A MSE optimized polynomial equalizer for 16QAM and 64QAM constellation |
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Authors: | Monika Pinchas |
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Affiliation: | (1) I3S Laboratory, CNRS, University of Nice-Sophia Antipolis, Les Algorithmes/Euclide B, 2000 route des Lucioles, BP 121, 06903 Sophia-Antipolis Cedex, France;(2) Wireless Telecommunication Research Group (GTEL), Federal University of Cear?, Campus do Pici, 60.755-640, 6007 Fortaleza, Brazil |
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Abstract: | Recently, a Maximum Entropy (MaxEnt) algorithm and its derivation called WNEW algorithm were presented by the same author. It was shown that the MaxEnt and WNEW algorithm have improved equalization performance compared with Godard’s, reduced constellation algorithm and the sign reduced constellation algorithm. In this paper, a new equalization method is proposed for the 16QAM and 64QAM input constellation based on the WNEW algorithm which is extended with some polynomials of the equalized output and optimized with the mean square error criteria. According to simulation results, the new equalization method leads to over 15 dB advantage in the residual Intersymbol Interference compared to the results presented by Godard, 10 dB advantage compared with the WNEW algorithm and 5 dB advantage compared with the MaxEnt algorithm. |
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