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An Efficient Fibonacci Based Content Distribution scheme for interactive VoD Streaming

G. Kowsalya*, **

*-**-***-**** Assistant Professors, Department of IT, Muthayammal Engineering College, Rasipuram, Namakkal Dt, Tamilnadu, India.

Periodicity:March - May'2013
DOI : https://doi.org/10.26634/jit.2.2.2287

Abstract

One of the problems faced frequently by users in Video-on-Demand (VoD) streaming, is a long waiting time for multimedia streaming. In Existing System, a network coding equivalent content distribution (NCECD) scheme [Yung-Cheng Kao, Chung-Nan Lee, Peng-Jung and Hui-Hsiang Kao,2012] is used to handle interactive video-on-demand (VoD) operations in peer-to-peer systems. Using NCECD, videos are divided into equal sized segments that are then further divided into blocks. These blocks are encoded into independent blocks that are distributed to different peers for local storage. By this, a new client only needs to connect to a sufficient number of parent peers and able to view the whole video, and rarely needs to find new parents when performing random access operations.The proposed work focuses on Fibonacci Based Content Distribution (FBCD) scheme to efficiently handle interactive VoD operations in distributed systems. In FBCD, videos are divided into n number of variable size chunks. The chunk size is progressively increased to reduce delay improve performance and reduce the loading time. Since the video data is divided into chunks and stored at peers’ local storage in a distributed manner, a peer can discover and access a neighbour quickly through the middleware. The streaming processes are handled by the middleware system. The middleware will monitor all the distribution server loads and client request. This may not allow direct communication between Client and Server and Server offline problem is also managed. The proposed scheme achieves low start-up and jump searching delays and requires fewer server resources.

Keywords

Vod Streaming, Multi Media Streaming, Network Coding, Middleware, Content Distribution

How to Cite this Article?

Kowsalya, G., Sudha, T., Jeeva, D., and Parthiban, M. (2013). An Efficient Fibonacci Based Content Distribution Scheme for Interactive VOD Streaming. i-manager’s Journal on Information Technology, 2(2), 32-39. https://doi.org/10.26634/jit.2.2.2287

References

[1]. Yung-Cheng Kao, Chung-Nan Lee, Peng-Jung and Hui-Hsiang Kao, (2012). “A Network Coding Equivalent Content Distribution Scheme for Efficient Peer-to-Peer Interactive VoD Streaming,” IEEE Trans., on Parallel & Distributed Systems, Vol. 23, June 2012.

[2]. H. Chi, Q. Zhang, J. Jia and X. Shen, (2007). “Efficient Search and Scheduling in P2P-Based Media-on-Demand Streaming Service,” IEEE Areas in Comm., Vol. 25, Jan. 2007.

[3]. A.G.Dimakis, P.B.Godfrey, Y.Wu, and K.Ramchandran, (2010). “Network Coding for Distributed Storage Systems,”IEEE Trans. Information Theory, Vol. 56, Sept. 2010.

[4]. T.T. Do, K.A. Hua, and M.A. Tantaoui, (2004). “P2VoD: Providing Fault Tolerant Video-on-Demand Streaming in Peer-to-Peer Environment,” June 2004.

[5]. C. Feng and B. Li, (2008). “On Large-Scale Peer-to-Peer Streaming Systems with Network Coding,” Proc. ACM Int'l Conf. Multimedia, Oct. 2008.

[6]. S.Y.R. Li, R.W. Yeung and N. Cai, (2003). “Linear Network Coding,” IEEE Trans. Information Theory, Vol. 49, no. 2, pp. 371-381, Feb. 2003.

[7]. D. Wang and J. Liu, (2008). “A Dynamic Skip List-Based Overlay for On-Demand Media Streaming with VCR Interactions,” IEEE Trans. Parallel and Distributed Systems, Vol. 19, No. 4, pp. 503-514, Apr. 2008.

[8]. M. Wang and B. Li, (2007). “Lava: A Reality Check of Network Coding in Peer-to-Peer Live Streaming,” Proc. IEEE INFOCOM, pp. 1082-1090, May 2007.

[9]. G. Wu, B. Li and Z. Li, (2008). “Dynamic Bandwidth Auctions in Multi overlay P2P Streaming with Network Coding,” IEEE Trans. Parallel and Distributed Systems, Vol. 19, No. 6, pp. 806-820, June 2008.

[10]. C. Xu, G.M. Muntean, E. Fallon and A. Hanley, (2008). “A Balanced Tree-Based Strategy for Unstructured Media Distribution in P2P Networks,” Proc. IEEE Int'l Conf. Comm. (ICC '08), pp. 1797-1801, May 2008.

[11]. W.P.K. Yiu, X. Jin and S.H.G. Chan, (2007). “VMesh: Distributed Segment Storage for P2P Interactive Video Streaming,” IEEE Areas in Comm., Vol. 25, Dec.2007.

[12]. C. Zheng, G. Shen and S. Li, (2005). “Distributed Prefetching Scheme for Random Seek Support in Peer-to-Peer Streaming Applications,” Nov. 2005.

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An Efficient Fibonacci Based Content Distribution scheme for interactive VoD Streaming

Abstract

Keywords

How to Cite this Article?

References

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