A gaussian sum approach to blind carrier phase estimation and data detection in turbo coded transmissions

Frederic Lehmann

doi:10.1109/TCOMM.2009.09.080028

A gaussian sum approach to blind carrier phase estimation and data detection in turbo coded transmissions

Frederic Lehmann

CNRS SAMOVAR UMR 5157

Research output: Contribution to journal › Article › peer-review

Abstract

We present a joint phase estimation and decoding method for convolutional turbo codes in the presence of strong phase noise. In order to overcome the problem of phase ambiguity and cycle slips, a combined state-space model for the timevarying phase and the component convolutional codes is introduced. The proposed algorithm uses a Gaussian sum approach to approximate the multimodal a posteriori probability density function (pdf) of the phase in a blind context. We compare our method to the well known alternative consisting in discretizing the phase.Monte-Carlo simulations for the turbo code used in the DVB-RCS standard show that the performances of the proposed scheme are close to decoding with perfect knowledge of the phase.

Original language	English
Pages (from-to)	2619-2632
Number of pages	14
Journal	IEEE Transactions on Communications
Volume	57
Issue number	9
DOIs	https://doi.org/10.1109/TCOMM.2009.09.080028
Publication status	Published - 2 Nov 2009
Externally published	Yes

Keywords

Blind decoding
Gaussian sum parameterization
Iterative detection
Phase noise
Turbo codes

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10.1109/TCOMM.2009.09.080028

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title = "A gaussian sum approach to blind carrier phase estimation and data detection in turbo coded transmissions",

abstract = "We present a joint phase estimation and decoding method for convolutional turbo codes in the presence of strong phase noise. In order to overcome the problem of phase ambiguity and cycle slips, a combined state-space model for the timevarying phase and the component convolutional codes is introduced. The proposed algorithm uses a Gaussian sum approach to approximate the multimodal a posteriori probability density function (pdf) of the phase in a blind context. We compare our method to the well known alternative consisting in discretizing the phase.Monte-Carlo simulations for the turbo code used in the DVB-RCS standard show that the performances of the proposed scheme are close to decoding with perfect knowledge of the phase.",

keywords = "Blind decoding, Gaussian sum parameterization, Iterative detection, Phase noise, Turbo codes",

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AU - Lehmann, Frederic

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N2 - We present a joint phase estimation and decoding method for convolutional turbo codes in the presence of strong phase noise. In order to overcome the problem of phase ambiguity and cycle slips, a combined state-space model for the timevarying phase and the component convolutional codes is introduced. The proposed algorithm uses a Gaussian sum approach to approximate the multimodal a posteriori probability density function (pdf) of the phase in a blind context. We compare our method to the well known alternative consisting in discretizing the phase.Monte-Carlo simulations for the turbo code used in the DVB-RCS standard show that the performances of the proposed scheme are close to decoding with perfect knowledge of the phase.

AB - We present a joint phase estimation and decoding method for convolutional turbo codes in the presence of strong phase noise. In order to overcome the problem of phase ambiguity and cycle slips, a combined state-space model for the timevarying phase and the component convolutional codes is introduced. The proposed algorithm uses a Gaussian sum approach to approximate the multimodal a posteriori probability density function (pdf) of the phase in a blind context. We compare our method to the well known alternative consisting in discretizing the phase.Monte-Carlo simulations for the turbo code used in the DVB-RCS standard show that the performances of the proposed scheme are close to decoding with perfect knowledge of the phase.

KW - Blind decoding

KW - Gaussian sum parameterization

KW - Iterative detection

KW - Phase noise

KW - Turbo codes

U2 - 10.1109/TCOMM.2009.09.080028

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SN - 0090-6778

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SP - 2619

EP - 2632

JO - IEEE Transactions on Communications

JF - IEEE Transactions on Communications

IS - 9

ER -

A gaussian sum approach to blind carrier phase estimation and data detection in turbo coded transmissions

Abstract

Keywords

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