Add to ORKGMany clinically available, upper-extremity prosthetic limbs provide myoelectric control of a single device, such as a hand, elbow, or wrist. Most commonly, these systems yield control information from myoelectric signal (MES) amplitude [1] or rate of change of MES [2]. Such systems have been beneficial; however, prosthetic users would no doubt find enhanced functionality and usability if they could reliably control more than a single function (or device). Seeking to address this issue, extensive work has gone into developing schemes that provide multifunction myoelectric classification with very high accuracy [3]. However, for all continuous multifunction MES classifiers, no matter how accurate and repeatable, there exists no defined thresh...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
Many clinically available, upper-extremity prosthetic limbs provide myoelectric control of a single ...
Abstract Background Pattern recognition technology allows for more intuitive control of myoelectric ...
The surface myoelectric signal (MES) has proven to be an effective control input for powered prosthe...
An upper-limb amputation is a life-changing procedure severely impacting the individual's ability to...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
Abstract Background Advances such as targeted muscle reinnervation and pattern recognition control m...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
Many clinically available, upper-extremity prosthetic limbs provide myoelectric control of a single ...
Abstract Background Pattern recognition technology allows for more intuitive control of myoelectric ...
The surface myoelectric signal (MES) has proven to be an effective control input for powered prosthe...
An upper-limb amputation is a life-changing procedure severely impacting the individual's ability to...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
A myoelectric controller should provide an intuitive and effective human-machine interface that deci...
Abstract Background Advances such as targeted muscle reinnervation and pattern recognition control m...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...
The functionality of upper limb prostheses can be improved by intuitive control strategies that use ...