1. A.-M. Brouwer, J.B.F. Van Erp, A tactile P300 brain-computer interface. Frontiers Neurosci. 4(19) (2010) [Online]. http://www.frontiersin.org/neuroprosthetics/10.3389/fnins.2010.00019/abstract

2. K. Hamada, Brain-computer interface using airborne ultrasound tactile display. Master Thesis, The University of Tokyo, Tokyo, Japan (2014) (in Japanese)

3. K. Hamada, H. Mori, H. Shinoda, T.M. Rutkowski, Airborne ultrasonic tactile display brain-computer interface paradigm. In Proceedings of the 6th International Brain-Computer Interface Conference 2014, eds. by G. Mueller-Putz, G. Bauernfeind, C. Brunner, D. Steyrl, S. Wriessnegger, R. Scherer. 1em plus 0.5em minus 0.4em Graz University of Technology Publishing House (2014). Article ID 018-1-4. [Online]. http://castor.tugraz.at/doku/BCIMeeting2014/bci2014_018

4. T. Iwamoto, M. Tatezono, H. Shinoda, Non-contact method for producing tactile sensation using airborne ultrasound. In Haptics: Perception, Devices and Scenarios, ser. Lecture Notes in Computer Science, ed. by M. Ferre 1em plus 0.5em minus 0.4em vol 5024 (Springer, Berlin, 2008) pp. 504–513. [Online]. http://dx.doi.org/10.1007/978-3-540-69057-3_64

5. D.J. Krusienski, E.W. Sellers, F. Cabestaing, S. Bayoudh, D.J. McFarland, T.M. Vaughan, J.R. Wolpaw, A comparison of classification techniques for the P300 speller. J. Neural Eng. 3(4), 299 (2006). [Online]. http://stacks.iop.org/1741-2552/3/i=4/a=007