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Your search keyword '"Sakurai, Ryo"' showing total 18 results
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18 results on '"Sakurai, Ryo"'

1. Embedding Bifurcations into Pneumatic Artificial Muscle

Author

Akashi, Nozomi, Kuniyoshi, Yasuo, Jo, Taketomo, Nishida, Mitsuhiro, Sakurai, Ryo, Wakao, Yasumichi, Nakajima, Kohei, Akashi, Nozomi, Kuniyoshi, Yasuo, Jo, Taketomo, Nishida, Mitsuhiro, Sakurai, Ryo, Wakao, Yasumichi, and Nakajima, Kohei

Abstract

Harnessing complex body dynamics has long been a challenge in robotics, particularly when dealing with soft dynamics, which exhibit high complexity in interacting with the environment. Recent studies indicate that these dynamics can be used as a computational resource, exemplified by the McKibben pneumatic artificial muscle, a common soft actuator. This study demonstrates that bifurcations, including periodic and chaotic dynamics, can be embedded into the pneumatic artificial muscle, with the entire bifurcation structure using the framework of physical reservoir computing. These results suggest that dynamics not present in training data can be embedded through bifurcation embedment, implying the capability to incorporate various qualitatively different patterns into pneumatic artificial muscle without the need to design and learn all required patterns explicitly. Thus, this study introduces a novel approach to simplify robotic devices and control training by reducing reliance on external pattern generators and the amount and types of training data needed for control.

Published
2024

4. A Coupled Spintronics Neuromorphic Approach for High-Performance Reservoir Computing

Author

Akashi, Nozomi, Kuniyoshi, Yasuo, Tsunegi, Sumito, Taniguchi, Tomohiro, Nishida, Mitsuhiro, Sakurai, Ryo, Wakao, Yasumichi, Kawashima, Kenji, Nakajima, Kohei, Akashi, Nozomi, Kuniyoshi, Yasuo, Tsunegi, Sumito, Taniguchi, Tomohiro, Nishida, Mitsuhiro, Sakurai, Ryo, Wakao, Yasumichi, Kawashima, Kenji, and Nakajima, Kohei

Abstract

The rapid development in the field of artificial intelligence has increased the demand for neuromorphic computing hardware and its information-processing capability. A spintronics device is a promising candidate for neuromorphic computing hardware and can be used in extreme environments due to its high resistance to radiation. Improving the information-processing capability of neuromorphic computing is an important challenge for implementation. Herein, a novel neuromorphic computing framework using spintronics devices is proposed. This framework is called coupled spintronics reservoir (CSR) computing and exploits the high-dimensional dynamics of coupled spin-torque oscillators as a computational resource. The relationships among various bifurcations of the CSR and its information-processing capabilities through numerical experiments are analyzed and it is found that certain configurations of the CSR boost the information-processing capability of the spintronics reservoir toward or even beyond the standard level of machine learning networks. The effectiveness of our approach is demonstrated through conventional machine learning benchmarks and edge computing in real physical experiments using pneumatic artificial muscle-based wearables, which assist human operations in various environments. This study significantly advances the availability of neuromorphic computing for practical uses.

Published
2022

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