Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
1984.
The aerodynamics of hovering insect flight. IV. Aerodynamic mechanisms.
Philosophical Transactions of the Royal Society of London. B, Biological Sciences,
Vol. 305,
Issue. 1122,
p.
79.
1984.
The aerodynamics of hovering insect flight. V. A vortex theory.
Philosophical Transactions of the Royal Society of London. B, Biological Sciences,
Vol. 305,
Issue. 1122,
p.
115.
Spedding, G. R.
1987.
The Wake of a Kestrel (Falco Tinnunculus) in Gliding Flight.
Journal of Experimental Biology,
Vol. 127,
Issue. 1,
p.
45.
Spedding, G. R.
1987.
The Wake of a Kestrel (Falco Tinnunculus) in Flapping Flight.
Journal of Experimental Biology,
Vol. 127,
Issue. 1,
p.
59.
Spedding, G. R.
1992.
Mechanics of Animal Locomotion.
Vol. 11,
Issue. ,
p.
51.
Vest, Michael
and
Katz, Joseph
1995.
Unsteady aerodynamic model of flapping wings.
Vest, Michael S.
and
Katz, Joseph
1996.
Unsteady aerodynamic model of flapping wings.
AIAA Journal,
Vol. 34,
Issue. 7,
p.
1435.
Smith, Michael J. C.
1996.
Simulating moth wing aerodynamics - Towards the development of flapping-wing technology.
AIAA Journal,
Vol. 34,
Issue. 7,
p.
1348.
Smith, Michael
1996.
Leading-edge effects with moth wing aerodynamics - Towards the development of flapping-wing technology.
Smith, Michael J. C.
Wilkin, Peter J.
and
Williams, Marc H.
1996.
The Advantages of an Unsteady Panel Method in Modelling the Aerodynamic Forces on Rigid Flapping Wings.
Journal of Experimental Biology,
Vol. 199,
Issue. 5,
p.
1073.
Smith, Michael
and
Zenieh, Salah
1996.
Trajectory control of flapping wings - Towards the development of flapping-wing technology.
Smith, Michael
and
Smith, Michael
1997.
Reinstating inquiry into mechanized flapping-wing flight - Realizing the integrity of the ornithopter.
Walker, Jeffrey A.
and
Westneat, Mark W.
1997.
Labriform Propulsion in Fishes: Kinematics of Flapping Aquatic Flight in the Bird Wrasse Gomphosus Varius (Labridae).
Journal of Experimental Biology,
Vol. 200,
Issue. 11,
p.
1549.
Hall, Kenneth
Pigott, Steven
Hall, Steven
Hall, Kenneth
Pigott, Steven
and
Hall, Steven
1997.
Power requirements for large-amplitude flapping flight.
Hall, Kenneth C.
Pigott, Steven A.
and
Hall, Steven R.
1998.
Power Requirements for Large-Amplitude Flapping Flight.
Journal of Aircraft,
Vol. 35,
Issue. 3,
p.
352.
Rayner, Jeremy M. V.
1999.
Estimating power curves of flying vertebrates.
Journal of Experimental Biology,
Vol. 202,
Issue. 23,
p.
3449.
Vest, Michael
and
Katz, Joseph
1999.
Aerodynamic study of a flapping-wing micro-UAV.
Leroy, A.
and
Devinant, Ph.
1999.
A general approach for computing unsteady 3D thin lifting and/or propulsive systems derived from a complete theory.
International Journal for Numerical Methods in Fluids,
Vol. 29,
Issue. 1,
p.
75.
Sunada, S.
and
Ellington, C. P.
2000.
Approximate Added-Mass Method for Estimating Induced Power for Flapping Flight.
AIAA Journal,
Vol. 38,
Issue. 8,
p.
1313.
2001.
Fixed and Flapping Wing Aerodynamics for Micro Air Vehicle Applications.
p.
287.