Satoshi Minamiyama scite author profile

This paper describes a camera position control with aerial manipulator for visual test of bridge inspection. Our developed unmanned aerial vehicle (UAV) has three-degree-offreedom (3-DoF) manipulator on its top to execute visual or hammering test of the inspection. This paper focuses on the visual test. A camera was implemented at the end of the manipulator to acquire images of the narrow space of the bridge such as bearings, which the conventional UAV without the camera-attached manipulators at its top cannot achieve the fine visual test. For the visual test, it is desirable that the camera is above the body with enough distance between the camera and the body. As obvious, the camera position in the inertial coordinate system is effected by the movement of the body.Therefore we implement the camera position control compensating the body movement into the UAV. As a result of an experiment, it is assessed that the proposed control reduces the position error of the camera comparing the one of the body. The mean position error of the camera is 0.039 m that is 51.4% of the one of the body. Our world-first study enables to acquire the image of the bearing of the bridge by a camera mounted at the end effector of aerial manipulator fixed on UAV.

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Improvement of Contact Condition between Bridge and Aerial Manipulator by Applying Compliance Mechanism

Ikeda

Yasui

Minamiyama

et al. 2018

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Development of light weight 3DOF manipulator on UAV system for infrastructure inspection

Minamiyama

Ohara

Ikeda

et al. 2018

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Development of Compliance Mechanism for Aerial Manipulator to Contact Wall

et al. 2018

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