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A CFD-informed quasi-steady model of flapping-wing aerodynamics (2015)
Journal Article
Nakata, T., Liu, H., & Bomphrey, R. J. (2015). A CFD-informed quasi-steady model of flapping-wing aerodynamics. Journal of Fluid Mechanics, 783, 323-343. https://doi.org/10.1017/jfm.2015.537

Aerodynamic performance and agility during flapping flight are determined by the combination of wing shape and kinematics. The degree of morphological and kinematic optimization is unknown and depends upon a large parameter space. Aimed at providing... Read More about A CFD-informed quasi-steady model of flapping-wing aerodynamics.

The effect of aspect ratio on the leading-edge vortex over an insect-like flapping wing (2015)
Journal Article
Phillips, N., Knowles, K., & Bomphrey, R. J. (2015). The effect of aspect ratio on the leading-edge vortex over an insect-like flapping wing. https://doi.org/10.1088/1748-3190/10/5/056020

Insect wing shapes are diverse and a renowned source of inspiration for the new generation of autonomous flapping vehicles, yet the aerodynamic consequences of varying geometry is not well understood. One of the most defining and aerodynamically sign... Read More about The effect of aspect ratio on the leading-edge vortex over an insect-like flapping wing.

The complex aerodynamic footprint of desert locusts revealed by large-volume tomographic particle image velocimetry (2015)
Journal Article
Henningsson, P., Michaelis, D., Nakata, T., Schanz, D., Geisler, R., Schroeder, A., & Bomphrey, R. J. (2015). The complex aerodynamic footprint of desert locusts revealed by large-volume tomographic particle image velocimetry. https://doi.org/10.1098/rsif.2015.0119

Particle image velocimetry has been the preferred experimental technique with which to study the aerodynamics of animal flight for over a decade. In that time, hardware has become more accessible and the software has progressed from the acquisition o... Read More about The complex aerodynamic footprint of desert locusts revealed by large-volume tomographic particle image velocimetry.