Research on Optimization Design of Intelligent Aircraft
DOI:
https://doi.org/10.54097/m43pjs82Keywords:
Intelligent systems, aircraft, material design, aerodynamics.Abstract
Demand analysis and concept research of intelligent deform-able aircraft, overall and subsystem design technology of intelligent deform-able aircraft. From the perspective of basic scientific problems and bottleneck technologies, the main problems lie in two aspects, namely: aerodynamics, flight mechanics and flight control of deform-able aircraft, deform-able structure, drive and deformation control. The connotation of intelligent deform-able aircraft, deform-able technical indicators, deform-able materials and structures, and cost-effectiveness analysis. Technical difficulties for each performance indicator mentioned above, some novel technologies and methods are used to improve the performance of cross-medium aircraft, which are mainly divided into variable wing technology, variable blade technology, variable density technology and structural buffer technology.
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[1] Wang T M, et al. CFD based investigation on the impact acceleration when a gannet impacts with water during plunge diving[J]. Bioinspiration & biomimetics, 2013, 8(3): 036006.
[2] Liang J H, et al. Wing load investigation of the plunge-diving locomotion of a gannet Morus inspired submersible aircraft[J]. Science China Technological Sciences, 2014, 57: 390-402.
[3] Huang J, et al. Fluid-structure interaction hydrodynamics analysis on a deformed bionic flipper with non-uniformly distributed stiffness[J]. IEEE Robotics and Automation Letters, 2020, 5(3): 4657-4662.
[4] Huang J, et al. Cormorant Webbed-feet Support Water-surface Takeoff: Quantitative Analysis via CFD[J]. Journal of Bionic Engineering, 2021, 18: 1086-1100.
[5] Hou T, Yang X, Su H, et al. Design and experiments of a squid-like aquatic-aerial vehicle with soft morphing fins and arms[C]//2019 International Conference on Robotics and Automation (ICRA). IEEE, 2019: 4681-4687.
[6] Hou T G, Yang X B, Wang T M, et al. Locomotor transition: how squid jet from water to air[J]. Bioinspiration & Biomimetics, 2020, 15(3): 036014.
[7] Pennycuick C. The flight of birds and other animals. Aerospace,2015, 2 (3): 505
[8] Lentink D, Müller U K, Stamhuis E J, et al. How swifts controltheir glide performance with morphing wings. Nature, 2007,446 (7139): 1082
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