Design and Performance Analysis of Multiband Microstrip Antennas for IoT applications via Satellite Communication

2018 Second International Conference on Green Computing and Internet of Things (ICGCIoT) Pub Date : 2018-08-01 DOI:10.1109/ICGCIOT.2018.8753037

N. Sanil, Pasumarthy Ankith Naga Venkat, Mohammed Riyaz Ahmed

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引用次数: 8

Abstract

Modern portable devices with wireless communication capability are being deployed every day in the industry. With embedded sensors, connected devices the innovation is leading to industry 4.0. While lack of network may be a major concern in the proliferation of IoT, the need of terrestrial network can effectively be overcome by exploiting the potential of well-established satellite communication. Here we propose a multi-band circularly polarized microstrip antenna which operates at microwave (Super High Frequency) frequencies of 5.8 GHz, 6.76 GHz, and 8.4 GHz with a fractional bandwidth of 170 MHz, 335 MHz, and 560 MHz respectively. First two frequencies are related to C-band while the later lies in X-band. The importance of various performance parameters, of the designed antenna, is analyzed. The investigations of current work will potentially open a market to sell additional facilities in GEOstationary satellites in C-, Ku- and Ka-band. The advent of using satellite for IoT applications will open new doors to innovation leading to the new constellation (of satellites) dedicated to IOT applications.

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卫星通信物联网多波段微带天线的设计与性能分析

具有无线通信功能的现代便携式设备每天都在行业中部署。有了嵌入式传感器，连接设备的创新将引领工业4.0。虽然缺乏网络可能是物联网扩散的一个主要问题，但通过利用成熟的卫星通信潜力，可以有效地克服地面网络的需求。本文提出了一种多波段圆极化微带天线，其工作频率分别为5.8 GHz、6.76 GHz和8.4 GHz，分数带宽分别为170 MHz、335 MHz和560 MHz。前两个频率属于c波段，后两个频率属于x波段。分析了所设计天线各性能参数的重要性。对目前工作的调查将有可能打开一个市场，出售C、Ku和ka波段地球同步卫星的额外设施。将卫星用于物联网应用的出现将为创新打开新的大门，从而导致专用于物联网应用的新(卫星)星座。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 Second International Conference on Green Computing and Internet of Things (ICGCIoT)

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