2019-09 | Machine-learning-based classification between post-traumatic stress disorder and major depressive disorder using P300 features | 임창환 |
2019-08 | Machine-Learning-Based Detection of Craving for Gaming Using Multimodal Physiological Signals: Validation of Test-Retest Reliability for Practical Use | 임창환 |
2016-07 | Machine-learning-based diagnosis of schizophrenia using combined sensor-level and source-level EEG features | 임창환 |
2012-02 | Mathematical Issues in the Inference of Causal Interactions among Multichannel Neural Signals | 임창환 |
2009-02 | Microarray형 휴대성 면역진단칩 개발 | 임창환 |
2019-03 | Mismatch Negativity and Cortical Thickness in Patients With Schizophrenia and Bipolar Disorder | 임창환 |
2016-09 | Motor imagery learning across a sequence of trials in stroke patients | 임창환 |
2021-05 | Multi-channel transorbital electrical stimulation for effective stimulation of posterior retina | 임창환 |
2022-04 | Multipair transcranial temporal interference stimulation for improved focalized stimulation of deep brain regions: A simulation study | 임창환 |
2013-06 | A new dual-frequency stimulation method to increase the number of visual stimuli for multi-class SSVEP-based brain-computer interface (BCI) | 임창환 |
2018-11 | New Method for Pure-Tone Audiometry Using Electrooculogram: A Proof-of-Concept Study | 임창환 |
2013-10 | A new multimodal cortical source imaging algorithm for integrating simultaneously recorded EEG and MEG | 임창환 |
2019-05 | New Strategy for Finite Element Mesh Generation for Accurate Solutions of Electroencephalography Forward Problems | 임창환 |
2011-05 | A Novel Array-Type Transcranial Direct Current Stimulation (tDCS) System for Accurate Focusing on Targeted Brain Areas | 임창환 |
2012-12 | A novel EEG-based brain mapping to determine cortical activation patterns in normal children and children with cerebral palsy during motor imagery tasks | 임창환 |
2022-02 | Novel Hybrid Brain-Computer Interface for Virtual Reality Applications Using Steady-State Visual-Evoked Potential-Based Brain-Computer Interface and Electrooculogram-Based Eye Tracking for Increased Information Transfer Rate | 임창환 |
2022-10 | Novel Signal-to-Signal translation method based on StarGAN to generate artificial EEG for SSVEP-based brain-computer interfaces | 임창환 |
2018-11 | On the Feasibility of Using an Ear-EEG to Develop an Endogenous Brain-Computer Interface | 임창환 |
2017-11 | Performance enhancement of a brain-computer interface using high-density multi-distance NIRS | 임창환 |
2020-03 | Performance Improvement of Near-Infrared Spectroscopy-Based Brain-Computer Interface Using Regularized Linear Discriminant Analysis Ensemble Classifier Based on Bootstrap Aggregating | 임창환 |
2020-12 | Performance Improvement of Near-Infrared Spectroscopy-Based Brain-Computer Interfaces Using Transcranial Near-Infrared Photobiomodulation With the Same Device | 임창환 |
2018-11 | Performance Prediction for a Near-Infrared Spectroscopy-Brain-Computer Interface Using Resting-State Functional Connectivity of the Prefrontal Cortex | 임창환 |
2013-12 | Positive and negative symptom scores are correlated with activation in different brain regions during facial emotion perception in schizophrenia patients: A voxel-based sLORETA source activity study | 임창환 |
2020-03 | Prediction of Individual User’s Dynamic Ranges of EEG Features from Resting-State EEG Data for Evaluating Their Suitability for Passive Brain–Computer Interface Applications | 임창환 |
2011-04 | Quantitative model for the change of optical resonance in neural activity detection systems based on surface plasmon resonance | 임창환 |
2017-03 | Real-Time "Eye-Writing" Recognition Using Electrooculogram | 임창환 |
2020-05 | Real-Time Recognition of Facial Expressions Using Facial Electromyograms Recorded Around the Eyes for Social Virtual Reality Applications | 임창환 |
2013-02 | Reduced Frontal P3a Amplitude in Migraine Patients during the Pain-Free Period | 임창환 |
2012-03 | Reduced source activity of event-related potentials for affective facial pictures in schizophrenia patients | 임창환 |
2016-03 | Removing the Interdependency between Horizontal and Vertical Eye-Movement Components in Electrooculograms | 임창환 |