Shoma Mizutani scite author profile

Today, robots are expected to be used for the inspection of infrastructures such as bridges. One important task in bridge inspection is to acquire clear images of its various parts for further damage evaluation. However, this task has not yet been completely realized because of the complexity of bridge structures. For this situation, a UAV with a passive rotating spherical shell (PRSS) that can easily maneuver while protecting itself is introduced. In this paper, we explain the development of the PRSS unmanned aerial vehicle (UAV) based on the design strategy. We then analyze its performance through simulated bridge inspection. Finally, we discuss the results of actual bridge experiments. The spherical shell has a size (D = 0.95 m) and structure (fullerene) that is well-suited for bridge inspection applications. It can also handle an impact equivalent to 2 m/s, which is more than the UAV's maximum flight speed. Test flight experiment also validated the characteristic of PRSS that shows a stable flight during disturbances. The image test also shows that the visual system can provide a full overhead view of the bridge. Likewise, it can detect a 0.1-mm wide line that replicates the damage (e.g., a crack) from a position 0.5 m away and while the camera moves at 0.3 m/s. These characteristics have yielded a system that can acquire inspection images from critical parts of the bridge. An evaluation by third parties confirmed the effectiveness of the system. Further, the system satisfies the mandatory requirements of the Next Generation Robots for Social Infrastructure (NGRSI) program.

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2A1-E04 Quadrotor with a Rotating Spherical Shell Which Can Fly in the Complex Structure(Aerial Robot and Mechatronics (1))

Mizutani

Ohno

Yanagimura

et al. 2014

Robomech

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2A2-C04 Evaluation of adhesion performance of MAV has adhesion mechanism(Aerial Robot and Mechatronics (2))

et al. 2014

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A battery powered MAV is used to search inside damaged building and plumbing. However, its flight time is from 10 to 15 minutes because of the limitation of battery. We proposed a MAV has adhesion mechanism to improve above problem. It can hover longer time without propelling by using adhesion mechanism and winch mechanism. In this paper, we evaluate adhesion performance of the MAV in considerable environment.

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Shoma Mizutani

Proposal and experimental validation of a design strategy for a UAV with a passive rotating spherical shell

Close visual bridge inspection using a UAV with a passive rotating spherical shell

2A1-E04 Quadrotor with a Rotating Spherical Shell Which Can Fly in the Complex Structure(Aerial Robot and Mechatronics (1))

2A2-C04 Evaluation of adhesion performance of MAV has adhesion mechanism(Aerial Robot and Mechatronics (2))

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