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Seminar on Internet Technologies (Summer 2014): Difference between revisions
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Seminar on Internet Technologies (Summer 2014) (view source)
Revision as of 11:23, 23 April 2014
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| | | <strike>Information Centric Networking</strike> (''Assigned to'' Eeran Maiti) | ||
Information Centric Networking (ICN) is a new paradigm to replace the IP location-based communication model and to put '''data''' at the center. A better and faster content distribution, improved privacy, integrated cryptography and easy P2P communication are among the new possibities this model introduce. On the other hand problems like efficiency and scalability of the name-based routing, support of existing applications and new ones and the possibility to actually deploy this technology are still open and actively discussed, making ICN one of the most active research field in networking. NDN is a prominent ICN proposal and implementation. | Information Centric Networking (ICN) is a new paradigm to replace the IP location-based communication model and to put '''data''' at the center. A better and faster content distribution, improved privacy, integrated cryptography and easy P2P communication are among the new possibities this model introduce. On the other hand problems like efficiency and scalability of the name-based routing, support of existing applications and new ones and the possibility to actually deploy this technology are still open and actively discussed, making ICN one of the most active research field in networking. NDN is a prominent ICN proposal and implementation. | ||
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| | | <strike>ICN in Delay Tolerant Networks</strike> (''Assigned to'' Christopher Menke) | ||
Delay Tolerant Networks (DTNs) are networks deployed in particularly challenging scenarios, where the absence of a persistent end-to-end path makes the architectures used in wired and ad-hoc networks impractical. DNTs are normally characterized by a high and unpredictable node mobility. The great advantage of DTN is that they require little or no infrastructure to work (i.e. no wired network, no Access Points, ...). Many researches envision the use of DTN for many different tasks, including bringing communication to remote/rural areas, interplanetary communication, decentralized communication among smartphones/mobile devices, emergency/disaster situations, etc. | Delay Tolerant Networks (DTNs) are networks deployed in particularly challenging scenarios, where the absence of a persistent end-to-end path makes the architectures used in wired and ad-hoc networks impractical. DNTs are normally characterized by a high and unpredictable node mobility. The great advantage of DTN is that they require little or no infrastructure to work (i.e. no wired network, no Access Points, ...). Many researches envision the use of DTN for many different tasks, including bringing communication to remote/rural areas, interplanetary communication, decentralized communication among smartphones/mobile devices, emergency/disaster situations, etc. | ||