Ground-Based Augmentation System Antenna Array Size Reduction via Self-Cardioid Element

2020 ◽  
Vol 35 (10) ◽  
pp. 1228-1235
Author(s):  
James Quinlan ◽  
Daniel Aloi
Keyword(s):  
Antenna Array ◽  
Federal Aviation Administration ◽  
Size Reduction ◽  
Global Navigation Satellite Systems ◽  
Array Size ◽  
Antenna Element ◽  
Navigation Satellite ◽  
Differential Correction ◽  
Satellite Systems ◽  
Global Navigation Satellite

A Ground-Based Augmentation System (GBAS) monitors the signals of Global Navigation Satellite Systems and broadcasts differential correction signals. It relies on Multipath Limiting Antennas (MLAs) that can receive signals over almost the entire upper hemisphere while greatly attenuating signals reflected from the ground. The current Federal Aviation Administration (FAA)-approved system utilizes an MLA that is approximately 182.9 cm tall. In this paper, a substitute MLA is designed that is only 97.05 cm tall (approximately 44% reduction). The size reduction is accomplished by reducing the number of array elements from 19 to 11. We developed a novel self-cardioid antenna element that allows for this reduction.

scholarly journals Miniaturized Dielectric Resonator Antenna Array for GNSS Applications

2016 ◽  
Vol 2016 ◽  
pp. 1-10 ◽  
Author(s):  
S. Caizzone ◽  
G. Buchner ◽  
W. Elmarissi
Keyword(s):  
Antenna Array ◽  
Dielectric Resonator ◽  
Smart Antenna ◽  
Global Navigation Satellite Systems ◽  
Navigation Satellite ◽  
New Wave ◽  
Dielectric Resonator Antenna ◽  
Satellite Systems ◽  
Global Navigation Satellite ◽  
Antenna Systems

The increase in global navigation satellite systems (GNSS) availability and services is fostering a new wave of applications related to satellite navigation. Such increase is also followed by more and more threats, aiming at signal disruption. In order to fully exploit the potentialities of precise and reliable navigation, being able at the same time to counteract threats such as interference, jamming, and spoofing, smart antenna systems are being investigated worldwide, with the requirements of multiband operation and compactness. In order to answer such need, the present work proposes a miniaturized dielectric resonator antenna (DRA) 2 × 2 array able to operate at E5/L5, L2, and E6 bands, with an overall footprint of only 3.5′′ (89 mm).

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