A Scheduling Protocol for Continuous Media Data Broadcasting With Large-Scale Data Segmentation

Due to the recent popularization of mobile multimedia broadcasting, broadcasting continuous media data such as audio and video has attracted great deal of attention. In general continuous media data broadcasting, since clients have to wait to receive data before playing it, various schemes to reduce waiting time have been studied. Some reduce the waiting time by dividing the data into several segments and broadcasting preceding segments frequently with a single channel. However, by dividing the data into numerous segments and producing an effective broadcast schedule, the waiting time can be further reduced. In this paper, we propose a scheduling protocol to reduce waiting time with large-scale data segmentation.

[1]  Shojiro Nishio,et al.  A scheduling scheme for continuous media data broadcasting with a single channel , 2006, IEEE Transactions on Broadcasting.

[2]  Shojiro Nishio,et al.  A scheduling scheme to enable fast-forward for continuous media data broadcasting , 2004, 2004 IEEE International Conference on Multimedia and Expo (ICME) (IEEE Cat. No.04TH8763).

[3]  Mary K. Vernon,et al.  Scalable on-demand media streaming with packet loss recovery , 2001, TNET.

[4]  Lihao Xu,et al.  Fuzzycast: efficient video-on-demand over multicast , 2002, Proceedings.Twenty-First Annual Joint Conference of the IEEE Computer and Communications Societies.

[5]  Darrell D. E. Long,et al.  Zero-delay broadcasting protocols for video-on-demand , 1999, MULTIMEDIA '99.

[6]  Michael Luby,et al.  A Scalable and Reliable Paradigm for Media on Demand , 2001, Computer.

[7]  Jehan-François Pâris A simple but efficient broadcasting protocol for video-on-demand , 2005, PCCC 2005. 24th IEEE International Performance, Computing, and Communications Conference, 2005..

[8]  Darrell D. E. Long,et al.  Hybrid broadcasting protocol for video on demand , 1998, Electronic Imaging.

[9]  Arbee L. P. Chen,et al.  A near optimal algorithm for generating broadcast programs on multiple channels , 2001, CIKM '01.

[10]  Tomasz Imielinski,et al.  Pyramid broadcasting for video-on-demand service , 1995, Electronic Imaging.

[11]  Mary K. Vernon,et al.  Scalable On-Demand Streaming of Nonlinear Media , 2004, IEEE/ACM Transactions on Networking.

[12]  Li-Ming Tseng,et al.  Fast data broadcasting and receiving scheme for popular video service , 1998, IEEE Trans. Broadcast..

[13]  J.-F. Paris An interactive broadcasting protocol for video-on-demand , 2001, Conference Proceedings of the 2001 IEEE International Performance, Computing, and Communications Conference (Cat. No.01CH37210).

[14]  Shojiro Nishio,et al.  Scheduling methods based on data division for continuous media data broadcast , 2003, 2003 IEEE Pacific Rim Conference on Communications Computers and Signal Processing (PACRIM 2003) (Cat. No.03CH37490).

[15]  Li-Ming Tseng,et al.  Harmonic broadcasting for video-on-demand service , 1997, IEEE Trans. Broadcast..

[16]  Zongpeng Li,et al.  Scalable streaming for heterogeneous clients , 2006, MM '06.

[17]  Mary K. Vernon,et al.  Scalable on-demand streaming of nonlinear media , 2004, INFOCOM 2004.

[18]  Jinsuk Baek,et al.  A tree-based reliable multicast scheme exploiting the temporal locality of transmission errors , 2005, PCCC 2005. 24th IEEE International Performance, Computing, and Communications Conference, 2005..

[19]  Joseph Kee-Yin Ng,et al.  Scheduling real-time requests in on-demand data broadcast environments , 2006, Real-Time Systems.

[20]  Kien A. Hua,et al.  Video delivery technologies for large-scale deployment of multimedia applications , 2004, Proceedings of the IEEE.

[21]  Kien A. Hua,et al.  Skyscraper broadcasting: a new broadcasting scheme for metropolitan video-on-demand systems , 1997, SIGCOMM '97.

[22]  Heon Young Yeom,et al.  Providing VCR functionality in staggered video broadcasting , 2002, IEEE Trans. Consumer Electron..

[23]  Jehan-François Pâris A simple low-bandwidth broadcasting protocol for video-on-demand , 1999, Proceedings Eight International Conference on Computer Communications and Networks (Cat. No.99EX370).

[24]  Jack Y. B. Lee Scalable Continuous Media Streaming Systems: Architecture, Design, Analysis and Implementation , 2005 .