Peer selection technique for efficient searching and streaming in P2P network

  IJPTT-book-cover
 
International Journal of P2P Network Trends and Technology (IJPTT)          
 
© 2015 by IJPTT Journal
Volume - 5 Issue - 3
Year of Publication : 2015
Authors : Mohanjeet Singh, Anuj Kumar Gupta
DOI :  10.14445/22492615/IJPTT-V19P401

Citation

Mohanjeet Singh, Anuj Kumar Gupta "Peer selection technique for efficient searching and streaming in P2P network". International Journal of P2P Network Trends and Technology (IJPTT), V5(3):12-16 May - June 2015, ISSN:2249-2615, www.ijpttjournal.org, Published by Seventh Sense Research Group.

Abstract

significant part of the Internet traffic is generated by peer-to-peer (P2P) applications. P2P could be a promising start for enabling large-scale streaming systems because current internet does not widely support IP multicast and content distribution network is costly. P2P used traditionally for file-sharing butin recent times for real-time communications and live media streaming. Better availabilityof multimedia contents depend upon network topology and Streaming architecture. Peer organization, searching scheme and streaming also play important role in end-to-end distribution. Motive of media streaming is to reduce the latency, QoS and scalability. To achieve these objectives nearest neighbors should be discover fast as possible, searching should be perfect and streaming should be possible with less bandwidth. In this paper several points are diagnosed related to find neighboring peer, streaming and searching the contents in P2P network.

References

[1] Akamaihttp://www.akamai.comJ. Breckling, Ed.
[2] I. Stoica, R. Morris, D. Karger, M. FransKaashoek, and H. Balakrishnan. Chord: A scalable peer-to-peer lookup service for internet applications. In Proceedings of SIGCOMM, August 2001.
[3] J. Buford, H. Yu, and E. K. Lua (2008), “P2P Networking and Applications”, Morgan Kaufmann.
[4] J. Buford, H. Yu, and E. K. Lua (2008), “P2P Networking and Applications” Morgan Kaufmann.
[5] K. Yang and J. Ho, Proof (2006), “A DHT-Based Peerto- Peer Search Engine”, Proceedings theIEEE International Conference on Web Intelligence, Hong Kong: IEEE Computer Society. 702–708.
[6] Kenia Carolina Gonc¸alves, Alex Borges Vieira, Jussara M. Almeida, Ana Paula C. da Silva, Humberto Marques-Neto, S´ergio V. A. Campos (2012), “Characterizing Dynamic Properties of the SopCast Overlay Network”, 20th Euromicro International Conference on Parallel, Distributed and Network-based Processing
[7] Limelight networks http://www.limelightnetworks.com.
[8] L. Dall`Asta, J. I. Alvarez-Hamelin, A. Barrat, A. Vazquez, and A. Vespignani. Exploring networks with traceroute-like probes: Theory and simulations. Theor. Comput. Sci., 355(1):6{24, 2006.
[9] M.Singh, D.S Dhaliwal. “Searching and streaming of multimedia content in p2p overlay network”, International Journal of Computer Engineering & Technology Volume 3, Issue 2, August (2012), pp. 433-438.
[10] M.Singh, D.S Dhaliwal. “Multimedia Streaming in Peer-to- Peer: Approaches and Challenges”, International Journal of Emerging Technologies in Computational and Applied Sciences Issue 3, Vol. 1 & 2 Feb-2013.
[11] M.Singh, D.S Dhaliwal. “Peer organization in structured P2P network” In International Journal of Software and Web Sciences Issue 6, Vol. 1, 2013.
[12] M. Mushtaq, T. Ahmed, D.E Meddour, "Adaptive packet video Streaming Over P2P NETWORKS", Proceeding InfoScale `06 Proceedings of the 1st international conference on Scalable information systems Article No. 59 ACM New York, NY, USA.
[13] M. Zhou and J. Liu, "A Hybrid Overlay Network for Video-on-Demand”, IEEE International Conference on Communications (ICC`05), Seoul, Korea, May 2005
[14] S. Ratnaswamy, P. Francis, M. Handley, K. Karp, and S. „Shenker. A scalable content-addressable network. In Proceedings of SIGCOMM, August 2001.
[15] T. S. E. Ng and H. Zhang, "Predicting Internet network distance with coordinates-based approaches," in Proceedings of the IEEE INFOCOM 2002, 2002.
[16] T. S. E. Ng and H. Zhang, "A network positioning system for the internet," in Proceedings of USENIX Annual Technical Conference, 2004.
[17] V. N. Padmanabhan, H. J. Wang, P. A. Chou, "Resilient Peer-to-Peer Streaming", IEEE ICNP 2003, Atlanta, GA, USA November 2003.
[18] Xiaofei Liao, Hai Jin, Yunhao Liu, Lionel M Ni, and Dafu Deng, "AnySee: Peer-to-Peer Live Streaming", To appear at IEEE INFOCOM 2006, Barcelona, Spain, April 2006.
[19] Yuh-JzerJoung (2007), “Wildcard Search in Structured Peerto- Peer Networks”, IEEE Transactions on Knowledge and Data Engineering, vol. 19, no. 11, pp. 1524-1540.
[20] Guruprasad Khataniar, “SHPSIM: A Simulator for StructuredHierarchical Peer-to-Peer Protocol” International Journal of P2P Network Trends and Technology (IJPTT) volume 4 January 2014.
[21] Tiruveedula GopiKrishna, “Future Research Challenges of Peer-to-Peer Systems”, International Journal of P2P Network Trends and Technology (IJPTT) volume 8 May 2014.

Keywords
Overlay network, Multimedia streaming, peer heterogeneity