Wu, Y., Sanguinetti, L., Keskin, M. F., Gustavsson, U., Graell i Amat, A., & Wymeersch, H. (2024, October 24). Uplink Cell-Free Massive MIMO OFDM with Phase Noise-Aware Channel Estimation: Separate and Shared LOs. arXiv. https://arxiv.org/abs/2410.18722v1
This paper investigates the impact of phase noise (PN) on the uplink performance of cell-free massive MIMO OFDM networks, considering both separate and shared local oscillator (LO) scenarios. The study aims to develop accurate PN-aware channel estimation algorithms to mitigate the performance degradation caused by PN.
The authors develop an uplink cell-free mMIMO OFDM signal model incorporating both uncorrelated and correlated PN. They analyze the mismatch arising from applying single-carrier PN models to OFDM systems and derive a novel uplink achievable spectral efficiency (SE) expression under PN. The paper proposes two distributed PN-aware channel and common phase error (CPE) estimators for separate LOs: an LMMSE-based estimator and a deep learning-based estimator. For shared LOs, a centralized channel and CPE estimator is proposed, exploiting PN correlation.
The study highlights the importance of considering accurate PN models in cell-free massive MIMO OFDM networks. The proposed PN-aware channel estimation algorithms effectively mitigate PN-induced performance degradation in both separate and shared LO scenarios, paving the way for improved SE and network reliability.
This research contributes significantly to the field of cell-free massive MIMO by addressing the critical challenge of PN mitigation in OFDM systems. The proposed algorithms and analysis provide valuable insights for practical network design and optimization, enabling the deployment of cost-efficient LOs without compromising performance.
The paper focuses on the uplink scenario. Future research could extend the analysis and algorithms to the downlink, considering the impact of PN on precoding techniques. Additionally, investigating the performance of the proposed algorithms under more realistic channel models and hardware impairments would be beneficial.
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