1 / 30

An Efficient Peer Selection Algorithm for Fast Channel Switching on Internet TV

專題 研究. An Efficient Peer Selection Algorithm for Fast Channel Switching on Internet TV. 指導老師 : 鍾添曜 教授 學生 : 施宇倫 Zack 、簡妙恩 Grace. Contents. 1 . Introduction 2. Related Works 3. Proposed Scheme: EPSA 4. Simulation & Evaluation 5. Conclusion and Future Work Reference. Internet TV.

bonner
Download Presentation

An Efficient Peer Selection Algorithm for Fast Channel Switching on Internet TV

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 專題研究 An Efficient Peer Selection Algorithm for Fast Channel Switching on Internet TV • 指導老師: 鍾添曜 教授 • 學生: 施宇倫Zack、簡妙恩Grace Channel Preview on P2P Based Internet TV

  2. Contents 1. Introduction 2. Related Works 3. Proposed Scheme: EPSA 4. Simulation & Evaluation 5. Conclusion and Future Work Reference

  3. Internet TV Channel Preview on P2P Based Internet TV

  4. Channel Preview on P2P Based Internet TV

  5. Channel Preview on P2P Based Internet TV

  6. Channel Preview on P2P Based Internet TV

  7. Channel Preview on P2P Based Internet TV Waiting...

  8. Channel Preview on P2P Based Internet TV

  9. Channel Switching Delay

  10. Channel Preview on P2P Based Internet TV

  11. Types of Peer Selection Strategies

  12. Types of Peer Selection Strategies EPSA

  13. EPSA Channel Preview on P2P Based Internet TV

  14. Strategies of EPSA

  15. Recommendation Channel Preview on P2P Based Internet TV

  16. Recommendation List Client Peer Tracker Server Client Peer

  17. Recommendation List (1) Request Client Peer (2) Suggest(a,y,r) Tracker Server Client Peer

  18. Recommendation (3) Connect List Q(0.73) (4) Evaluate Q Client Peer Tracker Server BT < Threshold Q(0.12) Q(0.53) Client Peer

  19. Formula for Quality Evaluation ρ) Upload Capacity Round Trip Time Life Time Transmission Rate

  20. Recommendation (3) Connect List Q(0.73) (5) Reg. (6)Req. Client Peer (7) Suggest(c,f,u) Tracker Server Q(0.12) Q(0.53) Client Peer

  21. Recommendation List (8) Probe Q(0.73) Refine Client Peer Tracker Server Q(0.12) Client Peer Q(0.53) (10) Disconnect

  22. Recommendation List Connect Q(0.73) Q(0.84) Client Peer Tracker Server Client Peer Q(0.53)

  23. Recommendation List Devote Recommendation Set Client Peer Tracker Server Client Peer

  24. 1. Introduction 2. Related Works 3. Proposed Scheme: EPSA 4. Simulation & Evaluation 5. Conclusion and Future Work Reference

  25. Simulation

  26. 5. Conclusion • Consider • Streaming Quality • Topology Conglomeration • Load Balancing • Reduce • start-up delay • channel switching time

  27. 5. Future Work • Sensitivity testing of system parameter • Simulation • Enhance Recommendation List with Artificial ImmuneSystem (AIS) Algorithm

  28. Reference About EPSAAnyQuestion? • L. Chuntao, Z. Huyin and S. Lijun, "Research and Design On Peer Selection Strategy of P2P Streaming," IEEE WiCom. pp. 1-4, 2009 • X. Shen, G. Ding, Y. Chen and J. Wnag, "Adaptive-Push Peer-to-Peer Video Streaming System Based on Dynamic Unstructured Topology," in Proc. IEEE IAS, pp. 697-700, 2009 • OMNeT++, http://www.omnetpp.org/ • PeerCast, http://www.peercast.org/ • H. Deshpande, M.Bawa and H. Garcia-Molina, “Streaming Live Media over Peers,” USA: Stanford, 2002 • M. H. A. Habib, B. Botev, D. Xu and B. Bhargava, "PROMISE: Peer-to-Peer Media Streaming Using CollectCast," ACM Multimedia, pp.45-54, Nov, 2003 • X. Liao, H. Jin, Y. Liu, L. M Ni and D. Deng, "AnySee: Peer-to-Peer Live Streaming," IEEE INFOCOM, pp.1-10, April, 2006 • Y. Liu, L. Guo, F. Li and S. Chen, “A Case Study of Traffic Locality in Internet P2P Live Streaming Systems,” IEEE ICDCS, pp. 423-432, 2009 • P2PTV-wikipedia, http://en.wikipedia.org/wiki/P2PTV • T. Y. Chung, Y.H. Chang, K. H. Chen and Y. M. Chen, “High Performance Overlay File Distribution by Integrating Resource Discovery and Service Scheduling,” Journal of ISAE, pp. 861-875, 2009

  29. Thank YOU! Channel Preview on P2P Based Internet TV Bon Appétit

  30. Reference • L. Chuntao, Z. Huyin and S. Lijun, "Research and Design On Peer Selection Strategy of P2P Streaming," IEEE WiCom. pp. 1-4, 2009 • X. Shen, G. Ding, Y. Chen and J. Wnag, "Adaptive-Push Peer-to-Peer Video Streaming System Based on Dynamic Unstructured Topology," in Proc. IEEE IAS, pp. 697-700, 2009 • OMNeT++, http://www.omnetpp.org/ • PeerCast, http://www.peercast.org/ • H. Deshpande, M.Bawa and H. Garcia-Molina, “Streaming Live Media over Peers,” USA: Stanford, 2002 • M. H. A. Habib, B. Botev, D. Xu and B. Bhargava, "PROMISE: Peer-to-Peer Media Streaming Using CollectCast," ACM Multimedia, pp.45-54, Nov, 2003 • X. Liao, H. Jin, Y. Liu, L. M Ni and D. Deng, "AnySee: Peer-to-Peer Live Streaming," IEEE INFOCOM, pp.1-10, April, 2006 • Y. Liu, L. Guo, F. Li and S. Chen, “A Case Study of Traffic Locality in Internet P2P Live Streaming Systems,” IEEE ICDCS, pp. 423-432, 2009 • P2PTV-wikipedia, http://en.wikipedia.org/wiki/P2PTV • T. Y. Chung, Y.H. Chang, K. H. Chen and Y. M. Chen, “High Performance Overlay File Distribution by Integrating Resource Discovery and Service Scheduling,” Journal of ISAE, pp. 861-875, 2009

More Related