Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm

: In physical therapy, exercises improve range of motion, muscle strength, and flexibility, where motion-tracking devices record motion data during exercises to improve treatment outcomes. Cameras and inertial measurement units (IMUs) are the basis of these devices. However, issues such as occlusion...

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Main Authors: Md. Mahmudur Rahman, Md. Mahmudur Rahman, Kok Beng Gan, Kok Beng Gan, Abd Aziz, Noor Azah, Audrey Huong, Audrey Huong, Huay Woon You, Huay Woon You
Format: Article
Language:English
Published: Mdpi 2023
Subjects:
Online Access:http://eprints.uthm.edu.my/9328/1/J15791_db2f85e07307d354877a0361d6099ef4.pdf
http://eprints.uthm.edu.my/9328/
https://doi.org/10.3390/math11040970
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spelling my.uthm.eprints.93282023-07-17T07:50:15Z http://eprints.uthm.edu.my/9328/ Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm Md. Mahmudur Rahman, Md. Mahmudur Rahman Kok Beng Gan, Kok Beng Gan Abd Aziz, Noor Azah Audrey Huong, Audrey Huong Huay Woon You, Huay Woon You T Technology (General) : In physical therapy, exercises improve range of motion, muscle strength, and flexibility, where motion-tracking devices record motion data during exercises to improve treatment outcomes. Cameras and inertial measurement units (IMUs) are the basis of these devices. However, issues such as occlusion, privacy, and illumination can restrict vision-based systems. In these circumstances, IMUs may be employed to focus on a patient’s progress quantitatively during their rehabilitation. In this study, a 3D rigid body that can substitute a human arm was developed, and a two-stage algorithm was designed, implemented, and validated to estimate the elbow joint angle of that rigid body using three IMUs and incorporating the Madgwick filter to fuse multiple sensor data. Two electro-goniometers (EGs) were linked to the rigid body to verify the accuracy of the joint angle measuring algorithm. Additionally, the algorithm’s stability was confirmed even in the presence of external acceleration. Multiple trials using the proposed algorithm estimated the elbow joint angle of the rigid body with a maximum RMSE of 0.46◦ Using the IMU manufacturer’s (WitMotion) algorithm (Kalman filter), the maximum RMSE was 1.97◦ . For the fourth trial, joint angles were also calculated with external acceleration, and the RMSE was 0.996◦ . In all cases, the joint angles were within therapeutic limits. Mdpi 2023 Article PeerReviewed text en http://eprints.uthm.edu.my/9328/1/J15791_db2f85e07307d354877a0361d6099ef4.pdf Md. Mahmudur Rahman, Md. Mahmudur Rahman and Kok Beng Gan, Kok Beng Gan and Abd Aziz, Noor Azah and Audrey Huong, Audrey Huong and Huay Woon You, Huay Woon You (2023) Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm. Mathematics, 11 (970). pp. 1-17. https://doi.org/10.3390/math11040970
institution Universiti Tun Hussein Onn Malaysia
building UTHM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tun Hussein Onn Malaysia
content_source UTHM Institutional Repository
url_provider http://eprints.uthm.edu.my/
language English
topic T Technology (General)
spellingShingle T Technology (General)
Md. Mahmudur Rahman, Md. Mahmudur Rahman
Kok Beng Gan, Kok Beng Gan
Abd Aziz, Noor Azah
Audrey Huong, Audrey Huong
Huay Woon You, Huay Woon You
Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm
description : In physical therapy, exercises improve range of motion, muscle strength, and flexibility, where motion-tracking devices record motion data during exercises to improve treatment outcomes. Cameras and inertial measurement units (IMUs) are the basis of these devices. However, issues such as occlusion, privacy, and illumination can restrict vision-based systems. In these circumstances, IMUs may be employed to focus on a patient’s progress quantitatively during their rehabilitation. In this study, a 3D rigid body that can substitute a human arm was developed, and a two-stage algorithm was designed, implemented, and validated to estimate the elbow joint angle of that rigid body using three IMUs and incorporating the Madgwick filter to fuse multiple sensor data. Two electro-goniometers (EGs) were linked to the rigid body to verify the accuracy of the joint angle measuring algorithm. Additionally, the algorithm’s stability was confirmed even in the presence of external acceleration. Multiple trials using the proposed algorithm estimated the elbow joint angle of the rigid body with a maximum RMSE of 0.46◦ Using the IMU manufacturer’s (WitMotion) algorithm (Kalman filter), the maximum RMSE was 1.97◦ . For the fourth trial, joint angles were also calculated with external acceleration, and the RMSE was 0.996◦ . In all cases, the joint angles were within therapeutic limits.
format Article
author Md. Mahmudur Rahman, Md. Mahmudur Rahman
Kok Beng Gan, Kok Beng Gan
Abd Aziz, Noor Azah
Audrey Huong, Audrey Huong
Huay Woon You, Huay Woon You
author_facet Md. Mahmudur Rahman, Md. Mahmudur Rahman
Kok Beng Gan, Kok Beng Gan
Abd Aziz, Noor Azah
Audrey Huong, Audrey Huong
Huay Woon You, Huay Woon You
author_sort Md. Mahmudur Rahman, Md. Mahmudur Rahman
title Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm
title_short Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm
title_full Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm
title_fullStr Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm
title_full_unstemmed Upper Limb Joint Angle Estimation Using Wearable IMUs and Personalized Calibration Algorithm
title_sort upper limb joint angle estimation using wearable imus and personalized calibration algorithm
publisher Mdpi
publishDate 2023
url http://eprints.uthm.edu.my/9328/1/J15791_db2f85e07307d354877a0361d6099ef4.pdf
http://eprints.uthm.edu.my/9328/
https://doi.org/10.3390/math11040970
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score 13.214268