We analyze techniques for myoelectrical signals classification for the purpose of designing a multifunctional prosthetic device for human amputees. The main advantage of our system over existing models is that it is more robust, easier to work with, more general, and efficient enough to run in real time. We achieve this with the help of Supervised Growing Cell Structures. an artificial neural network model designed by Fritzke [10]. The current paper focuses on the flexion of the index, middle and ring fingers, as these are the most difficult movements to tackle
Roughly 185,000 amputations occur in the United States yearly, with the number of people living with...
This paper describes a research project at the National Institute of Advanced Industrial Science and...
dissertationAmputation of all or part of the upper limb, whether by trauma or by disease, is a parti...
We analyze techniques for myoelectrical signals classification for the purpose of designing a multif...
Amputation is a medical procedure that is required to cut part of or all of the extremity, i.e. uppe...
BACKGROUND: Based on mainly vascular diseases and traumatic injuries, around 40,000 upper limb amput...
One of the main problems in developing active prosthesis is how to control them in a natural way. In...
Abstract. One of the main problems in developing active prosthesis is how to control them in a natur...
The development of robotic hand prosthetic aims to give back people with disabilities, the ability t...
Poly-articulated, myoelectric hand prostheses reproduce complex multi-degree of freedom movements to...
The acquisition and the processing of myoelectric signals are commonly used in biomedical engineerin...
Electromyography (EMG) also referred to as the Myoelectric, is a biomedical signal acquired from ske...
Abstract Background The use of pattern recognition-based methods to control myoelectric upper-limb p...
The research in Neuro-Prosthetics is gaining more significance and popularity as the advancement in ...
The myoelectric prosthetic hand is a powerful tool developed to help people with upper limb loss res...
Roughly 185,000 amputations occur in the United States yearly, with the number of people living with...
This paper describes a research project at the National Institute of Advanced Industrial Science and...
dissertationAmputation of all or part of the upper limb, whether by trauma or by disease, is a parti...
We analyze techniques for myoelectrical signals classification for the purpose of designing a multif...
Amputation is a medical procedure that is required to cut part of or all of the extremity, i.e. uppe...
BACKGROUND: Based on mainly vascular diseases and traumatic injuries, around 40,000 upper limb amput...
One of the main problems in developing active prosthesis is how to control them in a natural way. In...
Abstract. One of the main problems in developing active prosthesis is how to control them in a natur...
The development of robotic hand prosthetic aims to give back people with disabilities, the ability t...
Poly-articulated, myoelectric hand prostheses reproduce complex multi-degree of freedom movements to...
The acquisition and the processing of myoelectric signals are commonly used in biomedical engineerin...
Electromyography (EMG) also referred to as the Myoelectric, is a biomedical signal acquired from ske...
Abstract Background The use of pattern recognition-based methods to control myoelectric upper-limb p...
The research in Neuro-Prosthetics is gaining more significance and popularity as the advancement in ...
The myoelectric prosthetic hand is a powerful tool developed to help people with upper limb loss res...
Roughly 185,000 amputations occur in the United States yearly, with the number of people living with...
This paper describes a research project at the National Institute of Advanced Industrial Science and...
dissertationAmputation of all or part of the upper limb, whether by trauma or by disease, is a parti...