On the Optimal Power Allocation and User Pairing for Uplink Non-Orthogonal Multiple Access Networks

TL;DR

This paper derives optimal user pairing and power allocation strategies for uplink NOMA networks, demonstrating their superiority over OMA in sum rate performance through analytical and simulation results.

Contribution

It introduces a novel optimal pairing scheme and analytical power allocation formulas for uplink NOMA, extending to networks with more than two users.

Findings

Optimal power allocation maximizes sum rate while ensuring fairness.

User pairing pairs best with worst channel users in 2K user networks.

NOMA outperforms OMA in sum rate based on simulations.

Abstract

In this paper, we derive the optimal user pairing and power allocation in uplink non orthogonal multiple access (NOMA) networks. The optimal power allocation that maximizes the sum rate is found for two user NOMA networks, while ensuring that the individual rates of NOMA users are at least equal to those they would achieve with orthogonal multiple access (OMA). Next, we prove that in a 2K user network and when the optimal power allocation is used, the optimal pairing reduces to pairing the user with index k to the user with index 2K-k+1, i.e., the user with the best channel condition and the one with the worst channel condition are paired together, the second best with the second worst and so on. Finally, the expressions of the corresponding optimal NOMA power coefficients are derived analytically for networks with more than two users. With these expressions at hand, our simulation results validate the superiority of NOMA over OMA in terms of sum rates.