Abstract
In the article, the results of measuring the traffic in wireless networks are presented. The results provide evidence of the traffic being notably self-similar. The two following models were developed in order to estimate the parameters of a wireless network operating along with the input traffic being self-similar: a model for systems with no restrictions on the quantity of the orders in the system lines and a model for systems with limited buffer volumes. The two types of incoming traffic that each system was simulated for were the Poisson and self-similar traffic.
The main objective of the article is to figure out the relaxation time and dependences of the relaxation time and loss probability on different parameters of the simulated systems.
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References
Ipatovs, A. and Petersons, E., Performance Evaluation Depending on Number of Workstations, Electronics and Electrical Engineering, 2006, no. 8, pp. 15–19.
Jerjomins, R. and Petersons, E., Self-similar Traffic in Wireless Networks, Proc. Of International Conference Mathematical Methods of Optimization of Telecommunication Networks, Minsk: Belarusian State University Press, 2005.
Stallings, W., High-Speed Networks and Internets Performance and Quality of Service, Pearson Prentice Hall, 2002, 2nd ed.
Kaufmann, A., and Cruon, R., Queuing Theory. Recent Developments and Applications, Lisbon, 1965.
Kleinrock, L., Queuing Systems, New York: Wiley, 1975.
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Original Russian Text © R. Yeryomin, E. Petersons, 2009, published in Avtomatika i Vychislitel’naya Tekhnika, 2009, No. 3, pp. 36–46.
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Yeryomin, R., Petersons, E. Transient process relaxation time research under the condition of self-similar traffic input in wireless networks. Aut. Conrol Comp. Sci. 43, 138–147 (2009). https://doi.org/10.3103/S0146411609030043
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DOI: https://doi.org/10.3103/S0146411609030043