© 2018 IEEE. Recent studies indicate the limited clinical acceptance of myoelectric prostheses, as upper extremity amputees need improved functionality and more intuitive, effective, and coordinated control of their artificial limbs. Rather than exclusively classifying the electromyogram (EMG) signals, it has been shown that inertial measurements (IMs) can form an excellent complementary signal to the EMG signals to improve the prosthetic control robustness. We present an investigation into the possibility of replacing, rather than complementing, the EMG signals with IMs. We hypothesize that the enhancements achieved by the combined use of the EMG and IM signals may not be significantly different from that achieved by the use of Magnetomete...
Background: Current myoelectric control algorithms for active prostheses map time- and frequency-dom...
Lower-limb powered prostheses have been widely studied and optimized over the years to help amputees...
© 2016 IEEE. We tackle the challenging problem of myoelectric prosthesis control with an improved fe...
Abstract Background Myoelectric pattern recognition systems can decode movement intention to drive u...
Aiming at dexterous and reliable solutions to increase the quality of life of amputees, upper limb p...
For decades, electromyography (EMG) has been used for diagnostics, upper-limb prosthesis control, an...
The interest on wearable prosthetic devices has boost the research for a robust framework to help in...
Abstract—Recent studies have explored the integration of additional input modalities to improve myoe...
Specialized myoelectric sensors have been used in prosthetics for decades, but, with recent advancem...
For transradial amputees, the muscles in the residual forearm naturally employed by unimpaired subje...
Numerous recent studies have aimed to improve myoelectric control of prostheses. However, the majori...
Background and Objective: Mobility of subject (MoS) and muscle contraction force variation (MCFV) ha...
© 2016 IEEE. Pattern recognition control applied on surface electromyography (EMG) from the extrinsi...
An upper-limb amputation is a life-changing procedure severely impacting the individual's ability to...
Electromyography (EMG) is a well known technique used for recording electrical activity produced ...
Background: Current myoelectric control algorithms for active prostheses map time- and frequency-dom...
Lower-limb powered prostheses have been widely studied and optimized over the years to help amputees...
© 2016 IEEE. We tackle the challenging problem of myoelectric prosthesis control with an improved fe...
Abstract Background Myoelectric pattern recognition systems can decode movement intention to drive u...
Aiming at dexterous and reliable solutions to increase the quality of life of amputees, upper limb p...
For decades, electromyography (EMG) has been used for diagnostics, upper-limb prosthesis control, an...
The interest on wearable prosthetic devices has boost the research for a robust framework to help in...
Abstract—Recent studies have explored the integration of additional input modalities to improve myoe...
Specialized myoelectric sensors have been used in prosthetics for decades, but, with recent advancem...
For transradial amputees, the muscles in the residual forearm naturally employed by unimpaired subje...
Numerous recent studies have aimed to improve myoelectric control of prostheses. However, the majori...
Background and Objective: Mobility of subject (MoS) and muscle contraction force variation (MCFV) ha...
© 2016 IEEE. Pattern recognition control applied on surface electromyography (EMG) from the extrinsi...
An upper-limb amputation is a life-changing procedure severely impacting the individual's ability to...
Electromyography (EMG) is a well known technique used for recording electrical activity produced ...
Background: Current myoelectric control algorithms for active prostheses map time- and frequency-dom...
Lower-limb powered prostheses have been widely studied and optimized over the years to help amputees...
© 2016 IEEE. We tackle the challenging problem of myoelectric prosthesis control with an improved fe...