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Foot with a Core-shell Structural Six-axis Force Sensor for Pedal Depressing and Recovering from Foot Slipping during Pedal Pushing Toward Autonomous Driving by Humanoids.

K. Shinjo, M. Inaba, K. Kawaharazuka, Y. Asano, S. Nakashima, S. Makino, M. Onitsuka, K. Tsuzuki, K. Okada, and K. Kawasaki. IROS, page 3049-3054. IEEE, (2019)

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Restoring Force Design of Active Self-healing Tension Transmission System and Application to Tendon-driven Legged Robot.S. Nakashima, K. Kawaharazuka, M. Nishiura, Y. Asano, Y. Kakiuchi, K. Okada, K. Kawasaki, and M. Inaba. ICRA, page 7033-7038. IEEE, (2021)Viewpoint Selection for the Efficient Teleoperation of a Robot Arm Using Reinforcement Learning.H. Liu, R. Komatsu, S. Nakashima, H. Hamada, N. Matsuhira, H. Asama, and A. Yamashita. IEEE Access, (2023)Foot with a Core-shell Structural Six-axis Force Sensor for Pedal Depressing and Recovering from Foot Slipping during Pedal Pushing Toward Autonomous Driving by Humanoids.K. Shinjo, M. Inaba, K. Kawaharazuka, Y. Asano, S. Nakashima, S. Makino, M. Onitsuka, K. Tsuzuki, K. Okada, and K. Kawasaki. IROS, page 3049-3054. IEEE, (2019)Human mimetic foot structure with multi-DOFs and multi-sensors for musculoskeletal humanoid Kengoro.Y. Asano, S. Nakashima, T. Kozuki, S. Ookubo, I. Yanokura, Y. Kakiuchi, K. Okada, and M. Inaba. IROS, page 2419-2424. IEEE, (2016)Resistance-based self-sensing system of active self-melting bolt towards autonomous healing structure.S. Nakashima, T. Shirai, Y. Asano, Y. Kakiuchi, K. Okada, and M. Inaba. RoboSoft, page 88-93. IEEE, (2018)Human mimetic musculoskeletal humanoid Kengoro toward real world physically interactive actions.Y. Asano, T. Kozuki, S. Ookubo, M. Kawamura, S. Nakashima, T. Katayama, I. Yanokura, T. Hirose, K. Kawaharazuka, S. Makino and 3 other author(s). Humanoids, page 876-883. IEEE, (2016)Development of prosthesis prototype through industry-government-academia collaboration of automobile driving by tendon-driven humanoids.Y. Asano, Y. Nagamatsu, S. Nakashima, K. Okada, K. Kawasaki, and M. Inaba. ARSO, page 1-7. IEEE, (2022)Skeletal structure with artificial perspiration for cooling by latent heat for musculoskeletal humanoid Kengoro.T. Kozuki, T. Hirose, T. Shirai, S. Nakashima, Y. Asano, Y. Kakiuchi, K. Okada, and M. Inaba. IROS, page 2135-2140. IEEE, (2016)Stability Recognition with Active Vibration for Bracing Behaviors and Motion Extensions Using Environment in Musculoskeletal Humanoids.K. Kawaharazuka, M. Nishiura, S. Nakashima, Y. Toshimitsu, Y. Omura, Y. Koga, Y. Asano, K. Okada, K. Kawasaki, and M. Inaba. RoboSoft, page 126-133. IEEE, (2021)Development and Functional Evaluation of a Deformable Membrane Capsule for an Open Ball Glenohumeral Joint.A. Fujii, S. Nakashima, M. Kawamura, K. Kawaharazuka, S. Makino, Y. Asano, K. Okada, and M. Inaba. BioRob, page 853-858. IEEE, (2018)

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