DocumentCode
1294587
Title
Analysis of switched diversity TCM-MPSK systems on Nakagami fading channels
Author
Femenias, Guillem ; Furió, Ignasi
Author_Institution
Dept. de Matematiques i Inf., Univ. de les Illes Balears, Spain
Volume
46
Issue
1
fYear
1997
fDate
2/1/1997 12:00:00 AM
Firstpage
102
Lastpage
107
Abstract
Space diversity reception and forward-error correction coding are powerful techniques to combat multipath fading encountered in mobile radio communications. In this paper, we analyze the performance of a discrete-time switched diversity system using trellis-coded modulation multiple phase-shift keying (TCM-MPSK) on slow, nonselective correlated Nakagami (1960) fading channels. Analytical upper bounds using the transfer function bounding technique are obtained and illustrated by several numerical examples. A simple integral expression for calculating the exact pairwise error probability is presented. The use of optimum adaptive and fixed switching thresholds is considered. Monte Carlo simulation results, which are more indicative of the exact system performance, are also given
Keywords
adaptive systems; coding errors; diversity reception; error correction codes; error statistics; fading; forward error correction; land mobile radio; multipath channels; phase shift keying; probability; telecommunication switching; trellis coded modulation; Monte Carlo simulation results; Nakagami fading channels; TCM-MPSK; discrete-time switched diversity system; exact system performance; forward-error correction coding; integral expression; mobile radio communications; multipath fading; optimum adaptive switching threshold; optimum fixed switching threshold; pairwise error probability; radiowave propagation; slow nonselective correlated fading; space diversity reception; switched diversity TCM-MPSK systems; transfer function bounding technique; trellis-coded modulation multiple phase-shift keying; upper bounds; Communication switching; Diversity reception; Fading; Land mobile radio; Mobile communication; Performance analysis; Phase modulation; Phase shift keying; Transfer functions; Upper bound;
fLanguage
English
Journal_Title
Vehicular Technology, IEEE Transactions on
Publisher
ieee
ISSN
0018-9545
Type
jour
DOI
10.1109/25.554742
Filename
554742
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