NB-IoT Uplink Receiver Design and Performance Study
Arvind Chakrapani

TL;DR
This paper presents a detailed design and performance analysis of an NB-IoT uplink receiver, including mathematical modeling, implementation on commercial hardware, and compatibility with 3GPP Release 15 enhancements.
Contribution
It introduces novel receiver algorithms exploiting signal structure, validated through simulations and real hardware, and discusses integration with upcoming 3GPP standards.
Findings
Receiver design improves uplink performance in low SNR conditions
Implementation on Qualcomm platform demonstrates practical viability
Compatibility with 3GPP Release 15 enhancements confirmed
Abstract
LTE Narrowband Internet of Things (NB-IoT) is a 3GPP defined cellular technology that is designed to enable connectivity to many low-cost and low power/throughput IoT devices running delay-tolerant applications. NB-IoT can coexist within LTE spectrum either in a standalone mode, in-band with LTE or in guard-band of LTE. With NB-IoT designed to operate in very low signal to noise power ratios, the uplink receiver design presents several challenges. In this paper the design and performance of a NB-IoT uplink receiver is studied in detail. First, receiver design for NB-IoT uplink channels, with corresponding mathematical analysis, is presented. Specifically, it is shown how the time/frequency structure of signals can be exploited to enhance the receiver performance. Second, the performance of each channel is characterized with both link level simulations and implementation on a…
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