Rate-Aware User Pair Scheduling With Joint Power Allocation and Decoding Order Selection in NOMA Systems

To enhance the outage performance of downlink non-orthogonal multiple access (NOMA) systems, we investigate opportunistic user pair scheduling (UPS) as well as the joint power allocation and decoding order selection (PA-DOS) for the scheduled user pair. Unlike most existing literature where the UPS and PA-DOS schemes are solely driven by channel conditions, we consider the impact of both the channel conditions and users' target rates in the scheme design, since these two factors jointly determine the occurrence of transmission outages. Specifically, a two-stage rate-aware scheme for joint UPS and PA-DOS is proposed, which is proved to achieve the minimum system outage probability and guarantee fair access opportunities among users. For performance evaluation, the exact system outage probability achieved by the proposed scheme is derived in closed form, based on which a high-signal-to-noise-ratio asymptotic result is further derived for meaningful insights. Our analytical results reveal a new finding: The diversity order achieved by our proposed scheme, which is also the maximum achievable diversity order of the considered NOMA system, varies with the users' target rates. Simulations confirm our findings and demonstrate that the proposed scheme can achieve a significant outage performance gain over the existing benchmark schemes.

Automated summary

This paper investigates opportunistic user pair scheduling and joint power allocation and decoding order selection to enhance the outage performance of downlink non-orthogonal multiple access (NOMA) systems. Unlike existing literature, the impact of both channel conditions and users' target rates is considered, and a two-stage rate-aware scheme is proposed to achieve the minimum system outage probability and fair access opportunities. Simulation results confirm the effectiveness of the proposed scheme.