English

Rate-Splitting assisted Massive Machine-Type Communications in Cell-Free Massive MIMO

Signal Processing 2022-05-06 v3

Abstract

This letter focuses on integrating rate-splitting multiple-access (RSMA) with time-division-duplex Cell-free Massive MIMO (multiple-input multiple-output) for massive machine-type communications. Due to the large number of devices, their sporadic access behaviour and limited coherence interval, we assume a random access strategy with all active devices utilizing the same pilot for uplink channel estimation. This gives rise to a highly pilot-contaminated scenario, which inevitably deteriorates channel estimates. Motivated by the robustness of RSMA towards imperfect channel state information, we propose a novel RSMA-assisted downlink transmission framework for cell-free massive MIMO. On the basis of the downlink achievable spectral efficiency of the common and private streams, we devise a heuristic common precoder design and propose a novel max-min power control method for the proposed RSMA-assisted scheme. Numerical results show that RSMA effectively mitigates the effect of pilot contamination in the downlink and achieves a significant performance gain over a conventional cell-free massive MIMO network.

Keywords

Cite

@article{arxiv.2201.07508,
  title  = {Rate-Splitting assisted Massive Machine-Type Communications in Cell-Free Massive MIMO},
  author = {Anup Mishra and Yijie Mao and Luca Sanguinetti and Bruno Clerckx},
  journal= {arXiv preprint arXiv:2201.07508},
  year   = {2022}
}
R2 v1 2026-06-24T08:54:59.209Z