TY - GEN
T1 - A periodic combined-content distribution mechanism in peer-assisted content delivery networks
AU - Maki, Naoya
AU - Shinkuma, Ryoichi
AU - Mori, Tatsuya
AU - Kamiyama, Noriaki
AU - Kawahara, Ryoichi
PY - 2013
Y1 - 2013
N2 - The concept of peer-assisted content delivery networks (CDNs) lets other nearby altruistic clients forward requested content files instead of the source servers, which works to localize overall traffic. Our prior work proposed a traffic engineering scheme to localize traffic in peer-assisted CDNs. To induce altruistic clients to download content files that are most likely to contribute to localizing network traffic, this scheme combines the content files and allows them to obtain the combined content file while keeping the price unchanged from the single-content price. Although we have discussed how much traffic only a set of combined content files can theoretically reduce, we can expect further traffic localization by distributing combined content files to multiple altruistic clients. This paper proposes a periodic combined-content distribution mechanism based on our scheme. This mechanism determines when combined content files should be provided by considering the network cache state. Computer simulations confirmed that our new mechanism could double performance.
AB - The concept of peer-assisted content delivery networks (CDNs) lets other nearby altruistic clients forward requested content files instead of the source servers, which works to localize overall traffic. Our prior work proposed a traffic engineering scheme to localize traffic in peer-assisted CDNs. To induce altruistic clients to download content files that are most likely to contribute to localizing network traffic, this scheme combines the content files and allows them to obtain the combined content file while keeping the price unchanged from the single-content price. Although we have discussed how much traffic only a set of combined content files can theoretically reduce, we can expect further traffic localization by distributing combined content files to multiple altruistic clients. This paper proposes a periodic combined-content distribution mechanism based on our scheme. This mechanism determines when combined content files should be provided by considering the network cache state. Computer simulations confirmed that our new mechanism could double performance.
KW - Communication system traffic control
KW - Content distribution networks
KW - Web service
UR - http://www.scopus.com/inward/record.url?scp=84881308547&partnerID=8YFLogxK
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M3 - Conference contribution
AN - SCOPUS:84881308547
SN - 9781467346764
T3 - International Telecommunication Union - Proceedings of the 2013 ITU Kaleidoscope Academic Conference: Building Sustainable Communities, K 2013
SP - 217
EP - 224
BT - International Telecommunication Union - Proceedings of the 2013 ITU Kaleidoscope Academic Conference
T2 - 2013 5th International Telecommunication Union Kaleidoscope Academic Conference: Building Sustainable Communities, K 2013
Y2 - 22 April 2013 through 24 April 2013
ER -
