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研究生:張本明
研究生(外文):Pen-Ming Chang
論文名稱:針對多媒體服務之QoS-Aware主動式佇列管理
論文名稱(外文):QoS-Aware Active Queue Management for Multimedia Services
指導教授:黃依賢黃依賢引用關係
指導教授(外文):I-Shyan Hwang
學位類別:碩士
校院名稱:元智大學
系所名稱:資訊工程學系
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2009
畢業學年度:97
語文別:英文
論文頁數:31
中文關鍵詞:IPTV主動式佇列管理服務品質群體廣播
外文關鍵詞:IPTVAQMQoSMulticast
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隨著IPTV或是視訊會議等應用程式越來越普及,所以多媒體影音串流已經變成網路上主要的流量。這類應用服務通常採用群體廣播技術傳遞影音內容以增加頻寬的使用效率,除此之外,對於其服務品質例如封包的延遲時間,頻宽需求有著比較嚴格要求。從頻寬的使用效率而言,應該要針對採用群體廣播連線提供更佳的服務。然而目前Best-effort的網路環境除了無法提供服務品質的保證,也不能對於採用群體廣播連線提供更佳的服務品質。因此,在這篇論文中提出一個針對多媒體及採用群體廣播連線的服務的多佇例,多門檻值主動式佇例管理配合公平權重排程演算法以保證服務品質。
隨著IPTV或是視訊會議等應用程式越來越普及,所以多媒體影音串流已經變成網路上主要的流量。這類應用服務通常採用群體廣播技術傳遞影音內容以增加頻寬的使用效率,除此之外,對於其服務品質例如封包的延遲時間,頻宽需求有著比較嚴格要求。從頻寬的使用效率而言,應該要針對採用群體廣播連線提供更佳的服務。然而目前Best-effort的網路環境除了無法提供服務品質的保證,也不能對於採用群體廣播連線提供更佳的服務品質。因此,在這篇論文中提出一個針對多媒體及採用群體廣播連線的服務的多佇例,多門檻值主動式佇例管理配合公平權重排程演算法以保證服務品質。
書頁名 i
授權書 ii
審定書 iii
摘要 iv
ABSTRACT v
INDEX vii
INDEX OF TABLES viii
INDEX OF FIGURES ix
1. Introduction 1
2. System Architecture 6
2-1.System Environment 6
2-2.Traffic Sensitive Active Queue Management (TSAQM) 8
3. Performance Analysis 18
3-1 TSAQM with different CBR traffic arrival rate 20
3-2 TSAQM with different MVBR traffic arrival rate 23
4. Conclusion 26
References 27
[1]V. Jacobson, “Congestion Avoidance and Control”, ACM SIGCOMM’88 Symposium, pp. 314-329, August 1988.
[2]F. Kelly, A. Maulloo, and D. Tan, “Rate control in communication networks: shadow prices, proportional fairness, and stability,” Journal of the Operational Research Society, Vol. 49, no. 3, pp. 237-252, Mar. 1998.
[3]J. Widmer, R. Denda, and M. Mauve, “A Survey on TCP-friendly Congestion Control,” special issue of the IEEE Network Control of Best Effort Traffic, Vol. 15, no. 3, May-June 2001, pp. 28-37.
[4]S. Ryu, C. Rump, C. Qiao, “Advances in Internet congestion control,” IEEE Communications Surveys & Tutorials, Vol. 5, Issue 1, 2003, pp. 28-39.
[5]Shih-Chiang Tsao, Yuan-Cheng Lai, and Ying-Dar Lin, “Taxonomy and Evaluation of TCP-Friendly Congestion-Control Schemes on Fairness, Aggressiveness, and Responsiveness,” IEEE Network, Vol. 21, no. 6, pp. 6-15, Nov./Dec. 2007.
[6]Y. Xia, D. Harrison, S. Kalyanaraman, K. Ramachandran,and A. Venkatesan, “Accumulation-based Congestion Control,” IEEE/ACM Trans. Networking, Vol. 13, no. 1, pp. 69-80, 2005.
[7]H. Shimonishi, T. Hama, T. Murase, “TCP Congestion Control Enhancements for Streaming Media,” 4th Annual IEEE Consumer Communications and Networking Conference, pp. 303-307, 2007.
[8]Jing-Xin Wang, Yi-Chen Chen, Alvin W.Y. Su, Jenq-Neng Hwang, “Effective Congestion and Error Control for Scalable Video Coding Extension of the H.264/AVC,” IEEE International Symposium on Circuits and Systems, pp. 1834-1837, May 2008.
[9]Dieu Thanh Nguyen and Joern Ostermann, “Congestion Control for Scalable Video Streaming Using the Scalability Extension of H.264/AVC,” IEEE Journal on Selected Topics in Signal Processin, Vol. 1, Issue 2, pp. 246-253, Aug. 2007.
[10]Sheng-Shuen Wang, Hsu-Feng Hsiao, Suh-Yin Lee,Layered Congestion Control for Scalable Video Coding Based on the Efficient Bandwidth Inference,” Ninth IEEE International Symposium on Multimedia Workshops, pp. 417-420, 2007.
[11]Gwyn Chatranon, Miguel A. Labrador, and Sujata Banerjee, “A survey of TCP-friendly router-based AQM schemes," Computer Communications Journal, Vol. 27, Issue 15, pp. 1424-1440, August 2004.
[12]W. C. Feng, K. G. Shin, D. K. Kandlur, and D. Saha, “The blue active queue management algorithm,” IEEE/ACM Trans. Networking, Vol. 10, pp. 513-528, Aug. 2002.
[13]N. Dukkipati, M. Kobayashi, R. Zhang-Shen, and N. McKeown, “Processor sharing flows in the Internet,” Proc. IEEE IWQoS, June 2005.
[14]D. Katabi, M. Handley, and C. Rohrs, “Congestion control for high bandwidth-delay product networks,” Proceeding of ACM Sigcomm, Vol. 32, No. 4, pp. 89-102, August 2002.
[15]F. Abrantes and M. Ricardo, “XCP for shared-access multi-rate media,” ACM SIGCOMM Computer Communication Review, Vol. 36, pp. 27-38, July 2006.
[16]M. Lestas, A. Pitsillides, P. Ioannou, G, Hadjipollas , “Queue length based Internet congestion control, ”IEEE International Conference on Networking, Sensing and Control, pp. 584-589, April 2007.
[17]J. Reichel, H. Schwarz and M. Wien, Scalable Video Coding - Working Draft I Joint Video Team of ITU-T VCEG and ISO/IEC MPEG, Doc. JVT-N020, Jan. 2005.
[18]Mark Claypool, Robert E. Kinicki, A. Kumar, “Traffic sensitive active queue management, ” IEEE INFOCOM, pp. 2764-2769,2007
[19]J. Chung, M. Claypool “Dynamic-CBT and ChIPS – Router Support for Improved Multimedia Performance on the Internet,” In Proceedings of the ACM Multimedia Conference, November 2000.
[20]Hyun-Seok CHAE, Myung-Ryul CHOI and Tae-Kyung CHO, “Congestion control for mixed TCP and UDP traffic,” IEICE Transactions on Communications, E88-B (10), pp. 4097-4101, 2005.
[21]H.-F. Hsiao and J.-N.Hwang, “A Max-Min Fairness Congestion Control for Layered Streaming of Scalable Video,” IEEE Trans. on Circuits and Systems for Video Technology, Vol. 16, Issue 9, pp. 1074-1085, Sept. 2006.
[22]Seong-ryong Kang, Yueping Zhang, Min Dai, Dmitri Loguinov, “Multi-layer active queue management and congestion control for scalable video streaming,” 24th International Conference on Distributed Computing Systems, pp. 768-777, 2004.
[23]K. Nahm, J. Shin, J. Kim and C.-C. J. Kuo, “Enhanced service differentiation for layered video multicast in differentiated service networks,” in Proc. SPIE Visual Communications and Image Processing, San Jose, pp, 46-57, January 2002.
[24]Yang Xiaogang, Liu Jiqiang and Li Ning, “Congestion Control Based on Priority Drop for H.264/SVC,” International Conference on Multimedia and Ubiquitous Engineering, pp.585-589, April 2007.
[25]Chee-Kheong Siew, Gang Feng, Fei Long, and Meng-Hwa Er, “Congestion Control Based on Flow-state-dependent Dynamic Priority Scheduling,” IEE Proc. Communications, Vol. 152, No. 5, pp. 548-558, Oct. 2005.
[26]Y. Huang, R. Guérin, and P. Gupta, “Supporting excess real-time traffic with active drop queue,” IEEE/ACM Transactions on Networking, Vol. 14, No.5, pp. 965-977, 2006.
[27]J. Wieselthier, G. Nguyen, and A. Ephermides, “On the construction of energy-efficient broadcast and multicast trees in wireless network,” in Proc. INFOCOM’00, pp. 585-594
[28]Kun Yang , Shumao Ou, Ken Guild, and Hsiao-Hwa Chen, “Convergence of Ethernet PON and IEEE 802.16 Broadband Access Networks and its QoS-Aware Dynamic Bandwidth Allocation Scheme,” IEEE Journal on Communications, Vol.27, No.2, pp.101-116, February 2009
[29]M. May, C. Diot, B. Lyles, J. Bolot , “Influence of active queue management parameters on aggregate traffic performance,” Technical Report RR3995, INRIA, 2000.
[30]C. Brandauer, G. Iannaccone, C. Diot, and T. Ziegler, “Comparison of tail drop and active queue management performance for bulk-date and Web-like Internet traffic,” Proceedings of ISCC, pp. 122-129, 2001.
[31]L. Wang, G. Min, and M. Awan, “Modeling and evaluation of congestion control for different classes of network traffic,” Concurrency Computation Practice and Experience, Vol. 19, No. 8, pp. 1141-1156, 2007.
[32]H. Beigy, M.R. Meybodi, “A general call admission policy for next generation wireless networks,” Computer Communications, Vol. 28, No.16, pp. 1798-1813, 2005.
[33]Mobile WiMAX - Part 1: A Technical Overview and Performance Evaluation, WiMAX Forum, Aug. 2006.
[34]http://trace.eas.asu.edu/
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