Compared to other electroencephalogram (EEG) modalities, motor imagery (MI) based brain-computer interfaces (BCIs) can provide more natural and intuitive communication between human intentions and external machines. However, this type of BCI depends heavily on effective signal processing to discriminate EEG patterns corresponding to various MI tasks, especially feature extraction procedures. In this study, a comparison of different feature extraction methods was conducted for EEG classification of imaginary movements within the same upper extremity. Unlike traditional MI tasks (left/right hand), six imaginary movements from the same unilateral upper extremity were proposed and evaluated, including elbow flexion/extension, forearm supination...
This paper presents a novel effective method forABSTRACT feature extraction of motor imaginary. We c...
This paper focuses on classification of motor imagery in Brain Computer Interface (BCI) by using cla...
Brain computer interface (BCI) technology connects humans with machines via electroencephalography (...
Brain-computer interface (BCI) allows collaboration between humans and machines. It translates the e...
The task of discriminating the motor imagery of different movements within the same limb using elect...
Brain-computer interface (BCI) allows collaboration between humans and machines. It translates the e...
Brain-computer interfaces may enable the collaboration between human and machines. They can in fact ...
Brain-computer interface (BCI) allows collaboration between humans and machines. It translates the e...
Objective. Due to low spatial resolution and poor signal-to-noise ratio of electroencephalogram (EEG...
Abstract Background One of the most promising applications for electroencephalogram (EEG)-based brai...
Electroencephalography (EEG) has recently been considered for use in rehabilitation of people with m...
Brain computer interface (BCI) systems have ushered a new era of neural engineering research. At the...
The ability to control external devices through thought is increasingly becoming a reality. Human be...
The classification of electroencephalography (EEG) induced by the same joint is one of the major cha...
The electroencephalogram (EEG) signals are a measurable brain electrical activity. EEG signals can b...
This paper presents a novel effective method forABSTRACT feature extraction of motor imaginary. We c...
This paper focuses on classification of motor imagery in Brain Computer Interface (BCI) by using cla...
Brain computer interface (BCI) technology connects humans with machines via electroencephalography (...
Brain-computer interface (BCI) allows collaboration between humans and machines. It translates the e...
The task of discriminating the motor imagery of different movements within the same limb using elect...
Brain-computer interface (BCI) allows collaboration between humans and machines. It translates the e...
Brain-computer interfaces may enable the collaboration between human and machines. They can in fact ...
Brain-computer interface (BCI) allows collaboration between humans and machines. It translates the e...
Objective. Due to low spatial resolution and poor signal-to-noise ratio of electroencephalogram (EEG...
Abstract Background One of the most promising applications for electroencephalogram (EEG)-based brai...
Electroencephalography (EEG) has recently been considered for use in rehabilitation of people with m...
Brain computer interface (BCI) systems have ushered a new era of neural engineering research. At the...
The ability to control external devices through thought is increasingly becoming a reality. Human be...
The classification of electroencephalography (EEG) induced by the same joint is one of the major cha...
The electroencephalogram (EEG) signals are a measurable brain electrical activity. EEG signals can b...
This paper presents a novel effective method forABSTRACT feature extraction of motor imaginary. We c...
This paper focuses on classification of motor imagery in Brain Computer Interface (BCI) by using cla...
Brain computer interface (BCI) technology connects humans with machines via electroencephalography (...