Add to ORKGElectromyography (EMG) has been widely used as control commands for prosthesis, powered exoskeletons and rehabilitative robots. In this paper, an EMG-driven state space model is developed to estimate continuous joint angular displacement and velocity, demonstrated by elbow flexion/extension. The model combines the Hill-based muscle model with the forward dynamics of joint movement, in which kinematic variables are expressed as a function of neural activation levels. EMG features including integral of absolute value and waveform length are then extracted, and two quadratic equations which associate the kinematic variables with EMG features are constructed to represent the measurement equation. The proposed model are verified by extensively e...
In this paper we use motion capture technology together with an electromyography (EMG) driven muscul...
EMG signals are often used to control prostheses or assistive devices, but have been rarely used in ...
This dissertation describes the development and evaluation of a musculoskeletal model of the elbow j...
Electromyography (EMG) has been widely used as control commands for prosthesis, powered exoskeletons...
A state-space electromyography (EMG) model is developed for continuous motion estimation of human li...
ObjectiveHuman intention recognition technology plays a vital role in the application of robotic exo...
Neuromusculoskeletal (NMS) modeling is a valuable tool in orthopaedic biomechanics and motor control...
Robotic devices have great potential in physical therapy owing to their repeatability, reliability a...
Continuous joint angle estimation plays an important role in motion intention recognition and rehabi...
EMG-based continuous wrist joint motion estimation has been identified as a promising technique with...
As one of the most direct indicators of the transparency between a human and an exoskeleton, interac...
Human electromyogram (EMG) contains abundant body movement information, which is often used as the i...
The interest on wearable prosthetic devices has boost the research for a robust framework to help in...
This paper proposes a neuromusculoskeletal (NMS) model to predict individual muscle force during elb...
Accurately identifying human's intent of motion from electromyography (EMG) signals is the key t...
In this paper we use motion capture technology together with an electromyography (EMG) driven muscul...
EMG signals are often used to control prostheses or assistive devices, but have been rarely used in ...
This dissertation describes the development and evaluation of a musculoskeletal model of the elbow j...
Electromyography (EMG) has been widely used as control commands for prosthesis, powered exoskeletons...
A state-space electromyography (EMG) model is developed for continuous motion estimation of human li...
ObjectiveHuman intention recognition technology plays a vital role in the application of robotic exo...
Neuromusculoskeletal (NMS) modeling is a valuable tool in orthopaedic biomechanics and motor control...
Robotic devices have great potential in physical therapy owing to their repeatability, reliability a...
Continuous joint angle estimation plays an important role in motion intention recognition and rehabi...
EMG-based continuous wrist joint motion estimation has been identified as a promising technique with...
As one of the most direct indicators of the transparency between a human and an exoskeleton, interac...
Human electromyogram (EMG) contains abundant body movement information, which is often used as the i...
The interest on wearable prosthetic devices has boost the research for a robust framework to help in...
This paper proposes a neuromusculoskeletal (NMS) model to predict individual muscle force during elb...
Accurately identifying human's intent of motion from electromyography (EMG) signals is the key t...
In this paper we use motion capture technology together with an electromyography (EMG) driven muscul...
EMG signals are often used to control prostheses or assistive devices, but have been rarely used in ...
This dissertation describes the development and evaluation of a musculoskeletal model of the elbow j...