Average BER Performance of Orthogonal Space–Time Block Coding System with Antenna Selection Over Generalized η–μ Fading Channel

Average BER Performance of Orthogonal Space–Time Block Coding System with Antenna Selection... Generalized channel fading distributions such as κ–μ and η–μ are well suited for modelling various fading channels as they fit well to the experimental data. This paper is concerned with the performance analysis of orthogonal space–time block-codes system using M-ary Phase shift keying/quadrature amplitude modulation with antenna selection over generalized η–μ fading channel i.e., for non-line-of-sight applications. We derive the closed form expression of the average bit error rate by employing “moment generating function” based approach for different modulation schemes. Simulation results are finally presented to demonstrate the correctness of theoretical analysis by assuming different values for η and μ, where each value corresponds to different channels. The impact of actual number of antennas, i.e., number of antennas before antenna selection, were also shown. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Wireless Personal Communications Springer Journals

Average BER Performance of Orthogonal Space–Time Block Coding System with Antenna Selection Over Generalized η–μ Fading Channel

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Publisher
Springer US
Copyright
Copyright © 2017 by Springer Science+Business Media New York
Subject
Engineering; Communications Engineering, Networks; Signal,Image and Speech Processing; Computer Communication Networks
ISSN
0929-6212
eISSN
1572-834X
D.O.I.
10.1007/s11277-017-4246-8
Publisher site
See Article on Publisher Site

Abstract

Generalized channel fading distributions such as κ–μ and η–μ are well suited for modelling various fading channels as they fit well to the experimental data. This paper is concerned with the performance analysis of orthogonal space–time block-codes system using M-ary Phase shift keying/quadrature amplitude modulation with antenna selection over generalized η–μ fading channel i.e., for non-line-of-sight applications. We derive the closed form expression of the average bit error rate by employing “moment generating function” based approach for different modulation schemes. Simulation results are finally presented to demonstrate the correctness of theoretical analysis by assuming different values for η and μ, where each value corresponds to different channels. The impact of actual number of antennas, i.e., number of antennas before antenna selection, were also shown.

Journal

Wireless Personal CommunicationsSpringer Journals

Published: Apr 25, 2017

References

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