| Session |
Author(s) |
Title |
66 |
Burnett, NP*; Badger, MA; Combes, M |
Shooting the gap: how bees protect their wings in windy, dynamic obstacle courses |
66 |
Lynch, J*; Gau, J; Sponberg, S; Gravish, N |
Dimensional analysis reveals limits on peak efficiency of flapping wing flight due to structural damping |
66 |
Maeda, M*; Walker, SM; Fabian, JM; Siwanowicz, I; Lin, HT; Bomphrey, RJ |
Numerical simulation of high-fidelity dragonfly wings for “Fly-by-Feel” |
66 |
Johns, W*; Davis, L; Jankauski, M |
Reconstructing full-field flapping wing dynamics from sparse measurements |
66 |
Aiello, BR*; Sikandar, UB; Minoguchi, H; Kimball, KC; Hamilton, CA; Kawahara, AY; Sponberg, S |
The evolution of wing shape and movement in bombycoid moths reveals two distinct strategies for agile flight |
66 |
Reade, JE*; Schwab, RK; Jankauski, MA |
Influence of flexural rigidity on force production in flapping wings |
66 |
Mamo, AH*; Weber, AI; Mohren, TL; Babaei, M; Daniel, TL |
Finite element analyses of flapping wings meets inertial sensing |
66 |
Salcedo, MK*; Shevchenko, PD; Socha, JJ |
Whole-wing microtomographic imaging of grasshopper wings |
66 |
Billah, MA*; Faruque, IA |
A model for multi-agent group motion inspired by insect visuomotor feedback |
66 |
Kasoju, VT*; Santhanakrishnan, A |
Sticky flapper: three-dimensional flapping flight with bristled wings |
66 |
van Veen, WG; van Leeuwen, JL; Muijres, FT* |
Acceleration-reaction forces in high-frequency flapping insect wings, a systematic numerical study |
66 |
Socha, JJ*; Pulliam, JN; Salcedo, MK; Hernandez, AM; Weiss, TM; Jackson, BE |
Wing flexibility of cicadas during takeoff: A pandemic story |
