Reduced complexity turbo equalization using a dynamic Bayesian network

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Myburgh_Reduced(2012).pdf (2.79 MB)

Date

2012-07-09

Authors

Myburgh, Hermanus Carel
Olivier, Jan Corne
Van Zyl, A.J. (Gusti)

Journal Title

Journal ISSN

Volume Title

Publisher

Hindawi Publishing Corporation

Abstract

It is proposed that a dynamic Bayesian network (DBN) is used to perform turbo equalization in a system transmitting information over a Rayleigh fading multipath channel. The DBN turbo equalizer (DBN-TE) is modeled on a single directed acyclic graph by relaxing the Markov assumption and allowing weak connections to past and future states. Its complexity is exponential in encoder constraint length and approximately linear in the channel memory length. Results show that the performance of the DBN-TE closely matches that of a traditional turbo equalizer that uses a maximum a posteriori equalizer and decoder pair. The DBN-TE achieves full convergence and near-optimal performance after small number of iterations.

Description

Additional file 1: DBN-TE Pseudocode algorithm. (a) DBN-TE function pseudocode. (b) FORWARD MESSAGE function pseudocode. (c) BACKWARD MESSAGE function pseudocode. (d) FORWARD BACKWARD MESSAGE function pseudocode. (e) LLR ESTIMATES function pseudocode.

Keywords

Turbo equalizer, Dynamic Bayesian network, Rayleigh fading

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Citation

Myburgh HC, Olivier, JC & Van Zyl, A 2012," Reduced complexity turbo equalization using a dynamic Bayesian network", EURASIP Journal on Advances in Signal Processing,2012, 2012:136.

URI

http://hdl.handle.net/2263/21193

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Research Articles (Electrical, Electronic and Computer Engineering)
Research Articles (Mathematics and Applied Mathematics)
Research Articles (University of Pretoria)
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