Biology Reference
In-Depth Information
[2]
L. A. Baccala, M. Y. Alvarenga, K. Sameshima, C. L. Jorge, and L. H. Castro. Graph
theoretical characterization and tracking of the effective neural connectivity during
episodes of mesial temporal epileptic seizure.
J. Integr. Neurosci.
, 3(4):379-95, 2004.
[3]
H. Berger. Ueber das elektrenkephalogramm des menschen.
Arch. Psychiatr. Ner-
venkr
, 87:527-570, 1929.
[4]
A. Brovelli, M. Ding, A. Ledberg, Y. Chen, R. Nakamura, and S. L. Bressler. Beta
oscillations in a large-scale sensorimotor cortical network: Directional influences
revealed by granger causality.
Hum Brain Mapping
, 101:9849-9854, 2004.
[5]
A. J. Butte and I. S. Kohane. Mutual information relevance networks: functional
genomic clustering using pairwise entropy measurements.
Pac. Symp. Biocomput.
,
pages 418-29, 2000.
[6]
R. Carraghan and P. M. Pardalos. An exact algorithm for the maximum clique prob-
lem.
Operations Research Letters
, 9:375-382, 1990.
[7]
T. M. Cover and J. A. Thomas.
Elements of Information Theory
. Wiley, 1991.
[8]
R. B. Duckrow and A. M. Albano. Comment on performance of different synchro-
nization measures in real data: A case study on electroencephalographic signals.
Phys.Rev.E
, 67(6):063901, Jun 2003.
[9]
A. M. Fraser and H. L. Swinney. Independent coordinates for strange attractors from
mutual information.
Phys Rev A
, 33:1134-1140, 1986.
[10]
P. Grassberger. Generalized dimensions of strange attractors.
Phys. Lett
, 97A:227-
230, 1983.
[11]
L. D. Iasemidis, J. C. Principe, and J. C. Sackellares. Measurement and quantification
of spatiotemporal dynamics of human epileptic seizures. In M. Akay, editor,
Nonlin-
ear biomedical signal processing
, pages 294-318. Wiley-IEEE Press, vol. II, 2000.
[12]
L. D. Iasemidis, D.-S. Shiau, W. A. Chaovalitwongse, J. C. Sackellares, P. M. Parda-
los, P. R. Carney, J. C. Principe, A. Prasad, B. Veeramani, and K. Tsakalis. Adaptive
epileptic seizure prediction system.
IEEE Transactions on Biomedical Engineering
,
5(5):616-627, 2003.
[13]
H. H. Jasper. Mechanisms of propagation: Extracellular studies. In H.H. Jasper, A. A.
Ward, and A. Pope, editors,
Basic mechanisms of the epilepsies
, pages 421-440,
Boston, 1969. Little Brown.
[14]
S. Ken, G. Di Gennaro, G. Giulietti, F. Sebastiano, D. De Carli, G. Garreffa,
C. Colonnese, R. Passariello, J. Lotterie, and B. Maraviglia. Quantitative evalua-
tion for brain ct/mri coregistration based on maximization of mutual information in
patients with focal epilepsy investigated with subdural electrodes.
Magn Reson Imag-
ing
, 25(6): 883-8, 2007.
[15]
A. Klatchko, G. Raviv, W. R. Webber, and R. P. Lesser. Enhancing the detection of
seizures with a clustering algorithm.
Electroencephalogr Clin Neurophysiol
, 106(1):
52-63, 1998.
[16]
Y.-C. Lai, M. G. Frei, I. Osorio, and L. Huang. Characterization of synchrony with
applications to epileptic brain signals.
Phys Rev Lett
, 98(10): 108102, 2007.
[17]
C.-C. Liu, P. M. Pardalos, W. A. Chaovalitwongse, D. S. Shiau, G. Ghacibeh V.
A. Yatsenko, and J. C. Sackellares. Quantitative complexity analysis in multi-channel
intracranial EEG recordings from epilepsy brains.
Journal of Combinatorial Opti-
mization
, 15(3): 276-286, 2008.
[18]
A. R McIntosh and F. Gonzalez-Lima. Structural equation modeling and its applica-
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