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|---|---|---|---|---|---|
| Belotserkovsky, S.M. and Lifanov, I.K. | Method of discrete vortices | 1993 | book | ||
| Belotserkovsky, S.M. and Nisht, M.I. | Separated and continuous flow of an ideal fluid around thin wings | 1978 | book | ||
| Bin Abas, M.F., Bin Mohd Rafie, A.S., Bin Yusoff, H. and Bin Ahmad, K.A. | Flapping wing micro-aerial-vehicle: Kinematics, membranes, and flapping mechanisms of ornithopter and insect flight | 2016 | Chinese Journal of Aeronautics Vol. 29(5), pp. 1159-1177 |
article | DOI |
| Dickinson, M.H. and Götz, K.G. | Unsteady aerodynamic performance of model wings at low Reynolds numbers | 1993 | Journal of Experimental Biology Vol. 174, pp. 45-64 |
article | DOI |
| Dovgii, S.A. and Shekhovtsov, A.V. | An improved vortex lattice method for nonstationary problems | 2001 | Journal of Mathematical Sciences Vol. 104(6), pp. 1615-1627 |
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| Dovgii, S.A. and Shekhovtsov, A.V. | Approbation of the IMDV for a class of problems on wing oscillation in a viscous medium with a restricted solution on edges | 2009 | Bulletin of V. N. Karazin Kharkiv National University, series Mathematical modeling. Information technology. Automated control systems Vol. 12(863), pp. 111-128 |
article | |
| Dynnikova, G.Y. | An analog of the Bernoulli and Cauchy-Lagrange integrals for a time-dependent vortex flow of an ideal incompressible fluid | 2000 | Fluid Dynamics Vol. 35, pp. 24-32 |
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| Dynnikova, G.Y. | Vortex motion in two-dimensional viscous fluid flows | 2003 | Fluid Dynamics Vol. 38, pp. 670-678 |
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| Ellington, C.P. | Aerodynamics and the origin of insect flight | 1991 | Advances in Insect Physiology Vol. 23Advances in Insect Physiology, pp. 171-210 |
incollection | DOI |
| Gerdes, J., Bruck, H.A. and Gupta, S.K. | A simulation-based approach to modeling component interactions during design of flapping wing aerial vehicles | 2019 | International Journal of Micro Air Vehicles Vol. 11, pp. 1-18 |
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| Greengard, C. | The core spreading vortex method approximates the wrong equation | 1985 | Journal of Computational Physics Vol. 61(2), pp. 345-348 |
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| Kida, T., Nakajima, T. and Suemitsu, H. | Second order core spreading vortex method in two-dimensional viscous flows | 1998 | JSME International Journal Series B Vol. 41(2), pp. 441-446 |
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| Kochin, N.Y., Kibel, I.A. and Roze, N.V. | Theoretical hydromechanics | 1964 | book | ||
| Leonard, A. | Vortex methods for flow simulation | 1980 | Journal of Computational Physics Vol. 37(3), pp. 289-335 |
article | DOI |
| Schaefer, J.W. and Eskinazi, S. | An analysis of the vortex street generated in a viscous fluid | 1959 | Journal of Fluid Mechanics Vol. 6(2), pp. 241-260 |
article | DOI |
| Shekhovtsov, A.V. | Inertially-vortex principle of generating forces at insect wings | 2011 | Applied Hydromechanics Vol. 13(85)(1), pp. 61-76 |
article | |
| Shekhovtsov, A.V. | A method for evaluation of an unsteady pressure field in a mixed potential-vortical domain adjacent to the rotating wing | 2002 | International Journal of Fluid Mechanics Research Vol. 29(1), pp. 111-123 |
article | DOI |
| Shekhovtsov, A.V. | Inertial-circulation principle of flight and swimming | 2005 | Bulletin of V.N. Karazin Kharkiv National University, series Mathematical modeling. Information technology. Automated control systems Vol. 4(661), pp. 249-258 |
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| Shekhovtsov, A.V. | Solving ill-posed problems of hydroaerodynamics using the improved discrete vortex method | 2008 | Computer Hydromechanics, pp. 50-51 | inproceedings | |
| Shkarayev, S., Maniar, G. and Shekhovtsov, A.V. | Experimental and computational modeling of the kinematics and aerodynamics of flapping wing | 2013 | Journal of Aircraft Vol. 50(6), pp. 1734-1747 |
article | DOI |
| Shkarayev, S. and Silin, D. | Applications of actuator disk theory to membrane flapping wings | 2010 | AIAA Journal Vol. 48(10), pp. 2227-2234 |
article | DOI |
| Shkarayev, S., Silin, D., Abate, G. and Albertani, R. | Aerodynamics of cambered membrane flapping wings | 2010 | 48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition, pp. 1-14 | inproceedings | DOI |
| Syam Narayanan, S. and Asad Ahmed, R. | Effect of chord-wise flexibility in the lift generation of flapping MAV with membrane wing | 2022 | Aircraft Engineering and Aerospace Technology Vol. 94(5), pp. 792-798 |
article | DOI |
| Wang, Z.J., Birch, J.M. and Dickinson, M.H. | Unsteady forces and flows in low Reynolds number hovering flight: two-dimensional computations vs robotic wing experiments | 2004 | Journal of Experimental Biology Vol. 207(3), pp. 449-460 |
article | DOI |
| Xie, C., Gao, N., Meng, Y., Wu, Y. and Yang, C. | A review of bird-like flapping wing with high aspect ratio | 2023 | Chinese Journal of Aeronautics Vol. 36(1), pp. 22-44 |
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