Downlink Massive MU-MIMO with Successively-Regularized Zero Forcing Precoding
In this letter, we consider linear precoding for downlink massive multi-user (MU) multiple-input multiple-output (MIMO) systems. We propose the novel successively-regularized zero forcing (SRZF) precoding, which exploits successive null spaces of the MIMO channels of the users, along with regularization, to control the inter-user interference and to enhance performance and robustness to imperfect channel state information (CSI) at the base station (BS). We compare the weighted sum rate of the proposed SRZF precoding with those of block diagonalization and conventional and regularized zero forcing precoding for fixed and locally-optimal power allocation strategies as well as for perfect and imperfect CSI via computer simulations. Our simulation results reveal that for both underloaded and critically-loaded systems and perfect and imperfect CSI at the BS, the proposed SRZF precoding significantly outperforms the considered baseline schemes, making it an attractive option for downlink massive MU-MIMO systems.
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