Robust and Secure Resource Allocation for Full-Duplex MISO Multicarrier NOMA Systems

TL;DR

This paper develops and compares optimal and suboptimal resource allocation algorithms for secure, full-duplex MISO multicarrier NOMA systems, enhancing system secrecy rates while managing computational complexity.

Contribution

It introduces a robust optimization framework for secure resource allocation in full-duplex MISO NOMA systems, including an optimal solution via monotonic optimization and a low-complexity suboptimal algorithm.

Findings

Suboptimal algorithm closely matches optimal performance.

Proposed system significantly improves secrecy rates.

System ensures secure uplink and downlink communication.

Abstract

In this paper, we study the resource allocation algorithm design for multiple-input single-output (MISO) multicarrier non-orthogonal multiple access (MC-NOMA) systems, in which a full-duplex base station serves multiple half-duplex uplink and downlink users on the same subcarrier simultaneously. The resource allocation is optimized for maximization of the weighted system throughput while the information leakage is constrained and artificial noise is injected to guarantee secure communication in the presence of multiple potential eavesdroppers. To this end, we formulate a robust non-convex optimization problem taking into account the imperfect channel state information (CSI) of the eavesdropping channels and the quality-of-service (QoS) requirements of the legitimate users. Despite the non-convexity of the optimization problem, we solve it optimally by applying monotonic optimization which yields the optimal beamforming, artificial noise design, subcarrier allocation, and power allocation policy. The optimal resource allocation policy serves as a performance benchmark since the corresponding monotonic optimization based algorithm entails a high computational complexity. Hence, we also develop a low-complexity suboptimal resource allocation algorithm which converges to a locally optimal solution. Our simulation results reveal that the performance of the suboptimal algorithm closely approaches that of the optimal algorithm. Besides, the proposed optimal MISO NOMA system can not only ensure downlink and uplink communication security simultaneously but also provides a significant system secrecy rate improvement compared to traditional MISO orthogonal multiple access (OMA) systems and two other baseline schemes.