SIR distribution analysis in cellular networks considering the joint impact of path-loss, shadowing and fast fading

In this paper, we propose an analysis of the joint impact of path-loss, shadowing and fast fading on cellular networks. Two analytical methods are developed to express the outage probability. The first one based on the Fenton-Wilkinson approach, approximates a sum of log-normal random variables by a...

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Veröffentlicht in:	EURASIP journal on wireless communications and networking 2011-10, Vol.2011 (1), p.1-10, Article 137
Hauptverfasser:	Ben Cheikh, Dorra, Kelif, Jean-Marc, Coupechoux, Marceau, Godlewski, Philippe
Format:	Artikel
Sprache:	eng
Schlagworte:	Approximation Cellular Cellular communication Communications Engineering Computer Science Engineering Fading Information Systems Applications (incl.Internet) Mathematical analysis Mathematical models Networking and Internet Architecture Networks Outages Random variables Signal,Image and Speech Processing
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description	In this paper, we propose an analysis of the joint impact of path-loss, shadowing and fast fading on cellular networks. Two analytical methods are developed to express the outage probability. The first one based on the Fenton-Wilkinson approach, approximates a sum of log-normal random variables by a log-normal random variable and approximates fast fading coefficients in interference terms by their average value. We denote it FWBM for Fenton-Wilkinson based method. The second one is based on the central limit theorem for causal functions. It allows to approximate a sum of positive random variables by a Gamma distribution. We denote it CLCFM for central limit theorem for causal functions method. Each method allows to establish a simple and easily computable outage probability formula, which jointly takes into account path-loss, shadowing and fast fading. We compute the outage probability, for mobile stations located at any distance from their serving BS, by using a fluid model network that considers the cellular network as a continuum of BS. We validate our approach by comparing all results to extensive Monte Carlo simulations performed in a traditional hexagonal network and we provide the limits of the two methods in terms of system parameters. The proposed framework is a powerful tool to study performances of cellular networks, e.g., OFDMA systems (WiMAX, LTE).
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We validate our approach by comparing all results to extensive Monte Carlo simulations performed in a traditional hexagonal network and we provide the limits of the two methods in terms of system parameters. 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subjects	Approximation Cellular Cellular communication Communications Engineering Computer Science Engineering Fading Information Systems Applications (incl.Internet) Mathematical analysis Mathematical models Networking and Internet Architecture Networks Outages Random variables Signal,Image and Speech Processing
title	SIR distribution analysis in cellular networks considering the joint impact of path-loss, shadowing and fast fading
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