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Design, aerodynamics and autonomy of the DelFly

Guido de Croon, Mark Groen, Christophe De Wagter, B. D. W. Remes, R. Ruijsink, B.W. van Oudheusden

发表年份
2012
引用次数
211

摘要

One of the major challenges in robotics is to develop a fly-like robot that can autonomously fly around in unknown environments. In this paper, we discuss the current state of the DelFly project, in which we follow a top-down approach to ever smaller and more autonomous ornithopters. The presented findings concerning the design, aerodynamics and autonomy of the DelFly illustrate some of the properties of the top-down approach, which allows the identification and resolution of issues that also play a role at smaller scales. A parametric variation of the wing stiffener layout produced a 5% more power-efficient wing. An experimental aerodynamic investigation revealed that this could be associated with an improved stiffness of the wing, while further providing evidence of the vortex development during the flap cycle. The presented experiments resulted in an improvement in the generated lift, allowing the inclusion of a yaw rate gyro, pressure sensor and microcontroller onboard the DelFly. The autonomy of the DelFly is expanded by achieving (1) an improved turning logic to obtain better vision-based obstacle avoidance performance in environments with varying texture and (2) successful onboard height control based on the pressure sensor.

关键词

AerodynamicsRoboticsMicro air vehicleLift (data mining)Parametric statisticsObstacleObstacle avoidanceEngineeringComputer scienceControl engineering

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