Abstract
Traffic engineering is a method to optimize the performance of a satellite network through dynamically analyzing, forecasting, and balancing the network traffic [1].
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Agarwal S, Nucci A, Bhattacharyya S (2005) Measuring the shared fate of IGP engineering and inter-domain traffic. In: Proceedings of the 13th international conference on network protocols (ICNP’05), vol 11. Boston, pp 30–39
Wang H (2008) Efficient and robust traffic engineering in a dynamic environment. Ph. D. thesis, Yale University, New Haven
Applegate D, Breslau L, Cohen E (2004) Coping with network failures: Routing strategies for optimal demand oblivious restoration. In: Proceedings of joint international conference on measurement and modeling of computer systems (SIGMETRICS), vol 6. New York, pp 243–249
Applegate D, Cohen E (2003) Making intra-domain routing robust to changing and uncertain traffic demands: understanding fundamental tradeoffs. In: Proceedings of ACM SIGCOMM’03, vol 8. Karlsruhe, pp 313–324
Elwalid A, Jin C, Low S et al (2001) MATE: MPLS adaptive traffic engineering. In: Proceedings of IEEE INFOCOM’01, vol 4. Anchorage, pp 453–464
Feamster N, Winick J, Rexford J (2004) A model of BGP routing for network engineering. In: Proceedings of joint international conference on measurement and modeling of computer systems (SIGMETRICS), vol 6. New York, pp 331–342
Fortz B, Rexford J, Thorup M (2002) Traffic engineering with traditional IP routing protocols. IEEE Commun Mag 10:118–124
Fortz B, Thorup M (2000) Internet traffic engineering by optimizing OSPF weights. In: Proceedings of IEEE INFOCOM’00, vol 3. Tel Aviv, pp 519–528
Kandula S, Katabi D, Davie B et al (2005) Walking the tightrope: responsive yet stable traffic engineering. In: Proceeding of ACM SIGCOMM’05, vol 8. Philadelphia, pp 345–357
Kodialam M, Lakshman TV, Sengupta S (2004) Efficient and robust routing of highly variable traffic. In: Proceedings of third workshop on hot topics in networks (HotNets-III), vol 10. San Diego, pp 79–86
Sridharan A, Guerin R, Diot C (2003) Achieving near optimal traffic engineering solutions in current OSPF/ISIS networks. In: Proceedings of IEEE INFOCOM’03, vol 4. San Francisco, pp 234–247
Zhang SR, McKeown N (2004) Designing a predictable internet backbone network. In: Proceedings of third workshop on hot topics in networks (HotNets-III), vol 10. San Diego, pp 436–442
Wang H, Xie HY, Qiu LL et al (2006) COPE: traffic engineering in dynamic networks. In: Proceedings of ACM SIGCOMM’06, vol 10. Pisa Itlay, pp 99–110
Grover W, Tipper D (2005) Design and operation of survivable networks. J Netw Syst Manage 13(1):7–11
Markopoulou A, Iannaccone G, Bhattacharyya S et al (2004) Characterization of failures in an IP backbone network. In: Proceedings of IEEE INFOCOM’04, vol 4, no 4. Hong Kong, pp 2307–2317
Valiant LG (1982) A scheme for fast parallel communication. SIAM J Comput 11(7):350–361
Voilet MD (1995) The development and application of a cost per minute metric of the evaluation of mobile satellite systems in a limited-growth voice communications market. Master thesis, Massachusetts Institute of Technology, Cambridge
Perdigues J, Werner M, Karafolas N (2001) Methodology for traffic analysis and ISL capacity dimensioning in broadband satellite constellations using optical WDM networking. In: Proceedings of 19th AIAA international communication satellite systems conference (ICSSC’01), vol 4. Toulouse, pp 131–139
Chen C (2005) Advanced routing protocol for satellite and space networks. Ph. D. thesis, Georgia Institute of Technology, Atlanta
Fang ZG (1986) Introduction of time series analysis. Aerospace Press, Beijing (in Chinese)
Tian Z (2001) The theories and methods of time series. High Education Press, Beijing (In Chinese)
Ahuja R, Magnanti T, Orlin J (1993) Network Flows. Prentice Hall, New Jersey
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2014 National Defense Industry Press, Beijing and Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Long, F. (2014). Satellite Network Traffic Engineering. In: Satellite Network Robust QoS-aware Routing. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-54353-1_4
Download citation
DOI: https://doi.org/10.1007/978-3-642-54353-1_4
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-54352-4
Online ISBN: 978-3-642-54353-1
eBook Packages: EngineeringEngineering (R0)