Abstract
This paper proposes an effective Segregated Lightweight Dynamic Rate Control Scheme (SLDRCS) over the internet. Based on the feedback analysis of the current approaches, we found that the indicator of the congestion is only the queue length. It only captures a partial indicator of delay and loss in feedback mechanism. This may result in an ineffective way in controlling the network when congestion control occurs. Therefore, we suggest multiple congestion indicators to adapt inside this scheme to fully control the average delay and loss from bidirectional of sender to receiver. The behavior of next event packet being control using discrete event simulation tool with First Come First Serve (FCFS) scheduling policy and we code this algorithm into C programming language. Through the simulation results, our Segregated Lightweight Dynamic Rate Control Scheme (SLDRCS) guaranteed high improvement in packet drop and average delay under various congestion level and traffic load conditions compare with the current approach.
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References
Karademir S, Lambadaris I, Devetsikiotis M, Kaye AR (1996) Dynamic rated control of VBR MPEG video transmission over ATM networks. Glob Telecommun Conf 3:1509–1515
Sato J, Hashimoto K, Shibata Y (1998) Dynamic rate control methods for continuous media transmission. In: Information networking, (ICOIN-12) Proceedings, pp 110–115
Yu O (2004) Bogoyavlenskaya, teaching network congestion control. Rev Pap 36(4):35–41
Bashir I, Namuduri KR, Pendse R (2004) A light weight dynamic rate control scheme for video transmission over IP network. Elsevier 25(7):817–827
Kang K, Chon K (1998) Dynamic rate control mechanism for large scale sessions. In: Information networking, 1998 (ICOIN-12) proceedings pp 21–24
Hwang G-H, Cho D-H (2000) Dynamic rate control based on interference and transmission power in 3GPP WCDMA system. In: Vehicular technology conference, IEEE VTS-Fall VTC 2000, vol 6, pp 2926–2931
Lei W-N, Chen Y-H (2001) Dynamic rate control For MPEG-2, bit stream transcoding. Image Process 1:477–480
Yang YR, Lam SS (2000) Internet multicast congestion control: a survey. http://cs-www.cs.yale.edu/homes/yry/research/TechReports/mc.pdf
Li X, Paukl S, Ammar M (1998) Layered video multicast with retransmissions (LVMR). Evaluation of Hierarchical Rate Control 3:1062–1072
Morris R (2000) Scalable TCP Congestion Control, IEEE INFOCOM, pp 1176–1183
M/M/1 Queuing System. http://www.eventhelix.com/RealtimeMantra/congestionControl/m_m_1_queue.htm
Dorokhov A (1999) Simulation simple models and comparison with queuing theory. http://monarc.web.cern.ch/MONARC/docs/monarc_docs/1999-08.pdf
Jeong SH, Owen H, Copeland J, Sokol J (2001) QOS support for UDP/TCP based networks. Elsevier, New York, pp 64–77
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© 2013 Springer Science+Business Media Dordrecht
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Ting, T.O., Ting, H.C., Lee, S. (2013). Segregated Lightweight Dynamic Rate (SLDR) Control Scheme for Efficient Internet Communications. In: Jung, HK., Kim, J., Sahama, T., Yang, CH. (eds) Future Information Communication Technology and Applications. Lecture Notes in Electrical Engineering, vol 235. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-6516-0_72
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DOI: https://doi.org/10.1007/978-94-007-6516-0_72
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