Paper Info
Title
Exact Non-Gaussian Interference Model for Fading Channels
Abstract
This paper derives respective precise bit error probability (BEP) expressions for a two-user binary phase shift keying (BPSK) system in Rayleigh, Nakagami and Rician fading channels. Our expressions allow for different symbol rate and symbol timing asynchronism between the desired user and interfering user. We provide some theoretical results concerning the BEP performance with respect to the fading severity. Comprehensive simulation study and comparison of the BEP performance between the Gaussian and non-Gaussian interference models are also provided. The results show that the Gaussian interference model has limitation in predicting the exact BEP performance in fading channels. It fails in accurately tracking the variation of the BEP with respect to the signal-to-noise ratio (SNR), signal-to-interference ratio (SIR), symbol rate ratio and fading severity.
Year
DOI
Venue
2013
10.1109/TWC.2012.113012.112117
IEEE Transactions on Wireless Communications
Keywords
Field
DocType
nakagami fading channel,exact nongaussian interference model,signal-to-interference ratio,fading severity,nakagami channels,bit error probability,fading channels,rayleigh fading channel,phase shift keying,two-user bpsk system,binary phase shift keying,non-gaussian interference model,rician fading channel,symbol timing asynchronism,symbol rate ratio,error statistics,bit error probability (bep),rayleigh channels,rician channels,signal-to-noise ratio,interference,signal to interference ratio,nakagami distribution,signal to noise ratio
Telecommunications,Rayleigh fading,Fading,Symbol rate,Algorithm,Real-time computing,Nakagami distribution,Gaussian,Fading distribution,Mathematics,Rician fading,Phase-shift keying
Journal
Volume
Issue
ISSN
12
1
1536-1276
Citations 
PageRank 
References 
1
0.36
0
Authors
3
Name
Order
Citations
PageRank
Yi Chen1408.03
Shenghao Yang212815.00
Wing Shing Wong31025290.66