Cell-Free Massive MIMO-NOMA with Optima Backhaul Combining

This paper studies the uplink (UL) transmission of a cell free massive multiple-input multiple-output (massive MEMO) system in which multiple base stations (or access points), each equipped with a multiple-antenna array and connected to a central processing unit (CPU) over a backhaul network, simultaneously serve multiple users in a cell-free service area. The paper focuses on the nonorthogonal multiple access (NOMA) approach for sharing pilot sequences among users. Unlike the conventional cell-free massive IVIIMO-NOMA systems in which the UL signals from different access points are equally combined over the backhaul network, this paper develops an optimal backhaul combining (OBC) method to maximize the UL signal-to-interference plus noise ratio (SINK). With the proposed OBC method, a closed-form SINK expression is derived under Rayleigh fading and used to formulate a max-min quality-of-service (Q0S) power control problem to further enhance the system performance. Numerical results corroborate the analysis and demonstrate that the proposed optimal backhaul combining method clearly outperforms equal-gain combining.