Minimally invasive brain computer interface for fast typing
For a practical intracranial brain computer interface (BCI), minimizing the invasiveness of the electrode implantation is crucial. In this study, we used only one intracranial electrode to implement an online BCI for fast typing. When the subject attended the virtual button containing visual motion...
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| Published in | International IEEE/EMBS Conference on Neural Engineering (Online) pp. 477 - 480 |
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| Main Authors | , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.05.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1948-3554 |
| DOI | 10.1109/NER.2017.8008393 |
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| Abstract | For a practical intracranial brain computer interface (BCI), minimizing the invasiveness of the electrode implantation is crucial. In this study, we used only one intracranial electrode to implement an online BCI for fast typing. When the subject attended the virtual button containing visual motion stimuli, prominent responses were elicited at the stereo-EEG (SEEG) electrodes within the fMRI defined middle temporal (MT) region, which were composed of motion-onset visual evoked potential (mVEP) around 200 ms post-stimulus and a power increase at the high gamma (70-100 Hz) frequency range. In the online BCI experiment with surgical epilepsy patients, by combining both mVEP and high gamma features and using smart stopping strategy, single SEEG electrode supported a speed of BCI typing up to 14 characters per minute. Our findings demonstrate the feasibility of implementing a minimally invasive intracranial BCI with only one electrode for fast typing. |
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| AbstractList | For a practical intracranial brain computer interface (BCI), minimizing the invasiveness of the electrode implantation is crucial. In this study, we used only one intracranial electrode to implement an online BCI for fast typing. When the subject attended the virtual button containing visual motion stimuli, prominent responses were elicited at the stereo-EEG (SEEG) electrodes within the fMRI defined middle temporal (MT) region, which were composed of motion-onset visual evoked potential (mVEP) around 200 ms post-stimulus and a power increase at the high gamma (70-100 Hz) frequency range. In the online BCI experiment with surgical epilepsy patients, by combining both mVEP and high gamma features and using smart stopping strategy, single SEEG electrode supported a speed of BCI typing up to 14 characters per minute. Our findings demonstrate the feasibility of implementing a minimally invasive intracranial BCI with only one electrode for fast typing. |
| Author | Hao Han Bo Hong Xin Xu Dongyang Li Zhipei Ling |
| Author_xml | – sequence: 1 surname: Dongyang Li fullname: Dongyang Li organization: Dept. of Biomed. Eng., Tsinghua Univ., Beijing, China – sequence: 2 surname: Hao Han fullname: Hao Han – sequence: 3 surname: Xin Xu fullname: Xin Xu organization: Dept. of Neurosurg., PLA Gen. Hosp., Beijing, China – sequence: 4 surname: Zhipei Ling fullname: Zhipei Ling organization: Dept. of Neurosurg., PLA Gen. Hosp., Beijing, China – sequence: 5 surname: Bo Hong fullname: Bo Hong email: hongbo@tsinghua.edu.cn organization: Dept. of Biomed. Eng., Tsinghua Univ., Beijing, China |
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| SubjectTerms | Bars Electrodes Electroencephalography Minimally invasive surgery Support vector machines Training Visualization |
| Title | Minimally invasive brain computer interface for fast typing |
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