Cell-Free Massive MIMO Under Mobility: A Fairness-Differentiated Handover Scheme

While cell-free massive MIMO (CF-mMIMO) offers both uniform and high network-wide throughput in static networks, its performance in a mobile network is not yet fully addressed. In this paper, we evaluate the performance of a mobile CF-mMIMO network under a comprehensive throughput model and show that it suffers from large performance degradation due to the combined effect of channel aging and handover delay. To improve the performance of CF-mMIMO under mobility, we propose a fairness-differentiated handover scheme. Our scheme differentiates the handover policy for different users by their channel conditions compared to a threshold based on Jain's fairness index, in order to prioritize handovers for the poorly served users. We present an extensive evaluation of the mobile throughput performance of our handover scheme with realistic urban network distributions and UE mobility patterns. Our results show that our scheme significantly outperforms the existing literature benchmarks when considering both channel aging and handover delay cost. Importantly, the advantage of UE-centric over network-centric CF-mMIMO, of uniformly good performance over the network, is uniquely preserved under mobility by our handover scheme. We thus show that CF-mMIMO can be a feasible architecture for practical mobile networks.