# Distributed Wideband Sensing-based Architecture for Unlicensed Massive   IoT Communications

**Authors:** Ghaith Hattab, Danijela Cabric

arXiv: 1812.06238 · 2018-12-18

## TL;DR

This paper introduces a distributed sensing and resource allocation architecture for unlicensed IoT networks, enabling efficient wideband spectrum utilization and high device connectivity with minimal interference.

## Contribution

It proposes a novel distributed sensing and resource allocation framework that improves spectrum detection and spatial reuse for massive IoT deployments in unlicensed bands.

## Key findings

- More spatio-spectral resources identified
- Lower misdetection of incumbents
- Increased IoT device connectivity

## Abstract

Providing Internet connectivity to a massive number of Internet-of-things (IoT) objects over the unlicensed spectrum requires: (i) identifying a very large number of narrowband channels in a wideband spectrum and (ii) aggressively reusing the available channels over space to accommodate the high density of IoT devices. To this end, we propose a sensing-based architecture that identifies spectral and spatial resources at a fine resolution. In particular, we first propose a sensing assignment scheduler, where each base station (BS) is assigned a subset of the spectrum to sense at a high resolution. We then propose a distributed sensing algorithm, where BSs locally process and share their sensing reports, so that each BS obtains occupancy information of the wideband spectrum at its location. Once the spatio-spectral resource blocks are identified, we further propose a distributed resource allocation algorithm that maintains high spatial reuse of spectral opportunities while limiting the intra-network and inter-network interference. Numerical simulations are presented to validate the effectiveness of the proposed distributed algorithms, comparing them to centralized and non-cooperative schemes. It is shown that our architecture identifies more spatio-spectral resources, with lower misdetection of incumbents. As a result, more IoT devices are connected with limited interference into incumbents.

## Full text

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## Figures

36 figures with captions in the complete paper: https://tomesphere.com/paper/1812.06238/full.md

## References

43 references — full list in the complete paper: https://tomesphere.com/paper/1812.06238/full.md

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Source: https://tomesphere.com/paper/1812.06238