Meander line Antenna with Metamaterial Structure for AIS (Automatic Identification System) Micro Satellite

2021 17th International Conference on Quality in Research (QIR): International Symposium on Electrical and Computer Engineering Pub Date : 2021-10-13 DOI:10.1109/QIR54354.2021.9716168

Rosza Madina, F. Zulkifli

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Abstract

The rapid development of AIS (Automatic Identification System) data usage applications, makes AIS began to be applied in satellites to obtain a larger coverage area. Indonesia through the Indonesian National Aeronautics and Space Agency (LAPAN) has two micro satellites with the AIS mission, namely LAPAN-A2/LAPAN-ORARI and LAPAN-A3/LAPAN-IPB. LAPAN will also build another micro satellite that carries AIS in order to get near real-time data. AIS based satellite has problems with large VHF antenna dimensions and data collisions in high traffic areas. The final dimension of the purposed antenna is 133.00 x 88.00 x 1.52 mm3, therefore this antenna can be applied in micro satellite. The simulation results show that the antenna works at a frequency 160.93-164.04 MHz with gain 1.654 dB. Miniaturization with meander-line and metamaterial structure technique has succeeded in reducing dimensions by 42%. This antenna has an omnidirectional radiation pattern with a beamwidth of 88.26°, and when this VHF antenna is installed on a satellite, the projection of the antenna on the earth’s surface is reduced by 50% from existing antenna. Hence this antenna can be used to reduce data collision of the satellite.

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AIS(自动识别系统)微型卫星的超材料结构弯曲线天线

AIS(自动识别系统)数据使用应用的迅速发展，使得AIS开始在卫星上应用，以获得更大的覆盖范围。印度尼西亚通过印度尼西亚国家航空和航天局(LAPAN)有两颗微型卫星执行AIS任务，即LAPAN- a2 /LAPAN- orari和LAPAN- a3 /LAPAN- ipb。LAPAN还将建造另一颗携带AIS系统的微型卫星，以便获得接近实时的数据。基于AIS的卫星在高流量区域存在甚高频天线尺寸大、数据冲突等问题。最终天线尺寸为133.00 x 88.00 x 1.52 mm3，可应用于微型卫星。仿真结果表明，该天线工作频率为160.93 ~ 164.04 MHz，增益为1.654 dB。采用弯曲线和超材料结构技术的微型化成功地将尺寸缩小了42%。该天线具有全向辐射方向图，波束宽度为88.26°，当该甚高频天线安装在卫星上时，该天线在地球表面的投影比现有天线减少50%。因此，该天线可用于减少卫星数据碰撞。

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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来源期刊

2021 17th International Conference on Quality in Research (QIR): International Symposium on Electrical and Computer Engineering

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