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SMPTE Meetings and Conferences ( October 2011)
[ACTIVE]

A Broadcasting Schedule Scheme for Both 2D and 3D Video on Demand

Metadata

Publisher
SMPTE — White Plains, NY
Doc Type
Conference Paper
Content Type
Original Research
Volume
2011, No. 1, pp. 1–9
Abstract
A multicast scheduling scheme is proposed for 3D VoD (Video on Demand) service, with the objective of lessening the bandwidth requirement and minimizing the startup delay of 3D video. The format of 3D video adopts 2D plus metadata. A heuristic scheduling scheme is applied. First, determine the minimum startup delay through a first scheduling try; then rearrange the schedule in order to guarantee the maximum data sharing. The scheme consists of 3 main steps: initial schedule, minimum startup delay determination based on bandwidth detection, and schedule rearrangement. The emphasis is put on the bandwidth detection and rearrangement. This scheme can also be applied to a platform providing both 2D and 3D VoD. Experiment has been made with assumption of requests' arrival being Poisson process and regular arrival. Some factors' effect on the startup delay is also investigated. These factors include arrival interval, bandwidth limit, and the ratio of 2D user to 3D user. Results show the average startup delay decreases greatly with bandwidth limit increasing and keeps a slight variation as arrival interval varies; the average delay of only 3D users existing is usually less than that of 3D users and 2D users coexisting. When the requests arrives regularly, our multicast scheme degenerates to a broadcast scheme. Results show that average startup delay using our scheme is close to the delay bound of a broadcast scheme under the same bandwidth.
Publication Date
2011-10-01
DOI
10.5594/M001092
Link
https://doi.org/10.5594/M001092
Author(s)
Yan XuResearch & Innovation, Technicolor, China
Keyword(s)
Streaming, Multicast
Copyright
© 2011 Society of Motion Picture and Television Engineers, Inc.

Bibliographic Reference(s)

  • [1] Aksay A. , “End-to-end Stereoscopic Video Streaming with Content-Adaptive Rate and Format Control” , Signal Processing: Image Communication Special Issue on Three-Dimensional Video and Television , Vol. 22 , No. 2 , pp. 157 – 168 , Feb. 2007 . EXTERNAL
  • [10] Om H. Chand S. , “Geometrico-Harmonic Broadcasting Scheme with Continuous Redundancy” , IEEE Trans. Multimedia , vol. 9 , no. 2 , pp. 410 – 419 , Feb. 2007 . EXTERNAL
  • [11] Dan A. Sitaram D. Shahabuddin P. , “Dynamic batching policies for an on-demand video server” , ACM Multimedia System , no. 4, pp. 112 – 121 , 1996 . EXTERNAL
  • [12] Xiang W. , “Piecewise patching for time-shifted TV over HFC networks” , IEEE Transactions on Consumer Electronics. Vol. 53 , no. 3 , pp. 891 – 897 , Aug. 2007 . EXTERNAL
  • [13] Eager D. L. Vernon M. K. Zahorjan J. , Minimizing Bandwidth Requirements for On-Demand Data Delivery , IEEE Trans. on Knowledge and Data Engineering , 2001 , vol. 13 , no. 5 , pp. 742 – 757 . EXTERNAL
  • [2] Ozbek N. “Adaptive streaming of scalable stereoscopic video over DCCP,” in Proc. IEEE Int. Conf. Image Processing, San Antonio, Texas, Sept. 2007 . EXTERNAL
  • [3] Chang C.-L. Girod B. , “Receiver-based rate-distortion optimized interactive streaming for scalable bitstreams of light fields,” in Proc. IEEE ICME 2004, vol. 3 , pp. 1623 – 1626 , 2004 . EXTERNAL
  • [4] Kurutepe E. , “A Standards-Based, Flexible, End-to-End Multi-View Video Streaming Architecture” , Packet Video Workshop'07, Lausanne, Switzerland, Nov. 2007. EXTERNAL
  • [5] Hu S-Y. , “FLoD: A Framework for Peer-to-Peer 3D Streaming,” in Proc. IEEE INFOCOM, pp. 1373 – 1381 , Apr. 2008 . EXTERNAL
  • [6] Kurutepe E. Civanlar M. R. Tekalp A. M. , “Client-driven selective streaming of multi-view video for interactive 3DTV,” IEEE Transactions on Circuits and Systems for Video Technology , 2007 . EXTERNAL
  • [7] Viswanathan S. Imielinski T. “Metropolitan area video-on-demand service using pyramid broadcasting” , Multimedia systems , 4 ( 4 ): 179 – 208 , August 1996 . EXTERNAL
  • [8] Hua K. A. Sheu S. “Skyscraper Broadcasting: A new broadcasting scheme for metropolitan video-on-demand systems” , In Proc. ACM SIGCOMM'97, pp. 89 – 99 , Cannes, France, Sep. 1997 . EXTERNAL
  • [9] Juhn L.S. Tseng L.M. , “Harmonic broadcasting scheme for video-on-demand service” , IEEE Trans. Consumer Electron. , vol. 43 , pp. 268 – 271 , Sep. 1997 . EXTERNAL
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Yan Xu; A Broadcasting Schedule Scheme for Both 2D and 3D Video on Demand, SMPTE Meetings and Conferences ( October 2011); SMPTE, 2011. Available at https://doi.org/10.5594/M001092
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Yan Xu; A Broadcasting Schedule Scheme for Both 2D and 3D Video on Demand, SMPTE Meetings and Conferences ( October 2011); SMPTE, 2011. Available at https://doi.org/10.5594/M001092

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Yan Xu; A Broadcasting Schedule Scheme for Both 2D and 3D Video on Demand, SMPTE Meetings and Conferences ( October 2011); SMPTE, 2011. Available at https://doi.org/10.5594/M001092
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<span class="citation">Yan Xu; <cite>A Broadcasting Schedule Scheme for Both 2D and 3D Video on Demand</cite>, SMPTE Meetings and Conferences ( October 2011); SMPTE, 2011. Available at <a href="https://doi.org/10.5594/M001092" target="_blank" rel="noopener">https://doi.org/10.5594/M001092</a></span>

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Yan Xu; A Broadcasting Schedule Scheme for Both 2D and 3D Video on Demand, SMPTE Meetings and Conferences ( October 2011); SMPTE, 2011
doi: 10.5594/M001092
url: https://doi.org/10.5594/M001092
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Yan Xu; <cite id="bib-10-5594-m001092">A Broadcasting Schedule Scheme for Both 2D and 3D Video on Demand</cite>, SMPTE Meetings and Conferences ( October 2011); SMPTE, 2011
<span class="doi">10.5594/M001092</span>
</li>