Georg Buchner scite author profile

International Journal of Antennas and Propagation

Elmarissi

2016

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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A Miniaturized Multiband Antenna Array for Robust Navigation in Aerial Applications

Circiu

et al. 2019

Sensors

Satellite navigation is more and more important in a plethora of very different application fields, ranging from bank transactions to shipping, from autonomous driving to aerial applications, such as avionics as well as unmanned aerial vehicles (UAVs). Due to the increasing dependency on satellite navigation, the need for robust systems able to counteract unintentional or intentional interferences is growing. When considering interference-robust designs; however, the complexity increases. Top performance is obtained through the use of multi-antenna receivers capable of performing spatial nulling in the direction of the interference signals. In particular, mobile applications (aeronautics, UAVs, automotive) have a substantial interest in robust navigation, but they also have the strongest constraints on the weight and available places for installation, with the use of bigger and heavier systems posing a substantial problem. In order to overcome this limitation, the present work shows a miniaturized five element (4+1) antenna array, which operates at the L1/E1 band (with array capability), as well as at the L5/E5 band (as a single antenna). The proposed antenna array is able to fit into a 3.5-inch footprint, i.e., is compliant with the most widespread footprints for single antennas. Moreover, it is capable of multiband operation and meets the requirements of dual-frequency multi-constellation (DFMC) systems. Thanks to its extreme miniaturization and its compliance with current airborne single antenna footprints, the presented antenna array is suitable for easy integration in future aerial platforms, while enabling robustness and enhancing interference mitigation techniques using multi-antenna processing.

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Compact 6+1 antenna array for robust GNSS applications

Elmarissi

et al. 2016

The increase in GNSS satellites 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, being able at the same time to counteract threats such as interference and jamming, smart antenna systems are being developed worldwide, with the requirements of multi-band operation and compactness. In order to answer such need, the present work proposes a miniaturized 6+1 array able to operate at E5, L2, E6 bands with the central element and at E1/L1 with 6 elements, providing therefore also beamforming and nulling capability at such band, with an overall footprint of only 7" (180 mm).

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3D Printed All-GNSS Bands Miniaturized Antenna and Array for Robust Satellite Navigation

Varma

et al. 2020

A Multiband Miniaturized Antenna Array for Robust Navigation in Airborne Applications

Caizzone¹,

Buchner²,

Cuntz³

et al. 2019