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1. Rezaei S, Tavakolian K, Nasrabadi AM, Setarehdan SK. (2006). Different classification techniques considering brain computer interface applications. Journal of Neural Engineering 3(2):139-44.

2. Lee PL, Hsieh JC, Wu CH, Shyu KK, et al. (2006). The brain computer interface using flash visual evoked potential and independent component analysis. Annals of Biomedical Engineering 34(10):1641-54.

3. Palaniappan R. (2006). Utilizing gamma band to improve mental task based brain-computer interface design. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(3):299-303.

4. Nielsen KD, Cabrera AF, Omar Feix do N. (2006). EEG based BCI-towards a better control. Brain-computer interface research at aalborg university. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):202-4.

5. Kauhanen L, Nykopp T, Lehtonen J, Jylanki P, et al. (2006). EEG and MEG brain-computer interface for tetraplegic patients. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):190-3.

6. Muller-Putz GR, Scherer R, Neuper C, Pfurtscheller G. (2006). Steady-state somatosensory evoked potentials: suitable brain signals for brain-computer interfaces? IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(1):30-7.

7. Bang-hua Y, Guo-zheng Y, Rong-guo Y, Ting W. (2006). Feature extraction for EEG-based brain-computer interfaces by wavelet packet best basis decomposition. Journal of Neural Engineering 3(4):251-6.

8. Brunner C, Scherer R, Graimann B, Supp G, et al. (2006). Online control of a brain-computer interface using phase synchronization. IEEE Transactions on Biomedical Engineering 53(12):2501-6.

9. Blankertz B, Dornhege G, Krauledat M, Muller KR, et al. (2006). The Berlin brain-computer interface: EEG-based communication without subject training. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):147-52.

10. Dornhege G, Blankertz B, Krauledat M, Losch F, et al. (2006). Combined optimization of spatial and temporal filters for improving brain-computer interfacing. IEEE Transactions on Biomedical Engineering 53(11):2274-81.

11. Pun T, Alecu TI, Chanel G, Kronegg J, et al. (2006). Brain-computer interaction research at the Computer Vision and Multimedia Laboratory, University of Geneva. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):210-213.

12. Yijun W, Ruiping W, Xiaorong G, Bo H, et al. (2006). A practical VEP-based brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):234-40.

13. Wang Y, Wang R, Gao X, Hong B, et al. (2006). A practical VEP-based brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):234-239.

14. Wills SA, MacKay DJC. (2006). DASHER-an efficient writing system for brain-computer interfaces? IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):244-6.

15. Xiao-mei P, Chong-xun Z, Jin X, Guang-yu B, et al. (2006). Multi-channel linear descriptors for event-related EEG collected in brain computer interface. Journal of Neural Engineering 3(1):52-8.

16. Wang Y, Wang R, Gao X, Hong B, et al. (2006). A practical VEP-based brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):234-239.

17. Wills SA, MacKay DJC. (2006). DASHER-an efficient writing system for brain-computer interfaces? IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):244-6.

18. Yijun W, Ruiping W, Xiaorong G, Bo H, et al. (2006). A practical VEP-based brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):234-40.

19. Nielsen KD, Cabrera AF, Omar Feix do N. (2006). EEG based BCI-towards a better control. Brain-computer interface research at aalborg university. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):202-4.

20. Pun T, Alecu TI, Chanel G, Kronegg J, et al. (2006). Brain-computer interaction research at the Computer Vision and Multimedia Laboratory, University of Geneva. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):210-213.

21. Materka A, Byczuk M. (2006). Alternate half-field stimulation technique for SSVEP-based brain-computer interfaces. Electronics Letters 42(6):321-2.

22. Kauhanen L, Nykopp T, Lehtonen J, Jylanki P, et al. (2006). EEG and MEG brain-computer interface for tetraplegic patients. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):190-3.

23. Lee U, Lee HJ, Kim S, Shin HC. (2006). Development of intracranial brain-computer interface system using non-motor brain area for series of motor functions. Electronics Letters 42(4):198-200.

24. Dornhege G, Blankertz B, Krauledat M, Losch F, et al. (2006). Combined optimization of spatial and temporal filters for improving brain-computer interfacing. IEEE Transactions on Biomedical Engineering 53(11):2274-81.

25. Brunner C, Scherer R, Graimann B, Supp G, et al. (2006). Online control of a brain-computer interface using phase synchronization. IEEE Transactions on Biomedical Engineering 53(12):2501-6.

26. Muller-Putz GR, Scherer R, Neuper C, Pfurtscheller G. (2006). Steady-state somatosensory evoked potentials: suitable brain signals for brain-computer interfaces? IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(1):30-7.

27. Blankertz B, Dornhege G, Krauledat M, Muller KR, et al. (2006). The Berlin brain-computer interface: EEG-based communication without subject training. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(2):147-52.

28. Sebelius F, Eriksson L, Balkenius C, Laurell T. (2006). Myoelectric control of a computer animated hand: A new concept based on the combined use of a tree-structured artificial neural network and a data glove. Journal of Medical Engineering and Technology 30(1):2-10.

29. Huang CN, Chen CH, Chung HY. (2006). Application of facial electromyography in computer mouse access for people with disabilities. Disability and Rehabilitation 28(4):231-237.

30. Muller-Putz GR, Scherer R, Pfurtscheller G, Rupp R. (2006). Brain-computer interfaces for control of neuroprostheses: From synchronous to asynchronous mode of operation. Biomedizinische Technik 51(n 2):57-63.

31. Sebelius F, Eriksson L, Balkenius C, Laurell T. (2006). Myoelectric control of a computer animated hand: A new concept based on the combined use of a tree-structured artificial neural network and a data glove. Journal of Medical Engineering and Technology 30(1):2-10.

32. Thulasidas M, Guan C, Wu J. (2006). Robust classification of EEG signal for brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 14(1):24-9.

33. Huang CN, Chen CH, Chung HY. (2006). Application of facial electromyography in computer mouse access for people with disabilities. Disability and Rehabilitation 28(4):231-237.

34. Coyle D, Prasad G, McGinnity TM. (2005). A time-series prediction approach for feature extraction in a brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 13(4):461-7.

35. Wang Z-y, Wang H, Li Y-n, Wang X. (2005). [Wavelet analysis of evoked electroencephalogram (EEG) in brain-computer interface]. Journal of Northeastern University (Dongbei Daxue Xuebao) 26:546-9.

36. Lee PL, Wu CH, Hsieh JC, Wu YT. (2005). Visual evoked potential actuated brain computer interface: a brain-actuated cursor system. Electronics Letters 41(15):832-4.

37. Coyle D, Prasad G, McGinnity TM. (2005). A time-series prediction approach for feature extraction in a brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 13(4):461-7.

38. Kubler A, Neumann N. (2005). Brain-computer interfaces--the key for the conscious brain locked into a paralyzed body. Progress in Brain Research 150:513-25.

39. Gysels E, Renevey P, Celka P. (2005). SVM-based recursive feature elimination to compare phase synchronization computed from broadband and narrowband EEG signals in brain-computer interfaces. Signal Processing 85(11):2178-89.

40. Yang L-c, Li B-m, Li G-l, Jia L. (2005). [A review of brain-computer interface technology]. Acta Electronica Sinica (Dianzi Xuebao) 33:1234-41.

41. Serby H, Yom-Tov E, Inbar GF. (2005). An improved P300-based brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 13(1):89-98.

42. Pham M, Hinterberger T, Neumann N, Kubler A, et al. (2005). An auditory brain-computer interface based on the self-regulation of slow cortical potentials. Neurorehabilitation and Neural Repair 19(3):206-18.

43. Kelly SP, Lalor EC, Finucane C, McDarby G, et al. (2005). Visual spatial attention control in an independent brain-computer interface. IEEE Transactions on Biomedical Engineering 52(9):1588-96.

44. Kubler A, Neumann N. (2005). Brain-computer interfaces--the key for the conscious brain locked into a paralyzed body. Progress in Brain Research 150:513-25.

45. Burke DP, Kelly SP, de Chazal P, Reilly RB, et al. (2005). A parametric feature extraction and classification strategy for brain-computer interfacing. IEEE Transactions on Neural Systems and Rehabilitation Engineering 13(1):12-7.

46. Borisoff JF, Mason SG, Bashashati A, Birch GE. (2004). Brain-computer interface design for asynchronous control applications: improvements to the LF-ASD asynchronous brain switch. IEEE Transactions on Biomedical Engineering 51(6):985-92.

47. Curran E, Sykacek P, Stokes M, Roberts SJ, et al. (2004). Cognitive tasks for driving a brain-computer interfacing system: a pilot study. IEEE Transactions on Neural Systems and Rehabilitation Engineering 12(1):48-54.

48. Santana D, Ramirez M, Ostrosky-Solis F. (2004). [Recent advances in rehabilitation technology: a review of the brain-computer interface]. Revista de Neurologia 39(5):447-50.

49. Gysels E, Celka P. (2004). Phase synchronization for the recognition of mental tasks in a brain-computer interface. IEEE Transactions on Neural Systems and Rehabilitation Engineering 12(4):406-15.

50. Borisoff JF, Mason SG, Bashashati A, Birch GE. (2004). Brain-computer interface design for asynchronous control applications: improvements to the LF-ASD asynchronous brain switch. IEEE Transactions on Biomedical Engineering 51(6):985-92.