Power Minimization Techniques in Distributed Base Station Antenna Systems using Non-Orthogonal Multiple Access

TL;DR

This paper proposes novel power minimization methods for distributed base station systems using non-orthogonal multiple access, demonstrating significant power savings over traditional approaches.

Contribution

It introduces new joint resource allocation techniques for DBS-NOMA systems, addressing power reduction with manageable complexity, a novel approach compared to prior CBS-based studies.

Findings

Significant power savings with DBS-NOMA over DBS-OMA and CBS-NOMA.

Effective joint allocation of subcarriers, antennas, and power.

Enhanced system efficiency and reduced total transmit power.

Abstract

This paper introduces new approaches for combining non-orthogonal multiple access (NOMA) with distributed base station (DBS) deployments. The purpose of the study is to unlock the true potentials of DBS systems in the NOMA context, since all previous works dealing with power minimization in NOMA are performed in the CBS (centralized base station) context. This work targets a minimization of the total transmit power in each cell, under user rate and power multiplexing constraints. Different techniques are designed for the joint allocation of subcarriers, antennas and power, with a particular care given to insuring a moderate complexity. Results show an important gain in the total transmit power obtained by the DBS-NOMA combination, with respect to both DBS-OMA (orthogonal multiple access) and CBS-NOMA deployment scenarios.