Peer-to-Peer (P2P) file sharing systems are becoming part of the daily life of content consumers. The traffic generated by P2P systems, and particularly BitTorrent, represents the major portion of the global Internet traffic, largely overtaking the traffic share of the World Wide Web. Nowadays, we see P2P systems evolving towards a Video on Demand (VoD) platform. One of the main challenges of these systems is to efficiently share data in the dynamic and continuously evolving Ad-Hoc networks of users. This ability heavily depends on the peerspsila locations and characteristics on this type of networks. In this paper, we use the current BitTorrent system to evaluate the peer-level characteristics of users sharing video contents. These characteristics include geographical location, peers availability and peers rdquodistancerdquo, measured in terms of the round trip time. From the results obtained, we conclude that peers sharing video content present some unexpected locality features that, if conveniently exploited, could greatly benefit VoD P2P systems both in technological and service marketing terms.
[1]
Chow-Sing Lin,et al.
P2MCMD: A scalable approach to VoD service over peer-to-peer networks
,
2007,
J. Parallel Distributed Comput..
[2]
E. Akyol,et al.
A Flexible Multiple Description Coding Framework for Adaptive Peer-to-Peer Video Streaming
,
2007,
IEEE Journal of Selected Topics in Signal Processing.
[3]
Younghee Lee,et al.
AVS: An Adaptive P2P Video Streaming Scheme with Frame Type Aware Scheduling
,
2007,
The 9th International Conference on Advanced Communication Technology.
[4]
Keith W. Ross,et al.
Using layered video to provide incentives in P2P live streaming
,
2007,
P2P-TV '07.
[5]
Mario Gerla,et al.
Will IPTV ride the peer-to-peer stream? [Peer-to-Peer Multimedia Streaming]
,
2007,
IEEE Communications Magazine.
[6]
Ulrich Killat,et al.
Bandwidth trading in BitTorrent-like P2P networks for content distribution
,
2008,
Comput. Commun..