publication . Other literature type . Article . Conference object . 2011

A simple FSPN model of P2P live video streaming system

Pece Mitrevski; Zoran Kotevski;
Open Access English
  • Published: 01 Jan 2011 Journal: Journal of computing and information technology, volume 19, issue 4 (issn: 1330-1136, eissn: 1846-3908, Copyright policy)
  • Publisher: SRCE - University Computing Centre
Abstract
Peer to Peer (P2P) live streaming is relatively new paradigm that aims for streaming live video to large number of clients with low cost. Many such applications allready exist in the market, but, prior to creating such system it is necessary to analyze its performance via representative model that can provide good insight in system's behavior. Modeling and performance analysis of P2P live video streaming systems is challenging task which requires addressing many properties and issues of P2P systems that create complex combinatorial problem. Inspired by several related articles, in this paper we present our Fluid Stochastic Petri Net (FSPN) model for performance ...
Subjects
free text keywords: P2P live streaming; modeling; performance analysis; fluid stochastic Petri nets, General Computer Science
19 references, page 1 of 2

[1] S. MCCANNE, V. JACOBSON, Receiver Driven Layered Multicast. In ACM SIGCOMM, Stanford, California; 1996.

[2] Y. CHU, S. G. RAO, S. SESHAN, H. ZHANG, A Case for End System Multicast. In ACM SIGMETRICS, Santa Clara; 2000.

[3] J. JANNOTTI, D. K. GILFORD, K. L. JOHNSON, M. F. KAASHOEK, J. W. O'TOOLE JR., Overcast: Reliable Multicasting with an Overlay Network. In Proceedings of OSDI, San Diego; 2000.

[4] A. ROWSTRON, P. DRUSCHEL, Pastry: Scalable, Decentralized Object Location and Routing for Large Scale Peer-to-Peer Systems. In 18th IFIP/ACM Int. Conf. on Distributed Systems Platforms, Heidelberg; 2001.

[5] M. CASTRO, P. DRUSCHEL, A. M. KERMARREC, A. NANDI, A. ROWSTRON, A. SINGH, SplitStream: High Bandwidth Content Distribution In Cooperative Environments. In 19th ACM Symposium on Operating Systems Principles, New York; 2003. [OpenAIRE]

[6] D. A. TRAN, K. A. HUA, T. T. DO, ZIGZAG: An Efficient Peer-to-Peer Scheme for Media Steaming. In IEEE INFOCOM 2003, San Francisco; 2003.

[7] X. JIANG, Y. DONG, D. XU, B. BHARGAVA, GnuStream: A P2P Media Streaming System Prototype. In IEEE Int. Conference on Multimedia and Expo, Baltimore; 2003.

[8] M. HEFEEDA, A. HABIB, B. BOTEV, D. XU, B. BHARGAVA, PROMISE: Peer-to-Peer Media Streaming Using CollectCast. In ACM Multimedia, Berkeley, California; 2003.

[9] E. SETTON, J. NOH, B. GIROD, Rate-Distortion Optimized Video Peer-to-Peer Multicast Streaming. In ACM P2PMMS, Singapore; 2005.

[10] V. PAI, K. KUMAR, K. TAMILMANI, V. SAMBAMURTHY, A. E. MOHR, Chainsaw: Eliminating Trees from Overlay Multicast. In 4th Int. Workshop on P2P Systems, New York; 2005.

[11] N. MAGHAREI, R. REJAIE, PRIME: Peer to Peer Receiver Driven Mesh Based Streaming. In IEEE INFOCOM, Anchorage; 2007.

[12] Z. LU, Y. LI, J. WU, S. Y. ZHANG, Y. P. ZHONG, MultiPeerCast: A Tree-mesh-hybrid P2P Live Streaming Scheme Design and Implementation based on PeerCast. In 10th IEEE Int. Conf. on High Performance Computing and Com., Dalian; 2008.

[13] Z. LI, Y. YU, X. HEI, D. H. K. TSANG, Towards Low-Redundancy Push-Pull P2P Live Streaming. In ICST QShine, Hong Kong; 2008.

[14] J. CHAKAERESKI, P. FROSSARD, Dellay-Based Overlay Construction in P2P video Broadcast. In IEEE ICASSP, Taipei; 2009.

[15] Z. KOTEVSKI, P. MITREVSKI, A Modeling Framework for Performance Analysis of P2P Live Video Streaming Systems. In Proc. of the International Conference ICT-Innovations-10, Ohrid, Macedonia, Springer; 2010.

19 references, page 1 of 2
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