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基于惯性传感器的全髋关节置换术后患者可穿戴反馈系统:基于步态运动学特征的步态分类的有效性和适用性。

Towards an Inertial Sensor-Based Wearable Feedback System for Patients after Total Hip Arthroplasty: Validity and Applicability for Gait Classification with Gait Kinematics-Based Features.

机构信息

Junior Research Group wearHEALTH, Technische Universität Kaiserslautern, Gottlieb-Daimler-Str. 48, 67663 Kaiserslautern, Germany.

Department of Sports Science, Technische Universität Kaiserslautern, Erwin-Schrödinger-Str. 57, 67663 Kaiserslautern, Germany.

出版信息

Sensors (Basel). 2019 Nov 16;19(22):5006. doi: 10.3390/s19225006.

DOI:10.3390/s19225006
PMID:31744141
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6891461/
Abstract

Patients after total hip arthroplasty (THA) suffer from lingering musculoskeletal restrictions. Three-dimensional (3D) gait analysis in combination with machine-learning approaches is used to detect these impairments. In this work, features from the 3D gait kinematics, spatio temporal parameters (Set 1) and joint angles (Set 2), of an inertial sensor (IMU) system are proposed as an input for a support vector machine (SVM) model, to differentiate impaired and non-impaired gait. The features were divided into two subsets. The IMU-based features were validated against an optical motion capture (OMC) system by means of 20 patients after THA and a healthy control group of 24 subjects. Then the SVM model was trained on both subsets. The validation of the IMU system-based kinematic features revealed root mean squared errors in the joint kinematics from 0.24° to 1.25°. The validity of the spatio-temporal gait parameters (STP) revealed a similarly high accuracy. The SVM models based on IMU data showed an accuracy of 87.2% (Set 1) and 97.0% (Set 2). The current work presents valid IMU-based features, employed in an SVM model for the classification of the gait of patients after THA and a healthy control. The study reveals that the features of Set 2 are more significant concerning the classification problem. The present IMU system proves its potential to provide accurate features for the incorporation in a mobile gait-feedback system for patients after THA.

摘要

全髋关节置换术后的患者会出现持续的运动骨骼受限。使用三维(3D)步态分析结合机器学习方法来检测这些损伤。在这项工作中,惯性传感器(IMU)系统的 3D 运动学特征、时空参数(集 1)和关节角度(集 2)被提出作为支持向量机(SVM)模型的输入,以区分受损和未受损的步态。这些特征分为两个子集。通过对 20 名全髋关节置换术后患者和 24 名健康对照组进行验证,将基于 IMU 的特征与光学运动捕捉(OMC)系统进行比较。然后,对这两个子集进行 SVM 模型训练。基于 IMU 的运动学特征的验证结果显示,关节运动学的均方根误差在 0.24°到 1.25°之间。时空步态参数(STP)的有效性也显示出了类似的高精度。基于 IMU 数据的 SVM 模型的准确率分别为 87.2%(集 1)和 97.0%(集 2)。目前的工作提出了有效的基于 IMU 的特征,用于 SVM 模型来分类全髋关节置换术后患者和健康对照组的步态。研究表明,集 2 的特征在分类问题上更为重要。目前的 IMU 系统证明了它在提供准确特征方面的潜力,这些特征可以整合到全髋关节置换术后患者的移动步态反馈系统中。

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