Add to ORKGProsthetic limbs hold a promise to renew the quality of life for the amputee. Neural commands are decoded via a classifier to generate control signals for the prosthetic devices. In the literature, many challenges and limitations have been identified that affect the prosthesis operation. One such drawback is muscle fatigue which degrades the surface electromyogram (sEMG) signals, and consequently, the performance of the deployed classification algorithm declines from 90% to 50% of average accuracy. We used a new technique using the Linear Discrimination Analysis (LDA) algorithm and the muscle synergy-based task discrimination (MSD) algorithm to improve the classification accuracy. In this technique, during muscles contraction/fatigue, we us...
Pattern Recognition (PR)-based EMG controllers of multi-functional upper-limb prostheses have been r...
Abstract Background Powered lower limb prostheses cou...
This thesis presents research that extends current knowledge in the area of upper-limb prosthesis de...
Prosthetic limbs hold a promise to renew the quality of life for the amputee. Neural commands are de...
An upper-limb amputation is a life-changing procedure severely impacting the individual's ability to...
Abstract Background Myoelectric control of multifunctional prostheses is challenging for individuals...
Surface Electromyography (EMG)-based pattern recognition methods have been investigated over the pas...
Improving the functionality of prosthetic hands with noninvasive techniques is still a challenge. Su...
The prevalence of upper extremity amputation is increasing in the United States. To meet the demand ...
Improving the condition-tolerance, stability, response time, and dexterity of neural prosthesis cont...
Amputation of the upper limb significantly hinders the ability of patients to perform activities of ...
Background and Objective: Mobility of subject (MoS) and muscle contraction force variation (MCFV) ha...
Users of myoelectric prostheses can often find them difficult to control. This can lead to passive-u...
The quality of life for upper limb amputees can be greatly improved by the adoption of poly-articula...
Users of myoelectric prostheses can often find them difficult to control. This can lead to passive-u...
Pattern Recognition (PR)-based EMG controllers of multi-functional upper-limb prostheses have been r...
Abstract Background Powered lower limb prostheses cou...
This thesis presents research that extends current knowledge in the area of upper-limb prosthesis de...
Prosthetic limbs hold a promise to renew the quality of life for the amputee. Neural commands are de...
An upper-limb amputation is a life-changing procedure severely impacting the individual's ability to...
Abstract Background Myoelectric control of multifunctional prostheses is challenging for individuals...
Surface Electromyography (EMG)-based pattern recognition methods have been investigated over the pas...
Improving the functionality of prosthetic hands with noninvasive techniques is still a challenge. Su...
The prevalence of upper extremity amputation is increasing in the United States. To meet the demand ...
Improving the condition-tolerance, stability, response time, and dexterity of neural prosthesis cont...
Amputation of the upper limb significantly hinders the ability of patients to perform activities of ...
Background and Objective: Mobility of subject (MoS) and muscle contraction force variation (MCFV) ha...
Users of myoelectric prostheses can often find them difficult to control. This can lead to passive-u...
The quality of life for upper limb amputees can be greatly improved by the adoption of poly-articula...
Users of myoelectric prostheses can often find them difficult to control. This can lead to passive-u...
Pattern Recognition (PR)-based EMG controllers of multi-functional upper-limb prostheses have been r...
Abstract Background Powered lower limb prostheses cou...
This thesis presents research that extends current knowledge in the area of upper-limb prosthesis de...