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Brain Computer Interfaces: Digital Signal Processing of Steady-State Visually Evoked Potentials Ian Linsmeier & Ahmed Saif ECE630.

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Presentation on theme: "Brain Computer Interfaces: Digital Signal Processing of Steady-State Visually Evoked Potentials Ian Linsmeier & Ahmed Saif ECE630."— Presentation transcript:

1 Brain Computer Interfaces: Digital Signal Processing of Steady-State Visually Evoked Potentials Ian Linsmeier & Ahmed Saif ECE630

2 Brain Computer Interface (BCI) Vialatte et al. Prog Neurobiol. 2010, 90(4).

3 Dependent vs Independent BCIs Dependent BCI – System is dependent upon a minimal level of neuromuscular control by the user Independent BCI – System is independent of neuromuscular control by the user (not necessary)

4 Steady State Visually Evoked Potential-Brain Computer Interface (SSVEP-BCI) System Overview

5 Repetitive Visual Stimulus (RVS) Vialatte et al. Prog Neurobiol. 2010, 90(4). Flickering LED (Simple Flicker)

6 Steady State Visually Evoked Potential (SSVEP) Vialatte et al. Prog Neurobiol. 2010, 90(4). RVS frequency→ 10Hz SSVEP → 10Hz

7 SSVEP-BCI System Components Vialatte et al. Prog Neurobiol. 2010, 90(4).

8 Designing a SSVEP-BCI System

9 SSVEP-BCI Design Parameters 1.Repetitive Visual Stimuli 2.Brain Signal Measurement 3.SSVEP Detection 4.SSVEP Classification Vialatte et al. Prog Neurobiol. 2010, 90(4). 1 2 3 & 4

10 RVS Design 1 RVS = 1 User Option Number of RVS’s Simple vs. Complex Frequency Range – 3.5 to 75 Hz – 15 Hz is optimal Vialatte et al. Prog Neurobiol. 2010, 90(4).

11 Measuring SSVEP Itai et al. EMBC Annual International Conference. 2012. Measurement Location – Visual Cortex Number of electrodes – 1 or 2 is usually sufficient

12 Two General BCI Paradigms 1.Small number of user options (≤4)  Usually employ Complex RVS’s due to higher SNR 2.Large number of user options (>4)  Usually employ simple RVS’s

13 SSVEP Detection Methods Power Spectral Density (PSD) Analysis – Nonparameteric Methods (Fourier Analysis) – Parametric Methods (AR Modeling) Canonical Correlation Analysis (CCA) Continuous Wavelet Transform (CWT)

14 Nonparametric PSD Analysis Bin et al. J. Neural Eng. 2009, 6(4).

15 Periodogram Estimates PSD

16 Averaged Periodogram Break down signal into intervals of fixed length and average each interval together No Averaging → 10 Interval Average → 20 Interval Average Vialatte et al. Prog Neurobiol. 2010, 90(4).

17 Parametric PSD Analysis Parametric Models: – Moving Average (MA) – All Zeros – Autoregressive (AR) – All Pole – Autoregressive Moving Average (ARMA) – Poles and Zeros Smondrk et al. IEEE. 2013.

18 AR Modeling of SSVEP Signals Caclulate a k coefficients using the Yule Walker Equations: http://paulbourke.net/miscellaneous/ar/

19 Canonical Correlation Analysis (CCA) Lin et al. IEEE Trans. Biomed. Eng. 2007, 54(6)

20 Continuous Wavelet Transform (CWT) Wavelets can localize a signal in both frequency and time Acts like a short time Fourier transformation but with varying window sizes based on frequency With the correct mother wavelet we can achieve a result better than the FFT and PSD

21 SSVEP Classification Yeh et al. Biomed Eng Online. 2013, 12(46)

22 Support Vector Machine (SVM) http://en.wikipedia.org/wiki/File:Svm_separating_hyperplanes_(SVG).svg

23 A Comparison of SSVEP Detection Methods

24 Comparison of SSVEP Detection Methods Method The average time of calculation [ms] PSD1.8 ± 0.1 PSDw1.1 ± 0.1 AR13.7 ± 0.6 ARw10.2 ± 0.4 CCA52.6 ± 0.7 CWT114.2 ± 2.8 Smondrk et al. IEEE. 2013.

25 Comparison of SSVEP Detection Methods Smondrk et al. IEEE. 2013.

26 SSVEP Detection for BCI Paradigms Paradigm 1: Systems will small number of user options (≤4 options) – Employ Complex RVS’s (checkerboard) – Nonparametric PSD using well resolved RVS’s Paradigm 2: Systems using large number of user options (>4 options) – Employ Simple RVS’s (LEDs) – Canonical Correlation Analysis

27 Questions?

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