Can Scalable Design of Wings for Flapping Wing Micro Air Vehicle Be Inspired by Natural Flyers? [PDF]
International Journal of Aerospace Engineering, 2018 Lift production is constantly a great challenge for flapping wing micro air vehicles (MAVs). Designing a workable wing, therefore, plays an essential role. Dimensional analysis is an effective and valuable tool in studying the biomechanics of flyers.
Yanghai Nan +4 more
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Effects of Wing Kinematics on Aerodynamics Performance for a Pigeon-Inspired Flapping Wing [PDF]
BiomimeticsThe wing kinematics of birds plays a significant role in their excellent unsteady aerodynamic performance. However, most studies investigate the influence of different kinematic parameters of flapping wings on their aerodynamic performance based on ...
Tao Wu, Kai Wang, Qiang Jia, Jie Ding
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First lift-off and flight performance of a tailless flapping-wing aerial robot in high-altitude environments [PDF]
Scientific Reports, 2023 Flapping flight of animals has captured the interest of researchers due to their impressive flight capabilities across diverse environments including mountains, oceans, forests, and urban areas.
Shu Tsuchiya +8 more
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Development of flapping wing robot and vision-based obstacle avoidance strategy [PDF]
PeerJ Computer Science, 2023 Due to the flight characteristics such as small size, low noise, and high efficiency, studies on flapping wing robots are being actively conducted. In particular, the flapping wing robot is in the spotlight in the field of search and reconnaissance. Most
Heetae Park +4 more
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Avian-inspired embodied perception in biohybrid flapping-wing robotics [PDF]
Nature CommunicationsAvian feather intricate adaptable architecture to wing deformations has catalyzed interest in feathered flapping-wing aircraft with high maneuverability, agility, and stealth.
Qian Li +3 more
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Design and Flight Experiment of a Motor-Directly-Driven Flapping-Wing Micro Air Vehicle with Extension Springs [PDF]
BiomimeticsThis study presents the design, control, and flight experiments of a motor-directly-driven flapping-wing micro air vehicle with extension springs (MDD-FWMAVES).
Seungik Choi +3 more
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Research progress on the energy consumption of bionic flapping-wing aerial vehicles
工程科学学报, 2022 Natural flyers use muscles, bones, and other structures in coordination to attain agile and nimble flight performance. They can fly in various complex environments through different flight modes, such as flapping, hovering, and gliding.
Min ZHAO +4 more
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Unsteady Aerodynamic Design of a Flapping Wing Combined with a Bionic Wavy Leading Edge
Applied Sciences, 2023 Based on the bionic design of the humpback whale fin, a passive flow control method is proposed to obtain greater flapping lift by applying the wavy leading edge structure to the straight symmetrical flapping wing.
Xuan Bai, Hao Zhan, Baigang Mi
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Aerodynamic Analysis and Design Optimization of a Novel Flapping Wing Micro Air Vehicle in Hovering Flight [PDF]
Journal of Applied Fluid Mechanics, 2023 Inspired by the challenging and nimble flight dynamics of flying insects and birds, this research investigates bionic propulsion technology to develop an improved flapping wing micro air vehicle (FWMAV) design.
Y. Zhang, Z. Wang, H. Zheng
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Research progress on the flight control of flapping-wing aerial vehicles
工程科学学报, 2023 In nature, flying creatures flap their wings to generate lift, which is necessary for flight. Most birds change flight patterns by moving their wings using their wing muscles and adjusting their tail states.
Tingting WANG +4 more
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