Design, fabrication, and tests of a new control mechanism for a tailless flapping-wing aerial robot

Jinqiang DANG; Akio KAWAHARA; Hiroto TANAKA

doi:10.1299/jsmermd.2019.1P1-F07

The Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec)

Online ISSN : 2424-3124

2019

Session ID : 1P1-F07

DOI https://doi.org/10.1299/jsmermd.2019.1P1-F07

Conference information

Host: The Japan Society of Mechanical Engineers

Name : [in Japanese]

Date : June 05, 2019 - June 08, 2019

Design, fabrication, and tests of a new control mechanism for a tailless flapping-wing aerial robot

*Jinqiang DANG, Akio KAWAHARA, Hiroto TANAKA

Author information

Keywords: Flight control, Flapping amplitude, Flapping center, Angle of attack, Linear-servo

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Abstract

Control mechanism for tailless flapping wing aerial robot is very different with those for rotorcraft or fixed wing aircraft. To control its orientation, the robot needs to produce pitch, roll, and yaw torques around three orthogonal body axes. In this research, a cross structure which is composed by two linear servos to change the position of flapping center which can change the flapping amplitude of both wings to generate pitch and roll torques, and a rotate servo that can move the root spars into two opposite directions to change the attack angle of both wings to generate yaw torque were developed

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