Abstract
Previous studies of Dynamic Synchronous Transfer Mode (DTM), which is based on multi-access dual fiber bus, showed that it could be a viable technology in the future. This paper points out that the characteristics of active and passive nodes are not balanced and the performance of the network can be increased by decreasing the need for slot allocation during call set-up. We propose a new type of smoothing algorithms, which is a new channel allocation algorithm that improves the fairness of DTM network with proper priority settings and the performance of channel allocation in ordinary operating conditions. Results are based on simulation, which was carried out by a self-developed simulator.
The original version of this chapter was revised: The copyright line was incorrect. This has been corrected. The Erratum to this chapter is available at DOI: 10.1007/978-0-387-35522-1_37
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Cs. Antal, J. Molnar, “ Fairness of a DTM Dual-bus with Large Inter-node Distances”, 8th International Conference on Telecommunication Systems, Modeling and Analysis; March 9–12, 2000, Nashville, Tennessee, USA, pp. 414–420
Cs. Antal, J. Molnar, S. Molnar, G. Szabó, “Performance Study of Distributed Channel Reallocation Techniques for a Fast Circuit Switched Network”, Computer Communications Vol. 21 Num. 17, November 1998, Special Issue on the Stochastic Analysis and Optimal Management of Communication Systems, pp. 1597–1609
Cs. Antal, J. Molnar, S. Molnar, “Fairness Issues in a New Dual-Bus Networking Technology”; Proc. 7th IFIP/ICCC Conference on Information Networks, Aveiro, Portugal, June 1998, pp. 83–98
Cs. Antal, “Performance Analysis of the DTM Fast Circuit Switched Networking Technology”, Ph.D. dissertation, Technical University of Budapest, Hungary, 1999
C. Bohm, M. HideII, P. Landgren, L. Ramfelt, P. Sjödin, “Fast Circuit Switching for the Next Generation of High Performance Networks”, IEEE J. on Selected Areas of Communications, Vol. 14., No. 2, February 1996, pp. 298–305
C. Bohm, P. Lindgren, L. Ramfelt P. Sjödin, “Resource Reservation in DTM”, 1st IEEE Symposium on Global Data Networking, Cairo, Dec. 1993, pp. 191–197
M. E. Crovella, A. Bestavros, “Self-Similarity in the World Wide Web Traffic: Evidence and Possible Causes”, IEEE/ACM Transactions on Networking, 5 (6): pp. 835–846, December 1997
S. Deng, “Empirical model of WWW document arrivals at access link”, IEEE International Conference on Communications, vol.3, ICC96, 23–27 June 1996, Dallas, TX, USA pp. 1797–802
A. M. Law, W. D. Kelton, “Simulation Modeling and Analysis”, McGraw-Hill International Editions, 1991
P. Lindgren, “A Multi-Channel Network Architecture Based on Fast Circuit Switching”, Ph.D. thesis, ISRN KTH/IT/R-96/08-SE, Stockholm, May 1996
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© 2000 IFIP International Federation for Information Processing
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Antal, C., Molnár, S. (2000). Smoothing Algorithms for DTM Networks. In: van As, H.R. (eds) Telecommunication Network Intelligence. SMARTNET 2000. IFIP — The International Federation for Information Processing, vol 50. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-35522-1_10
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DOI: https://doi.org/10.1007/978-0-387-35522-1_10
Publisher Name: Springer, Boston, MA
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