Abstract—Recent studies have explored the integration of additional input modalities to improve myoelectric control of prostheses. Arm dynamics in particular are an interesting option, as these can be measured easily by means of accelerometers. In this work, the benefit of accelerometer signals is demonstrated on a large scale movement classification task, consisting of 40 hand and wrist movements obtained from 20 subjects. The results demonstrate that the accelerometer modality is indeed highly informative and even outperforms surface electromyography in terms of classification accuracy. The highest accuracy, however, is obtained when both modalities are integrated in a multi-modal classifier. I
Electromyogram (EMG) signal is generated by muscle contraction, and surface electromyography signal ...
A fundamental component of many modern prostheses is the myoelectric control system, which uses the ...
Human motion intention detection is an essential part of the control of upper-body exoskeletons. Whi...
For decades, electromyography (EMG) has been used for diagnostics, upper-limb prosthesis control, an...
Abstract Background Myoelectric pattern recognition systems can decode movement intention to drive u...
© 2018 IEEE. Recent studies indicate the limited clinical acceptance of myoelectric prostheses, as 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...
Recent work on myoelectric prosthetic control has shown that the incorporation of accelerometry info...
Numerous recent studies have aimed to improve myoelectric control of prostheses. However, the majori...
The myoelectric prosthetic hand is a powerful tool developed to help people with upper limb loss res...
Electromyography (EMG) is a well known technique used for recording electrical activity produced ...
Accelerometers can be used to augment the control of powered prosthetic arms. They can detect the or...
Abstract Background Electromyography (EMG) pattern-recognition based control strategies for multifun...
Hand amputations can dramatically affect the capabilities of a person. Machine learning is often app...
Electromyogram (EMG) signal is generated by muscle contraction, and surface electromyography signal ...
A fundamental component of many modern prostheses is the myoelectric control system, which uses the ...
Human motion intention detection is an essential part of the control of upper-body exoskeletons. Whi...
For decades, electromyography (EMG) has been used for diagnostics, upper-limb prosthesis control, an...
Abstract Background Myoelectric pattern recognition systems can decode movement intention to drive u...
© 2018 IEEE. Recent studies indicate the limited clinical acceptance of myoelectric prostheses, as 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...
Recent work on myoelectric prosthetic control has shown that the incorporation of accelerometry info...
Numerous recent studies have aimed to improve myoelectric control of prostheses. However, the majori...
The myoelectric prosthetic hand is a powerful tool developed to help people with upper limb loss res...
Electromyography (EMG) is a well known technique used for recording electrical activity produced ...
Accelerometers can be used to augment the control of powered prosthetic arms. They can detect the or...
Abstract Background Electromyography (EMG) pattern-recognition based control strategies for multifun...
Hand amputations can dramatically affect the capabilities of a person. Machine learning is often app...
Electromyogram (EMG) signal is generated by muscle contraction, and surface electromyography signal ...
A fundamental component of many modern prostheses is the myoelectric control system, which uses the ...
Human motion intention detection is an essential part of the control of upper-body exoskeletons. Whi...