A Cupola-Shaped Multimode Multiport Antenna for Aerial Direction Finding

TL;DR

This paper introduces a novel cupola-shaped multimode multiport antenna designed for aerial direction finding, demonstrating its effectiveness through simulations, manufacturing, and flight tests for collision avoidance systems.

Contribution

The paper presents a new cupola-shaped M$^3$PA with a statistical evaluation method for direction-finding accuracy, validated by real-world flight tests.

Findings

Antenna achieves unambiguous direction finding in flight tests.

Measured far-fields match theoretical predictions.

The statistical evaluation predicts RMSE effectively.

Abstract

A multimode multiport antenna (M$^3$PA), constisting of a single conducting structure, is proposed for use with the airborne collision avoidance system (ACAS). Its cupola-shaped surface is selected from a set of aerodynamically suitable and symmetric structures. The selection is based on a presented statistical evaluation procedure for direction-finding (DF) antennas and algorithms, which predicts the root mean square error (RMSE) of the estimation using characteristic modes (CMs). A demonstrator antenna and feed network is manufactured and its three ports are measured in an anechoic chamber. The results match the intended far-fields of an electric monopole and two magnetic dipoles. The presented flight test results show that the antenna is capable of unambiguous DF across the desired angular range in a real world environment.