The prediction of simultaneous limb motions is a highly desirable feature for the control of artificial limbs. In this work, we investigated different classification strategies for individual and simultaneous movements based on pattern recognition of myoelectric signals. Our results suggest that any classifier can be potentially employed in the prediction of simultaneous movements if arranged in a distributed topology. On the other hand, classifiers inherently capable of simultaneous predictions, such as the Multi-Layer Perceptron (MLP), were found to be more cost effective, as they can be successfully employed in their simplest form. In the prediction of individual movements, the One-Vs-One (OVO) topology was found to improve classificatio...
The myoelectric prosthetic hand is a powerful tool developed to help people with upper limb loss res...
Pattern recognition algorithms have been widely used to map surface electromyographic signals to tar...
Abstract—This paper proposes a novel method of pattern classification for user motions to create inp...
The prediction of motion intent through the decoding of myoelectric signals has the potential to imp...
Limb motions normally involve more than one degree of freedom combined in a coordinated manner. Alth...
Background: Controlling a myoelectric prosthesis for upper limbs is increasingly challenging for the...
A natural and intuitive operation of multifunctional upper limb prostheses involves the concurrent a...
BackgroundProcessing and pattern recognition of myoelectric signals have been at the core of prosthe...
BackgroundProcessing and pattern recognition of myoelectric signals have been at the core of prosthe...
Myoelectric-based decoding strategies offer significant advantages in the areas of human-machine int...
Background: In the field of myoelectric control systems, pattern recognition (PR) algorithms have be...
A challenge in using myoelectric signals in control of motorised prostheses is achieving effective s...
Over the last few decades, pattern recognition algorithms have shown promising results in the field ...
Background: Pattern recognition (PR) based strategies for the control of myoelectric upper limb pros...
© 2016 IEEE. Pattern Recognition (PR)-based EMG controllers of multi-functional upper-limb prosthese...
The myoelectric prosthetic hand is a powerful tool developed to help people with upper limb loss res...
Pattern recognition algorithms have been widely used to map surface electromyographic signals to tar...
Abstract—This paper proposes a novel method of pattern classification for user motions to create inp...
The prediction of motion intent through the decoding of myoelectric signals has the potential to imp...
Limb motions normally involve more than one degree of freedom combined in a coordinated manner. Alth...
Background: Controlling a myoelectric prosthesis for upper limbs is increasingly challenging for the...
A natural and intuitive operation of multifunctional upper limb prostheses involves the concurrent a...
BackgroundProcessing and pattern recognition of myoelectric signals have been at the core of prosthe...
BackgroundProcessing and pattern recognition of myoelectric signals have been at the core of prosthe...
Myoelectric-based decoding strategies offer significant advantages in the areas of human-machine int...
Background: In the field of myoelectric control systems, pattern recognition (PR) algorithms have be...
A challenge in using myoelectric signals in control of motorised prostheses is achieving effective s...
Over the last few decades, pattern recognition algorithms have shown promising results in the field ...
Background: Pattern recognition (PR) based strategies for the control of myoelectric upper limb pros...
© 2016 IEEE. Pattern Recognition (PR)-based EMG controllers of multi-functional upper-limb prosthese...
The myoelectric prosthetic hand is a powerful tool developed to help people with upper limb loss res...
Pattern recognition algorithms have been widely used to map surface electromyographic signals to tar...
Abstract—This paper proposes a novel method of pattern classification for user motions to create inp...