AbstractTranshumeral amputation has a significant effect on a person’s independence and quality of life. Myoelectric prostheses have the potential to restore upper limb function, however their use is currently limited due to lack of intuitive and natural control of multiple degrees of freedom. The goal of this study was to evaluate a novel transhumeral prosthesis controller that uses a combination of kinematic and electromyographic (EMG) signals recorded from the person’s proximal humerus. Specifically, we trained a time-delayed artificial neural network to predict elbow flexion/extension and forearm pronation/supination from six proximal EMG signals, and humeral angular velocity and linear acceleration. We evaluated this scheme with ten ab...
Electrical signals produced by muscle contractions are found to be effective in controlling accurate...
Abstract: Few options are currently available for high-level upper limb amputees to control a powere...
This work aims at developing and evaluating of myoelectric control architectures for upper-limb pros...
Transhumeral amputation has a significant effect on a person’s independence and quality of life. Myo...
AbstractTranshumeral amputation has a significant effect on a person’s independence and quality of l...
Acknowledgment This study was partly supported by a UK Medical Research Council Centenary Award to K...
Existing upper extremity prosthesis controllers are unable to provide effective control for persons ...
Controlling multiple degrees of freedom intuitively and efficiently is a major goal in the field of ...
There are many people throughout the world who have recently lost an arm and are struggling to learn...
Background: Despite advances in prosthetic development and neurorehabilitation, individuals with upp...
Robotic prostheses are expected to allow amputees greater freedom and mobility. However, available o...
As the development of dexterous prosthetic hand and wrist units continues, there is a need for comma...
As the development of dexterous prosthetic hand and wrist units continues, there is a need for comma...
International audienceTranshumeral amputees face substantial difficulties in efficiently controlling...
Most transhumeral amputated individuals deplore the lack of functionality of their prosthesis due to...
Electrical signals produced by muscle contractions are found to be effective in controlling accurate...
Abstract: Few options are currently available for high-level upper limb amputees to control a powere...
This work aims at developing and evaluating of myoelectric control architectures for upper-limb pros...
Transhumeral amputation has a significant effect on a person’s independence and quality of life. Myo...
AbstractTranshumeral amputation has a significant effect on a person’s independence and quality of l...
Acknowledgment This study was partly supported by a UK Medical Research Council Centenary Award to K...
Existing upper extremity prosthesis controllers are unable to provide effective control for persons ...
Controlling multiple degrees of freedom intuitively and efficiently is a major goal in the field of ...
There are many people throughout the world who have recently lost an arm and are struggling to learn...
Background: Despite advances in prosthetic development and neurorehabilitation, individuals with upp...
Robotic prostheses are expected to allow amputees greater freedom and mobility. However, available o...
As the development of dexterous prosthetic hand and wrist units continues, there is a need for comma...
As the development of dexterous prosthetic hand and wrist units continues, there is a need for comma...
International audienceTranshumeral amputees face substantial difficulties in efficiently controlling...
Most transhumeral amputated individuals deplore the lack of functionality of their prosthesis due to...
Electrical signals produced by muscle contractions are found to be effective in controlling accurate...
Abstract: Few options are currently available for high-level upper limb amputees to control a powere...
This work aims at developing and evaluating of myoelectric control architectures for upper-limb pros...