电缆驱动可穿戴自适应康复服的研制与应用

2019 28th IEEE International Conference on Robot and Human Interactive Communication (RO-MAN) Pub Date : 2019-10-01 DOI:10.1109/RO-MAN46459.2019.8956397

S. Iyer, Joel V. Joseph, N. Sanjeevi, Yogesh Singh, V. Vashista

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引用次数: 2

摘要

行走是人在日常生活中最重要的任务之一，它需要驱动和协调下肢的肢体间和肢体内参数，以适应环境的变化，如意外的扰动或地形的变化。顺便说一句，随着年龄的增长或由于神经肌肉骨骼疾病的发生，人类在行走时的表现会显著下降。异常表现的一个主要原因被认为是这些个体在肌肉收缩的顺序和时间上的可变性。在这项工作中，我们开发了一种用于下肢的可穿戴适应性康复服(wear)，它使用外部驱动的电缆来模拟生物系统中激动剂和拮抗剂肌肉的作用。wear还使用了一种针对受试者的控制策略，该策略可以适应受试者的步态。目前试点研究的重点是利用wear在髋关节上施加阻力来研究各种步态异常，并开发受试者特定的步态康复范例。

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Development and Applicability of a Cable-driven Wearable Adaptive Rehabilitation Suit (WeARS)

Walking is one of the most relevant tasks that a person performs in his daily routine, which requires actuation and coordination of both inter and intra limb parameters of the lower extremity to adjust to the changing conditions of the environment like an unexpected perturbation or a change in terrain. Incidentally, with aging or due to an occurrence of a neuro-musculoskeletal disorder, human performance while walking degrades significantly. A major reason for the abnormal performance has been attributed to the observance of variability in the order and timing of muscle contraction in these individuals. In this work, we develop a Wearable Adaptive Rehabilitation Suit (WeARS) for lower extremity that uses externally actuated cables to resemble the role of agonist and antagonist muscles as in a biological system. WeARS also uses a subject-specific control strategy that is adaptive to the subject’s gait. The focus of the current pilot study is to use WeARS in applying resistive forces on the hip joint to study various gait abnormalities and to develop subject-specific gait rehabilitation paradigms.

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2019 28th IEEE International Conference on Robot and Human Interactive Communication (RO-MAN)

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