Moïse Djoko-Kouam scite author profile

Moïse Djoko-Kouam

5Publications

91Citation Statements Received

126Citation Statements Given

How they've been cited

How they cite others

121

Affiliations

ECAM Rennes Louis de Broglie, CentraleSupélec, Institute of Electronics and Telecommunications of Rennes

Publications

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Application of a joint and iterative MMSE-based estimation of SNR and frequency-selective channel for OFDM systems

Savaux

Louët

Djoko-Kouam

et al. 2013

EURASIP J. Adv. Signal Process.

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This article presents an iterative minimum mean square error-(MMSE-) based method for the joint estimation of signal-to-noise ratio (SNR) and frequency-selective channel in an orthogonal frequency division multiplexing (OFDM) context. We estimate the SNR thanks to the MMSE criterion and the channel frequency response by means of the linear MMSE (LMMSE). As each estimation requires the other one to be performed, the proposed algorithm is iterative. In this article, a realistic case is considered; i.e., the channel covariance matrix used in LMMSE is supposed to be totally unknown at the receiver and must be estimated. We will theoretically prove that the algorithm converges for a relevantly chosen initialization value. Furthermore simulations show that the algorithm quickly converges to a solution that is close to the one in which the covariance matrix is perfectly known. Compared to existing SNR estimation methods, the algorithm improves the trade-off between the number of required pilots and the SNR estimation quality.

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Effect of polynomial interpolations on the estimation performance of a frequency‐selective Rayleigh channel in orthogonal frequency division multiplexing systems

Savaux

Djoko-Kouam

Louët

et al. 2015

IET signal process.

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To cite this version:VincentIn this article, we provide an analytical expression of the mean square error (MSE) and the bit error rate (BER) lower bound of an orthogonal frequency division multiplexing (OFDM) signal transmission over a multipath Rayleigh channel considering estimation errors. For some pilot arrangements, an interpolation is required to perform the channel estimation. Due to their low complexity, polynomial based interpolations are usually applied at the receiver, which induces estimation and signal errors. Based on a statistical analysis of these errors, the exact MSE expression of the channel estimation is provided. Furthermore, with a geometrical study of the constellation, an analytical BER limit is derived. For a given channel, it is shown that the errors are perfectly characterized by the interpolation method and the frequency gap between the pilot tones. All the steps of the analytical developments are validated through simulations. The proposed analysis then predicts the performance of the receiver, thus enabling the latter to a priori select the interpolation method with minimum complexity, according to a given channel and a BER target.

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Minimum mean‐square‐error expression of LMMSE channel estimation in SISO OFDM systems

et al. 2013

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International audienceAn expression of the minimum mean square error (MMSE) of the linear MMSE channel estimation is given in the case of a non-invertible channel covariance matrix, as in single-input single-output (SISO) OFDM system. A matrix expression, already proposed for a multi-input multi-output OFDM system in a previous article, is not valid in SISO. A new proof is then proposed, by deriving a scalar expression of the MMSE, which leads to solve an optimisation problem. Furthermore, we show that the proposed solution is the global minimum. Simulations validate the proposed development

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OFDM/OQAM: An appropriate modulation scheme for an optimal use of the spectrum

Skrzypczak

Siohan

Chotkan³

et al. 2008

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Artificial channel aided LMMSE estimation for time–frequency selective channels in OFDM context

et al. 2013

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