A NOVEL NEGATIVE L1 PENALTY APPROACH FOR MULTIUSER ONE-BIT MASSIVE MIMO DOWNLINK WITH PSK SIGNALING
Zheyu Wu, Ya-Feng Liu, Yu-Hong Dai, Bo Jiang
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This paper considers the one-bit precoding problem for the multiuser downlink massive multiple-input multiple-output (MIMO) system with phase shift keying (PSK) modulation and focuses on the celebrated constructive interference (CI)-based problem formulation. The existence of the discrete one-bit constraint makes the problem generally hard to solve. In this paper, we propose an efficient negative L1 penalty approach for finding a high-quality solution of the considered problem. Specifically, we first propose a novel negative L1 penalty model, which penalizes the one-bit constraint into the objective with a negative L1-norm term, and show the equivalence between (global and local) solutions of the original problem and the penalty problem when the penalty parameter is sufficiently large. We further transform the penalty model into an equivalent min-max problem and propose an efficient alternating optimization (AO) algorithm for solving it. The AO algorithm enjoys low per-iteration complexity and is guaranteed to converge to the stationary point of the min-max problem. Numerical results show that, compared against the state-of-the-art CI-based algorithms, the proposed algorithm generally achieves better bit-error-rate (BER) performance with lower computational cost.