A Smooth Adaptive RED Gateway for congestion control with TCP-Friendly Multimedia Applications
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- 英文论文题名:A Smooth Adaptive RED Gateway for congestion control with TCP-Friendly Multimedia Applications
- 论文作者:Liang Wang ; Jin Zhu ; Lin Yang ; Wanqing Xie
- 英文论文作者:Liang Wang ; Jin Zhu ; Lin Yang ; Wanqing Xie ; Department of Automation ; University of Science and Technology of China ; Department of information engineering ; Chinese University Of Hong Kong ; School of Information Science and Technology ; University of Science and Technology of China
- 年:2017
- 作者机构:Department of Automation,University of Science and Technology of China;Department of information engineering,Chinese University Of Hong Kong;School of Information Science and Technology,University of Science and Technology of China;
- 英文论文关键词:TCP-friendly multimedia applications ; RED ; congestion control
- 会议召开时间:2017-07-26
- 会议录名称:第36届中国控制会议论文集(B)
- 英文会议录名称:Proceedings of the 36th Chinese Control Conference(B)
- 语种:英文
- 分类号:TP393.0
- 学会代码:KZLL
- 会议名称:第36届中国控制会议
- 会议地点:中国辽宁大连
- 主办单位:中国自动化学会控制理论专业委员会
- 学会名称:中国自动化学会控制理论专业委员会
- 页数:6
- 文件大小:994k
- 原文格式:D
- 会议级别:全国
摘要
For TCP-friendly multimedia applications, congestion control may bring about disadvantages such as the variability of sending rate and Round Trip Time although it helps to improve robustness of Internet. Aiming at alleviating this variability and further guaranteeing the user-perceived service quality in the aspect of network layer, this paper proposes a smooth adaptive adjustment mechanism for Random Early Detection(RED) gateway. By decomposing the adjustment of packet dropping probability into two orthogonal sections, each section is triggered differentially according to different sensitivity to influence on multimedia traffic. And thus the adaptivity and smoothness can be ensured in providing steady packet dropping probability and queuing time. Numerical results show that, our work can not only fit RED to different network loads, but also keep the queue size and packet dropping probability waving steadily even faced with short-lived bursty traffic.
For TCP-friendly multimedia applications, congestion control may bring about disadvantages such as the variability of sending rate and Round Trip Time although it helps to improve robustness of Internet. Aiming at alleviating this variability and further guaranteeing the user-perceived service quality in the aspect of network layer, this paper proposes a smooth adaptive adjustment mechanism for Random Early Detection(RED) gateway. By decomposing the adjustment of packet dropping probability into two orthogonal sections, each section is triggered differentially according to different sensitivity to influence on multimedia traffic. And thus the adaptivity and smoothness can be ensured in providing steady packet dropping probability and queuing time. Numerical results show that, our work can not only fit RED to different network loads, but also keep the queue size and packet dropping probability waving steadily even faced with short-lived bursty traffic.
For TCP-friendly multimedia applications, congestion control may bring about disadvantages such as the variability of sending rate and Round Trip Time although it helps to improve robustness of Internet. Aiming at alleviating this variability and further guaranteeing the user-perceived service quality in the aspect of network layer, this paper proposes a smooth adaptive adjustment mechanism for Random Early Detection(RED) gateway. By decomposing the adjustment of packet dropping probability into two orthogonal sections, each section is triggered differentially according to different sensitivity to influence on multimedia traffic. And thus the adaptivity and smoothness can be ensured in providing steady packet dropping probability and queuing time. Numerical results show that, our work can not only fit RED to different network loads, but also keep the queue size and packet dropping probability waving steadily even faced with short-lived bursty traffic.
引文
[1]Cisco,Visual Networking Index:Forecast and Methodology,2015-2020,White Paper,2016.
[2]S.Mc Quistin,C.Perkins and M.Fayed,TCP Hollywood:An Unordered,Time-Lined,TCP for Networked Multimedia Applications,IFIP Networking Conference(IFIP Networking)and Workshops,422-430,2016.
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[6]Y.Yang and S.Lam,General AIMD Congestion Control,Proceedings of 2000 International Conference on Network Protocols,187-198,2000.
[7]J.Kim,Y.G.Kim,H.Song,T.Y.Kuo,Y.J.Chung and C.C.Kuo,TCP-friendly Internet video streaming employing variable frame-rate encoding and interpolation,IEEE Transactions on Circuits and Systems for Video Technology,Vol.10(7),1164-1177,2000.
[8]D.Bansal and H.Balakrishnan,Binomial congestion control algorithms,Proceedings IEEE INFOCOM’01.Twentieth Annual Joint Conference of the IEEE Computer and Communications Societies,Vol.2,631-640,2001.
[9]H.P.Shiang,and M.van der Schaar,A quality-centric TCPfriendly congestion control for multimedia transmission,IEEE Transactions on Multimeidia,Vol.14(3),896-909,2002.
[10]S.Jin,L Guo,I.Matta and A.Bestavros,A spectrum of TCP-friendly window-based congestion control algorithms,IEEE/ACM Transactions on Networking(TON),Vol.11(3),341-355,2003.
[11]Y.G.Kim,J.Kim and C.C.Kuo,TCP-friendly Internet video with smooth and fast rate adaptation and network-aware error control,IEEE Transactions on Circuits and Systems for Video Technology,Vol.14(2)256-268,2004.
[12]L.Cai,X.Shen,J.Pan and Jon W.Mark,Performance Analysis of TCP-Friendly AIMD Algorithms for Multimedia Applications,IEEE Transactions on Multimedia,Vol.7(2),339-355,2005.
[13]H.Luo,D.Wu,S.Ci,A.Argyriou and H.Wang,Qualitydriven TCP friendly rate control for real-time video streaming,GLOBECOM’08,1-5,2008.
[14]S.Floyd and V.Jacobson,Random Early Detection Gateways for Congestion Avoidance,IEEE/ACM transactions on Networking,Vol.1(4),397-413,August 1993.
[15]S.Tsao,Y.Lai and Y.Lin,Taxonomy and evaluation of TCP-friendly congestion-control schemes on fairness,aggressiveness,and responsiveness,IEEE Network,Vol.21(6),6-15,2007.
[16]Y.Zhang and D.Loguinov,Oscillations and buffer overflows in video streaming under non-negligible queuing delay,Proceedings of the 14th international workshop on Network and operating systems support for digital audio and video,88-93,2004.
[17]S.Floyd,R.Gummadi and S.Shenker,Adaptive RED:an algorithm for increasing the robustness of RED’s active queue management,518-522,2001.
[18]W.Feng,D.Kandlur,D.Saha and K.Shin,A Self-configuring RED gateway,INFOCOM’02,Vol.3,1320-1328,2002.
[19]T.Ye and S.Kalyanaraman,Adaptive Tuning of RED Using On-Line Simulation,GLOBECOM’02,Vol.3,2210-2214,2002.
[20]T.Alemu and A.jean-Marie,Dynamic Configuration of RED Parameters,GLOBCOM’04,Vol.3,1600-1604,2004.
[21]W.Chen,G.Min and H.Zhang,Statistical adapting RED in dynamic networks,GLOBECOM’12,2560-2565,2012.
[22]A.Marin,S.Rossi,A.Bujari and C.Palazzi,Performance evaluation of AQM techniques with heterogeneous traffic,201613th IEEE Annual Consumer Communications&Networking Conference(CCNC),194-199,2016.
[23]L.Lu,H.Du and P.R.Liu,CHOKe R:a novel AQM algorithm with proportional bandwidth allocation and TCP protection.IEEE Transactions on Industrial Informatics,Vol.10(1),637-644,2014.
[2]S.Mc Quistin,C.Perkins and M.Fayed,TCP Hollywood:An Unordered,Time-Lined,TCP for Networked Multimedia Applications,IFIP Networking Conference(IFIP Networking)and Workshops,422-430,2016.
[3]J.Postel,Transmission Control Protocol,1981.
[4]V.Jacobson,Congestion Avoidance and Control,SIGCOMM’88,Vol.18(4),314-329,1988.
[5]S.Floyd and F.Kevin,Promoting the use of end-to-end congestion control in the Internet,IEEE/ACM Transactions on Networking,Vol.7(4),458-472,1999.
[6]Y.Yang and S.Lam,General AIMD Congestion Control,Proceedings of 2000 International Conference on Network Protocols,187-198,2000.
[7]J.Kim,Y.G.Kim,H.Song,T.Y.Kuo,Y.J.Chung and C.C.Kuo,TCP-friendly Internet video streaming employing variable frame-rate encoding and interpolation,IEEE Transactions on Circuits and Systems for Video Technology,Vol.10(7),1164-1177,2000.
[8]D.Bansal and H.Balakrishnan,Binomial congestion control algorithms,Proceedings IEEE INFOCOM’01.Twentieth Annual Joint Conference of the IEEE Computer and Communications Societies,Vol.2,631-640,2001.
[9]H.P.Shiang,and M.van der Schaar,A quality-centric TCPfriendly congestion control for multimedia transmission,IEEE Transactions on Multimeidia,Vol.14(3),896-909,2002.
[10]S.Jin,L Guo,I.Matta and A.Bestavros,A spectrum of TCP-friendly window-based congestion control algorithms,IEEE/ACM Transactions on Networking(TON),Vol.11(3),341-355,2003.
[11]Y.G.Kim,J.Kim and C.C.Kuo,TCP-friendly Internet video with smooth and fast rate adaptation and network-aware error control,IEEE Transactions on Circuits and Systems for Video Technology,Vol.14(2)256-268,2004.
[12]L.Cai,X.Shen,J.Pan and Jon W.Mark,Performance Analysis of TCP-Friendly AIMD Algorithms for Multimedia Applications,IEEE Transactions on Multimedia,Vol.7(2),339-355,2005.
[13]H.Luo,D.Wu,S.Ci,A.Argyriou and H.Wang,Qualitydriven TCP friendly rate control for real-time video streaming,GLOBECOM’08,1-5,2008.
[14]S.Floyd and V.Jacobson,Random Early Detection Gateways for Congestion Avoidance,IEEE/ACM transactions on Networking,Vol.1(4),397-413,August 1993.
[15]S.Tsao,Y.Lai and Y.Lin,Taxonomy and evaluation of TCP-friendly congestion-control schemes on fairness,aggressiveness,and responsiveness,IEEE Network,Vol.21(6),6-15,2007.
[16]Y.Zhang and D.Loguinov,Oscillations and buffer overflows in video streaming under non-negligible queuing delay,Proceedings of the 14th international workshop on Network and operating systems support for digital audio and video,88-93,2004.
[17]S.Floyd,R.Gummadi and S.Shenker,Adaptive RED:an algorithm for increasing the robustness of RED’s active queue management,518-522,2001.
[18]W.Feng,D.Kandlur,D.Saha and K.Shin,A Self-configuring RED gateway,INFOCOM’02,Vol.3,1320-1328,2002.
[19]T.Ye and S.Kalyanaraman,Adaptive Tuning of RED Using On-Line Simulation,GLOBECOM’02,Vol.3,2210-2214,2002.
[20]T.Alemu and A.jean-Marie,Dynamic Configuration of RED Parameters,GLOBCOM’04,Vol.3,1600-1604,2004.
[21]W.Chen,G.Min and H.Zhang,Statistical adapting RED in dynamic networks,GLOBECOM’12,2560-2565,2012.
[22]A.Marin,S.Rossi,A.Bujari and C.Palazzi,Performance evaluation of AQM techniques with heterogeneous traffic,201613th IEEE Annual Consumer Communications&Networking Conference(CCNC),194-199,2016.
[23]L.Lu,H.Du and P.R.Liu,CHOKe R:a novel AQM algorithm with proportional bandwidth allocation and TCP protection.IEEE Transactions on Industrial Informatics,Vol.10(1),637-644,2014.