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Performance analysis and capacity assignment optimisation of wireless cells with re-use partitioning
Kouvatsos, Demetres D. Awan, Irfan U. Al-Begain, Khalid Tantos, Sotiris
Kouvatsos, Demetres D.
Awan, Irfan U.
Al-Begain, Khalid
Tantos, Sotiris
Publication Date
2002
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© United Kingdom Simulation Society. Reproduced in accordance with the publisher's self-archiving policy.
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Abstract
This paper presents a novel and efficient analytic framework for the performance analysis and capacity-assignment optimisation of a wireless GSM cell employing the Re-Use Partitioning (RUP) policy. RUP splits hierarchically the available bandwidth into multiple layers of frequencies and allows tighter frequency re-use in order to achieve a higher network capacity. In this context, a queueing network model (QNM) of a wireless cell is proposed consisting of a hierarchical layer configuration which is decomposed into individual GE/GE/c/c loss systems each of which is analysed in isolation via a more general maximum entropy (ME) state probability solution, subject to appropriate GE-type flow formulae and mean value constraints. Moreover, a new performance optimisation index is proposed as the weighted average non-blocking probability of traffic over all frequency layers. For illustration purposes, the proposed index is utilised to formulate and solve two capacity-assignment optimisation problems. Numerical examples are included to validate the relative accuracy of the analytic GE-type performance metrics against simulation and assess the optimal re-use partitioning policy of the available bandwidth.
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Kouvatsos, D.D., Awan, I. Al-Begain K. and S. Tantos (2002). Performance analysis and capacity assignment optimisation of wireless cells with re-use partitioning. International Journal of Simulation. Vol. 3 Nos 1-2, 56-67.
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