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Using NOMA for Enabling Broadcast/Unicast Convergence in 5G Networks

Eneko Iradier, Jon Montalbán, Lorenzo Fanari, Pablo Angueira, Liang Zhang, Yiyan Wu, Wei Li

2020IEEE Transactions on Broadcasting48 citationsDOIOpen Access PDF

Abstract

This paper addresses the challenge of broadcast and unicast convergence by proposing a PHY/MAC (Physical Layer/Medium Access Control) architecture for 5G New Radio (NR). The solution is based on Power domain Non Orthogonal Multiple Access (P-NOMA). The main PHY/MAC configuration parameters have been analyzed theoretically and their impact on the service configurations is presented in this manuscript. The system concept has been translated into a prototype model and different evaluation tests are presented. First, simulations show that the PHY layer performs better than Time Division Multiplexing/Frequency Division Multiplexing (TDM/FDM) choices of current broadband access systems. Second, performance tests using a network simulation tool are described. The results for capacity, latency and reliability demonstrate that the proposed solution offers an excellent broadcast/unicast convergence choice with significant gain values with respect to legacy PHY/MAC alternatives.

Topics & Concepts

UnicastPHYComputer sciencePhysical layerComputer networkMultimedia Broadcast Multicast ServiceOrthogonal frequency-division multiplexingMultiplexingLatency (audio)NomaBroadcasting (networking)Reliability (semiconductor)WirelessTelecommunicationsPower (physics)MulticastChannel (broadcasting)Telecommunications linkQuantum mechanicsPhysicsTelecommunications and Broadcasting TechnologiesAdvanced Wireless Communication TechnologiesPAPR reduction in OFDM
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