Under the Sand: Navigation and Localization of a Micro Aerial Vehicle for Landmine Detection with Ground-Penetrating Synthetic Aperture Radar
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Date
2022-06
Publication Type
Journal Article
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Abstract
Ground-penetrating radar mounted on a micro aerial vehicle (MAV) is a promising tool to assist humanitarian landmine clearance. However, the quality of synthetic aperture radar images depends on accurate and precise motion estimation of the radar antennas as well as generating informative viewpoints with the MAV. This paper presents a complete and automatic airborne ground-penetrating synthetic aperture radar (GPSAR) system. The system consists of a spatially calibrated and temporally synchronized industrial grade sensor suite that enables navigation above ground level, radar imaging, and optical imaging. A custom mission planning framework allows generation and automatic execution of stripmap and circular GPSAR trajectories controlled above ground level as well as aerial imaging survey flights. A factor graph based state estimator fuses measurements from dual receiver real-time kinematic (RTK) global navigation satellite system (GNSS) and an inertial measurement unit (IMU) to obtain precise, high-rate platform positions and orientations. Ground truth experiments showed sensor timing as accurate as 0.8μs and as precise as 0.1μs with localization rates of 1kHz. The dual position factor formulation improves online localization accuracy up to 40 % and batch localization accuracy up to 59 % compared to a single position factor with uncertain heading initialization. Our field trials validated a localization accuracy and precision that enables coherent radar measurement addition and detection of radar targets buried in sand. This validates the potential as an aerial landmine detection system.
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published
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Journal / series
Volume
2
Pages / Article No.
1028 - 1067
Publisher
Field Robotics
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Date collected
Date created
Subject
aerial robotics; navigation; position estimation; sensors; humanitarian; demining; SAR; ground penetrating radar (GPR); drones; Factor graphs; time synchronization; control; remote sensing; mmWave
Organisational unit
03737 - Siegwart, Roland Y. (emeritus) / Siegwart, Roland Y. (emeritus)
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Is supplemented by: https://youtu.be/EfDhFKg5GEk