Rationale for Multiple Compensation of Muscle Weakness Walking with a Wearable Robotic Orthosis

机译：可穿戴机器人矫形器行走时肌肉无力的多种补偿的基本原理

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Exoskeletal devices can provide assistance and supplement to the biological musculoskeletal members. We present a wearable robotic exoskeleton conceived as an improved lower leg orthosis for compensation of human knee and ankle joints disorders provoked by muscle weaknesses during walking, introducing novel biomechanical and user acceptance aspects and daily performance monitoring functionalities.

机译：外骨骼装置可以为生物肌肉骨骼成员提供帮助和补充。我们提出了一种可穿戴的机器人外骨骼，旨在改善小腿矫形器，以补偿因行走过程中肌肉无力而引起的人类膝盖和踝关节疾病，并介绍新型的生物力学和用户接受性方面以及日常性能监控功能。

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《Robotics and Automation, 2005. ICRA 2005. Proceedings of the 2005 IEEE International Conference on》||p.1914-1919|共6页
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Moreno J.C.; Brunetti F.J.; Pons J.L.; Baydal J.M.; Barbera R.;
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Exoskeleton; biomechanics; gait rehabilitation; robotic orthosis; wearable robotics;

机译：外骨骼;生物力学步态康复;机器人矫形器;可穿戴机器人;

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1. Effects of Assistance During Early Stance Phase Using a Robotic Knee Orthosis on Energetics, Muscle Activity, and Joint Mechanics During Incline and Decline Walking [J] . Lee Dawit, Kwak Eun Chan, McLain Bailey J., IEEE transactions on neural systems and rehabilitation engineering . 2020,第4期

机译：早期立场阶段辅助的影响使用机器人膝关节矫形器对能量，肌肉活动和倾斜的联合力学和倾斜行走
2. Compensations in lower limb joint work during walking in response to unilateral calf muscle weakness [J] . Waterval Niels F. J., Brehm Merel-Anne, Ploeger Hilde E., Gait & posture . 2018,第期

机译：在响应单侧小牛肌弱点的步行期间，在步行过程中的补偿
3. Wearable technology reveals gait compensations, unstable walking patterns and fatigue in people with multiple sclerosis [J] . Michael Psarakis, David A Greene, Michael H Cole, Physiological measurement . 2018,第7期

机译：可穿戴技术揭示了多发性硬化的人的步态赔偿，不稳定的行走模式和疲劳
4. Development of an orthosis for walking assistance using pneumatic artificial muscle: A quantitative assessment of the effect of assistance [C] . Kawamura T., Takanaka K., Nakamura T., 2013 IEEE 13th International Conference on Rehabilitation Robotics . 2013

机译：使用气动人工肌肉开发用于步行辅助的矫形器：辅助效果的定量评估
5. Muscle weakness in persons with multiple sclerosis. [D] . Chung, Linda H. 2010

机译：多发性硬化症患者的肌肉无力。
6. Physical human-robot interaction of an active pelvis orthosis: toward ergonomic assessment of wearable robots [O] . Nicolò d’Elia, Federica Vanetti, Marco Cempini, 2017

机译：主动骨盆矫形器的人机交互：针对可穿戴机器人的人体工程学评估
7. Wearable technology reveals gait compensations, unstable walking patterns and fatigue in people with multiple sclerosis [O] . Michael Psarakis, David A Greene, Michael H Cole, 2018

机译：可穿戴技术揭示了多发性硬化症的人们的步态赔偿，不稳定的行走模式和疲劳

Rationale for Multiple Compensation of Muscle Weakness Walking with a Wearable Robotic Orthosis

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