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Autonomous Robots
Erschienen in: Autonomous Robots 5/2020

09.01.2020

Relative navigation of autonomous GPS-degraded micro air vehicles

verfasst von: David O. Wheeler, Daniel P. Koch, James S. Jackson, Gary J. Ellingson, Paul W. Nyholm, Timothy W. McLain, Randal W. Beard

Erschienen in: Autonomous Robots | Ausgabe 5/2020

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Abstract

Unlike many current navigation approaches for micro air vehicles, the relative navigation (RN) framework presented in this paper ensures that the filter state remains observable in GPS-denied environments by working with respect to a local reference frame. By subtly restructuring the problem, RN ensures that the filter uncertainty remains bounded, consistent, and normally-distributed, and insulates flight-critical estimation and control processes from large global updates. This paper thoroughly outlines the RN framework and demonstrates its practicality with several long flight tests in unknown GPS-denied and GPS-degraded environments. The relative front end is shown to produce low-drift estimates and smooth, stable control while leveraging off-the-shelf algorithms. The system runs in real time with onboard processing, fuses a variety of vision sensors, and works indoors and outdoors without requiring special tuning for particular sensors or environments. RN is shown to produce globally-consistent, metric, and localized maps by incorporating loop closures and intermittent GPS measurements.
Vorheriger Artikel Joint optimization based on direct sparse stereo visual-inertial odometry
Nächster Artikel Graph search of a moving ground target by a UAV aided by ground sensors with local information

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Fußnoten
1
The PX4 firmware is customized to accept inputs from the onboard computer while also allowing an RC safety pilot to override these commands if necessary. We have subsequently transitioned to using the ROSflight autopilot (Jackson et al. 2016a); see https://​rosflight.​org.
 
2
Individual edge covariances can also be combined using the fourth-order analytical approximation presented by Barfoot and Furgale (2014).
 
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Metadaten
Titel
Relative navigation of autonomous GPS-degraded micro air vehicles
verfasst von
David O. Wheeler
Daniel P. Koch
James S. Jackson
Gary J. Ellingson
Paul W. Nyholm
Timothy W. McLain
Randal W. Beard
Publikationsdatum
09.01.2020
Verlag
Springer US
Erschienen in
Autonomous Robots / Ausgabe 5/2020
Print ISSN: 0929-5593
Elektronische ISSN: 1573-7527
DOI
https://doi.org/10.1007/s10514-019-09899-4

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