Skip to main content
Article thumbnail
Location of Repository

A new paradigm for BCI research

By Ian Daly, Slawek Nasuto and Kevin Warwick


A new control paradigm for Brain Computer Interfaces\ud (BCIs) is proposed. BCIs provide a means of communication direct from the brain to a computer that allows individuals with motor disabilities an additional channel of communication and control of their external environment.\ud Traditional BCI control paradigms use motor imagery, frequency rhythm modification or the Event Related Potential (ERP) as a means of extracting a control signal.\ud A new control paradigm for BCIs based on speech imagery is initially proposed. Further to this a unique system for identifying correlations between components of the EEG and target events is proposed and introduced

Topics: 004, 005
OAI identifier:

Suggested articles


  1. (2007). A review of classification algorithms for eeg-based braincomputer interfaces’,
  2. (2004). An efficient rhythmic component expression and weighting synthesis strategy for classifying motor imagery eeg in a braincomputer interface’,
  3. (2006). Automatic artefact removal from Electroencephalograms, Phd thesis,
  4. (2007). Brain-computer interfaces as new brain output pathways’, doi
  5. (2003). Cerebral information transfer during word processing: where does it occur and how fast is it?’, Human brain mapping, doi
  6. (2002). Classifying single trial eeg: towards brain computer interfacing’,
  7. (2003). Comparison of different feature classifiers for brain computer interfaces’,
  8. (1874). Der aphasische symptomencomplex’, Braslau: Cohn and Weigert,
  9. Gert Pfurtscheller Christoph Guger, Werner Harkam. Prosthetic control by an eeg-based brain-computer interface (bci).
  10. (2007). Human cortex long-term recordings [3]: neural net analyses,
  11. (2003). Hye!qung Lee, ‘Pca+hmm+svm for eeg pattern classification’,
  12. (2006). Introduction to Neurolinguistics,
  13. (1999). Invariance between subjects of brain wave representations of language’,
  14. (2007). Karin Diserens Ulrich Hoffmann, Jean-Marc Vesin, ‘An effcient p300-based brain-computer interface for disabled subjects’, doi
  15. (1999). Korbinian Brodmann, Brodmann’s Localisation in the Cerebral Cortex, Imperial college press,
  16. (2004). Manoj Thulasidas, ‘High performance p300 speller for brain-computer interface’,
  17. (2007). Mehrdad Fatourechi, ‘A survey of signal processing algorithms in brain-computer interfaces based on electrical brain signals’,
  18. (1995). Mental imagery in the motor cortex’,
  19. (1999). Neural Networks: A Comprehensive Foundation,
  20. (1926). On the function of the right hemisphere of the brain in relation to the left in speech, music and calculation’,
  21. (2000). Patrick Suppes, ‘Brain-wave representation of words by superposition of a few sine waves’,
  22. (1998). Patrick Suppes, Bing Han, ‘Brain-wave recognition of sentences’,
  23. (1997). Patrick Suppes, Zhong-Lin Lu, ‘Brain wave recognition of words’,
  24. (2002). Pca-based linear dynamical systems for multichannel eeg classification’,
  25. Perte de la parole’,
  26. (2007). Princewill Ehirim Mui Mao Steven Seibert E. Joe Wright Philip Kennedy, Dinal Andreasen. The longevity and stability of multiple neurla signals recorded from human motor speech cortex using the neurotrophic electrode,
  27. (2000). Single sweep eeg analysis of neural processes underlying perception and production of vowels’,
  28. (1999). Suppes, Bing Han and Zhong-Lin Lu, ‘Invariance of brain-wave representations of simple visual images and their names’,
  29. (2005). Ten simple rules for designing erp experiments’, in Event-Related Potentials - A
  30. (2002). The speaking brain: a tutorial introduction to fmri experiments in production of speech prosody and syntax’,
  31. (2008). Towards natural human computer interaction in bci,
  32. (2001). Vatikiotis-Bateson Eric Callan Daniel E., Callan Akiko M., ‘Multimodal contribution to speech perception reveled by independant component analysis: a single sweep eeg case study’,
  33. (2002). Words in the brain: lexical determinants of word-induced brain activity’,

To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.