A novel mu rhythm-based brain computer interface design that uses a programmable system on chip
Artikel i vetenskaplig tidskrift, 2012

This paper describes the system design of a portable and economical mu rhythm based Brain Computer Interface which employs Cypress Semiconductors Programmable System on Chip (PSoC). By carrying out essential processing on the PSoC, the use of an extra computer is eliminated, resulting in considerable cost savings. Microsoft Visual Studio 2005 and PSoC Designer 5.01 are employed in developing the software for the system, the hardware being custom designed. In order to test the usability of the BCI, preliminary testing is carried out by training three subjects who were able to demonstrate control over their electroencephalogram by moving a cursor present at the center of the screen towards the indicated direction with an average accuracy greater than 70% and a bit communication rate of up to 7 bits/min.


R. Joshi

Clover Heights

KU Leuven

Prateek Saraswat

Student vid Chalmers

R. Gajendran

University of Illinois

Journal of Medical Signals and Sensors

2228-7477 (eISSN)

Vol. 2 1 11-16





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