Chicks of cavity-nesting birds do not 'exercise' prior to fledging. [PDF]
R Soc Open SciEarle K +3 more
europepmc +1 more source
Fuzzy logic based nonlinear blending hybrid control of a kestrel-inspired ornithopter operating in sinusoidal and dryden gusts. [PDF]
Sci RepAbbasi SH +3 more
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Aerobatic maneuvers in insect-scale flapping-wing aerial robots via deep-learned robust tube model predictive control. [PDF]
Sci AdvHsiao YH +6 more
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Centripetal Acceleration Reaction: An Effective and Robust Mechanism for Flapping Flight in Insects. [PDF]
PLoS One, 2015 Zhang C, Hedrick TL, Mittal R.
europepmc +1 more source
PPO-Based Reinforcement Learning Control of a Flapping-Wing Robot with a Bio-Inspired Sensing and Actuation Feather Unit. [PDF]
Sensors (Basel)Hussain S, Messaoudi M, Imran M, Tang D.
europepmc +1 more source
Flapping-wing robot achieves bird-style self-takeoff by adopting reconfigurable mechanisms. [PDF]
Sci AdvChen A +5 more
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Wing hinge dynamics influence stroke amplitudes in flapping wing insects: a frequency response approach. [PDF]
J R Soc InterfaceCasey CB +3 more
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Quantitative analysis of stem-palaeognath flight capabilities sheds light on ratite dispersal and flight loss. [PDF]
Biol LettWidrig K +4 more
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Agile manoeuvrable flight via collaborative wing-tail adjustment of a flapping wing robot. [PDF]
Commun EngLiu G +5 more
europepmc +1 more source
Robotics on Bird-like Flapping Flight
Journal of the Robotics Society of Japan, 2016 openaire +2 more sources