Abstract Background Most of the modern motorized prostheses are controlled with the surface electromyography (sEMG) recorded on the residual muscles of amputated limbs. However, the residual muscles are usually limited, especially after above-elbow amputations, which would not provide enough sEMG for the control of prostheses with multiple degrees of freedom. Signal fusion is a possible approach to solve the problem of insufficient control commands, where some non-EMG signals are combined with sEMG signals to provide sufficient information for motion intension decoding. In this study, a motion-classification method that combines sEMG and electroencephalography (EEG) signa...
The electroencephalogram (EEG) signals are a measurable brain electrical activity. EEG signals can b...
Numerous recent studies have aimed to improve myoelectric control of prostheses. However, the majori...
Lower-limb powered prostheses have been widely studied and optimized over the years to help amputees...
Amputation of the upper limb significantly hinders the ability of patients to perform activities of ...
Electromyogram (EMG) signal is generated by muscle contraction, and surface electromyography signal ...
A large number of amputee patients doesn't use their myoelectric prosthesis, mainly due to the limit...
Abstract Background Myoelectric control of multifunctional prostheses is challenging for individuals...
The use of surface electromyographic (sEMG) signals, alongside pattern recognition (PR) systems, is ...
Abstract Background Myoelectric pattern recognition systems can decode movement intention to drive u...
Surface electromyography (sEMG)-based pattern recognition studies have been widely used to improve t...
Objective. Recent results have shown the potentials of neural interfaces to provide sensory feedback...
Electromyography (EMG) is a well known technique used for recording electrical activity produced ...
Robotic prostheses are expected to allow amputees greater freedom and mobility. However, available o...
Background. Interfacing an amputee's upper-extremity stump nerves to control a robotic hand requires...
Improving the functionality of prosthetic hands with noninvasive techniques is still a challenge. Su...
The electroencephalogram (EEG) signals are a measurable brain electrical activity. EEG signals can b...
Numerous recent studies have aimed to improve myoelectric control of prostheses. However, the majori...
Lower-limb powered prostheses have been widely studied and optimized over the years to help amputees...
Amputation of the upper limb significantly hinders the ability of patients to perform activities of ...
Electromyogram (EMG) signal is generated by muscle contraction, and surface electromyography signal ...
A large number of amputee patients doesn't use their myoelectric prosthesis, mainly due to the limit...
Abstract Background Myoelectric control of multifunctional prostheses is challenging for individuals...
The use of surface electromyographic (sEMG) signals, alongside pattern recognition (PR) systems, is ...
Abstract Background Myoelectric pattern recognition systems can decode movement intention to drive u...
Surface electromyography (sEMG)-based pattern recognition studies have been widely used to improve t...
Objective. Recent results have shown the potentials of neural interfaces to provide sensory feedback...
Electromyography (EMG) is a well known technique used for recording electrical activity produced ...
Robotic prostheses are expected to allow amputees greater freedom and mobility. However, available o...
Background. Interfacing an amputee's upper-extremity stump nerves to control a robotic hand requires...
Improving the functionality of prosthetic hands with noninvasive techniques is still a challenge. Su...
The electroencephalogram (EEG) signals are a measurable brain electrical activity. EEG signals can b...
Numerous recent studies have aimed to improve myoelectric control of prostheses. However, the majori...
Lower-limb powered prostheses have been widely studied and optimized over the years to help amputees...