Zhu Liang Yu

School of Automation Science and Engineering, South China University of Technology, and also with the Guangzhou Key Laboratory of Brain Computer Interface and Applications, Guangzhou 510640, China

Associated articles

TBME, Featured Articles
A BCI-based Environmental Control System for Patients with Severe Spinal Cord Injuries
An important application of EEG-based brain-computer interface (BCI) is environmental control, which can improve the quality of life for paralyzed patients. However, most of the existing BCI-based environmental control systems were designed for the control of a single device without... Read more
TNSRE, Featured Articles
Learning Invariant Patterns Based on a Convolutional Neural Network and Big Electroencephalography Data for Subject-Independent P300 Brain-Computer Interfaces
A brain-computer interface (BCI) measures and analyzes brain activity and converts this activity into computer commands to control external devices. In contrast to traditional BCIs that require a subject-specific calibration process before being operated, a subject-independent BCI learns a subject-independent... Read more
TNSRE, Articles
Learning Invariant Patterns Based on a Convolutional Neural Network and Big Electroencephalography Data for Subject-Independent P300 Brain-Computer Interfaces
A brain-computer interface (BCI) measures and analyzes brain activity and converts this activity into computer commands to control external devices. In contrast to traditional BCIs that require a subject-specific calibration process before being operated, a subject-independent BCI learns a subject-independent... Read more