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Unsteady aerodynamic modeling of Aerobat using lifting line theory and Wagner's function

Eric Sihite, Paul Ghanem, Adarsh Salagame, Alireza Ramezani

发表年份
2022
引用次数
16

摘要

Flying animals possess highly complex physical characteristics and are capable of performing agile maneuvers using their wings. The flapping wings generate complex wake structures that influence the aerodynamic forces, which can be difficult to model. While it is possible to model these forces using fluidstructure interaction, it is very computationally expensive and difficult to formulate. In this paper, we follow a simpler approach by deriving the aerodynamic forces using a relatively small number of states and presenting them in a simple state-space form. The formulation utilizes Prandtl's lifting line theory and Wagner's function to determine the unsteady aerodynamic forces acting on the wing in a simulation, which then are compared to experimental data of the bat-inspired robot called the Aerobat. The simulated trailingedge vortex shedding can be evaluated from this model, which then can be analyzed for a wake-based gait design approach to improve the aerodynamic performance of the robot.

关键词

AerodynamicsAerodynamic forceWakeComputer scienceVortex sheddingSimulationRobotAerospace engineeringFunction (biology)Vortex

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