Brainâ€“Computer Interfaces - Index of

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Detecting Mental States by Machine Learning Techniques 133 16. B. Blankertz, G. Dornhege, C. Schäfer, R. Krepki, J. Kohlmorgen, K.-R. Müller, V. Kunzmann, F. Losch, and G. Curio, Boosting bit rates and error detection for the classification of fast-paced motor commands based on single-trial EEG analysis. IEEE Trans Neural Syst Rehabil Eng, 11(2), 127–131, (2003). [Online]. Available: http://dx.doi.org/10.1109/TNSRE.2003.814456. Accessed on 14 Sept 2010. 17. D. Krusienski, G. Schalk, D.J. McFarland, and J. Wolpaw, A mu-rhythm matched filter for continuous control of a brain-computer interface. IEEE Trans Biomed Eng, 54(2), 273–280, (2007). 18. V.V. Nikulin and T. Brismar, Phase synchronization between alpha and beta oscillations in the human electroencephalogram. Neuroscience, 137, 647–657, (2006). 19. G. Pfurtscheller and F.H.L. da Silva, Event-related EEG/MEG synchronization and desynchronization: basic principles. Clin Neurophysiol, 110(11), 1842–1857, (Nov 1999). 20. P.L. Nunez, R. Srinivasan, A.F. Westdorp, R.S. Wijesinghe, D.M. Tucker, R.B. Silberstein, and P.J. Cadusch, EEG coherency I: statistics, reference electrode, volume conduction, Laplacians, cortical imaging, and interpretation at multiple scales. Electroencephalogr Clin Neurophysiol, 103(5), 499–515, (1997). 21. B. Blankertz, R. Tomioka, S. Lemm, M. Kawanabe, and K.-R. Müller, Optimizing spatial filters for robust EEG single-trial analysis. IEEE Signal Process Mag, 25(1), 41–56, (Jan. 2008). [Online]. Available:http://dx.doi.org/10.1109/MSP.2008.4408441. Accessed on 14 Sept 2010. 22. D.J. McFarland, L.M. McCane, S.V. David, and J.R. Wolpaw, Spatial filter selection for EEGbased communication. Electroencephalogr Clin Neurophysiol, 103, 386–394, (1997). 23. N. Hill, T.N. Lal, M. Tangermann, T. Hinterberger, G. Widman, C.E. Elger, B. Schölkopf, and N. Birbaumer, Classifying event-related desynchronization in EEG, ECoG and MEG signals, In G. Dornhege, J. del R. Millán, T. Hinterberger, D. McFarland, and K.-R. Müller (Eds.), Toward brain-computer interfacing, MIT, Cambridge, MA, pp. 235–260, (2007). 24. M. Grosse-Wentrup, K. Gramann, and M. Buss, Adaptive spatial filters with predefined region of interest for EEG based brain-computer-interfaces, In B. Schölkopf, J. Platt, and T. Hoffman, (Eds.), Advances in neural information processing systems 19, pp. 537–544, (2007). 25. G. Dornhege, M. Krauledat, K.-R. Müller, and B. Blankertz, General signal processing and machine learning tools for BCI, In G. Dornhege, J. del R. Millán, T. Hinterberger, D. McFarland, and K.-R. Müller, (Eds.), Toward brain-computer interfacing, MIT, Cambridge, MA, pp. 207–233, (2007). 26. L.C. Parra, C.D. Spence, A.D. Gerson, and P. Sajda, Recipes for the linear analysis of EEG, Neuroimage, 28(2), 326–341, (2005). 27. K. Fukunaga, Introduction to statistical pattern recognition, 2nd ed. Academic, San Diego CA, (1990). 28. C. Guger, H. Ramoser, and G. Pfurtscheller, Real-time EEG analysis with subject-specific spatial patterns for a Brain Computer Interface (BCI). IEEE Trans Neural Syst Rehabil Eng, 8(4), 447–456, (2000). 29. H. Ramoser, J. Müller-Gerking, and G. Pfurtscheller, Optimal spatial filtering of single trial EEG during imagined hand movement. IEEE Trans Rehabil Eng, 8(4), 441–446, (2000). 30. S. Lemm, B. Blankertz, G. Curio, and K.-R. Müller, Spatio-spectral filters for improving classification of single trial EEG. IEEE Trans Biomed Eng, 52(9), 1541–1548, (2005). [Online]. Available: http://dx.doi.org/10.1109/TBME.2005.851521. Accessed on 14 Sept 2010. 31. G. Dornhege, B. Blankertz, M. Krauledat, F. Losch, G. Curio, and K.-R. Müller, Optimizing spatio-temporal filters for improving brain-computer interfacing, In Y. Weiss, B. Schölkopf, and J. Platt, (Eds.), Advances in neural Information Processing Systems (NIPS 05), vol. 18. MIT, Cambridge, MA, pp. 315–322, (2006). 32. R. Tomioka, K. Aihara, and K.-R. Müller, Logistic regression for single trial EEG classification, In B. Schölkopf, J. Platt, and T. Hoffman (Eds.), Advances in neural information processing systems 19, MIT, Cambridge, MA, pp. 1377–1384, (2007). 33. K.-R. Müller, C.W. Anderson, and G.E. Birch, Linear and non-linear methods for braincomputer interfaces. IEEE Trans Neural Syst Rehabil Eng, 11(2), 165–169, (2003).
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THE FRONTIERS COLLECTION
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Bernhard Graimann · Brendan Alliso
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Preface It’s an exciting time to
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Contents Brain-Computer Interfaces:
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Contributors Brendan Allison Instit
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Contributors xi Femke Nijboer Insti
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List of Abbreviations ADHD Attentio
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Brain-Computer Interfaces: A Gentle
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30 J.R. Wolpaw and C.B. Boulay by b
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32 J.R. Wolpaw and C.B. Boulay 2 Br
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34 J.R. Wolpaw and C.B. Boulay Fig.
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36 J.R. Wolpaw and C.B. Boulay Sens
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38 J.R. Wolpaw and C.B. Boulay pote
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40 J.R. Wolpaw and C.B. Boulay EEG-
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42 J.R. Wolpaw and C.B. Boulay 29.
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48 G. Pfurtscheller and C. Neuper F
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52 G. Pfurtscheller and C. Neuper r
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54 G. Pfurtscheller and C. Neuper 6
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56 G. Pfurtscheller and C. Neuper B
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66 C. Neuper and G. Pfurtscheller s
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68 C. Neuper and G. Pfurtscheller 2
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70 C. Neuper and G. Pfurtscheller F
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72 C. Neuper and G. Pfurtscheller b
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74 C. Neuper and G. Pfurtscheller E
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80 G. Pfurtscheller et al. mode, th
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Brain-Computer Interfaces for Commu
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204 D.M. Taylor and M.E. Stetner mo
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206 D.M. Taylor and M.E. Stetner el
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208 D.M. Taylor and M.E. Stetner ac
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210 D.M. Taylor and M.E. Stetner de
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212 D.M. Taylor and M.E. Stetner Ma
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214 D.M. Taylor and M.E. Stetner pe
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216 D.M. Taylor and M.E. Stetner ev
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218 D.M. Taylor and M.E. Stetner fo
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BCIs Based on Signals from Between
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242 K.J. Miller and J.G. Ojemann 2
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244 K.J. Miller and J.G. Ojemann ha
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246 K.J. Miller and J.G. Ojemann Fi
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248 K.J. Miller and J.G. Ojemann Fi
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250 K.J. Miller and J.G. Ojemann fo
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252 K.J. Miller and J.G. Ojemann me
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254 K.J. Miller and J.G. Ojemann In
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256 K.J. Miller and J.G. Ojemann ar
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258 K.J. Miller and J.G. Ojemann 26
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260 J. Mellinger and G. Schalk mapp
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262 J. Mellinger and G. Schalk 2 BC
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264 J. Mellinger and G. Schalk Fig.
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266 J. Mellinger and G. Schalk Filt
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268 J. Mellinger and G. Schalk proc
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270 J. Mellinger and G. Schalk exis
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272 J. Mellinger and G. Schalk reco
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274 J. Mellinger and G. Schalk Fig.
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276 J. Mellinger and G. Schalk numb
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278 J. Mellinger and G. Schalk 5. A
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The First Commercial Brain-Computer
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306 Y. Li et al. Fig. 1 Basic desig
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308 Y. Li et al. Fig. 2 A linear tr
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310 Y. Li et al. The large Laplacia
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312 Y. Li et al. components is larg
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314 Y. Li et al. P300-based, and ER
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316 Y. Li et al. 3.3.2 Autoregressi
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318 Y. Li et al. selection as follo
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320 Y. Li et al. 5.1.2 Support Vect
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322 Y. Li et al. is small and the n
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324 Y. Li et al. (ROC) analysis app
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326 Y. Li et al. Fig. 10 The stimul
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328 Y. Li et al. 6. M. Cheng, X. Ga
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330 Y. Li et al. 46. K. Crammer and
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332 A. Schlögl et al. Fig. 1 Schem
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334 A. Schlögl et al. For the rect
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336 A. Schlögl et al. whereby T in
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338 A. Schlögl et al. Fig. 2 State
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340 A. Schlögl et al. yk = a1 · y
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342 A. Schlögl et al. d{i}(x) = ((
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344 A. Schlögl et al. Accordingly,
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346 A. Schlögl et al. not exceed a
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348 A. Schlögl et al. Error [%] RL
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350 A. Schlögl et al. Table 3 Aver
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352 A. Schlögl et al. The extended
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354 A. Schlögl et al. 24. N.G. Pfu
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Toward Ubiquitous BCIs Brendan Z. A
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Toward Ubiquitous BCIs 359 BCI Chal
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Toward Ubiquitous BCIs 361 communic
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Toward Ubiquitous BCIs 363 facial m
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Toward Ubiquitous BCIs 365 The best
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Toward Ubiquitous BCIs 367 Across a
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Toward Ubiquitous BCIs 369 the ques
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Toward Ubiquitous BCIs 371 controll
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Toward Ubiquitous BCIs 373 controls
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Toward Ubiquitous BCIs 375 hair in
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Toward Ubiquitous BCIs 377 Table 1
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Toward Ubiquitous BCIs 379 conversa
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Toward Ubiquitous BCIs 381 may down
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Toward Ubiquitous BCIs 383 physicis
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Toward Ubiquitous BCIs 385 31. F.H.
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Toward Ubiquitous BCIs 387 67. G. S
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390 Index 65, 157, 163, 217, 221-23
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392 Index 208, 236, 243, 245, 260-2
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