Directional Graph-Based Energy Model for IoT Wireless Relay Systems

G. Astudillo, M. Kadoch, B. Abdulrazak
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引用次数: 2

Abstract

The Internet of Things (IoT) consists of integrating sensors into ordinary objects that are connected to the Internet across wired and wireless networks. Due to its greater coverage and low upfront investment, wireless networks have the potential to allow the massive and fast deployment of IoT. In recent years, relay wireless systems equipped with directional antennas have been identified as a robust technology that can boost the performance of IoT networks in terms of coverage, connectivity, and capacity. Contrary to omnidirectional antennas, which can radiate energy in all directions, directional antennas can focus the energy in a specific direction, extending the coverage range for a given power level. In this paper, we propose a method to model the energy consumed by the relaying nodes when directional antennas are used in the IoT wireless network. This study has demonstrated that by adapting the beamwidth of the antennas, nodes can reach furthest nodes and consequently, reduce the number of hops between source and destination. This fact not only reduces the end-to-end delay and improves the network throughput but also reduces the average energy consumed by the entire network.
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基于方向图的物联网无线中继系统能量模型
物联网(IoT)是将传感器集成到通过有线和无线网络连接到互联网的普通物体中。由于其更大的覆盖范围和较低的前期投资,无线网络有可能实现物联网的大规模和快速部署。近年来,配备定向天线的中继无线系统已被确定为一种强大的技术,可以在覆盖、连接和容量方面提高物联网网络的性能。与全向天线可以向各个方向辐射能量不同,定向天线可以将能量集中在一个特定的方向,在给定的功率水平下扩大覆盖范围。在本文中,我们提出了一种方法来模拟在物联网无线网络中使用定向天线时中继节点消耗的能量。该研究表明,通过调整天线的波束宽度,节点可以到达最远的节点,从而减少源和目的之间的跳数。这不仅减少了端到端延迟,提高了网络吞吐量,而且降低了整个网络的平均能耗。
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