Annie Picart scite author profile

This paper presents a receiving scheme intended to combat the detrimental effects of intersymbol interference for digital transmissions protected by convolutional codes. The receiver performs two successive soft‐output decisions, achieved by a symbol detector and a channel decoder, through an iterative process. At each iteration, extrinsic information is extracted from the detection and decoding steps and is then used at the next iteration as in turbo‐decoding. From the implementation point of view, the receiver can be structured in a modular way and its performance, in bit error rate terms, is directly related to the number of modules used. Simulation results are presented for transmissions on Gauss and Rayleigh channels. The results obtained show that turbo‐equalization manages to overcome multipath effects, totally on Gauss channels, and partially but still satisfactorily on Rayleigh channels.

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Near optimum decoding of product codes

Pyndiah

et al.

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Performance of block turbo coded 16-QAM and 64-QAM modulations

Pyndiah

Picart

Glavieux

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Turbo-detection: a new approach to combat channel frequency selectivity

Picart

Didier

Glavieux

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In this paper, is proposed a receiver to combat Intersymbol Interference (ISI) generated over a frequency selective channel. The receiver is based on a symbol detector and a channel decoder separated by a deinterleaver. Through an iterative detecting-decoding process, using turbo-codes principle, the so-called turbo-detector manages to overcome frequency selectivity, especially over a Gaussian channel. Simulation results show the turbo-detector efficiency over both Gaussian and GSM channels.

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Orthogonal frequency division multiplexing with BFSK modulation in frequency selective Rayleigh and Rician fading channels

Glavieux

Cochet

Picart

1994

IEEE Trans. Commun.

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Annie Picart

Iterative correction of intersymbol interference: Turbo‐equalization

Near optimum decoding of product codes

Performance of block turbo coded 16-QAM and 64-QAM modulations

Turbo-detection: a new approach to combat channel frequency selectivity

Orthogonal frequency division multiplexing with BFSK modulation in frequency selective Rayleigh and Rician fading channels

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