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Soft biohybrid morphing wings with feathers underactuated by wrist and finger motion

Eric Chang, Laura Y. Matloff, Amanda K. Stowers, David Lentink

Year
2020
Citations
165
Access
Open access

Abstract

The skeletal and feather kinematics show that the 20 primary and 20 secondary feathers are coordinated via approximately linear transfer functions controlled by wrist and finger motion. To replicate this control principle in a robot, we developed a biohybrid morphing wing with real feathers to understand the underlying design principles. The outcome, PigeonBot, embodies 42 degrees of freedom that control the position of 40 elastically connected feathers via four servo-actuated wrist and finger joints. Our flight tests demonstrate that the soft feathered wings morph rapidly and robustly under aerodynamic loading. They not only enable wing morphing but also make robot interactions safer, the wing more robust to crashing, and the wing reparable via "preening." In flight tests, we found that both asymmetric wrist and finger motion can initiate turn maneuvers-evidence that birds may use their fingers to steer in flight.

Keywords

MorphingFeatherUnderactuationMotion (physics)Computer scienceAnatomyComputer visionArtificial intelligenceGeologyRobot

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