Abstract—The quality of life of leg amputees can be improved dramatically by using a cyber physical system (CPS) that controls artificial legs based on neural signals representing amputees’ intended movements. The key to the CPS system is the neural-machine interface (NMI) that senses electromyographic (EMG) signals to make control decisions. This paper presents a design and implementation of a novel NMI using an embedded computer system to collect neural signals from a physical system-a leg amputee, provide adequate computational capability to interpret such signals, and make decisions to identify user’s intent for prostheses control in real time. A new deciphering algorithm, composed of an EMG pattern classifier and a post-processing sche...
Limb amputation results in a physical disability that causes activities of daily living to become di...
This paper presents a real-time implementation of an intent recognition system on one transfemoral (...
Despite the technological progress in robotics, mechatronic limbs still lack functionality, reliabil...
The quality-of-life of leg amputees can be improved dramatically by using a cyber-physical system (C...
This paper presents a design and implementation of a cyber-physical system (CPS) for neurally contro...
According to limb loss statistics, there are over one million leg amputees in the US whose lives are...
According to limb loss statistics, there are over one million leg amputees in the US whose lives are...
This paper presents a novel cyber physical system (CPS) that senses signals from two physical system...
This paper presents the design and implementation of a cyber physical system (CPS) for neural-machin...
This paper presents a design and implementation of a neural-machine interface (NMI) for artificial l...
Promising developments are currently ongoing worldwide in the field of neuroprosthetics and artifici...
This paper presents a design and partial implementation of an embedded system as a part of neural-ma...
Despite the technological progress in robotics achieved in the last decades, prosthetic limbs still ...
To enable intuitive operation of powered artificial legs, an interface between user and prosthesis t...
This paper presents a novel architecture of a lower limb neural machine interface (NMI) for determin...
Limb amputation results in a physical disability that causes activities of daily living to become di...
This paper presents a real-time implementation of an intent recognition system on one transfemoral (...
Despite the technological progress in robotics, mechatronic limbs still lack functionality, reliabil...
The quality-of-life of leg amputees can be improved dramatically by using a cyber-physical system (C...
This paper presents a design and implementation of a cyber-physical system (CPS) for neurally contro...
According to limb loss statistics, there are over one million leg amputees in the US whose lives are...
According to limb loss statistics, there are over one million leg amputees in the US whose lives are...
This paper presents a novel cyber physical system (CPS) that senses signals from two physical system...
This paper presents the design and implementation of a cyber physical system (CPS) for neural-machin...
This paper presents a design and implementation of a neural-machine interface (NMI) for artificial l...
Promising developments are currently ongoing worldwide in the field of neuroprosthetics and artifici...
This paper presents a design and partial implementation of an embedded system as a part of neural-ma...
Despite the technological progress in robotics achieved in the last decades, prosthetic limbs still ...
To enable intuitive operation of powered artificial legs, an interface between user and prosthesis t...
This paper presents a novel architecture of a lower limb neural machine interface (NMI) for determin...
Limb amputation results in a physical disability that causes activities of daily living to become di...
This paper presents a real-time implementation of an intent recognition system on one transfemoral (...
Despite the technological progress in robotics, mechatronic limbs still lack functionality, reliabil...