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9. An electroencephalophone (or sometimes known as encephalophone) uses BCI
technology to generate or modulate sounds. Suggest how such as device could
work using EEG signals.
10. What are the ethical, legal and societal issues surrounding BCI technology?
References
Asensio J, Gan JQ, Palaniappan R (2011) A study on temporal segmentation strategies for
extracting common spatial patterns for brain computer interfacing. In: Proceedings of the 11th
Annual Workshop on Computational Intelligence, Manchester, UK, 7 - 9 September 2011,
pp 98 - 102
Balli T, Palaniappan R (2013) Approximate entropy as an indicator of nonlinearity in self paced
voluntary finger movement EEG. Int J Med Eng Inf 5(2):103
116
Borton DA, Yin M, Aceros J, Nurmikko A (2013) An implantable wireless neural interface for
recording cortical circuit dynamics in moving primates. J Neural Eng 10(2):026010
Donchin E, Spencer KM, Wijesinghe R (2000) The mental prosthesis: assessing the speed of a
P300-based brain-computer interface. IEEE Trans Rehabil Eng 8(2):174
-
179
Gupta CN, Palaniappan R (2013) Using EEG and NIRS for brain-computer interface and cognitive
performance measures. Int J Cogn Perform Support 1(1):69
-
81
Gupta CN, Palaniappan R, Paramesran R (2012) Exploiting the P300 paradigm for cognitive
biometrics. Int J Cogn Biometrics 1(1):26
-
38
Hasan BAS, Gan JQ (2012) Hangman BCI: an unsupervised adaptive self-paced brain-computer
interface for playing games. Comput Biol Med 42(5):598
-
606
Huan N-J, Palaniappan R (2004) Neural network classi cation of autoregressive features from
electroencephalogram signals for brain-computer interface design. J Neural Eng 1(3):142
-
150
Jasper H (1958) The ten twenty electrode system of the international federation. Electroenceph-
alographic Clin Neurophysiol 10:371
-
375
Keirn ZA, Aunon JI (1990) A new mode of communication between man and his surroundings.
IEEE Trans Biomed Eng 37(12):1209
-
1214
-
Langhenhove AV, Bekaert M-H, N
Guyen J-P (2008) Using a brain-computer interface for
rehabilitation: a case study on a patient with implanted electrodes. In: Proceedings of the 4th
International Brain-Computer Interface Workshop and Training Course, Graz, Austria, 18 - 21
September 2008, pp 349 - 354
Lim J-H, Hwang H-J, Han C-H, Jung K-Y, Im C-H (2013) Classi cation of binary intentions for
individuals with impaired oculomotor function:
'
' eyes close ' SSVEP-based brain-computer
interface (BCI). J Neural Eng 10(2):026021
Miranda E, Magee WL, Wilson JJ, Eaton J, Palaniappan R (2011) Brain-computer music
interfacing: from basic research to the real world of special needs. Music Med 3(3):134 - 140
Neuper C, Klimesch W (2006) Event-related dynamics of brain oscillations. Prog Brain Res
159:1 - 448
Nicolas-Alonso LF, Gomez-Gil J (2012) Brain computer interfaces, a review. Sensors 12
(2):1211
1279
Palaniappan R (2006) Utilizing gamma band spectral power to improve mental task based brain
computer interface design. IEEE Trans Neural Syst Rehabil Eng 14(3):299
-
303
Palaniappan R (2008) Two-stage biometric authentication method using thought activity brain
waves. Int J Neural Syst 18(1):59
-
66
Palaniappan R (2010) Biological signal analysis. Bookboon (Ventus) Publishing, Denmark
Wilson JJ, Palaniappan R (2011) Analogue mouse pointer control via an online steady state visual
evoked potential (SSVEP) brain
-
computer interface. J Neural Eng 8(2):025026
-
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