平地和倾斜行走时使用速率陀螺仪进行步态事件检测。

Gait event detection on level ground and incline walking using a rate gyroscope.

机构信息

Centre for Biomedical Engineering, Faculty of Engineering and Physical Sciences, University of Surrey, Guildford, Surrey, GU2 7XH, UK.

出版信息

Sensors (Basel). 2010;10(6):5683-702. doi: 10.3390/s100605683. Epub 2010 Jun 4.

DOI:10.3390/s100605683

PMID:22219682

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3247727/

Abstract

Gyroscopes have been proposed as sensors for ambulatory gait analysis and functional electrical stimulation systems. Accurate determination of the Initial Contact of the foot with the floor (IC) and the final contact or Foot Off (FO) on different terrains is important. This paper describes the evaluation of a gyroscope placed on the shank for determination of IC and FO in subjects walking outdoors on level ground, and up and down an incline. Performance was compared with a reference pressure measurement system. The mean difference between the gyroscope and the reference was less than -25 ms for IC and less than 75 ms for FO for all terrains. Detection success was over 98%. These results provide preliminary evidence supporting the use of the gyroscope for gait event detection on inclines as well as level walking.

摘要

陀螺仪已被提议作为动态步态分析和功能性电刺激系统的传感器。在不同的地形中，准确地确定脚部与地面的初始接触（IC）和最终接触或脚离（FO）非常重要。本文描述了一种放置在小腿上的陀螺仪的评估，用于确定在水平地面上、上下斜坡上行走的受试者的 IC 和 FO。性能与参考压力测量系统进行了比较。对于所有地形，陀螺仪和参考值之间的平均差值小于 -25 ms 用于 IC，小于 75 ms 用于 FO。检测成功率超过 98%。这些结果初步证明了在倾斜和水平行走时使用陀螺仪进行步态事件检测的可行性。

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平地和倾斜行走时使用速率陀螺仪进行步态事件检测。

Gait event detection on level ground and incline walking using a rate gyroscope.

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