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Research Overview
EEG-Based Brain-Computer Interfaces (BCIs) for Communication
Brain-Computer Interfaces for the Communication with Completely Locked-in Patients
Practical BCI Systems for the Communication with Patients with Amyotrophic Lateral Sclerosis
SSVEP-Based Mental Spellers
Functional Near Infrared Spectroscopy (fNIRS)-based BCIs
Multimodal BCI Integrating Simultaneously Recorded EEG and fNIRS
Brain-Computer Interfaces (BCIs) for Device Control and Cognitive Decoding
BCI Systems for the Automatic Control of Home Appliances
BCI Systems Integrating IoT and AR for the Aged and the Paralyzed
Speech BCI - Imagined Speech Recognition from Intracranial Recordings
Control of Assistive Devices (Wheelchairs and Wearable Robots) Using EEG-based BCIs
P300-based BCIs for Robotic Arm Control and Mental Speller
Mu-rhythm-based BCI Systems for External Device Control
Passive Brain-Computer Interfaces for Brain Status Monitoring
Passive BCI Technology for Mental States Monitoring
Estimation of Attention and Emotion Based on Passive BCI
Minimization of Individual Variability in Passive BCIs
Development of Biomedical Signal Processing Techniques for Multimodal Passive BCIs
Development of Application Technology of Passive BCIs
New BCI Applications and Wearable Neural Interfaces
Application of BCIs to Vehicles - Control of In-Car Environment and Detection of Motion Sickness
SSVEP-based BCIs for Communication and Avatar Control in VR Environment
Neuro-education Technology Based on Affective Computing
Real-time Artifact Detection and Removal for Wearable Neurointerfaces
Biosignal-Based Human-Computer Interfaces and Metaverse Applications
Biomedical Signal-based Human-Computer Interfaces
Eyeball Mouse and Eye-writing Systems Using Electrooculogram (EOG)
Assistive Communication System for the Paralyzed Using EOG
AI-based Silent Speech Recogniation Using Facial Electromyogram (EMG)
Facial Expression Recognition Using Facial EMG in VR Environment
Silent Speech Interface Based on 3-Axis Accelerometers
Electroceuticals Based on Noninvasive Brain Stimulation for Neurorehabilitation and Cognitive Augmentation
Dvelopment of Transcranial Current Stimulation Methods Based on Numerical Field Simulations
Cognitive Augmentation Using Noninvasive Brain Stimulation
Development of New Transcranial AC Stimulation Methods
Deep Brain Stimulation Using Noninvasive Electrical Brain Stimulation
Development of Transcranial Photobiomodulation Methods
Digital Healthcare Solutions for Early Diagnosis and Treatment of Psychiatric Diseases
Development of Neuromarkers for Diagnosis/Prediction of Psychiatric Diseases
AI-based Automated Diagnosis of Psychiatric Diseases
AI-based Prediction of Treatment Prognosis for Psychiatric Diseases
Design of Wearable EEG Devices for the Screening of Psychiatric Diseases
Individually Customized Electroceuticals Based on Biomedical Signal Processing
Neuromarketing Solutions Based on EEG and Biomedical Signal Analyses with AI
New Neuromarketing Methods Based on Human-Computer Interfaces
Application of EOG-based Eye Trackers to Neuromarketing Applications
Quantitative Assessment of Products and Design Using EEG and Biomedical Signals
Neurocinematics - Studies on Movies and Cultural Contents Using Neurotechnology
Neural/Biomedical Signal Processing Based on Artificial Intelligence
Application of Artificial Intelligence to Neural/Biomedical Signal Processing
Generation of Artificial EEG Using Neural Style Transfer
Data Augmentation Methods for Enhancing Accuracy of Deep Learning
Development of New Deep Learning Structures and Input Tensors
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