物联网网络的基础:安全和低延迟通信

H. Poor, Mario Goldenbaum, Wei Yang
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引用次数: 12

摘要

新兴的物联网(IoT)具有与现有无线网络架构不同的几个显著特征。这包括部署大量(可能的)低复杂性终端;对低延迟、短包通信的需求(例如,支持自动化);基础设施少或没有;主要应用于数据采集、推理和控制。这些特征推动了新的基本原理的发展,这些基本原理可以提供对这种制度下通信限制的见解。本文通过物理层安全性和有限块长度信息理论分别讨论了在此背景下的安全性和低延迟两个问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fundamentals for IoT networks: secure and low-latency communications
The emerging Internet of Things (IoT) has several salient characteristics that differentiate it from existing wireless networking architectures. These include the deployment of very large numbers of (possibly) low-complexity terminals; the need for low-latency, short-packet communications (e.g., to support automation); light or no infrastructure; and primary applications of data gathering, inference and control. These characteristics have motivated the development of new fundamentals that can provide insights into the limits of communication in this regime. This paper discusses two issues in this context, namely security and low-latency, through the respective lenses of physical layer security and finite-blocklength information theory.
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