2D Quasi-Steady Flow Simulation of an Actual Flapping Wing
K.P. Dial, “An inside look at how birds fly: experimental studies of the internal and external processes controlling flight,” 1994 Report the Aerospace Profession, 38th Symposium Proceedings, The Beverly Hilton, Beverly Hills, CA, 1994.
Steven Ho, H. Nassef, N. Pornsinsirirak, Y.-C. Tai, C.-M. Ho, “Unsteady aerodynamics and flow control for flapping wing flyers,” Progress in Aerospace Sciences, volume 39, 2003, pp. 635–681.
M. H. Dickinson and K. G. Gotz, “Unsteady aerodynamic performance of model wings at low Reynolds numbers,” Journal of Experimental Biology, volume 174, 1993, pp. 45–64.
C. P. Ellington, C. van Den Berg, A. P. Willmott, and A.L.R. Thomas, “Leading-edge vortices in insect flight,” Nature, volume 384, 1996, pp. 626–30.
T. Maxworthy, “Experiments on the Weis-Fogh mechanism of lift generation by insects in hovering flight. Part 1. Dynamics of the fling,” Journal of Fluid Mechanics, volume 93, 1979, pp. 47–63.
M. Sun and J. Tang, “Unsteady aerodynamic force generation by a modelfruit fly wing in flapping motion,” Journal of Experimental Biology, volume 205, 2002, pp. 55–70.
S. Ho, “Unsteady aerodynamics and adaptive flow control of micro air vehicles,” Ph.D. dissertation, University of California, Los Angeles, 2003.
K. Danesh and Tafti, “Unsteady aerodynamics of a flapping wing for mico air vehicle (MAV) applications,” Proceedings of the 37th national & 4th international conference on fluid mechanics and fluid power, pp. 1-11, 2010.
M. S. Vest and J. Katz, “Unsteady aerodynamic model of flapping wings,” AIAA Journal, volume 34, number 7, 1996, pp. 1435-1440.
M. A. Moelyadi and G. Sachs, “CFD-based determination of dynamic stability derivatives in yaw for a bird,” Journal of Bionic Engineering, volume 4, number 4, 2007, pp. 201-208.
G. Sachs and M. A. Moelyadi, “CFD-based determination of aerodynamic effects on birds with extremely large dihedral,” Journal of Bionic Engineering, volume 7, number 1, 2010, pp. 95-101.
Z. J. Wang, “Vortex shedding and frequency selection in flapping flight,” Journal of Fluid Mechanics, volume 410, 2000, pp.323-341.
Z. J. Wang, “The role of drag in insect hovering,” Journal of Experimental Biology, volume 207, 2004, pp. 4147-4155.
M. A. Moelyadi and G. Sachs, “Unsteady aerodynamics of flapping wing of a bird,” J. Eng. Technol. Sci., volume 45, number 1, 2013, pp. 47-60.
L. J. Yang, C. K. Hsu, H. C. Han, and J. M. Miao, “A light flapping micro-aerial-vehicle using electrical discharge wire cutting technique,” Journal of Aircraft, volume 46, number 6, 2009, pp. 1866-1874.
L. J. Yang, C. Y. Kao, and C. K. Huang, “Development of flapping ornithopters by precision injection molding,” Applied Mechanics and Materials, volume 163, 2012, pp. 125-132.
L. J. Yang, A. F. Kuo, and C. K. Hsu, “Wing stiffness on light flapping MAVs,” Journal of Aircraft, volume 49, number 2, 2012, pp. 423-431.
L. J. Yang, “The micro-air-vehicle Golden Snitch and its figure-of-8 flapping,” Journal of Applied Science and Engineering, volume 15, number 3, 2012, pp. 197-212.
L. J. Yang, F. Y. Hsiao, W. T. Tang, and I. C. Huang, “3D flapping trajectory of a micro-air-vehicle and its application to unsteady flow simulation,” International Journal of Advanced Robotic Systems, volume 10, 2013, paper no. 264.
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution 3.0 License.