An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization Capabilities

An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization Capabilities

The deterioration of gait can be used as a biomarker for ageing and neurological diseases. Continuous gait monitoring and analysis are essential for early deficit detection and personalized rehabilitation. The use of mobile and wearable inertial sensor systems for gait monitoring and analysis have b...

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Main Authors: Jiaen Wu, Kiran Kuruvithadam, Alessandro Schaer, Richie Stoneham, George Chatzipirpiridis, Chris Awai Easthope, Gill Barry, James Martin, Salvador Pané, Bradley J. Nelson, Olgaç Ergeneman, Hamdi Torun
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Sensors
Subjects:
gait diagnosis
wearable device
graphical descriptor
real-time monitoring
telerehabilitation
digital biomarkers
Online Access:https://www.mdpi.com/1424-8220/21/8/2869
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spelling doaj-91e918b54c3448ffb3679bd1512b1d222021-04-19T23:05:05ZengMDPI AGSensors1424-82202021-04-01212869286910.3390/s21082869An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization CapabilitiesJiaen Wu0Kiran Kuruvithadam1Alessandro Schaer2Richie Stoneham3George Chatzipirpiridis4Chris Awai Easthope5Gill Barry6James Martin7Salvador Pané8Bradley J. Nelson9Olgaç Ergeneman10Hamdi Torun11Institute of Robotics and Intelligent Systems, ETH Zurich, 8092 Zurich, SwitzerlandInstitute of Robotics and Intelligent Systems, ETH Zurich, 8092 Zurich, SwitzerlandMagnes AG, Selnaustrasse 5, 8001 Zurich, SwitzerlandDepartment of Sport, Exercise and Rehab., Northumbria University, Newcastle upon Tyne NE1 8ST, UKMagnes AG, Selnaustrasse 5, 8001 Zurich, SwitzerlandCereneo Foundation, Center for Interdisciplinary Research (CEFIR), 6354 Vitznau, SwitzerlandDepartment of Sport, Exercise and Rehab., Northumbria University, Newcastle upon Tyne NE1 8ST, UKDepartment of Mechanical and Construction Engineering, Northumbria University, Newcastle upon Tyne NE1 8ST, UKInstitute of Robotics and Intelligent Systems, ETH Zurich, 8092 Zurich, SwitzerlandInstitute of Robotics and Intelligent Systems, ETH Zurich, 8092 Zurich, SwitzerlandMagnes AG, Selnaustrasse 5, 8001 Zurich, SwitzerlandDepartment of Mathematics, Physics and Electrical Engineering, Northumbria University, Newcastle upon Tyne NE1 8ST, UKThe deterioration of gait can be used as a biomarker for ageing and neurological diseases. Continuous gait monitoring and analysis are essential for early deficit detection and personalized rehabilitation. The use of mobile and wearable inertial sensor systems for gait monitoring and analysis have been well explored with promising results in the literature. However, most of these studies focus on technologies for the assessment of gait characteristics, few of them have considered the data acquisition bandwidth of the sensing system. Inadequate sampling frequency will sacrifice signal fidelity, thus leading to an inaccurate estimation especially for spatial gait parameters. In this work, we developed an inertial sensor based in-shoe gait analysis system for real-time gait monitoring and investigated the optimal sampling frequency to capture all the information on walking patterns. An exploratory validation study was performed using an optical motion capture system on four healthy adult subjects, where each person underwent five walking sessions, giving a total of 20 sessions. Percentage mean absolute errors (MAE%) obtained in stride time, stride length, stride velocity, and cadence while walking were 1.19%, 1.68%, 2.08%, and 1.23%, respectively. In addition, an eigenanalysis based graphical descriptor from raw gait cycle signals was proposed as a new gait metric that can be quantified by principal component analysis to differentiate gait patterns, which has great potential to be used as a powerful analytical tool for gait disorder diagnostics.https://www.mdpi.com/1424-8220/21/8/2869gait diagnosiswearable devicegraphical descriptorreal-time monitoringtelerehabilitationdigital biomarkers
collection DOAJ
language English
format Article
sources DOAJ
author Jiaen Wu
Kiran Kuruvithadam
Alessandro Schaer
Richie Stoneham
George Chatzipirpiridis
Chris Awai Easthope
Gill Barry
James Martin
Salvador Pané
Bradley J. Nelson
Olgaç Ergeneman
Hamdi Torun
spellingShingle Jiaen Wu
Kiran Kuruvithadam
Alessandro Schaer
Richie Stoneham
George Chatzipirpiridis
Chris Awai Easthope
Gill Barry
James Martin
Salvador Pané
Bradley J. Nelson
Olgaç Ergeneman
Hamdi Torun
An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization Capabilities
Sensors
gait diagnosis
wearable device
graphical descriptor
real-time monitoring
telerehabilitation
digital biomarkers
author_facet Jiaen Wu
Kiran Kuruvithadam
Alessandro Schaer
Richie Stoneham
George Chatzipirpiridis
Chris Awai Easthope
Gill Barry
James Martin
Salvador Pané
Bradley J. Nelson
Olgaç Ergeneman
Hamdi Torun
author_sort Jiaen Wu
title An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization Capabilities
title_short An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization Capabilities
title_full An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization Capabilities
title_fullStr An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization Capabilities
title_full_unstemmed An Intelligent In-Shoe System for Gait Monitoring and Analysis with Optimized Sampling and Real-Time Visualization Capabilities
title_sort intelligent in-shoe system for gait monitoring and analysis with optimized sampling and real-time visualization capabilities
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2021-04-01
description The deterioration of gait can be used as a biomarker for ageing and neurological diseases. Continuous gait monitoring and analysis are essential for early deficit detection and personalized rehabilitation. The use of mobile and wearable inertial sensor systems for gait monitoring and analysis have been well explored with promising results in the literature. However, most of these studies focus on technologies for the assessment of gait characteristics, few of them have considered the data acquisition bandwidth of the sensing system. Inadequate sampling frequency will sacrifice signal fidelity, thus leading to an inaccurate estimation especially for spatial gait parameters. In this work, we developed an inertial sensor based in-shoe gait analysis system for real-time gait monitoring and investigated the optimal sampling frequency to capture all the information on walking patterns. An exploratory validation study was performed using an optical motion capture system on four healthy adult subjects, where each person underwent five walking sessions, giving a total of 20 sessions. Percentage mean absolute errors (MAE%) obtained in stride time, stride length, stride velocity, and cadence while walking were 1.19%, 1.68%, 2.08%, and 1.23%, respectively. In addition, an eigenanalysis based graphical descriptor from raw gait cycle signals was proposed as a new gait metric that can be quantified by principal component analysis to differentiate gait patterns, which has great potential to be used as a powerful analytical tool for gait disorder diagnostics.
topic gait diagnosis
wearable device
graphical descriptor
real-time monitoring
telerehabilitation
digital biomarkers
url https://www.mdpi.com/1424-8220/21/8/2869
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