mentioned limitations by design (see [2] for a good survey). In ICN, the network layer is enriched with content-awareness, and content/service delivery is achieved via three main communication mechanisms: in-network caching, name-based request routing and pull-based connectionless transport. While a complete deployment of an ICN architecture requires upgrades to the current Internet protocol suite and network equipment functionalities, ICN communication mechanisms can already provide benefits if integrated at application layer within today’s content delivery solutions.
The internship will focus on proposing solutions to enable such integration. More precisely, the internship will pursue the following steps (and related objectives).
Analysis:
Study current CDN solutions and outline their limitations and inefficiencies.
Review ICN proposals and understand how ICN functionalities (e.g., [3, 4, 5]) can
overcome these limitations and optimize the content delivery process.
Design:
Identify the relevant ICN mechanisms that can be integrated within a CDN at application layer.
Propose solutions to enable this integration at minimal cost (impact on current CDN infrastructures).
Evaluation:
Set up a test platform using available tools and infrastructures (lab resources).
Assess the feasibility of the designed solutions and quantify the gains brought by ICN
mechanisms.
References:
[1] Paul Vixie, “What DNS Is Not”, In ACM Queue, 2009.
[2] B. Ahlgren, C. Dannewitz, C. Imbrenda, B. Ohlman, “A survey of Information-Centric Networking”, In Proc. Of Dagstuhl Seminar on Information-Centric Networking, 2011.
[3] D. Perino and M. Varvello, “A reality check for Content-Centric Networking”, In Proc. of ACM SIGCOMM workshop on Information Centric Networking, 2012.
[4] G. Carofiglio, M. Gallo, L. Muscariello, “ICP: Design and Evaluation of an Interest control Protocol for Content Centric Networks”, In Proc. of IEEE INFOCOM Workshop on emerging design choices in name oriented networking, 2012.
[5] G. Carofiglio, M. Gallo, L. Muscariello, M. Papalini, “Multipath congestion control in content- centric networks”, In Proc. of IEEE INFOCOM Workshop on emerging design choices in name oriented networking, 2013.
Vedi anche bl-cnr_cdn_internship2014.pdf
Conoscenze richieste Excellent knowledge of internet protocol and algorithms
Note The thesis will be performed in the Alcatel-Lucent Bell Labs
France Centre de Villarceaux
Route de Villejust
91620 NOZAY
Scadenza validita proposta 15/01/2015
PROPONI LA TUA CANDIDATURA