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An Approach for Multi-User Multimedia Requests Service to Overlay Multicast Trees  

Kang, Mi-Young (전남대학교 공과대학 컴퓨터공학과 멀티미디어 정보통신 연구실)
Yang, Hyun-Jong (전남대학교 공과대학 컴퓨터공학과 멀티미디어 정보통신 연구실)
Nam, Ji-Seung (전남대학교 공과대학 컴퓨터공학과 멀티미디어 정보통신 연구실)
Publication Information
The Journal of Korean Institute of Communications and Information Sciences / v.33, no.12B, 2008 , pp. 1058-1065 More about this Journal
Abstract
In the Internet, as computer resource is developed, multimedia data request being increase more and more. It is effective way that process both high capacity-data and real-time data. Overlay Multicast is an effective method for efficient utilization of system resources and network bandwidth without using hardware customization. Overlay Multicast is an effective method for multimedia data service to multi-users. Multicast tree reconstruction is required when a non-leaf host leaves or fails. In this paper, relay-frame interval is selected as revealed network-state with jitter. In our proposal, multi-user service control algorithm gives a delay effect in multimedia request time. The simulation results show that our proposal takes shorter period of time than the other algorithms to reconstruct a similar tree and that it is a more effective way to deal with a lot of nodes that have lost their multi-user nodes.
Keywords
Multi-User; Overlay Multicast; Application Layer Multicast; Resource Reservation;
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  • Reference
1 http://www.icir.org/yoid/
2 D. Tran, K. Hua, T. Do, "ZIGZAG: An Efficient Peer-to-Peer Scheme for Media Streaming", in proceedings of IEEE INFOCOM 2003, Apr
3 S. Ratnasamy, M. Handley, R. Karp, and S. Shenker, "Application-level Multicast using Content-Addressable Networks", In Proceedings of NGC, 2001
4 Schulzrinne, Casner, Frederick, and Jacobson, "RTP: A Transport Protocol for Real-Time Applications", RFC 1889, February 1996
5 Dolejs, O., Hanzak, Z., "Optimality of the Tree Building Control Protocol", In Proceedings of the International Conference on Parallel and Distributed Processing Techniques and Applications, Las Vegas, USA, ISBN 1-892512-90-4, CSREA Press, June 2002
6 M. Yang, Z. Fei., "A Proactive Approach to Reconstructing Overlay Multicast Trees", in proceedings of INFOCOM 2004, March
7 D. Pendarakis, S. Shi, D. Verma, M. Waldvogel, "ALMI: An Application Level Multicast Infrastructure", 3rd USENIX Sysmposium on Internet Technologies and Systems, Mar 2001
8 Y. Chu, S. G. Rao, H. Zhang, "A Case for End System Multicast," in Proceedings of ACM SIGMERTICS 2000, June
9 Y. Chawathe, S. McCanne, E. Brewer, "Scattercast: An Architecture for Internet Broadcast Distribution as an Infrastructure Service" PhD Thesis, University of California, Berkeley, 2000
10 J. Jannotti, D. Gifford, K. Johnson, M. Kaashoek, J. O'Toole, "Overcast: Reliable Multicasting with an Overlay Network", 4th Symposium on Operating Systems Design & Implementation, Oct. 2000
11 L.Mathy, R. Canonico, and D. Hutchison, "An Overlay Tree Building Control Protocol", NGC2001, Nov. 2001
12 Y. Okada, M. Oguro, J. Katto, S. Okubo, "A New Approach for the Construction of ALM Trees using Layered Video Coding", in Proceedings of ACM Multimedia 2005
13 S. Zhuang, B. Zhao, A. Joseph, R. Kartz, S. Shenker, "Bayeux: An Architecture for Scalable and Fault-Tolerant Wide-Area Data Dissemination", ACM NOSSDAV 2001, June
14 H. Deshpande, M. Bawa, H. Garcia-Molina, "Streaming Live Media over Peers", Technical Report 2002-21, Stanford University, Mar. 2002
15 T. Kusumoto, Y. Kunichika, J. Katto, S. Okubo, "Proactive Route Maintenance and Overhead Reduction for Application Layer Multicast", ICAS/ICNS 2005
16 Chunlei Liu, "Multimedia Networking : Goals and Challenges", http://www.cis.ohiostate.edu/~jain/cis788-97/ip_multimedia/index.htm, 2000