Paper Info
Title
Error performance of digital modulation schemes with MRC diversity reception over η-μ fading channels
Abstract
This paper provides exact-form expressions for the average symbol error probability (ASEP) of various digital modulation schemes with maximal ratio combining (MRC) diversity over L independent, not necessarily identically distributed (n.i.d.) eta-mu fading channels. The derived expressions are given in terms of the Lauricella and Appell hypergeometric functions and include several others available in the literature such as those for Nakagami-m and Hoyt. General asymptotic ASEP expressions are also derived for all the considered modulation schemes which provide useful insights regarding the factors affecting the performance of the considered system.
Year
DOI
Venue
2009
10.1109/TWC.2009.081687
IEEE Transactions on Wireless Communications
Keywords
Field
DocType
nakagami channels,diversity reception,error statistics,modulation,hoyt fading channel,lauricella-appell hypergeometric function,mrc diversity reception,nakagami-m fading channel,asymptotic asep expression,average symbol error probability,digital modulation error performance scheme,eta-mu fading channel,maximal ratio combining,digital modulation schemes,η-μ fading,maximal ratio combining diversity,fading,quadrature amplitude modulation,probability density function,error probability,fading channel,binary phase shift keying,helium,hypergeometric function,nakagami distribution,signal to noise ratio
Applied mathematics,Quadrature amplitude modulation,Expression (mathematics),Maximal-ratio combining,Fading,Computer network,Diversity combining,Nakagami distribution,Independent and identically distributed random variables,Statistics,Mathematics,Phase-shift keying
Journal
Volume
Issue
ISSN
8
10
1536-1276
Citations 
PageRank 
References 
20
1.08
7
Authors
4
Name
Order
Citations
PageRank
Kostas P. Peppas1705.55
Fotis I. Lazarakis212611.78
Antonis A. Alexandridis3293.36
K. Dangakis4547.32