{"title":"PP-FSM: Peer to Peer File Share for Multimedia","authors":"Arsalan Ali Shah, Zafar I. Malik, Shaukat Ali","volume":4,"journal":"International Journal of Computer and Information Engineering","pagesStart":1019,"pagesEnd":1023,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/15497","abstract":"
Peer-to-Peer (P2P) is a self-organizing resource sharing network with no centralized authority or infrastructure, which makes it unpredictable and vulnerable. In this paper, we propose architecture to make the peer-to-peer network more centralized, predictable, and safer to use by implementing trust and stopping free riding.<\/p>\r\n","references":"[1] Napster, http:\/\/www.napster.com\r\n[2] KaZaA, http:\/\/www.kazaa.com\r\n[3] Gnutella, http:\/\/gnutella.wego.com\r\n[4] Morpheus website. http:\/\/www.morpheus-os.com\r\n[5] Li X., L. Liu, PeerTrust: Supporting Reputation-Based Trust for Peer-to-\r\nPeer Electronic Communities. IEEE Transactions on Knowledge and Data Engineering, vol. 16, no. 7, July 2004\r\n[6] L. Ramaswamy and L. Liu. Free riding: A new challenge to peer-to-peer\r\nfile sharing systems. Technical report, College of Computing, Georgia\r\nInstitute of Technology, Atlanta, 2002.\r\n[7] M. Karakaya, I. Korpeoglu, and \u252c\u00bf O. Ulusoy. A distributed and\r\nmeasurement-based framework against free riding in peer-to-peer\r\nnetworks. Technical Report BU-CE-0405, Department of Computer\r\nEngineering, Bilkent University, May 2004.\r\n[8] M. Andreolini R. Lancellotti P. S. Yu. Analysis of peer-to-peer systems:\r\nworkload characterization and effects on traffic cacheability. In\r\nProceedings of the IEEE Computer Society-s 12th Annual International\r\nSymposium on Modeling, Analysis, and Simulation of Computer and\r\nTelecommunications Systems (MASCOTS-04), 2004.","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 4, 2007"}