Maximizing coverage in low-power wide-area IoT networks

Alan Marchiori
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引用次数: 9

Abstract

The Internet of Things (IoT) promises to allow everyday objects to connect to the Internet and seamlessly interact with users and other machines. Essential for the IoT to function is a reliable Internet connection. In 2016 the International Telecommunication Union reports 3.9 billion people - 53% of the world's population are not using the Internet [1]. Projects like Loon (X) and Aquila (Facebook) aim to solve this connectivity gap using atmospheric satellites to deliver 4G-like signals to underserved regions. With the recent interest in low-power wide-area networks (LPWAN) in the license-free ISM bands, we consider using atmospheric satellites to improve coverage in LPWAN networks. We find that LPWAN technologies are compatible with atmospheric satellites and demonstrate that significant connectivity gains are possible by locating an LPWAN base station at altitude from 1 km – 28 km when compared to a typical ground-based base station.
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在低功耗广域物联网网络中最大化覆盖
物联网(IoT)承诺允许日常物品连接到互联网,并与用户和其他机器无缝交互。物联网功能的关键是可靠的互联网连接。2016年,国际电信联盟报告称,39亿人(占世界人口的53%)没有使用互联网。Loon (X)和Aquila (Facebook)等项目旨在利用大气卫星向服务不足的地区发送类似4g的信号,解决这一连接缺口。随着最近对免许可ISM频段的低功率广域网(LPWAN)的兴趣,我们考虑使用大气卫星来提高LPWAN网络的覆盖范围。我们发现LPWAN技术与大气卫星兼容,并证明与典型的地面基站相比,通过将LPWAN基站定位在1公里至28公里的高度,可以实现显著的连接增益。
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