Abstract
This paper presents the design of a novel P2P live streaming policy, tree-mesh based P2P Streaming Data Distribution Scheme(TMDS). Both the tree-based and the mesh-based structures have respective flaws while distributing the media data. The tree-based structure is highly vulnerable, so it is very suitable for the stable environment in small scale. And the mesh-based structure is quite stable, and can guarantee certain grade of service under the large-scale environment, but its costs of control are bigger, and also creates heavy load to the network. However TMDS can effectively solve these problems, and take advantage of their merits. Confirmed in the simulated environment, TMDS can: improve the quality of service; decrease the costs of system control, lighten the burden on the network; relieve the load on the transmitting end, enhance the stability of the system.
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References
Wang, Y.W., Zhang, Z.L., Du, D.H.C., Su, D.L.: A network conscious approach to end-to-end video delivery over wide area networks using proxy servers. In: Guerin, R. (ed.) Proc. of the IEEE INFOCOM, pp. 660–667. IEEE Press, San Francisco (1998)
Vakali, A., Pallis, G.: Content delivery networks: Status and trends. IEEE Internet Computing 7(6), 68–74 (2003)
Liu, J., Rao, S.G., Li, B., Zhang, H.: Opportunities and challenges of peer-to-peer Internet video broadcast. Proceedings of the IEEE (2007)
Banerjee, S., Bhattacharjee, B., Kommareddy, C.: Scalable application layer multicast. In: Steenkiste, P. (ed.) Proc. of the SIGCOMM, pp. 205–217. ACM Press, Pittsburgh (2002)
Tran, D.A., Hua, K.A., Do, T.: ZIGZAG: An efficient peer-to-peer scheme for media streaming. In: Bauer, F. (ed.) Proc. of the IEEE INFOCOM, pp. 1283–1292. IEEE Press, San Francisco (2003)
Deshpande, H., Bawa, M., Garcia-Molina, H.: Streaming live media over a peer-to-peer network, Technical Report of Database Group, CS-2001-31. Stanford University (2001)
Peer Cast, http://www.peercast.org
Zhang, X., Liu, J., Li, B., Yum, T.-S.P.: DONet/Cool Streaming: A Data-driven Overlay Network for Peer-to-Peer Live Media Streaming. In: IEEE INFOCOM, vol. 3, pp. 2102–2111 (March 2005)
Liao, X., Jin, H., Liu, Y., Ni, L.M., Deng, D.: AnySee: Peer-to-Peer Live Streaming. In: Proceedings of IEEE INFOCOM, Barcelona, Spain (April 2006)
Wang, F., Xiong, Y., Liu, J.: mTreebone: A hybrid tree/mesh overlay for application-layer live video multicast. In: IEEE ICDCS (2007)
Huang, Q., Jin, H., Liu, K., Liao, X., Tu, X.: Anysee2: An Auto Load Balance P2P Live Streaming System with Hybrid Architecture, Work-in-Progress/Poster. In: Proc. of ACM INFOSCALE (2007)
Magharei, N., Rejaie, R., Guo, Y.: Mesh or multiple-tree: A compar-ative study of live P2P streaming approaches. In: IEEE INFOCOMM (2007)
Wang, F., Xiong, Y., Liu, J.: mTreebone: A hybrid tree/mesh overlay for application-layer live video multicast. In: IEEE ICDCS (2007)
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Zhao, J., Yao, N., Cai, S., Li, X. (2012). Tree-Mesh Based P2P Streaming Data Distribution Scheme. In: Tan, H. (eds) Knowledge Discovery and Data Mining. Advances in Intelligent and Soft Computing, vol 135. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-27708-5_11
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DOI: https://doi.org/10.1007/978-3-642-27708-5_11
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