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Activity recognition in manufacturing: The roles of motion capture and sEMG+inertial wearables in detecting fine vs. gross motion.

, , , и . ICRA, стр. 6533-6539. IEEE, (2019)

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Hiroshi Kubota

 

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Wearable activity recognition for robust human-robot teaming in safety-critical environments via hybrid neural networks., , и . IROS, стр. 449-454. IEEE, (2019)JESSIE: Synthesizing Social Robot Behaviors for Personalized Neurorehabilitation and Beyond., , , , и . HRI, стр. 121-130. ACM, (2020)CARMEN: A Cognitively Assistive Robot for Personalized Neurorehabilitation at Home., , , , и . HRI, стр. 55-64. ACM, (2024)Get SMART: Collaborative Goal Setting with Cognitively Assistive Robots., , , , , и . HRI, стр. 44-53. ACM, (2023)Cognitively Assistive Robots at Home: HRI Design Patterns for Translational Science., , , , и . HRI, стр. 53-62. IEEE / ACM, (2022)A Robot-based Gait Training System for Post-Stroke Rehabilitation., , , и . HRI (Companion), стр. 452-456. ACM, (2021)GARRY: The Gait Rehabilitation Robotic System., , , и . HRI, стр. 875-879. ACM, (2024)Enabling Longitudinal Personalized Behavior Adaptation for Cognitively Assistive Robots. University of California, San Diego, USA, (2023)Activity recognition in manufacturing: The roles of motion capture and sEMG+inertial wearables in detecting fine vs. gross motion., , , и . ICRA, стр. 6533-6539. IEEE, (2019)Behavior Adaptation for Robot-assisted Neurorehabilitation., и . HRI (Companion), стр. 565-567. ACM, (2021)