Add to ORKGThe goal of the study was to use electrical signals from primary motor cortex to generate accurate predictions of the movement onset time of performed movements, for potential use in asynchronous brain-machine interface (BMI) systems. Four subjects, two with electroencephalogram and two with electrocorticogram electrodes, performed various movements while activity from their primary motor cortices was recorded. An analysis program used several criteria (change point, fractal dimension, spectral entropy, sum of differences, bandpower, bandpower integral, phase, and variance), derived from the neural recordings, to generate predictions of movement onset time, which it compared to electromyogram activity onset time, determining prediction a...
<div><p>Assistive devices, like exoskeletons or orthoses, often make use of physiological data that ...
Neural signatures of humans' movement intention can be exploited by future neuroprosthesis. We propo...
Detection of movement intention from the movement-related cortical potential (MRCP) derived from the...
The goal of the study was to use electrical signals from primary motor cortex to generate accurate ...
Most brain-machine interface (BMI) studies have focused only on the active state of which a BMI user...
Power changes in specific frequency bands are typical brain responses during motor planning or prepa...
In this study we summarize the features that characterize the pre-movements and pre-motor imageries ...
The movement-related cortical potential (MRCP) is a low-frequency negative shift in the electroencep...
In recent years, asynchronous brain computer interface (BCI) systems have been utilized in many doma...
Brain computer interfaces (BCIs) provide a direct communication channel by using brain signals, enab...
Assistive devices, like exoskeletons or orthoses, often make use of physiological data that allow th...
Movement intention (MI) is the mental state in which it is desired to make an action that implies mo...
The emerging field of neural engineering is tasked with applying engineering principles towards unde...
Detection of motor intention with short latency from scalp electroencephalography (EEG) is essential...
Movement intention detection is important for development of intuitive movement based Brain Compute...
<div><p>Assistive devices, like exoskeletons or orthoses, often make use of physiological data that ...
Neural signatures of humans' movement intention can be exploited by future neuroprosthesis. We propo...
Detection of movement intention from the movement-related cortical potential (MRCP) derived from the...
The goal of the study was to use electrical signals from primary motor cortex to generate accurate ...
Most brain-machine interface (BMI) studies have focused only on the active state of which a BMI user...
Power changes in specific frequency bands are typical brain responses during motor planning or prepa...
In this study we summarize the features that characterize the pre-movements and pre-motor imageries ...
The movement-related cortical potential (MRCP) is a low-frequency negative shift in the electroencep...
In recent years, asynchronous brain computer interface (BCI) systems have been utilized in many doma...
Brain computer interfaces (BCIs) provide a direct communication channel by using brain signals, enab...
Assistive devices, like exoskeletons or orthoses, often make use of physiological data that allow th...
Movement intention (MI) is the mental state in which it is desired to make an action that implies mo...
The emerging field of neural engineering is tasked with applying engineering principles towards unde...
Detection of motor intention with short latency from scalp electroencephalography (EEG) is essential...
Movement intention detection is important for development of intuitive movement based Brain Compute...
<div><p>Assistive devices, like exoskeletons or orthoses, often make use of physiological data that ...
Neural signatures of humans' movement intention can be exploited by future neuroprosthesis. We propo...
Detection of movement intention from the movement-related cortical potential (MRCP) derived from the...