Tomographic particle image velocimetry of desert locust wakes: instantaneous volumes combine to reveal hidden vortex elements and rapid wake deformation
暂无分享,去创建一个
Dirk Michaelis | Richard J Bomphrey | Per Henningsson | D. Michaelis | R. Bomphrey | P. Henningsson | D. Hollis | David Hollis
[1] Adrian L. R. Thomas,et al. Deformable wing kinematics in the desert locust: how and why do camber, twist and topography vary through the stroke? , 2009, Journal of The Royal Society Interface.
[2] S. Grossmann. The Spectrum of Turbulence , 2003 .
[3] T. Weis-Fogh. Biology and Physics of locust flight II. Flight performance of the desert locust (Schistocerca gregaria) , 1956, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences.
[4] Adrian L. R. Thomas,et al. Dynamic flight stability in the desert locust Schistocerca gregaria , 2003, Journal of Experimental Biology.
[5] Richard J. Bomphrey,et al. Advances in Animal Flight Aerodynamics Through Flow Measurement , 2011, Evolutionary Biology.
[6] Adrian L. R. Thomas,et al. Digital particle image velocimetry measurements of the downwash distribution of a desert locust Schistocerca gregaria , 2006, Journal of The Royal Society Interface.
[7] M. Wortmann,et al. ON THE SO-CALLED CONSTANT-LIFT REACTION OF MIGRATORY LOCUSTS , 1989 .
[8] B. Hallgrímsson. Editorial: What I Learned from Leigh Van Valen , 2011, Evolutionary Biology.
[9] T. Nonn,et al. Generation and visualization of volumetric PIV data fields , 2011 .
[10] P. Wilkin. The instantaneous force on a desert locust, Schistocerca gregaria (Orthoptera: Acrididae), flying in a wind tunnel. , 1990 .
[11] Bernhard Wieneke,et al. Tomographic particle image velocimetry , 2006 .
[12] George V Lauder,et al. Volumetric imaging of fish locomotion , 2011, Biology Letters.
[13] George V Lauder,et al. Volumetric imaging of shark tail hydrodynamics reveals a three-dimensional dual-ring vortex wake structure , 2011, Proceedings of the Royal Society B: Biological Sciences.
[14] John Young,et al. Details of Insect Wing Design and Deformation Enhance Aerodynamic Function and Flight Efficiency , 2009, Science.
[15] M. Wortmann,et al. WING MOVEMENTS AND LIFT REGULATION IN THE FLIGHT OF DESERT LOCUSTS , 1993 .
[16] R. Zbikowski,et al. Nonlinear time-periodic models of the longitudinal flight dynamics of desert locusts Schistocerca gregaria , 2005, Journal of The Royal Society Interface.
[17] M. S. Chong,et al. INTERPRETATION OF FLOW VISUALIZATION , 2000 .
[18] A Hedenström,et al. Time-resolved vortex wake of a common swift flying over a range of flight speeds , 2011, Journal of The Royal Society Interface.
[19] York Winter,et al. The near and far wake of Pallas' long tongued bat (Glossophaga soricina) , 2008, Journal of Experimental Biology.
[20] T. Lim. DYE AND SMOKE VISUALIZATION , 2000 .
[21] Fulvio Scarano,et al. An advection-based model to increase the temporal resolution of PIV time series , 2011, Experiments in fluids.
[22] Jinhee Jeong,et al. On the identification of a vortex , 1995, Journal of Fluid Mechanics.
[23] A. Hedenström,et al. Comparative aerodynamic performance of flapping flight in two bat species using time-resolved wake visualization , 2011, Journal of The Royal Society Interface.
[24] M. Jensen. Biology and physics of locust flight. III. The aerodynamics of locust flight , 1956, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences.
[25] Graham K. Taylor,et al. Application of digital particle image velocimetry to insect aerodynamics: measurement of the leading-edge vortex and near wake of a Hawkmoth , 2006 .
[26] Adrian L. R. Thomas,et al. Dragonfly flight: free-flight and tethered flow visualizations reveal a diverse array of unsteady lift-generating mechanisms, controlled primarily via angle of attack , 2004, Journal of Experimental Biology.
[27] Richard J. Bomphrey,et al. Time-varying span efficiency through the wingbeat of desert locusts , 2012, Journal of The Royal Society Interface.