English

Low-Complexity Downlink User Selection for Massive MIMO Systems

Information Theory 2015-06-02 v1 math.IT

Abstract

In this paper we propose a pair of low-complexity user selection schemes with zero-forcing precoding for multiuser massive MIMO downlink systems, in which the base station is equipped with a large-scale antenna array. First, we derive approximations of the ergodic sum rates of the systems invoking the conventional random user selection (RUS) and the location-dependant user selection (LUS). Then, the optimal number of simultaneously served user equipments (UEs), KK^*, is investigated to maximize the sum rate approximations. Upon exploiting KK^*, we develop two user selection schemes, namely KK^*-RUS and KK^*-LUS, where KK^* UEs are selected either randomly or based on their locations. Both of the proposed schemes are independent of the instantaneous channel state information of small-scale fading, therefore enjoying the same extremely-low computational complexity as that of the conventional RUS scheme. Moreover, both of our proposed schemes achieve significant sum rate improvement over the conventional RUS. In addition, it is worth noting that like the conventional RUS, the KK^*-RUS achieves good fairness among UEs.

Cite

@article{arxiv.1504.02990,
  title  = {Low-Complexity Downlink User Selection for Massive MIMO Systems},
  author = {Haijing Liu and Hui Gao and Shaoshi Yang and Tiejun Lv},
  journal= {arXiv preprint arXiv:1504.02990},
  year   = {2015}
}

Comments

11 pages, 27 figures, Accepted to publish on IEEE Systems Journal -- Special Issue on 5G Wireless Systems with Massive MIMO, Apr. 2015

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