Moments Based Framework for Performance Analysis of One-Way/Two-Way CSI-Assisted AF Relaying

When analyzing system performance of conventional one-way relaying or advanced two-way relaying, these two techniques are always dealt with separately and, thus, their performance cannot be compared efficiently. Moreover, for ease of mathematical tractability, channels considered in such studies are...

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Bibliographic Details
Published inIEEE journal on selected areas in communications Vol. 30; no. 8; pp. 1464 - 1476
Main Authors Minghua Xia, Aissa, S.
Format Journal Article
LanguageEnglish
Published New York IEEE 01.09.2012
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Amplify-and-forward
Channels
Density
Error analysis
Fading
Gain
Harmonic analysis
Mathematical analysis
Mathematical models
moments
Nakagami fading
one-way relaying
Pad'e approximants
Performance analysis
Polynomials
Random variables
Rayleigh channels
Relaying
System performance
two-way relaying
weighted harmonic mean
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Summary:When analyzing system performance of conventional one-way relaying or advanced two-way relaying, these two techniques are always dealt with separately and, thus, their performance cannot be compared efficiently. Moreover, for ease of mathematical tractability, channels considered in such studies are generally assumed to be subject to Rayleigh fading or to be Nakagami-m channels with integer fading parameters, which is impractical in typical urban environments. In this paper, we propose a unified moments-based framework for general performance analysis of channel-state-information (CSI) assisted amplify-and-forward (AF) relaying systems. The framework is applicable to both one-way and two-way relaying over arbitrary Nakagami-m fading channels, and it includes previously reported results as special cases. Specifically, the mathematical framework is firstly developed under the umbrella of the weighted harmonic mean of two Gamma-distributed variables in conjunction with the theory of Padé approximants. Then, general expressions for the received signal-to-noise ratios of the users in one-way/two-way relaying systems and the corresponding moments, moment generation function, and cumulative density function are established. Subsequently, the mathematical framework is applied to analyze, compare, and gain insights into system performance of one-way and two-way relaying techniques, in terms of outage probability, average symbol error probability, and achievable data rate. All analytical results are corroborated by simulation results as well as previously reported results whenever available, and they are shown to be efficient tools to evaluate and compare system performance of one-way and two-way relaying.
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ISSN:0733-8716
1558-0008
DOI:10.1109/JSAC.2012.120915