Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio links

Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio links

This study presents research that supplements and extends the previous works on design of space-time fully systematic unpunctured (FSU) serial concatenation of quadratic interleaved codes (SCQICs). The requirements for efficient design of the forward error correction (FEC) codecs motivated potential...

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Main Authors: Ardavan Rahimian, Farhad Mehran, Robert G. Maunder
Format: Article
Language:English
Published: Wiley 2014-08-01
Series:The Journal of Engineering
Subjects:
MIMO communication
forward error correction
interleaved codes
encoding
mobile radio
fading
error statistics
space time quadrature amplitude modulation wireless multiple-input-single-output systems
differentially coded in-/out-forward error correction codec serial concatenation
quadratic interleaved codes
slow fading Jakes scattering mobile radio links
fully systematic unpunctured
FSU
serial concatenation
SCQICs
forward error correction codecs
transmission reliability
bit error rate
code constraint length
trellis structure
quadratic permutation
QP structures
signal-to-noise ratio-region comparison
cyclic shift
primitive factor
Online Access:http://digital-library.theiet.org/content/journals/10.1049/joe.2014.0001
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author Ardavan Rahimian
Farhad Mehran
Robert G. Maunder
author_facet Ardavan Rahimian
Farhad Mehran
Robert G. Maunder
author_sort Ardavan Rahimian
collection DOAJ
description This study presents research that supplements and extends the previous works on design of space-time fully systematic unpunctured (FSU) serial concatenation of quadratic interleaved codes (SCQICs). The requirements for efficient design of the forward error correction (FEC) codecs motivated potential information-theoretic studies for enjoying the development of low-complex system components within the FEC encoder/decoder for securing the transmission reliability. Inspired by this motivation, this study not only provides design guidelines to achieve better bit error rate performance in terms of the major design factors of FSU-SCQICs, that is, component code constraint length and trellis structure, and FEC rate, but also estimates the gain gaps of different quadratic permutation (QP) structures in two crucial untouched aspects: (i) signal-to-noise ratio-region comparison on the optimality and (ii) investigation on the structural parameters of QPs, that is, cyclic shift and primitive factor.
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spelling doaj.art-74b091c5faaa4d26bfca041c2ecde25c2022-12-21T23:01:27ZengWileyThe Journal of Engineering2051-33052014-08-0110.1049/joe.2014.0001JOE.2014.0001Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio linksArdavan Rahimian0Farhad Mehran1Robert G. Maunder2University of BirminghamUniversity of BirminghamUniversity of SouthamptonThis study presents research that supplements and extends the previous works on design of space-time fully systematic unpunctured (FSU) serial concatenation of quadratic interleaved codes (SCQICs). The requirements for efficient design of the forward error correction (FEC) codecs motivated potential information-theoretic studies for enjoying the development of low-complex system components within the FEC encoder/decoder for securing the transmission reliability. Inspired by this motivation, this study not only provides design guidelines to achieve better bit error rate performance in terms of the major design factors of FSU-SCQICs, that is, component code constraint length and trellis structure, and FEC rate, but also estimates the gain gaps of different quadratic permutation (QP) structures in two crucial untouched aspects: (i) signal-to-noise ratio-region comparison on the optimality and (ii) investigation on the structural parameters of QPs, that is, cyclic shift and primitive factor.http://digital-library.theiet.org/content/journals/10.1049/joe.2014.0001MIMO communicationforward error correctioninterleaved codesencodingmobile radiofadingerror statisticsspace time quadrature amplitude modulation wireless multiple-input-single-output systemsdifferentially coded in-/out-forward error correction codec serial concatenationquadratic interleaved codesslow fading Jakes scattering mobile radio linksfully systematic unpuncturedFSUserial concatenationSCQICsforward error correction codecstransmission reliabilitybit error ratecode constraint lengthtrellis structurequadratic permutationQP structuressignal-to-noise ratio-region comparisoncyclic shiftprimitive factor
spellingShingle Ardavan Rahimian
Farhad Mehran
Robert G. Maunder
Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio links
The Journal of Engineering
MIMO communication
forward error correction
interleaved codes
encoding
mobile radio
fading
error statistics
space time quadrature amplitude modulation wireless multiple-input-single-output systems
differentially coded in-/out-forward error correction codec serial concatenation
quadratic interleaved codes
slow fading Jakes scattering mobile radio links
fully systematic unpunctured
FSU
serial concatenation
SCQICs
forward error correction codecs
transmission reliability
bit error rate
code constraint length
trellis structure
quadratic permutation
QP structures
signal-to-noise ratio-region comparison
cyclic shift
primitive factor
title Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio links
title_full Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio links
title_fullStr Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio links
title_full_unstemmed Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio links
title_short Space-time QAM wireless MISO systems employing differentially coded in-/out-FECC SCQICs over slow-fading Jakes scattering mobile radio links
title_sort space time qam wireless miso systems employing differentially coded in out fecc scqics over slow fading jakes scattering mobile radio links
topic MIMO communication
forward error correction
interleaved codes
encoding
mobile radio
fading
error statistics
space time quadrature amplitude modulation wireless multiple-input-single-output systems
differentially coded in-/out-forward error correction codec serial concatenation
quadratic interleaved codes
slow fading Jakes scattering mobile radio links
fully systematic unpunctured
FSU
serial concatenation
SCQICs
forward error correction codecs
transmission reliability
bit error rate
code constraint length
trellis structure
quadratic permutation
QP structures
signal-to-noise ratio-region comparison
cyclic shift
primitive factor
url http://digital-library.theiet.org/content/journals/10.1049/joe.2014.0001
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AT farhadmehran spacetimeqamwirelessmisosystemsemployingdifferentiallycodedinoutfeccscqicsoverslowfadingjakesscatteringmobileradiolinks
AT robertgmaunder spacetimeqamwirelessmisosystemsemployingdifferentiallycodedinoutfeccscqicsoverslowfadingjakesscatteringmobileradiolinks

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