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3GPP Release-17 Physical Layer Enhancements for LTE-M and NB-IoT

G. A. Medina-Acosta, Liping Zhang, Jie Chen, K. Uesaka, Yuan Wang, Ola Lundqvist, Johan Bergman

2022IEEE Communications Standards Magazine24 citationsDOI

Abstract

The 3rd Generation Partnership Project (3GPP) introduced Long-Term Evolution (LTE) for Machine-Type Communications (LTE-M) and Narrowband Internet of Things (NB-IoT) in Release 13 (Rel-13) as part of the fourth generation LTE. Both technologies provide wide-area connectivity to “things” that benefit from being connected including sensors, machines, actuators, and so on. LTE-M and NB-IoT continued their evolution across successive 3GPP releases providing higher data rates, power saving features, coexistence with the fifth generation New Radio (NR), and so on. In Release-17 (Rel-17), 16-quadrature amplitude modulation (16-QAM) in uplink (UL) and downlink (DL) for NB-IoT, as well as the support of up to 14 hybrid automatic repeat request (HARQ) processes and a new maximum DL transporting block size (TBS) for half duplex frequency-division duplexing (HD-FDD) LTE-M devices were standardized. This article provides an overview of the Rel-17 physical layer enhancements according to the 3GPP specifications, including descriptions of their technical components, qualitative gains, and performance evaluations. For NB-IoT, 16-QAM in DL nearly doubles the peak data rate using a larger maximum DL TBS, whereas 16-QAM in UL allows transmitting the largest TBS available for quadrature phase shift keying using half of the resources in the time domain. For LTE-M, for HD-FDD Category M1 (Cat-M1) UEs, the 14 HARQ processes feature adds full support for handling the presence of invalid subframes and increases the DL peak data rate by 20 percent, whereas the introduction of a larger maximum DL TBS further increases the DL peak data rate by 73.6 percent.

Topics & Concepts

Telecommunications linkHybrid automatic repeat requestComputer scienceQuadrature amplitude modulationPhysical layer3rd Generation Partnership Project 2LTE AdvancedQAMComputer networkBlock Error RateChannel (broadcasting)WirelessTelecommunicationsBit error rateIoT Networks and ProtocolsAdvanced Wireless Communication TechnologiesEnergy Harvesting in Wireless Networks