Hybrid Aerial And Aquatic Locomotion In An At-Scale Robotic Insect
2015 IEEE/RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS (IROS)(2015)
摘要
Here we present a suite of theoretical, computational, and experimental studies culminating in the first aerial and aquatic capable insect-scale robot. We develop a computational fluid dynamics (CFD) simulation to model fluid-wing interaction in air and water. From CFD and a system dynamics analysis we predict that a multi-modal flapping strategy will enable locomotion in both air and water for a single device. We validate the CFD predictions by running at-scale, robotic wing-flapping experiments. Finally, we demonstrate for the first time a flying and swimming capable flapping-wing insect-like robot.
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关键词
aquatic capable insect-scale robot,swimming capable flapping-wing insect-like robot,flying capable flapping-wing insect-like robot,robotic wing-flapping experiments,multimodal flapping strategy,system dynamics analysis,fluid-wing interaction,CFD simulation,computational fluid dynamics simulation,aerial capable insect-scale robot,hybrid aerial-and-aquatic locomotion
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