Article thumbnail

Asynchronous BCI control using high-frequency SSVEP

By Pablo F Diez, Vicente A Mut, Enrique M Avila Perona and Eric Laciar Leber
Topics: Research
Publisher: BioMed Central
OAI identifier: oai:pubmedcentral.nih.gov:3152890
Provided by: PubMed Central

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

Suggested articles

Citations

  1. (2007). A Virtual Keypad Based On Alternate Half-Field Stimulated Visual Evoked Potentials.
  2. (2005). A: Photic-and patterninduced seizures: A review for the epilepsy foundation of america working group. Epilepsia
  3. (2010). A: Steady-state visually evoked potentials Focus on essential paradigms and future perspectives. Progress in Neurobiology
  4. Aarts RM: A Survey of Stimulation Methods Used in SSVEP-Based BCIs.
  5. (2011). An SSVEP BCI to control a hand orthosis for persons with tetraplegia.
  6. (2008). Application and Contrast in BrainComputer Interface between Hilbert-Huang Transform and Wavelet Transform.
  7. (2005). Brain-computer Interface based on the High-frequency Steady-state Visual Evoked Potential.
  8. (2004). Communication speed enhancement for visual based Brain Computer Interfaces.
  9. (2010). E: A Comparison of Monopolar and Bipolar EEG Recordings for SSVEP Detection.
  10. (2007). Frequency Recognition Based on Canonical Correlation Analysis for SSVEP-Based BCIs.
  11. (2007). Gräser A: Multiple Channel Detection of SteadyState Visual Evoked Potentials for Brain-Computer Interfaces.
  12. (2010). Gräser A: sBCI: Fast Detection of Steady-State Visual Evoked Potentials.
  13. (1989). Human Brain Electrophysiology: Evoked Potentials and Evoked Magnetic Fields
  14. (2001). Human EEG responses to 1-100 Hz flicker: resonance phenomena in visual cortex and their potential correlation to cognitive phenomena. Exp Brain Res
  15. (2010). Mihajlovic V: Spatial filters to detect steady-state visual evoked potentials elicited by high frequency stimulation: BCI application. Biomed Tech
  16. (2008). Pfurtscheller G: Control of an Electrical Prosthesis With an SSVEP-Based BCI.
  17. (2003). Real-world applications for brain-computer interface technology. IEEE Trans on Neural Syst and Rehab Eng
  18. (2006). S: A Practical VEP-Based BrainComputer Interface.
  19. (2004). W: Noninvasive BrainActuated Control of a Mobile Robot by Human EEG.