Triple-channel macro- and micro-diversity over shadowed fading channels using compound model

The analysis of micro-diversity and macro-diversity reception in shadowed fading channels is done using a compound model. Micro-diversity is applied with three maximal-ratio combiners (MRC). Thus, the analysis of triple-channel macro-diversity realized with the selection combining (SC) receiving tec...

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Hauptverfasser:	Popovic, Zoran J., Stefanovic, Caslav M., Krstic, Dragana S., Milosavljevic, Srdjan Z., Stefanovic, Mihajlo C.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Compound model Density functional theory Diffraction Diversity reception Gamma distribution Level Crossing Rate Nakagami distribution Nakagami Fading Power generation Probability density function Rayleigh channels Rayleigh scattering Shadow mapping Shadowed Fading Channels Weibull fading channels
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creator	Popovic, Zoran J. Stefanovic, Caslav M. Krstic, Dragana S. Milosavljevic, Srdjan Z. Stefanovic, Mihajlo C.
description	The analysis of micro-diversity and macro-diversity reception in shadowed fading channels is done using a compound model. Micro-diversity is applied with three maximal-ratio combiners (MRC). Thus, the analysis of triple-channel macro-diversity realized with the selection combining (SC) receiving technique is enabled. Micro-diversity techniques decreases influence of Nakagami fading, and shadowing will be decrease using macro-diversity techniques. Analytical expressions for the probability density function (pdf) of output power are obtained. The joint pdf of signal envelopes and its derivatives, average level crossing rate, and average fade duration are obtained.
doi_str_mv	10.1109/TELSKS.2009.5339439
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Compound model Density functional theory Diffraction Diversity reception Gamma distribution Level Crossing Rate Nakagami distribution Nakagami Fading Power generation Probability density function Rayleigh channels Rayleigh scattering Shadow mapping Shadowed Fading Channels Weibull fading channels
title	Triple-channel macro- and micro-diversity over shadowed fading channels using compound model
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