`a`
Mathematical Biosciences and Engineering (MBE)
 

Identifying preseizure state in intracranial EEG data using diffusion kernels
Pages: 579 - 590, Issue 3, June 2013

doi:10.3934/mbe.2013.10.579      Abstract        References        Full text (830.5K)           Related Articles

Dominique Duncan - 101 AKW, 51 Prospect St. New Haven, CT 06511, United States (email)
Ronen Talmon - 103 AKW, 51 Prospect St. New Haven, CT 06511, United States (email)
Hitten P. Zaveri - 716 LLCI, 15 York St. New Haven, CT 06520, United States (email)
Ronald R. Coifman - 108A AKW, 51 Prospect St. New Haven, CT 06511, United States (email)

1 R. G. Andrzejak, F. Mormann, R. Kreuz, C. Rieke, A. Kraskov, C. E. Elger and K. Lehnertz, Testing the null hypothesis of the nonexistence of a preseizure state, Phys. Rev. E, 67 (2003), 10901.
2 J. Britz, D. Van De Ville and C. M. Michel, BOLD correlates of EEG topography reveal rapid resting-state network dynamics, NeuroImage, 52 (2010), 1162-1170.
3 R. R. Coifman and S. Lafon, Diffusion maps, Appl. Comp. Harm. Anal., 21 (2006), 5-30.       
4 D. Duncan, R. B. Duckrow, R. R. Coifman and H. P. Zaveri, Intracranial EEG Evaluation of a Resting State Network, Challenges of Modern Technology, 1 (2010), 27-29.
5 M. G. Frei, H. P. Zaveri, S. Arthurs, G. K. Bergey, C. C. Jouny, K. Lehnertz, J. Gotman, I. Osorio, T. I. Netoff, W. J. Freeman, J. Jefferys, G. Worrell, M. Le Van Quyen, S. J. Schiff and F. Mormann, Controversies in epilepsy: Debates held during the fourth international workshop on seizure prediction, Epilepsy and Behavior, 19 (2010), 4-16.
6 I. I. Goncharova, H. P. Zaveri, R. B. Duckrow, E. J. Novotny and S. S. Spencer, Spatial distribution of intracranially recorded spikes in medial and lateral temporal epilepsies, Epilepsia, 50 (2009), 2575-85.
7 W. A. Hauser, J. F. Annegers and W. A. Rocca, Descriptive epidemiology of epilepsy: Contributions of population-based studies from Rochester, Minnesota, Mayo. Clin. Proc., 71 (1996), 576-586.
8 D. Kushnir, A. Haddad and R. R. Coifman, Anisotropic diffusion on sub-manifolds with application to earth structure classification, Appl. Comp. Harm. Anal., 32 (2012), 280-294.       
9 P. Kwan and M. J. Brodie, Early identification of refractory epilepsy, N. Engl. J. Med., 342 (2000), 314-319.
10 F. Mormann, R. G. Andrzejak, C. E. Elger and K. Lehnertz, Seizure prediction: the long and winding road, Brain, 130 (2007), 314-333.
11 X. Papademetris, A. P. Jackowski, R. T. Schultz, L. H. Staib and J. S. Duncan, Integrated intensity and point-feature non-rigid registration, in "Medical Image Computing and Computer-Assisted Intervention" (Eds. C. Barillot, D. Haynor and P. Hellier) Saint-Malo: Springer, (2004), 763-770.
12 M. R. Portnoff, Time-frequency representation of digital signals and systems based on short-time Fourier analysis, IEEE Trans. Signal Process, ASSP-28, 55-69.
13 A. Schulze-Bonhage, H. Feldwisch-Drentrup and M. Ihle, Epilepsy and behavior, Elsevier, 22 (2011), S88-S93.
14 A. Singer and R. R. Coifman, Non-linear independent component analysis with diffusion maps, Appl. Comp. Harm. Anal., 25 (2008), 226-239.       
15 E. Susman, Brain stimulation reduces seizures in refractory adult epilepsy, Neurology Today, 9 (2009), 22-23.
16 R. Talmon and R. R. Coifman, Differential stochastic sensing: intrinsic modeling of random time series with applications to nonlinear tracking, submitted to PNAS, (2012).
17 R. Talmon, D. Kushnir, R. R. Coifman, I. Cohen and S. Gannot, Parametrization of linear systems using diffusion kernels, IEEE Trans. Signal Process, 60 (2012).       

Go to top