一种采用比例肌电控制的改进型动力踝足矫形器。

An improved powered ankle-foot orthosis using proportional myoelectric control.

作者信息

Ferris Daniel P, Gordon Keith E, Sawicki Gregory S, Peethambaran Ammanath

机构信息

Department of Movement Science, University of Michigan, Ann Arbor, MI 48109-2214, USA.

出版信息

Gait Posture. 2006 Jun;23(4):425-8. doi: 10.1016/j.gaitpost.2005.05.004. Epub 2005 Aug 10.

DOI:10.1016/j.gaitpost.2005.05.004

PMID:16098749

Abstract

We constructed a powered ankle-foot orthosis for human walking with a novel myoelectric controller. The orthosis included a carbon fiber and polypropylene shell, a metal hinge joint, and two artificial pneumatic muscles. Soleus electromyography (EMG) activated the artificial plantar flexor and inhibited the artificial dorsiflexor. Tibialis anterior EMG activated the artificial dorsiflexor. We collected kinematic, kinetic, and electromyographic data for a naive healthy subject walking with the orthosis. The current design improves upon a previous prototype by being easier to don and doff and simpler to use. The novel controller allows naive wearers to quickly adapt to the orthosis without artificial muscle co-contraction. The orthosis may be helpful in studying human walking biomechanics and assisting patients during gait rehabilitation after neurological injury.

摘要

我们构建了一种带有新型肌电控制器的助力式踝足矫形器用于人类行走。该矫形器包括一个碳纤维和聚丙烯外壳、一个金属铰链接头以及两个人造气动肌肉。比目鱼肌肌电图（EMG）激活人造跖屈肌并抑制人造背屈肌。胫前肌EMG激活人造背屈肌。我们收集了一名未使用过该矫形器的健康受试者佩戴该矫形器行走时的运动学、动力学和肌电图数据。当前设计在之前的原型基础上进行了改进，更易于穿脱且使用更简单。这种新型控制器使未使用过的佩戴者能够快速适应矫形器，而无需人造肌肉共同收缩。该矫形器可能有助于研究人类行走生物力学，并在神经损伤后的步态康复过程中辅助患者。

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一种采用比例肌电控制的改进型动力踝足矫形器。

An improved powered ankle-foot orthosis using proportional myoelectric control.

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