Matching the dexterity, versatility, and robustness of the human hand is still an unachieved goal in bionics, robotics, and neural engineering. A major limitation for hand prosthetics lies in the challenges of reliably decoding user intention from muscle signals when controlling complex robotic hands. Most of the commercially available prosthetic hands use muscle-related signals to decode a finite number of predefined motions and some offer proportional control of open/close movements of the whole hand. Here, in contrast, we aim to offer users flexible control of individual joints of their artificial hand. We propose a novel framework for decoding neural information that enables a user to independently control 11 joints of the hand in a con...
The control of robotic prosthetic hands (RPHs) for upper limb amputees is far from optimal. Simultan...
The complexity and dexterity of the human hand make the development of natural and robust control of...
The complexity and dexterity of the human hand make the development of natural and robust control of...
The only way we can interact with the world is through movements, and our primary interactions are v...
Abstract—Human level of dexterity has not been duplicated in a robotic form to date. Dexterity is ac...
Despite recent advances in prosthetics and assistive robotics in general, robust simultaneous and pr...
Stable myoelectric control of hand prostheses remains an open problem. The only successful human-mac...
Abstract Prosthetic devices for hand difference have advanced considerably in recent years, to the p...
Limb loss heavily a�ects the quality of daily living. In case of upperlimb loss, activities of daily...
Stable myoelectric control of hand prostheses remains an open problem. The only successful human–mac...
One of the major problems when dealing with highly dexterous, active hand prostheses is their contro...
Abstract One of the major problems when dealing with highly dexterous, active hand prostheses is the...
Understanding the neurophysiological signals underlying voluntary motor control and decoding them fo...
Applications of simultaneous and proportional control for upper-limb prostheses typically rely on su...
Myocontrol is the use of a human machine interface based on muscle signals in order to control a rob...
The control of robotic prosthetic hands (RPHs) for upper limb amputees is far from optimal. Simultan...
The complexity and dexterity of the human hand make the development of natural and robust control of...
The complexity and dexterity of the human hand make the development of natural and robust control of...
The only way we can interact with the world is through movements, and our primary interactions are v...
Abstract—Human level of dexterity has not been duplicated in a robotic form to date. Dexterity is ac...
Despite recent advances in prosthetics and assistive robotics in general, robust simultaneous and pr...
Stable myoelectric control of hand prostheses remains an open problem. The only successful human-mac...
Abstract Prosthetic devices for hand difference have advanced considerably in recent years, to the p...
Limb loss heavily a�ects the quality of daily living. In case of upperlimb loss, activities of daily...
Stable myoelectric control of hand prostheses remains an open problem. The only successful human–mac...
One of the major problems when dealing with highly dexterous, active hand prostheses is their contro...
Abstract One of the major problems when dealing with highly dexterous, active hand prostheses is the...
Understanding the neurophysiological signals underlying voluntary motor control and decoding them fo...
Applications of simultaneous and proportional control for upper-limb prostheses typically rely on su...
Myocontrol is the use of a human machine interface based on muscle signals in order to control a rob...
The control of robotic prosthetic hands (RPHs) for upper limb amputees is far from optimal. Simultan...
The complexity and dexterity of the human hand make the development of natural and robust control of...
The complexity and dexterity of the human hand make the development of natural and robust control of...