Accommodating unobservability to control flight attitude with optic flow
Guido C. H. E. Croon (),
Julien J. G. Dupeyroux,
Christophe Wagter,
Abhishek Chatterjee,
Diana A. Olejnik and
Franck Ruffier
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Guido C. H. E. Croon: Delft University of Technology
Julien J. G. Dupeyroux: Delft University of Technology
Christophe Wagter: Delft University of Technology
Abhishek Chatterjee: Delft University of Technology
Diana A. Olejnik: Delft University of Technology
Franck Ruffier: Aix Marseille Université, CNRS, ISM
Nature, 2022, vol. 610, issue 7932, 485-490
Abstract:
Abstract Attitude control is an essential flight capability. Whereas flying robots commonly rely on accelerometers1 for estimating attitude, flying insects lack an unambiguous sense of gravity2,3. Despite the established role of several sense organs in attitude stabilization3–5, the dependence of flying insects on an internal gravity direction estimate remains unclear. Here we show how attitude can be extracted from optic flow when combined with a motion model that relates attitude to acceleration direction. Although there are conditions such as hover in which the attitude is unobservable, we prove that the ensuing control system is still stable, continuously moving into and out of these conditions. Flying robot experiments confirm that accommodating unobservability in this manner leads to stable, but slightly oscillatory, attitude control. Moreover, experiments with a bio-inspired flapping-wing robot show that residual, high-frequency attitude oscillations from flapping motion improve observability. The presented approach holds a promise for robotics, with accelerometer-less autopilots paving the road for insect-scale autonomous flying robots6. Finally, it forms a hypothesis on insect attitude estimation and control, with the potential to provide further insight into known biological phenomena5,7,8 and to generate new predictions such as reduced head and body attitude variance at higher flight speeds9.
Date: 2022
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DOI: 10.1038/s41586-022-05182-2
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