A Proof of Convergence of the MAP Turbo-Detector to the AWGN Case

A Proof of Convergence of the MAP Turbo-Detector to the AWGN Case

In this paper, we consider a coded transmission over a frequency-selective channel. We propose to study analytically the convergence of the turbo-detector using a maximum a posteriori (MAP) equalizer and a MAP decoder. We show that the densities of the extrinsic log likelihood ratios (LLRs) exchange...

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Veröffentlicht in:IEEE transactions on signal processing 2008-04, Vol.56 (4), p.1548-1561
Hauptverfasser: Sellami, N., Roumy, A., Fijalkow, I.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Approximation
AWGN
Bit error rate
Channels
Coding, codes
Convergence
Convergence analysis
Density
density evolution
Detection, estimation, filtering, equalization, prediction
Equalizers
Exact sciences and technology
Exact solutions
Frequency
Gaussian
Gaussian approximation
Gaussian densities
Information, signal and communications theory
Iterative decoding
Likelihood ratio
MAP detection
Mathematical analysis
Performance analysis
Signal analysis
Signal and communications theory
Signal to noise ratio
Signal, noise
symmetric densities
Telecommunications and information theory
turbo- detection
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Zusammenfassung:In this paper, we consider a coded transmission over a frequency-selective channel. We propose to study analytically the convergence of the turbo-detector using a maximum a posteriori (MAP) equalizer and a MAP decoder. We show that the densities of the extrinsic log likelihood ratios (LLRs) exchanged during the iterations are e-symmetric and output-symmetric. Under the Gaussian approximation, this property allows to perform a one-dimensional (1-D) analysis of the turbo-detector. By deriving the analytical expressions of the extrinsic LLR distributions under the Gaussian approximation, we prove that the bit error rate (BER) performance of the turbo-detector converges to the BER performance of the coded additive white Gaussian noise (AWGN) channel at high signal to noise ratio (SNR), for any frequency-selective channel.
ISSN:1053-587X
1941-0476
DOI:10.1109/TSP.2007.910467