Sanchez-Laulhe, Ernesto (University of Malaga), Ruiz Paez, Cristina (Group of Robotics Vision and Control), Acosta, Jose Angel (Universidad de Sevilla), Ollero, Anibal (Universidad de Sevilla)

Fuselage Aerodynamics and Weight Trade-Off at Low-Speed Ornithopter Flight

Scheduled for presentation during the Regular Session "Biologically Inspired UAS" (WeB2), Wednesday, June 22, 2022, 16:30−16:50, Bokar

2022 International Conference on Unmanned Aircraft Systems (ICUAS), June 21-24, 2022, Dubrovnik, Croatia

This information is tentative and subject to change. Compiled on April 26, 2024

Abstract

This work presents a thorough study on the effect of the inclusion or not of a fuselage in flapping wing robots, for which no clear criterion has been found so far. The study consists of a dynamic analysis for level flight conditions at both configurations of an actual prototype. An overall aerodynamic model based on CFD simulations is used for modeling the average in-flight forces performed by the ornithopter elements, wing, body, and tail. Experimental thrust correction is developed to include the effects of wing flexibility, thus increasing the accuracy of the results. Results show better performance at low speeds when the ornithopter does not carry the fuselage. At higher speeds, the lower drag provided by the fuselage becomes important. However, the increased weight always needs a higher flapping frequency for the low velocity range of our prototype, creating a disadvantage for this regime. The results highlight a fuselage design criteria, which can be extrapolated to other bird-scaled flapping wing robots performing slow maneuvers, such as perching, as well as to hybrid flapping-fixed wing UAVs.