Goal-Oriented Control with Brain-Computer Interface
作者: Günter Edlinger , Clemens Holzner , Christoph Groenegress , Christoph Guger , Mel Slater
DOI: 10.1007/978-3-642-02812-0_83
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摘要: A brain-computer interface (BCI) is a new communication channel between the human brain and digital computer. Such systems have been designed to support disabled people for environmental control. In more recent research also BCI control in combination with Virtual Environments (VE) gains interest. Within this study we present experiments combining VE navigation purposes just by thoughts. Results show that P300 based system allows very reliable of VR system. Of special importance possibility select rapidly specific command out many different choices. The suggests than 80% population could use such within 5 minutes training only. This eliminates usage decision trees as previously done systems.
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Niels Birbaumer, Leonardo G. Cohen, Brain-computer interfaces: communication and restoration of movement in paralysis The Journal of Physiology. ,vol. 579, pp. 621- 636 ,(2007) , 10.1113/JPHYSIOL.2006.125633
Gert Pfurtscheller, Robert Leeb, Claudia Keinrath, Doron Friedman, Christa Neuper, Christoph Guger, Mel Slater, Walking from thought. Brain Research. ,vol. 1071, pp. 145- 152 ,(2006) , 10.1016/J.BRAINRES.2005.11.083
Christa Neuper, Reinhold Scherer, Selina Wriessnegger, Gert Pfurtscheller, Motor imagery and action observation : Modulation of sensorimotor brain rhythms during mental control of a brain-computer interface Clinical Neurophysiology. ,vol. 120, pp. 239- 247 ,(2009) , 10.1016/J.CLINPH.2008.11.015
N. Birbaumer, N. Ghanayim, T. Hinterberger, I. Iversen, B. Kotchoubey, A. Kübler, J. Perelmouter, E. Taub, H. Flor, A spelling device for the paralysed Nature. ,vol. 398, pp. 297- 298 ,(1999) , 10.1038/18581
Zhonglin Lin, Changshui Zhang, Wei Wu, Xiaorong Gao, Frequency Recognition Based on Canonical Correlation Analysis for SSVEP-Based BCIs IEEE Transactions on Biomedical Engineering. ,vol. 53, pp. 2610- 2614 ,(2006) , 10.1109/TBME.2006.889197
Haihong Zhang, Cuntai Guan, Chuanchu Wang, Asynchronous P300-Based Brain--Computer Interfaces: A Computational Approach With Statistical Models IEEE Transactions on Biomedical Engineering. ,vol. 55, pp. 1754- 1763 ,(2008) , 10.1109/TBME.2008.919128
J.D. Bayliss, D.H. Ballard, A virtual reality testbed for brain-computer interface research international conference of the ieee engineering in medicine and biology society. ,vol. 8, pp. 188- 190 ,(2000) , 10.1109/86.847811
Ola Friman, Ivan Volosyak, Axel Graser, Multiple Channel Detection of Steady-State Visual Evoked Potentials for Brain-Computer Interfaces IEEE Transactions on Biomedical Engineering. ,vol. 54, pp. 742- 750 ,(2007) , 10.1109/TBME.2006.889160
Eric W. Sellers, Dean J. Krusienski, Dennis J. McFarland, Theresa M. Vaughan, Jonathan R. Wolpaw, A P300 event-related potential brain-computer interface (BCI): the effects of matrix size and inter stimulus interval on performance. Biological Psychology. ,vol. 73, pp. 242- 252 ,(2006) , 10.1016/J.BIOPSYCHO.2006.04.007
C. Guger, G. Edlinger, W. Harkam, I. Niedermayer, G. Pfurtscheller, How many people are able to operate an EEG-based brain-computer interface (BCI)? international conference of the ieee engineering in medicine and biology society. ,vol. 11, pp. 145- 147 ,(2003) , 10.1109/TNSRE.2003.814481