Yuki Funabora scite author profile

Flexible actuators are popular in the consumer and medical fields because of their flexibility and compliance. However, they are typically difficult to model because of their viscoelasticity and nonlinearity. This letter proposes a method for correcting the deformation of the simulated flexible robots to make it similar to the deformation of real robots using point clouds by deep learning. Long shortterm memory (LSTM) can simulate the next frame of actuator deformation from the previous frames of deformations. In this study, we presented the robots with four different muscle structures. We found that using an encoder-LSTM-decoder network can improve the similarity between the deformation of a learned muscle structure and the real deformation and is also effective in correcting the deformation of the unlearned structures. Our correction method reduced the average Chamfer distance of the simulated point clouds of the basic-type structure actuator from 15.89 to 7.81. This research can provide a new concept for future flexible robot modeling using point clouds.

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Measuring position determination for accurate and efficient visual inspection using UAV

Asa

Funabora

Doki

et al. 2017

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Majority Rule Sensor Fusion System with Particle Filter for Robust Robot Localization

Ohashi

Funabora

Doki

et al. 2018

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Prototype of Wearable Robot with Tactile Sensor Measurable Contact Force Distribution with User

Ito

Funabora

Doki

et al. 2018

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Yuki Funabora

Flexible Fabric Actuator Realizing 3D Movements Like Human Body Surface for Wearable Devices

Modeling Fabric-Type Actuator Using Point Clouds by Deep Learning

Measuring position determination for accurate and efficient visual inspection using UAV

Majority Rule Sensor Fusion System with Particle Filter for Robust Robot Localization

Prototype of Wearable Robot with Tactile Sensor Measurable Contact Force Distribution with User

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