English

Joint Power Control and User Association for NOMA-Based Full-Duplex Systems

Signal Processing 2019-08-05 v1

Abstract

This paper investigates the coexistence of non-orthogonal multiple access (NOMA) and full-duplex (FD) to improve both spectral efficiency (SE) and user fairness. In such a scenario, NOMA based on the successive interference cancellation technique is simultaneously applied to both uplink (UL) and downlink (DL) transmissions in an FD system. We consider the problem of jointly optimizing user association (UA) and power control to maximize the overall SE, subject to user-specific quality-of-service and total transmit power constraints. To be spectrally-efficient, we introduce the tensor model to optimize UL users' decoding order and DL users' clustering, which results in a mixed-integer non-convex problem. For practically appealing applications, we first relax the binary variables and then propose two low-complexity designs. In the first design, the continuous relaxation problem is solved using the inner convex approximation framework. Next, we additionally introduce the penalty method to further accelerate the performance of the former design. For a benchmark, we develop an optimal solution based on brute-force search (BFS) over all possible cases of UAs. It is demonstrated in numerical results that the proposed algorithms outperform the conventional FD-based schemes and its half-duplex counterpart, as well as yield data rates close to those obtained by BFS-based algorithm.

Keywords

Cite

@article{arxiv.1908.00833,
  title  = {Joint Power Control and User Association for NOMA-Based Full-Duplex Systems},
  author = {Hieu V. Nguyen and Van-Dinh Nguyen and Octavia A. Dobre and Diep N. Nguyen and Eryk Dutkiewicz and Oh-Soon Shin},
  journal= {arXiv preprint arXiv:1908.00833},
  year   = {2019}
}

Comments

This work has been accepted for publication in IEEE Transactions on Communications

R2 v1 2026-06-23T10:38:12.084Z