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Research on Water-Exit and Take-off Process for Morphing Unmanned Submersible Aerial Vehicle 被引量:10

Research on Water-Exit and Take-off Process for Morphing Unmanned Submersible Aerial Vehicle
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摘要 This paper presents a theoretic implementation method of Morphing Unmanned Submersible Aerial Vehicle (MUSAV), which can both submerge in the water and fly in the air. Two different shapes are put forward so that the vehicle can suit both submergence and flight, considering the tremendous differences between hydrodynamic configuration and aerodynamic configuration of a vehicle. The transition of the two shapes can be achieved by using morphing technology. The water-to-air process, including water-exit, morphing, take-off and steady flight, is analyzed. The hydrodynamic and aerodynamic model of the vehicle exiting the water surface obliquely and then taking off into the air has been founded. The control strategy after morphing is analyzed and the control method is given. Numerical method is used to validate the motion model of the water-exit process. Results of simulations show the validity of the proposed model and the feasibility of MUSAV in theory. This paper presents a theoretic implementation method of Morphing Unmanned Submersible Aerial Vehicle (MUSAV), which can both submerge in the water and fly in the air. Two different shapes are put forward so that the vehicle can suit both submergence and flight, considering the tremendous differences between hydrodynamic configuration and aerodynamic configuration of a vehicle. The transition of the two shapes can be achieved by using morphing technology. The water-to-air process, including water-exit, morphing, take-off and steady flight, is analyzed. The hydrodynamic and aerodynamic model of the vehicle exiting the water surface obliquely and then taking off into the air has been founded. The control strategy after morphing is analyzed and the control method is given. Numerical method is used to validate the motion model of the water-exit process. Results of simulations show the validity of the proposed model and the feasibility of MUSAV in theory.
出处 《China Ocean Engineering》 SCIE EI CSCD 2017年第2期202-209,共8页 中国海洋工程(英文版)
基金 financially supported by the National Natural Science Foundation of China(Grant No.51541905)
关键词 Morphing Unmanned Submersible Aerial Vehicle (MUSAV) water-to-air process dynamic model flight control Morphing Unmanned Submersible Aerial Vehicle (MUSAV), water-to-air process, dynamic model, flight control
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