[1]SRYGLEY R B, THOMAS A L R. Unconventioanal liftgenerating mechanisms in freeflying butterflies[J]. Nature, 2002, 420: 660-664.
[2]WANG H, ZENG L, LIU H, et al. Measuring wing kinematics, flight trajectory and body attitude during forward flight and turning maneuvers in dragonlines[J]. Journal of Experimental Biology, 2003, 206: 745-757.
[3]CHENG P, HU J S, ZHANG G F, et al. Deformation measurements of dragonfly’s wing in free flight by using windowed Fourier transform[J]. Optics and Lasers in Engineering, 2007, 46(2): 157-161.
[4]SHYY W, AONO H, Chimakurthi S K, et al. Recent progress in flapping wing aerodynamics and aeroelasticity[J]. Progress in Aerospace Science, 2010, 46(7): 284-327.
[5]DEAURIER J D. The development and testing of a fullscale ornithopter[J]. Canadian Aeronautics and Space Journal, 1999, 45(2): 72-82.
[6]PINES D J, BOHORQUEZ F. Challenges facing future microairvehicle development[J]. Journal of Aircraft, 2006, 43(2): 290-305.
[7]PARANJAPE A A, DOROTHY M R, CHUNG S J, et al. A flight mechanicscentric review of birdscale flapping flight[J]. International Journal of Aeronautical and Space Sciences, 2012, 13(3): 267-281.
[8]CHEN C, TANG Y, WANG H, et al. A review of fabrication options and power electronics for flappingwing robotics insects[J]. International Journal of Advanced Robotic Systems, 2013, 10(2): 463-474.
[9]WARD T A, REZADARD M, FEARDAY C J, et al. A review of biomimetic air vehicle research: 1984-2014[J]. International Journal of Air Vehicles, 2015, 7(3): 375-394.
[10]肖天航. 低雷诺数非定常流场的数值方法及其在微型飞行器上的应用[D]. 南京:南京航空航天大学航空宇航学院,2009.
[11]杨茵,李栋,张振辉. 微型扑翼飞行器非定常运动对平尾的影响[J]. 航空学报, 2012, 33(10): 1827-1833.
YANG Yin, LI Dong, ZHANG Zhenhui. Influence of flapping wing micro aerial vehicle unsteady motion on horizontal tail[J]. Acta Aeronautica Sincia, 2012, 33(10): 1827-1833.
[12]柴双双,张卫平,柯希俊,等. 仿昆扑翼微型飞行器中压电驱动器的性能参数分析[J]. 上海交通大学学报,2015, 49(5): 663-668.
CHAI Shuangshuang, ZHANG Weiping, KE Xijun, et al. Piezoelectric actuators for insectlike flappingwing micro aerial vehicle [J]. Journal of Shanghai Jiao Tong University, 2015, 49(5): 663-668.
[13]朱建阳. 扑动轨迹对扑翼气动特性影响的数值研究[J]. 工程力学, 2016, 33(1): 246-252.
ZHU Jianyang. Numerical study on the effect of kinematics of a flapping wing on its aerodynamic performance [J]. Engineering Mechanics, 2016, 33(1): 246-252.
[14]高广林,宋笔锋,王利光,等. 扑翼飞行器机翼开孔对气动特性的影响研究[J]. 实验流体力学, 2010, 24(5): 70-73.
GAO Guanglin, SONG Bifeng, WANG Liguang, et al. Study of opening holes on the wing of flappingwing MAV and its effect on aerodynamic characteristic[J]. Journal of Experiments in Fluid Mechanics, 2010, 24(5): 70-73.
[15]张云飞,叶正寅,谢飞. 一种非对称折叠翼的风洞试验与数值模拟[J]. 航空学报, 2011, 32(11): 1961-1970.
ZHANG Yunfei, YE Zhengyin, XIE Fei. A wind tunnel test and numerical simulation on a flapping wing with a passive nonsymmetrical wing flexure[J]. Acta Aeronautica Sincia, 2011, 32(11): 1961-1970.
[16]陈坤. 三种鸮形态学、飞行运动学特征规律及其仿生研究[D]. 吉林:吉林大学生物与农业工程学院, 2012.
[17]HEDRICK T L, TOBALSKE B W, BIEWENER A. A estimates of circulation and gait change based on a threedimensional kinematic analysis of flight in cockatiels (Nymphicus hollandicus) and ringed turtledoves (Streptopelia risoria)[J]. Journal of Experimental Biology, 2002, 205: 1389-1409.
[18]ZHAO J S, CHU F L, FENG Z J. The mechanism theory and application of deployable structures based on SLE[J]. Mechanism and Machine Theory, 2009, 44(6): 324325.
[19]张云飞,叶正寅. 考虑弹性转轴的扑翼三维气动数值计算[J]. 航空动力学报,2011, 26(4): 880-889.
ZHANG Yunfei, YE Zhengyin. Threedimensional NaverStokes simulation of flapping wing with pitching elasticity[J]. Journal of Aerospace Power, 2011, 26(4): 880-889.
[20]LESOINNE M, FARHAT C. Geometric conservation laws for flow problems with moving boundaries and deformable meshes and their impact on aeroelastic computations [J]. Computer Methods in Applied Mechanics and Engineering, 1996, 134(1/2): 71-90. |