Prosthetic hands are prescribed to patients who have suffered an amputation of the upper limb due to an accident or a disease. This is done to allow patients to regain functionality of their lost hands. Myoelectric prosthetic hands were found to have the possibility of implementing intuitive controls based on operator’s electromyogram (EMG) signals. These controls have been extensively studied and developed. In recent years, development costs and maintainability of prosthetic hands have been improved through three-dimensional (3D) printing technology. However, no previous studies have realized the advantages of EMG-based classification of multiple finger movements in conjunction with the introduction of advanced control mechanisms based on ...
This paper presents a prosthetic hand control system for trans-radial amputees based on electromyogr...
Prosthetic technology has been advancing in the scientific community to the point where amputees are...
Dependable and efficient utilization of a multigrasp prosthetic hand requires an effective control i...
Prosthetic hands are prescribed to patients who have suffered an amputation of the upper limb due to...
Myoelectric artificial limbs can significantly advance the state of the art in prosthetics, since th...
Persons with recent hand amputations expect modern hand prostheses to function like intact hands. Cu...
This paper proposes a novel method of using electromyographic (EMG) potentials generated by the fore...
The human hand is a complex system, with a large number of degrees of freedom (DoFs), sensors embedd...
In this paper a case study is introduced, which assesses the suitability of a newly conceived two-ch...
Understanding the neurophysiological signals underlying voluntary motor control and decoding them fo...
Abstract Background Myoelectric pattern recognition systems can decode movement intention to drive u...
A real-time pattern recognition algorithm based on k-nearest neighbors and lazy learning was used to...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
In this paper, we present the Pisa/IIT SoftHand with myoelectric control as a synergy-driven approa...
This paper presents a prosthetic hand control system for trans-radial amputees based on electromyogr...
Prosthetic technology has been advancing in the scientific community to the point where amputees are...
Dependable and efficient utilization of a multigrasp prosthetic hand requires an effective control i...
Prosthetic hands are prescribed to patients who have suffered an amputation of the upper limb due to...
Myoelectric artificial limbs can significantly advance the state of the art in prosthetics, since th...
Persons with recent hand amputations expect modern hand prostheses to function like intact hands. Cu...
This paper proposes a novel method of using electromyographic (EMG) potentials generated by the fore...
The human hand is a complex system, with a large number of degrees of freedom (DoFs), sensors embedd...
In this paper a case study is introduced, which assesses the suitability of a newly conceived two-ch...
Understanding the neurophysiological signals underlying voluntary motor control and decoding them fo...
Abstract Background Myoelectric pattern recognition systems can decode movement intention to drive u...
A real-time pattern recognition algorithm based on k-nearest neighbors and lazy learning was used to...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
In this paper, we present the Pisa/IIT SoftHand with myoelectric control as a synergy-driven approa...
This paper presents a prosthetic hand control system for trans-radial amputees based on electromyogr...
Prosthetic technology has been advancing in the scientific community to the point where amputees are...
Dependable and efficient utilization of a multigrasp prosthetic hand requires an effective control i...