Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction

Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction

Currently, fully automated rehabilitation robots can assisttherapists in providing rehabilitation therapy, hence the patients could get hurt. On the other hand, manual treatment may cause less patient injury but it is tiresome, and there are not enough therapists in most countries. Power assi...

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Main Authors: Adeola-Bello, Zulikha Ayomikun, Zainul Azlan, Norsinnira, Abu Hassan, Salmah Anim
Format: Article
Language:English
English
Published: IIUM Press 2023
Subjects:
R Medicine (General)
TA164 Bioengineering
Online Access:http://irep.iium.edu.my/103234/7/103234_Control%20strategy%20forpowerassist%20upper%20limb%20rehabilitation_SCOPUS.pdf
http://irep.iium.edu.my/103234/8/103234_Control%20strategy%20forpowerassist%20upper%20limb%20rehabilitation.pdf
http://irep.iium.edu.my/103234/
https://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/2604/902
https://doi.org/10.31436/iiumej.v24i1.2604
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Institution: Universiti Islam Antarabangsa Malaysia
Language: English
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spelling my.iium.irep.1032342023-07-07T07:55:32Z http://irep.iium.edu.my/103234/ Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction Adeola-Bello, Zulikha Ayomikun Zainul Azlan, Norsinnira Abu Hassan, Salmah Anim R Medicine (General) TA164 Bioengineering Currently, fully automated rehabilitation robots can assisttherapists in providing rehabilitation therapy, hence the patients could get hurt. On the other hand, manual treatment may cause less patient injury but it is tiresome, and there are not enough therapists in most countries. Power assist rehabilitation robots can support the therapists in conducting the treatment and may help to alleviate this problem. The goal of this study is to develop a control strategy for the robot to assist the therapist’s movement in a power assist upper limb rehabilitation treatment. The system combines the advantages of robotic and manual rehabilitation therapy. Torque and position sensors fitted on the power assist upper limb rehabilitation robot arm are used for motion intention estimation. The amount of angular velocity necessary to be delivered to the feedback controller will be determined by predicting the therapist‘s motion intention using the impedance control method. The resulting velocity from the motion intention estimator is incorporated into the Sliding Mode Control -Function Approximation Technique (SMC-FAT) based adaptive controller. The SMC-FAT based adaptive controller in the feedback loop, overcomes theuncertain parameters in the combination of the robot and the human arm. The motion intention estimator forecasts the movement of therapists. The proposed controller is used to regulate elbow flexion and extension motion on a power assist upper limb rehabilitation robot with one degree of freedom (DOF). The proposed control system has been tested using MATLAB simulation and hardware experimental tests. The outcomes demonstrate the effectiveness of the proposed controller in directing the rehabilitation robot to follow the desired trajectory based on the therapist's motion intention, with maximum errors of 0.002rad/sec, 0.005rad/secand 0.02rad/secfor sinusoidal,constant torque values, and hardware experiment respectively. IIUM Press 2023-01-04 Article PeerReviewed application/pdf en http://irep.iium.edu.my/103234/7/103234_Control%20strategy%20forpowerassist%20upper%20limb%20rehabilitation_SCOPUS.pdf application/pdf en http://irep.iium.edu.my/103234/8/103234_Control%20strategy%20forpowerassist%20upper%20limb%20rehabilitation.pdf Adeola-Bello, Zulikha Ayomikun and Zainul Azlan, Norsinnira and Abu Hassan, Salmah Anim (2023) Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction. IIUM Engineering Journal, 24 (1). pp. 285-300. ISSN 1511-788X E-ISSN 2289-7860 https://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/2604/902 https://doi.org/10.31436/iiumej.v24i1.2604
institution Universiti Islam Antarabangsa Malaysia
building IIUM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider International Islamic University Malaysia
content_source IIUM Repository (IREP)
url_provider http://irep.iium.edu.my/
language English
English
topic R Medicine (General)
TA164 Bioengineering
spellingShingle R Medicine (General)
TA164 Bioengineering
Adeola-Bello, Zulikha Ayomikun
Zainul Azlan, Norsinnira
Abu Hassan, Salmah Anim
Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction
description Currently, fully automated rehabilitation robots can assisttherapists in providing rehabilitation therapy, hence the patients could get hurt. On the other hand, manual treatment may cause less patient injury but it is tiresome, and there are not enough therapists in most countries. Power assist rehabilitation robots can support the therapists in conducting the treatment and may help to alleviate this problem. The goal of this study is to develop a control strategy for the robot to assist the therapist’s movement in a power assist upper limb rehabilitation treatment. The system combines the advantages of robotic and manual rehabilitation therapy. Torque and position sensors fitted on the power assist upper limb rehabilitation robot arm are used for motion intention estimation. The amount of angular velocity necessary to be delivered to the feedback controller will be determined by predicting the therapist‘s motion intention using the impedance control method. The resulting velocity from the motion intention estimator is incorporated into the Sliding Mode Control -Function Approximation Technique (SMC-FAT) based adaptive controller. The SMC-FAT based adaptive controller in the feedback loop, overcomes theuncertain parameters in the combination of the robot and the human arm. The motion intention estimator forecasts the movement of therapists. The proposed controller is used to regulate elbow flexion and extension motion on a power assist upper limb rehabilitation robot with one degree of freedom (DOF). The proposed control system has been tested using MATLAB simulation and hardware experimental tests. The outcomes demonstrate the effectiveness of the proposed controller in directing the rehabilitation robot to follow the desired trajectory based on the therapist's motion intention, with maximum errors of 0.002rad/sec, 0.005rad/secand 0.02rad/secfor sinusoidal,constant torque values, and hardware experiment respectively.
format Article
author Adeola-Bello, Zulikha Ayomikun
Zainul Azlan, Norsinnira
Abu Hassan, Salmah Anim
author_facet Adeola-Bello, Zulikha Ayomikun
Zainul Azlan, Norsinnira
Abu Hassan, Salmah Anim
author_sort Adeola-Bello, Zulikha Ayomikun
title Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction
title_short Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction
title_full Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction
title_fullStr Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction
title_full_unstemmed Control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction
title_sort control strategy forpowerassist upper limb rehabilitation robotwith the therapist’s motion intention prediction
publisher IIUM Press
publishDate 2023
url http://irep.iium.edu.my/103234/7/103234_Control%20strategy%20forpowerassist%20upper%20limb%20rehabilitation_SCOPUS.pdf
http://irep.iium.edu.my/103234/8/103234_Control%20strategy%20forpowerassist%20upper%20limb%20rehabilitation.pdf
http://irep.iium.edu.my/103234/
https://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/2604/902
https://doi.org/10.31436/iiumej.v24i1.2604
_version_ 1772810670215004160

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