Dynamic Session Layer Selection in IoT Actuation

IF 2 Q3 TELECOMMUNICATIONS Journal of Computer Networks and Communications Pub Date : 2023-07-28 DOI:10.37256/cnc.1220232874
Rolando Herrero
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引用次数: 0

Abstract

While most Internet of Things (IoT) solutions involve sensing, some of them also introduce actuation mechanisms. Specifically, devices interact with assets in the environment and transmit sensor readouts to applications that perform analytics. These applications typically reside on the network core and, in turn, process the readouts that trigger the transmission of actuation commands to the device. One important issue in these schemes is the nature of the communication channels. Most devices are wireless and therefore they are affected by the effects of signal multipath fading that results in application loss. More importantly, these impairments may cause actuation commands to be lost or to be critically delayed. In this context, several standard mechanisms have been proposed for the transmission of traffic from the application to the devices. They fall under two main architectural categories: (1) Representational State Transfer (REST) and (2) Event Driven Architecture (EDA). In this paper, we analyze two protocols associated with each of these two architectures by comparing them in order to assess their efficiency in IoT actuation solutions. This analysis leads to the development of a mathematical model that enables the dynamic selection of the right technology based on network impairments.
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物联网驱动中的动态会话层选择
虽然大多数物联网(IoT)解决方案涉及传感,但其中一些还引入了驱动机制。具体来说,设备与环境中的资产交互,并将传感器读数传输到执行分析的应用程序。这些应用程序通常驻留在网络核心上,并依次处理触发向设备传输驱动命令的读出。这些方案中的一个重要问题是通信通道的性质。大多数设备都是无线的,因此它们受到信号多径衰落的影响,从而导致应用程序丢失。更重要的是,这些损伤可能导致驱动命令丢失或严重延迟。在这种情况下,已经提出了几种标准机制,用于将流量从应用程序传输到设备。它们属于两个主要的体系结构类别:(1)具象状态传输(REST)和(2)事件驱动体系结构(EDA)。在本文中,我们分析了与这两种架构相关的两个协议,通过比较它们来评估它们在物联网驱动解决方案中的效率。这种分析导致了一个数学模型的发展,该模型能够根据网络缺陷动态选择正确的技术。
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来源期刊
CiteScore
5.30
自引率
5.00%
发文量
18
审稿时长
15 weeks
期刊介绍: The Journal of Computer Networks and Communications publishes articles, both theoretical and practical, investigating computer networks and communications. Articles explore the architectures, protocols, and applications for networks across the full spectrum of sizes (LAN, PAN, MAN, WAN…) and uses (SAN, EPN, VPN…). Investigations related to topical areas of research are especially encouraged, including mobile and wireless networks, cloud and fog computing, the Internet of Things, and next generation technologies. Submission of original research, and focused review articles, is welcomed from both academic and commercial communities.
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