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普通路面在有无机器人外骨骼辅助情况下对行走关节间协调性的影响。

Effect of Common Pavements on Interjoint Coordination of Walking with and without Robotic Exoskeleton.

作者信息

Wang Jinlei, Qiu Jing, Hou Lei, Zheng Xiaojuan, Yu Suihuai

机构信息

Northwestern Polytechnical University, China.

University of Electronic Science and Technology of China, China.

出版信息

Appl Bionics Biomech. 2019 Oct 1;2019:5823908. doi: 10.1155/2019/5823908. eCollection 2019.

DOI:10.1155/2019/5823908
PMID:31662791
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6791236/
Abstract

BACKGROUND

The analysis and comprehension of the coordination control of a human gait on common grounds benefit the development of robotic exoskeleton for motor recovery.

OBJECTIVE

This study investigated whether the common grounds effect the interjoint coordination of healthy participants with/without exoskeletons in walking.

METHODS

The knee-ankle coordination and hip-knee coordination of 8 healthy participants in a sagittal plane were measured on five kinds of pavements (tiled, carpet, wooden, concrete, and pebbled) with/without exoskeletons, using the continuous relative phase (CRP). The root mean square of CRP (CRP) over each phase of the gait cycle is used to analyze the magnitude of dephasing between joints, and the standard deviation of CRP (CRP) in the full gait cycle is used to assess the variability of coordination patterns between joints.

RESULTS

The CRP of the carpet pavement with exoskeleton is different from that of other pavements (except the tiled pavement) in the midstance phase. The CRP on the pebble pavement without exoskeleton is less than that on the other pavements in all phases. The CRP of the pebble pavement without exoskeleton is smaller than that of other pavements. The CRP with/without exoskeleton is similar across all pavements.

CONCLUSION

The compressive capacity of the pavement and the unevenness of the pavement are important factors that influence interjoint coordination, which can be used as key control elements of gait to adapt different pavements for robotic exoskeleton.

NOVELTY

We provide a basis of parameter change of kinematics on different common grounds for the design and optimization of robotic exoskeleton for motor recovery.

摘要

背景

对人类在普通地面上步态的协调控制进行分析和理解,有助于开发用于运动恢复的机器人外骨骼。

目的

本研究调查普通地面是否会影响健康参与者在有/无外骨骼情况下行走时的关节间协调。

方法

使用连续相对相位(CRP),在有/无外骨骼的情况下,对8名健康参与者在矢状面内的膝-踝协调和髋-膝协调在五种路面(瓷砖、地毯、木质、混凝土和鹅卵石)上进行测量。步态周期各阶段CRP的均方根(CRP)用于分析关节间去相位的大小,全步态周期CRP的标准差(CRP)用于评估关节间协调模式的变异性。

结果

在支撑中期,有外骨骼时地毯路面的CRP与其他路面(瓷砖路面除外)不同。无外骨骼时鹅卵石路面在所有阶段的CRP均小于其他路面。无外骨骼时鹅卵石路面的CRP比其他路面小。有/无外骨骼时所有路面的CRP相似。

结论

路面的抗压能力和路面不平整度是影响关节间协调的重要因素,可作为步态的关键控制要素,使机器人外骨骼适应不同路面。

创新点

我们为运动恢复用机器人外骨骼的设计和优化提供了不同普通地面上运动学参数变化的依据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca03/6791236/908486aa81cb/ABB2019-5823908.003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca03/6791236/1659a1982002/ABB2019-5823908.001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca03/6791236/36b3b9620fd0/ABB2019-5823908.002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca03/6791236/908486aa81cb/ABB2019-5823908.003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca03/6791236/1659a1982002/ABB2019-5823908.001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca03/6791236/36b3b9620fd0/ABB2019-5823908.002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ca03/6791236/908486aa81cb/ABB2019-5823908.003.jpg

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