Analysis of a CDN–P2P hybrid architecture for cost-effective streaming media distribution

D Xu, SS Kulkarni, C Rosenberg, HK Chai - Multimedia Systems, 2006 - Springer
Multimedia Systems, 2006Springer
To distribute video and audio data in real-time streaming mode, two different technologies–
Content Distribution Network (CDN) and Peer-to-Peer (P2P)–have been proposed.
However, both technologies have their own limitations: CDN servers are expensive to
deploy and maintain, and consequently incur a cost for media providers and/or clients for
server capacity reservation. On the other hand, a P2P-based architecture requires sufficient
number of seed supplying peers to jumpstart the distribution process. Compared with a CDN …
Abstract
To distribute video and audio data in real-time streaming mode, two different technologies – Content Distribution Network (CDN) and Peer-to-Peer (P2P) – have been proposed. However, both technologies have their own limitations: CDN servers are expensive to deploy and maintain, and consequently incur a cost for media providers and/or clients for server capacity reservation. On the other hand, a P2P-based architecture requires sufficient number of seed supplying peers to jumpstart the distribution process. Compared with a CDN server, a peer usually offers much lower out-bound streaming rate and hence multiple peers must jointly stream a media data to a requesting peer. Furthermore, it is not clear how to determine how much a peer should contribute back to the system after receiving the media data, in order to sustain the overall media distribution capacity.
In this paper, we propose and analyze a novel hybrid architecture that integrates both CDN- and P2P-based streaming media distribution. The architecture is highly cost-effective: it significantly lowers the cost of CDN capacity reservation, without compromising the media quality delivered. In particular, we propose and compare different limited contribution policies for peers that request a media data, so that the streaming capacity of each peer can be exploited on a fair and limited basis. We present: (1) in-depth analysis of the proposed architecture under different contribution policies, and (2) extensive simulation results which validate the analysis. Our analytical and simulation results form a rigorous basis for the planning and dimensioning of the hybrid architecture.
Springer
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