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Disambiguation of "Yang, Xingbang"

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Computational simulation of a submersible unmanned aerial vehicle impacting with water.

, , , , , , and . ROBIO, page 1138-1143. IEEE, (2013)

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Yang Yang

Yang Yang

Yang Yang

Yang Yang

Yang Yang

 

Other publications of authors with the same name

Design and CFD Based Simulation Analysis of a Biotic Webbed Feet Propulsion Mechanism for Hydroplaning., , , , , and . ROBIO, page 83-87. IEEE, (2018)Modeling and simulation of cormorant's webbed-feet assisted take-off from water surface., , , , , and . ROBIO, page 1659-1664. IEEE, (2017)Design, Fabrication and Morphing Mechanism of Soft Fins and Arms of a Squid-like Aquatic-aerial Vehicle with Morphology Tradeoff., , , , , , and . ROBIO, page 1020-1026. IEEE, (2019)Development of a turtle-like underwater vehicle using central pattern generator., , , , , , , and . ROBIO, page 44-49. IEEE, (2013)The kinematics analysis of webbed feet during cormorants' swimming., , , , , , and . ROBIO, page 301-306. IEEE, (2016)Design and Experiments of a Squid-Like Aquatic-Aerial Vehicle with Soft Morphing Fins and Arms., , , , , , and . ICRA, page 4681-4687. IEEE, (2019)Computational simulation of a submersible unmanned aerial vehicle impacting with water., , , , , , and . ROBIO, page 1138-1143. IEEE, (2013)Numerical Analysis of the Body, Webbed-Feet, and Wings During Cormorant's Take Off., , , , , and . ROBIO, page 94-99. IEEE, (2018)Terrain-Aware Stride-Level Trajectory Forecasting for a Powered Hip Exoskeleton via Vision and Kinematics Fusion., , and . CoRR, (2024)Terrain-Aware Stride-Level Human Hip Joint Angle Forecasting via Vision and Kinematics Fusion., , and . IEEE Robotics Autom. Lett., 9 (9): 7685-7690 (September 2024)