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- [1] Investigation on combined control surfaces for the yaw control of low aspect ratio flying wing configurationHangkong Xuebao/Acta Aeronautica et Astronautica Sinica, 2013, 34 (11): : 2435 - 2442Zhang, BinqianMa, YiChu, HubingChen, ZhenliChen, Yingchun
- [2] Vortex control in low aspect ratio flying wingKongqi Donglixue Xuebao, 2008, 4 (435-439):School of Aeronautic Science and Technology, Beijing University of Aeronautics and Astronautics, Beijing 100083, China
- [3] Applications of active flow control technologies in low aspect ratio flying wing UAV aerodynamic designPROCEEDINGS OF 2017 IEEE INTERNATIONAL CONFERENCE ON UNMANNED SYSTEMS (ICUS), 2017, : 44 - 48Xue ZihanMa TielinGan WenbiaoYang ChuanguangLi Gen
- [4] Aerodynamic design of high-aspect-ratio flying wing based on criteriaBeijing Hangkong Hangtian Daxue Xuebao/Journal of Beijing University of Aeronautics and Astronautics, 2015, 41 (09): : 1608 - 1614Gan, WenbiaoZhou, ZhouXu, Xiaoping
- [6] Reconfigurable Flight Control Design for Combat Flying Wing with Multiple Control SurfacesChinese Journal of Aeronautics, 2012, 25 (04) : 493 - 499WANG LeiWANG Lixin School of Aeronautic Science and EngineeringBeihang UniversityBeijing China
- [7] Reconfigurable Flight Control Design for Combat Flying Wing with Multiple Control SurfacesCHINESE JOURNAL OF AERONAUTICS, 2012, 25 (04) : 493 - 499Wang LeiWang Lixin
- [9] Design method of controllability of low aspect-ratio flying wing configuration combat aircraftHangkong Xuebao, 2008, 4 (788-794):School of Aeronautic Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China
- [10] Pitching effect on transonic wing stall of a blended flying wing with low aspect ratioMODERN PHYSICS LETTERS B, 2018, 32 (12-13):Tao, YangZhao, ZhongliangWu, JunqiangFan, ZhaolinZhang, Yi