Asymmetric path delay optimization in mobile multi-homed SCTP multimedia transport

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Asymmetric path delay optimization in mobile multi-homed SCTP multimedia transport

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International Workshop on Modeling Analysis and Simulation of Wireless and Mobile Systems archive
Proceedings of the 1st ACM workshop on Wireless multimedia networking and performance modeling table of contents

Montreal, Quebec, Canada

SESSION: Multimedia communication table of contents

Pages: 70 - 75

Year of Publication: 2005

ISBN:1-59593-183-X

Authors

Eduardo Parente Ribeiro	Federal University of Parana, Curitiba, PR, BRAZIL
Victor C. M. Leung	University of British Columbia, Vancouver, BC, Canada

Sponsors

SIGSIM: ACM Special Interest Group on Simulation and Modeling
ACM: Association for Computing Machinery

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ACM New York, NY, USA

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ABSTRACT

Multimedia applications are very demanding of quality parameters from network provision, especially in a mobile wireless scenario. End-to-end delay is a primary concern for real-time applications. Much work have been done recently in order to fully exploit the multi-homing character of emerging wireless mobile systems addressing both communication performance as well as seamless handover. We propose an algorithm for path selection based on smallest delay that takes into account the dynamic asymmetry over the available routes. An example is provided showing how a multimedia application could benefit from this approach.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Akella, A., Seshan, S. and Shaikh, A. Multi-homing Performance Benefits:An Experimental Evaluation of Practical Enterprise Strategies. In Proc. Usenix 2004, Boston, MA, 2004.
	2	Coene, L. Multihoming issues in the Stream Control Transmission Protocol. IETF Internet Draft, draft-coene-sctp-multi-home-04.txt, Dec. 2003, work in progress.
	3	Iyengar, J., Amer, P. and Stewart, R. Retransmission Policies for Concurrent Multipath Transfer using SCTP Multi-homing. In Proc. ICON 2004, Singapore, Nov. 2004.
	4	Iyengar, R., Shah, K., Amer, P. and Stewart, R. Concurrent Multipath Transfer Using SCTP Multi-homing. In Proc. SPECTS 2004, San Jose, California, Jul. 2004.
	5	Kashihara, S. et al. End-to-End Seamless Handover using Multi-path Transmission Algorithm. In Proc. IWDC 2003, 174--183.
	6	Kashihara, S. et al. Multi-path transmission algorithm for end-to-end seamless handover across heterogeneous wireless access networks. IEICE Trans. Comm., E87B, 3 (Mar. 2004), 490--496.
	7	Kelly, A., Muntean, G., Perry, P. and Murphy, J. Delay-centric Handover in SCTP over WLAN. Transactions on Automatic Control and Computer Science, 49, 63 (2004), 1--6.
	8	Koh, S. J. and Xie, Q. Mobile SCTP (mSCTP) for Internet Mobility. IETF Internet Draft, draft-sjkoh-msctp-00.txt, Mar. 2005, work in progress.
	9	Koh, S. J., Chang, M. J. and Lee, M. mSCTP for Soft Handover in Transport Layer. IEEE Communications Letters, 8, 3 (Mar. 2004), 189--191.
	10	Ma, L., Yu, F., Leung, V.C.M. and Randhawa, T. A New Method to Support UMTS/WLAN Vertical Handover Using SCTP. IEEE Wireless Comm., 11, 4 (Aug. 2004), 44--51.
	11	Molteni, M. and Villari, M. Using SCTP with Partial Reliability for MPEG-4 Multimedia Streaming. In Proc. BsdCon Europe, 2002. Available at http://2002.eurobsdcon.org/papers/molteni.pdf.
	12	Noonan, J. et al. Simulations of Multimedia Traffic over SCTP modified for Delay-Centric Handover. In Proc. World Wireless Congress, San Francisco, CA, May 2004.
	13	Noonan, J., Perry, P. and Murphy, J. A Study of SCTP Services in a Mobile-IP Network. In Proc. World Wireless Congress, San Francisco, CA, May 2004.
	14	Riegel, M. and Tuexen, M. Mobile SCTP. IETF Internet Draft, draft-riegel-tuexen-mobile-sctp-05.txt, Jul. 2005, work in progress.
	15	Randall R. Stewart , Qiaobing Xie, Stream control transmission protocol (SCTP): a reference guide, Addison-Wesley Longman Publishing Co., Inc., Boston, MA, 2001
	16	Stewart, R. et al. Stream Control Transmission Protocol (SCTP) Dynamic Address Reconfiguration. IETF Internet Draft, draft-ietf-tsvwg-addip-sctp-12.txt, Jun. 2005, work in progress.
	17	Randall R. Stewart , Qiaobing Xie, Stream control transmission protocol (SCTP): a reference guide, Addison-Wesley Longman Publishing Co., Inc., Boston, MA, 2001
	18	Stewart, R. et al., Stream Control Transmission Protocol (SCTP) - Partial Reliability Extension. IETF Internet RFC3758, May 2004.
	19	Wang, X. and Leung, V.C.M. Applying PR-SCTP to Transport SIP Traffic. In Proc. IEEE Globecom 2005, St. Louis, MO, Nov. 2005.
	20	Yamai, N., Okayama, K., Shimamoto, H. and Okamoto, T. A Dynamic Traffic Sharing with Minimal Administration on Multi-homed Networks. In Proc. IEEE International Conference on Communications (ICC'2001)(Helsique, Finland, June 11-14, 2001), 1506--1510.
	21	Ye, G., Saadawi, T. N. and Lee, M. Independent per Path Congestion Control for Reliable Data Transmission between Multi-homed Hosts. In Proc. IEEE/Sarnoff Symposium on Advances in Wired and Wireless Communication, 2004.