Biomedical Engineering Reference
In-Depth Information
[24]
Iasemidis, L. D., et al., “Quadratic Binary Programming and Dynamic Systems Approach to
Determine the Predictability of Epileptic Seizures,”
J. Combinat. Optim.
, Vol. 5, 2001,
pp. 9-26.
[25]
Iasemidis, L. D., and J. C. Sackellares, “The Temporal Evolution of the Largest Lyapunov
Exponent on the Human Epileptic Cortex,” in
Measuring Chaos in the Human Brain
,D.W.
Duke and W. S. Pritchard, (eds.), Singapore: World Scientific, 1991, pp. 49-82.
[26]
Iasemidis, L. D., and J. C. Sackellares, “Long Time Scale Temporo-Spatial Patterns of
Entrainment of Preictal Electrocorticographic Data in Human Temporal Lobe Epilepsy,”
Epilepsia
, Vol. 31, No. 5, 1990, p. 621.
[27]
Iasemidis, L. D., “Time Dependencies in the Occurrences of Epileptic Seizures,”
Epilepsy
Res.
, Vol. 17, No. 1, 1994, pp. 81-94.
[28]
Pardalos, P. M., “Seizure Warning Algorithm Based on Optimization and Nonlinear
Dynamics,”
Mathemat. Program.
, Vol. 101, No. 2, 2004, pp. 365-385.
[29]
Sackellares, J. C., “Epileptic Seizures as Neural Resetting Mechanisms,”
Epilepsia
, Vol. 38,
Suppl. 3, 1997, p. 189.
[30]
Degan, H., A. Holden, and L. F. Olsen,
Chaos in Biological Systems
, New York: Plenum,
1987.
[31]
Marcus, M., S. M. Aller, and G. Nicolis,
From Chemical to Biological Organization
, New
York: Springer-Verlag, 1988.
[32]
Sackellares J. C., et al., “Epilepsy—When Chaos Fails,” in
Chaos in Brain?
, K. Lehnertz et
al., (eds.), Singapore: World Scientific, 2000, pp. 112-133.
[33]
Takens, F.,
Detecting Strange Attractors in Turbulence of Dynamical Systems and Turbu-
lence
, New York: Springer-Verlag, 1981.
[34]
Abarbanel, H. D. I.,
Analysis of Observed Chaotic Data
, New York: Springer-Verlag, 1996.
[35]
Nair, S. P., et al., “An Investigation of EEG Dynamics in an Animal Model of Temporal
Lobe Epilepsy Using the Maximum Lyapunov Exponent,”
Exp. Neurol.,
November 27,
2008.
[36]
Milton, J., and P. Jung,
Epilepsy as a Dynamic Disease
, New York: Springer, 2003.
[37]
Quiroga, R. Q., T. Kreuz, and P. Grassberger, “Event Synchronization: A Simple and Fast
Method to Measure Synchronicity and Time Delay Patterns,”
Phys. Rev. E
, Vol. 66, No.
041904, 2002.
[38]
Rosenblum, M. G., A. S. Pikovsky, and J. Kurths, “From Phase to Lag Synchronization in
Coupled Chaotic Oscillators,”
Phys. Rev. Lett.
, Vol. 78, No. 22, 1997, pp. 4193-4196.
[39]
Mormann, F., et al., “Automated Detection of a Preseizure State Based on a Decrease in
Synchronization in Intracranial Electroencephalogram Recordings from Epilepsy Patients,”
Phys. Rev. E
, Vol. 67, No. 2, 2003.
[40]
Duda, R. O., P. E. Hart, and D. G. Stork,
Pattern Classification
, New York: Wiley-
Interscience, 1997, pp. 114-117.
[41]
Schindler, K., et al., “Assessing Seizure Dynamics by Analysing the Correlation Structure of
Multichannel Intracranial EEG,”
Brain
, Vol. 130, No. 1, 2007, p. 65.
[42]
McSharry, P. E., “Linear and Non-Linear Methods for Automatic Seizure Detection in
Scalp Electroencephalogram Recordings,”
Med. Biol. Eng. Comput.,
Vol. 40, No. 4, 2002,
pp. 447-461.
[43]
Gabor, A. J., “Automated Seizure Detection Using a Self-Organizing Neural Network,”
Electroencephalog. Clin. Neurophysiol
., Vol. 99, 1996, pp. 257-266.
[44]
Gardner, A. B., “A Novelty Detection Approach to Seizure Analysis from Intracranial
EEG,” Georgia Institute of Technology, Atlanta, 2004.
[45]
Tass, P.,
Phase Resetting in Medicine and Biology: Stochastic Modeling and Data Analysis,
New York: Springer-Verlag, 1999.
[46]
Osorio, I., et al., “Automated Seizure Abatement in Humans Using Electrical Stimulation,”
Ann. Neurol.,
Vol. 57, 2005, pp. 258-268.
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