An end-to-end robust approach for scalable video over the Internet 被引量：2

An end-to-end robust approach for scalable video over the Internet

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摘要 This paper introduces an end-to-end robust approach for scalable video over the Internet. The traditional method only considers congestion control, error control and is unable to achieve end-to-end high-quality video transmission in the error-prone environment like the Internet since it does not consider the packetization behavior, network conditions and the media characteristics simultaneously. This paper presents an end-to-end approach for scalable video over the Internet, combining network adaptive congestion control and unequal error control. Considering requirements of multimedia transmission, this paper introduces multimedia congestion control to estimate available bandwidth and smooth the media sending rate. Specially in the transport layer we propose unequal interleaving packetization method and unequal error protection scheme, which can alleviate the effect of the packet loss well. Further we develop the rate-distortion theory for the scalable video over the Internet. Thereafter the optimal bit allocation is presented to determine the bits budgets for the source part and error control part. Simulation shows our scheme can achieve good performance for scalable video over the Internet.

作者 WANGGuijin ZHANGQian ZHUWenwu LINXinggang

机构地区 DepartmentofElectronicEngineering MicrosoftResearchAsia

出处《Science in China(Series F)》 2004年第2期246-259,共14页 中国科学（F辑英文版）

关键词 congestion control error control video transmission RATE-DISTORTION scalable video. congestion control, error control, video transmission, rate-distortion, scalable video.

分类号 TP393.4 [自动化与计算机技术—计算机应用技术] TN919.8 [电子电信—通信与信息系统]

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参考文献18

1[1]Li, S. P., Wu, E, Zhang, Y.-Q., Study of a new approach to improve FGS video coding efficiency, ISO/IEC MPEG 50th Meeting, M5583, Mauri, USA, December 1999.
2[2]Li Weiping, Overview of fine granularity scalability in MPEG-4 video standard, IEEE Tran. on Circuits and Systems for Video Technology, 2001, 11(3): 301-317.
3[3]Zhang, Q., Zhu, W., Zhang, Y.-Q., Network-adaptive rate control with TCP-friendly protocol for multiple video objects, in Proceedings of IEEE International Conference on Multimedia and Expo (ICME), July, 2000,New York, vol. 2, 1055-1058.
4[4]Rejaie, R., Handley, M., Estrin, D., An end-to-end rate-based congestion control mechanism for realtime streams in the internet, in Proceedings of INFOCOMM, 1999, New York, vol. 3, 1337-1345.
5[5]Wu, D., Hou, Y. T., Zhu, W. et al., On end-to-end transport architecture for MPEG-4 video streaming over the Internet, IEEE Trans. on Circuits and Systems for Video Technology, 2000, 10(6): 923-941.
6[6]Zhu, W., Zhang, Q., Zhang, Y.-Q., Network-adaptive rate control with unequal loss protection for scalable video over Internet, IEEE ISCAS, 2001, vol. 5, 109-112.
7[7]Mohr, A. E., Riskin, E. A., Ladner, R. E., Unequal loss protection: Graceful degradation of image quality over packet erasure channels through forward error correction, IEEE Journal on Selected Area in Communications,June, 2000, 18(6): 819-828.
8[8]Stuhlmuller, K., Link, M., Girod, G. et al., Scalable Internet Video Streaming With Unequal Error Protection,Packet Video Workshop, New York, 26/27, April 1999.
9[9]Zhang, T. T., Xu, Y., Unequal packet loss protection for layered video transmission, IEEE Trans. on Broadcasting, 1999, 45(2): 243-252.
10[10]Schulzrinne, H., Casner, S., Frederich, R. et al., RTP: a transport protocol for real-time applications, RFC 1889, Internet Engineering Task Force, Audio-Video Transport Working Group, 1996.

同被引文献11

1Redmill D W,Kingsbury N G.The EREC: An error resilient technique for coding variable-length blocks of data[].IEEE Transactions on Image Processing.1996
2Ngan K N,,Stelle R.Enhancement of PCM and DPCM images corrupted by transmission errors[].IEEE Transactions on Communications.1982
3Mitchell O R,Tabatabai A J.Channel error recovery for transform image coding[].IEEE Transactions on Communications.1981
4Lam W M,Reibman A.An error concealment algorithm for images subject to channel errors[].IEEE Transactions on Image Processing.1995
5Hong M C,Kondi L,Scwab H, et al.Video error concealment techniques[].Signal Process-Image.1999
6Sun H,Challapali K,Zdepski J.Error concealment in digital simulcast AD-HDTV decoder[].IEEE Transactions on Consumer Electronics.1992
7Ferguson T J,Ranowitz J H.Self-synchronizing Huffman codes[].IEEE Transactions on Information Theory.1984
8Gao S S,Tu G F.Robust H.263+ video transmission using partial backward decodable bit stream[].IEEE Trans Circ Syst Vid.2003
9Takishima Y,Wada M,Murakami H.Reversible variable length codes[].IEEE Transactions on Communications.1995
10K M Rose,A Heiman.Enhancement of One-dimensional Variable-length DPCM Ima-ges Corrupted by Transmission Errors[].IEEE Transactions on Communications.1989

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1FANG Yong,JEONG JeChang,WU ChengKe.Error detection based on MB types[J].Science in China(Series F),2008,51(4):433-439.
2方勇,吴成柯,郑济昌.基于宏块类型的检错方法[J].中国科学（E辑）,2008,38(4):592-598.

1马光星.宽带网上一种阻塞控制方法[J].数据通信,1996(3):60-65.
2范红兵.公用网络的完整性[J].通信技术,1995,28(1):73-79.
3王箫程,汤子健,宋建新.控制技术在流视频中的应用[J].通讯世界,2002,8(11):66-67.
4洪亮.ATM阻塞控制：供需双方面临的实际问题[J].电信快报,1996(12):16-17.
5卓力,沈兰荪,朱青.视频流关键技术的研究进展[J].电子学报,2002,30(8):1213-1218. 被引量：26
6LIU Min,LI Zhongcheng.Measuring and Analyzing Available Bandwidth on the Internet[J].Chinese Journal of Electronics,2006,15(1):27-31.
7Ma Hailong,Guo Yunfei,Cheng Dongnian,Zhang Jianwei.REDUCING BURST PACKET LOSS THROUGH ROUTE-FREE FORWARDING[J].Journal of Electronics(China),2010,27(3):363-370. 被引量：1
8梁勇.ATM阻塞控制──一个用户和通信企业都必须面对的现实问题[J].广西通信技术,1996(1):40-41.
9吴明燕,郭宏.IP多目广播技术在互联网中的应用[J].计算机与网络,2004,30(15):54-55.
10蒋鲁松.视频流关键技术研究及发展预测[J].安徽教育学院学报,2004,22(6):22-24.

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An end-to-end robust approach for scalable video over the Internet 被引量：2

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