Electromyography (EMG) signal is one of the extensively utilised biological signals for predicting human motor intention, which is an essential element in human-robot collaboration platforms. Studies on motion intention prediction from EMG signals have often been concentrated on either classification and regression models of muscle activity. In this study, we leverage the information from the EMG signals, to detect the subject’s intentions in generating motion commands for a robot-assisted upper limb rehabilitation platform. The EMG signals are recorded from ten healthy subjects’ biceps muscle, and the movements of the upper limb evaluated are voluntary elbow flexion and extension along the sagittal plane. The signals are filtered through a...
Musculoskeletal injuries can severely impact the ability to produce and control body motion. In orde...
The main objective of this work is to establish a framework for processing and evaluating the lower ...
To assist people with disabilities, exoskeletons must be provided with human-machine interfaces (HMI...
The use of robotic systems has been investigated over the past couple of decades in improving rehab...
A key factor in physical rehabilitation is the active participation of the patients in exerting effo...
With the rapid development of human-computer interaction, researchers are extending beyond physical-...
Upper limb movement classification, which maps input signals to the target activities, is a key buil...
Assistive robotic technology aims at providing help to disabled individuals in order for them to per...
Several common diseases, such as stroke, multiple sclerosis, and spinal cord injuries, lead to upper...
The electroencephalogram (EEG) signals are a measurable brain electrical activity. EEG signals can b...
Upper limb amputation severely affects the quality of life and the activities of daily living of a p...
Detecting human motion and predicting human intentions by analyzing body signals are challenging but...
The deployment of electromyography (EMG) signals attracts many researchers since it can be used in d...
Background: Several studies investigating the use of electromyographic (EMG) signals in robot-based...
1011-1016Electromyography (EMG) signals are bioelectric signals generated by the electrical activiti...
Musculoskeletal injuries can severely impact the ability to produce and control body motion. In orde...
The main objective of this work is to establish a framework for processing and evaluating the lower ...
To assist people with disabilities, exoskeletons must be provided with human-machine interfaces (HMI...
The use of robotic systems has been investigated over the past couple of decades in improving rehab...
A key factor in physical rehabilitation is the active participation of the patients in exerting effo...
With the rapid development of human-computer interaction, researchers are extending beyond physical-...
Upper limb movement classification, which maps input signals to the target activities, is a key buil...
Assistive robotic technology aims at providing help to disabled individuals in order for them to per...
Several common diseases, such as stroke, multiple sclerosis, and spinal cord injuries, lead to upper...
The electroencephalogram (EEG) signals are a measurable brain electrical activity. EEG signals can b...
Upper limb amputation severely affects the quality of life and the activities of daily living of a p...
Detecting human motion and predicting human intentions by analyzing body signals are challenging but...
The deployment of electromyography (EMG) signals attracts many researchers since it can be used in d...
Background: Several studies investigating the use of electromyographic (EMG) signals in robot-based...
1011-1016Electromyography (EMG) signals are bioelectric signals generated by the electrical activiti...
Musculoskeletal injuries can severely impact the ability to produce and control body motion. In orde...
The main objective of this work is to establish a framework for processing and evaluating the lower ...
To assist people with disabilities, exoskeletons must be provided with human-machine interfaces (HMI...