ROBOTIC ARM CONTROL WITH BRAIN COMPUTER INTERFACE USING P300 AND SSVEP

Ozan Ca˘ layan ¸ g

References

1. [1] J.R. Wolpaw, N. Birbaumer, D.J. McFarland,G.Pfurtscheller and T.M. Vaughan, Brain-computerinterfaces for communication and control, Clinical Neuro-physiology, 113(6), 2002, 767-791.
2. [2] J. Polich, Updating P300: An integrative theory ofP3a and P3b, Clinical Neurophysiology, 118(10), 2007,2128-2148.
3. [3] L.A. Farwell and E. Donchin, Talking off the top ofyour head: Toward a mental prosthesis utilizing event-related brain potentials, Electroencephalography andClinical Neurophysiology, 70(6), 1988, 510-523.
4. [4] D. Regan, Human brain electrophysiology: Evokedpotentials and evoked magnetic fields in science andmedicine (New York, Elsevier Pubs, 1989).
5. [5] G.D. Johnson, N.R. Waytowich, D.J. Cox and D.J.Krusienski, Extending the Discrete Selection Capabilitiesof the P300 Speller to Goal-Oriented Robotic Arm Con-trol, Proc. 2010 3rd IEEE RAS and EMBS InternationalConference on Biomedical Robotics and Biomechatronics(BioRob), Tokyo, Japan, 2010, 572-575.
6. [6] M. Palankar, K.J. De Laurentis, R. Alqasemi, E. Veras,R. Dubey, Y. Arbel and E. Donchin, Control of a 9-DoFWheelchair-Mounted Robotic Arm System Using a P300Brain Computer Interface: Initial Experiments, Proc.2008 IEEE International Conference on Robotics andBiomimetics, Bangkok, Thailand, 2009, 348-353.
7. [7] A.I. Nawroj, S. Wang, Y. Yu and L.Gabel, A Brain-Computer interface for Robot Navigation, IEEE 38thAnnual Northeast Bioengineering Conference (NEBEC),2012, 15-16.
8. [8] C. Escolano, J.M. Antelis and J. Minguez, A Telep-resence Mobile Robot Controlled With a NoninvasiveBrain-Computer Interface, IEEE Transactions on Systems,Man and Cybernetics, Part B: Cybernetics, 42(3), 2012,793-804.
9. [9] R. Ortner, C. Guger, R. Prueckl, E. Gr¨unbacher andG. Edlinger, SSVEP Based Brain-Computer Interfacefor Robot Control, in K. Miesenberger (Ed.) ComputersHelping People with Special Needs (Heidelberg, SpringerBerlin, 2010) 85-90.
10. [10] M. Bryan, J. Green, M. Chung, L. Chang, R. Scherer,J. Smith and R.P.N. Rao, An Adaptive Brain-ComputerInterface for Humanoid Robot Control, Proc. 2011 11thIEEE RAS International Conference on Humanoid Robots,Bled, Slovenia, 2011, 199-204.
11. [11] P. Gergondet, S. Druon, A. Kheddar, C. Hinterm¨uller,C. Guger and M. Slater, Using Brain-Computer Interface toSteer a Humanoid Robot, Proc. 2011 IEEE InternationalConference on Robotics and Biomimetics, Phuket, Tailand,2011, 192-197.
12. [12] D. Zhu, J. Bieger, G.G. Molina and R.M. Aarts, ASurvey of Stimulation Methods Used in SSVEP-BasedBCIs, Computational Intelligence and Neuroscience,2010(1), 2010.
13. [13] D.H. Brainard, The Psychophysics Toolbox, SpatialVision, 10(4), 1997, 433-436.
14. [14] E. Donchin, K.M. Spencer and R.Wijesinghe, TheMental Prosthesis: Assessing the Speed of a P300-basedBrain-Computer Interface, IEEE Transactions on Rehabil-itation Engineering, 8(2), 2000, 174-179.
15. [15] T. Demiralp, A. Ademo˘glu, Y. Istefanopulos, C.B.Ero˘glu and E. Bas¸ar, Wavelet analysis of oddball P300,International Journal of Psychophysiology, 39(2-3), 2001,221-227.
16. [16] O. Caglayan and R.B. Arslan, P300 based auditoryvisual brain computer interface, 20th Signal Processingand Communications Applications Conference (SIU),2012(1), 2012.
17. [17] T. Demiralp, A. Ademo˘glu, M. Sch¨urmann, C.B.Ero˘glu and E. Bas¸ar, Detection of P300 waves in singletrials by the wavelet transform (WT), Brain and Language,66(1), 1999, 108-128.

Important Links:

• Abstract
• DOI: 10.2316/J.2013.216.791-0082
• From Journal (216) Biomedical Engineering - 2013

Go Back