A marker based kinematic method of identifying initial contact during gait suitable for use in real-time visual feedback applications

DeAshaA.R.; RobinsonM.A.; BartonG.J.

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A marker based kinematic method of identifying initial contact during gait suitable for use in real-time visual feedback applications

机译：基于标记的运动学方法，用于识别步态期间的初始接触，适用于实时视觉反馈应用

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摘要

A gait cycle is typically defined as being from heel strike or initial contact (IC) to the next ipsilateral IC using kinetic data. When these data are not available other methods of event definition are required. An algorithm based upon sagittal plane kinematics of the hip, which defines IC at contralateral peak hip extension (PHE) is presented. Kinematic and kinetic data were recorded while 10 unimpaired participants each completed a minimum of 25 overground gait cycles. The accuracy of 551 IC events was evaluated by comparing the agreement of PHE to other kinematic and kinetic algorithms. The mean temporal difference in IC between the PHE algorithm and a kinetic algorithm was +0.0006. ±. 0.008. s. The 95% Limits of Agreement was ±0.018. s. This new PHE algorithm provides simple to implement and accurate gait events for use when kinetic data are not available.

机译：步态周期通常定义为使用动力学数据从脚跟撞击或初始接触（IC）到下一个同侧IC。当这些数据不可用时，需要其他事件定义方法。提出了一种基于髋关节矢状面运动学的算法，该算法定义了对侧峰值髋关节伸展（PHE）处的IC。记录运动学和动力学数据，同时10名无障碍参与者各完成至少25个地面步态周期。通过比较PHE与其他运动学和动力学算法的一致性，评估了551个IC事件的准确性。 PHE算法和动力学算法之间IC的平均时间差为+0.0006。 ±。 0.008。 s。协议的95％限制为±0.018。 s。当没有动力学数据时，这种新的PHE算法可提供易于实现的步态事件和准确的步态事件。

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《Gait & posture》 |2012年第3期|共3页
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DeAshaA.R.; RobinsonM.A.; BartonG.J.;
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正文语种 eng
中图分类人体形态学;
关键词
Gait cycle; Gait events; Initial contact; Kinematics;

机译：步态周期;步态事件;初始接触;运动学;

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专利

1. A marker based kinematic method of identifying initial contact during gait suitable for use in real-time visual feedback applications [J] . DeAshaA.R., RobinsonM.A., BartonG.J. Gait & posture . 2012,第3期

机译：基于标记的运动学方法，用于识别步态期间的初始接触，适用于实时视觉反馈应用
2. Real-time visual feedback for gait retraining: toward application in knee osteoarthritis [J] . van den Noort Josien C., Steenbrink Frans, Roeles Sanne, Medical and Biological Engineering and Computing: Journal of the International Federation for Medical and Biological Engineering . 2015,第3期

机译：实时视觉反馈，用于步态再训练：在膝骨关节炎中的应用
3. Real-time visual feedback for gait retraining: toward application in knee osteoarthritis [J] . van den Noort Josien C., Steenbrink Frans, Roeles Sanne, Medical and Biological Engineering and Computing: Journal of the International Federation for Medical and Biological Engineering . 2015,第3期

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4. Examination of Screen-Indicated Methods of Gait Training System with Real-time Audiovisual Feedback Function of Ground Reaction Force* [C] . Kei Fukuyama, Ichiro Kurose, Hidetaka Ikeuchi IEEE/RSJ International Conference on Intelligent Robots and Systems . 2020

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5. Real-time feedback methods for gait rehabilitation through a mobile platform. [D] . Schmidt, Matthew Grant. 2013

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6. Feasibility of a real-time pattern-based kinematic feedback system for gait retraining in pediatric cerebral palsy [O] . Xuan Liu, Nuno Oliveira, Naphtaly Ehrenberg, 2021

机译：基于实时模式的运动反馈系统的可行性用于在儿科脑瘫中进行步态再培训
7. Self-Tuning Threshold Method for Real-Time Gait Phase Detection Based on Ground Contact Forces Using FSRs [O] . Jing Tang, Jianbin Zheng, Yang Wang, 2018

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A marker based kinematic method of identifying initial contact during gait suitable for use in real-time visual feedback applications

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