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Christina Harvey
Christina Harvey
Assistant Professor, Mechanical and Aerospace Engineering, University of California, Davis
Verified email at ucdavis.edu - Homepage
Title
Cited by
Cited by
Year
A review of avian-inspired morphing for UAV flight control
C Harvey, LL Gamble, CR Bolander, DF Hunsaker, JJ Joo, DJ Inman
Progress in Aerospace Sciences 132, 100825, 2022
672022
Wing morphing allows gulls to modulate static pitch stability during gliding
C Harvey, VB Baliga, P Lavoie, DL Altshuler
Journal of the Royal Society Interface 16 (150), 20180641, 2019
552019
Birds can transition between stable and unstable states via wing morphing
C Harvey, VB Baliga, JCM Wong, DL Altshuler, DJ Inman
Nature 603 (7902), 648-653, 2022
502022
Gull-inspired joint-driven wing morphing allows adaptive longitudinal flight control
C Harvey, VB Baliga, CD Goates, DF Hunsaker, DJ Inman
Journal of the Royal Society Interface 18 (179), 20210132, 2021
202021
Aerodynamic efficiency of gliding birds vs comparable UAVs: a review
C Harvey, DJ Inman
Bioinspiration & Biomimetics 16 (3), 031001, 2021
182021
Gull dynamic pitch stability is controlled by wing morphing
C Harvey, DJ Inman
Proceedings of the National Academy of Sciences 119 (37), e2204847119, 2022
172022
Load alleviation of feather-inspired compliant airfoils for instantaneous flow control
LL Gamble, C Harvey, DJ Inman
Bioinspiration & Biomimetics 15 (5), 056010, 2020
102020
Lessons from natural flight for aviation: then, now and tomorrow
C Harvey, G de Croon, GK Taylor, RJ Bomphrey
Journal of experimental biology 226 (Suppl_1), jeb245409, 2023
92023
Skeletal morphology of bird wings is determined by thermoregulatory demand for heat dissipation in warmer climates
BC Weeks, C Harvey, JA Tobias, C Sheard, Z Zhou, DF Fouhey
bioRxiv, 2023.02. 06.527306, 2023
32023
Gull wing morphing allows active control of trade-offs in efficiency, maneuverability and stability
C Harvey
University of British Columbia, 2018
22018
Deep learning reduces sensor requirements for gust rejection on a small uncrewed aerial vehicle morphing wing
KPT Haughn, C Harvey, DJ Inman
Communications Engineering 3 (1), 53, 2024
12024
Nature, smart structures, and morphing UAVs
DJ Inman, KPT Haughn, C Harvey
Sensors and Smart Structures Technologies for Civil, Mechanical, and …, 2023
12023
Deep reinforcement learning reveals fewer sensors are needed for autonomous gust alleviation
K Haughn, C Harvey, DJ Inman
arXiv preprint arXiv:2304.03133, 2023
12023
A longitudinal linear parameter-varying model of a gliding gull during wing morphing
C Harvey
AIAA SCITECH 2023 Forum, 0827, 2023
12023
Control force required to morph the elbow and wrist in gulls
C Harvey, VB Baliga, DJ Inman
AIAA Scitech 2020 Forum, 1037, 2020
12020
Pitch control effectiveness of the avian elbow and wrist via a numerical lifting line analysis
C Harvey, VB Baliga, DL Altshuler, DJ Inman
AIAA Scitech 2019 Forum, 0853, 2019
12019
Joint extension speed dictates bio-inspired morphing trajectories for optimal longitudinal flight dynamics
C Harvey
Journal of the Royal Society Interface 21 (213), 20230734, 2024
2024
Analysis of bird wing airfoil aerodynamic efficiency
R Glenn, LB Dahlke, A Engilis Jr, C Harvey
AIAA SCITECH 2024 Forum, 1127, 2024
2024
ECR Spotlight-Christina Harvey
C Harvey
JOURNAL OF EXPERIMENTAL BIOLOGY 226, 2023
2023
Avian flight maneuverability: An inertial perspective
C Harvey, VB Baliga, JCM Wong, DL Altshuler, DJ Inman
INTEGRATIVE AND COMPARATIVE BIOLOGY 62, S136-S136, 2023
2023
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