GPS Interference Cancelation Using Metamaterials

IF 3.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of Antennas and Propagation Pub Date : 2024-12-11 DOI:10.1109/OJAP.2024.3515475

Amir Jafargholi;Romain Fleury

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引用次数: 0

Abstract

This paper introduces a novel passive method and structure designed to mitigate unwanted interference at the antenna in conventional Global Positioning System (GPS) applications. In contrast to traditional approaches that typically utilize high-impedance structures with limited cancelation or antenna arrays employing null-steering techniques, which often result in increased complexity and cost, this study proposes the use of a single-element circularly polarized truncated microstrip patch antenna radially loaded by a magneto-dielectric metamaterial (MTM) structure. The problem is analytically examined, and an appropriate meta cell is chosen, designed, and fabricated. Numerical simulations demonstrate that owing to the magnetic behavior of a new low-profile capacitively-loaded loop (CLL), it serves as an effective structure for suppressing unwanted azimuthal incident plane waves by up to 40 dB. The proposed MTM cover features a cylindrical shape with a diameter and height of

$0.27\lambda _{0}$

and

$0.42\lambda _{0}$

, respectively, achieving a gain and efficiency of 6.5 dBi and 85%, respectively.

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利用超材料消除GPS干扰

本文介绍了一种新的无源方法和结构，旨在减少传统全球定位系统（GPS）应用中天线的不必要干扰。传统方法通常使用具有有限抵消的高阻抗结构或采用零转向技术的天线阵列，这通常会导致复杂性和成本的增加，与此相反，本研究提出使用由磁介电超材料（MTM）结构径向加载的单元件圆极化截断微带贴片天线。对该问题进行了分析研究，并选择、设计和制造了合适的元单元。数值模拟表明，由于一种新的低轮廓电容负载环（CLL）的磁性行为，它可以作为一种有效的结构来抑制不需要的方位角入射平面波，抑制幅度可达40 dB。所提出的MTM罩为圆柱形，直径为$0.27\lambda _{0}$，高度为$0.42\lambda _{0}$，增益和效率分别为6.5 dBi和85%。

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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