Minimum Euclidean Distance Based Precoding for Three-Dimensional Multiple-Input Multiple-Ouput Spatial Multiplexing Systems

Abstract : Through a feedback link, the channel state information acquired at the receiver is known at the transmitter and MIMO precoding techniques can be applied according to various criteria. In this paper, an efficient linear precoder based on the maximization of the minimum Euclidean distance between two received data vectors for three data-stream MIMO spatial multiplexing systems is proposed. By using a singular value decomposition, the precoding matrix can be parameterized as the product of a power allocation matrix and an input shaper matrix. According to this representation, the optimal precoders are proposed for the case of three independent data-streams. Simulation results over Rayleigh fading channels show considerable bit-error-rate improvement with the proposed solution in comparison with other precoding strategies.
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Article dans une revue
IEEE Transactions on Wireless Communications, Institute of Electrical and Electronics Engineers, 2012, 11 (7), pp.2486 - 2495 x-editorial-board = yes, x-hal = x-international-audience = yes
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Contributeur : Olivier Berder <>
Soumis le : dimanche 14 octobre 2012 - 00:11:16
Dernière modification le : mercredi 16 mai 2018 - 11:23:26

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  • HAL Id : hal-00741559, version 1

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Quoc-Tuong Ngo, Olivier Berder, Pascal Scalart. Minimum Euclidean Distance Based Precoding for Three-Dimensional Multiple-Input Multiple-Ouput Spatial Multiplexing Systems. IEEE Transactions on Wireless Communications, Institute of Electrical and Electronics Engineers, 2012, 11 (7), pp.2486 - 2495 x-editorial-board = yes, x-hal = x-international-audience = yes. 〈hal-00741559〉

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