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Spatial tactile brain-computer interface paradigm applying vibration stimuli to large areas of user's back
T Kodama, S Makino, TM Rutkowski
arXiv preprint arXiv:1404.4226, 2014
Tactile brain-computer interface using classification of P300 responses evoked by full body spatial vibrotactile stimuli
T Kodama, S Makino, TM Rutkowski
2016 Asia-Pacific Signal and Information Processing Association Annual …, 2016
Convolutional neural network architecture and input volume matrix design for ERP classifications in a tactile P300-based Brain-Computer Interface
T Kodama, S Makino
2017 39th Annual International Conference of the IEEE Engineering in …, 2017
Brain–Robot Interfaces Using Spatial Tactile BCI Paradigms: -Symbiotic Brain–Robot Applications
TM Rutkowski, K Shimizu, T Kodama, P Jurica, A Cichocki
Symbiotic Interaction: 4th International Workshop, Symbiotic 2015, Berlin …, 2015
Full body spatial tactile BCI for direct brain-robot control
T Kodama, K Shimizu, TM Rutkowski
Proceedings of the Sixth International Brain-Computer Interface Meeting: BCI …, 2016
Airborne ultrasonic tactile display brain-computer interface--a small robotic arm online control study
TM Rutkowski, H Mori, T Kodama, H Shinoda
arXiv preprint arXiv:1502.07762, 2015
Brain-robot interfaces using spatial tactile and visual BCI paradigms-brains connecting to the internet of things approach
K Shimizu, D Aminaka, T Kodama, C Nakaizumi, P Jurica, A Cichocki, ...
The International Conference on Brain Informatics and Health-Type II Paper …, 2015
Spatial tactile brain-computer interface by applying vibration to user’s shoulders and waist
T Kodama, S Makino, TM Rutkowski
Proceedings of The 10th AEARU Workshop on Computer Science and Web …, 2015
Full–body tactile p300–based brain–computer interface accuracy refinement
T Kodama, K Shimizu, S Makino, TM Rutkowski
Proceedings of the International Conference on Bio-engineering for Smart …, 2016
Visual Motion Onset Augmented Reality Brain–computer Interface
K Shimizu, T Kodama, S Makino, TM Rutkowski
A Tactile P300–based Brain–computer Interface Accuracy Improvement
T Kodama, S Makino, TM Rutkowski
Toward a QoL improvement of ALS patients: Development of the Full–body P300–based Tactile Brain–Computer Interface
T Kodama, S Makino, TM Rutkowski
Analysis of the brain activated distributions in response to full-body spatial vibrotactile stimuli using a tactile P300-based BCI paradigm
T Kodama, S Makino
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