Origin, structure, and role of background EEG activity. Part 2. Analytic phase

[1]  Sampsa Vanhatalo,et al.  Dynamics of human neocortex that optimizes its stability and flexibility , 2006, Int. J. Intell. Syst..

[2]  Walter J. Freeman,et al.  Origin, structure, and role of background EEG activity. Part 3. Neural frame classification , 2005, Clinical Neurophysiology.

[3]  Walter J. Freeman,et al.  Origin, structure, and role of background EEG activity. Part 1. Analytic amplitude , 2004, Clinical Neurophysiology.

[4]  Brian C. Burke,et al.  A neurobiological theory of meaning in perception . Part 4 . Multicortical patterns of amplitude modulation in gamma EEG International Journal of Bifurcation & Chaos [ 2003 ] 13 : in , 2004 .

[5]  J. E. Skinner,et al.  Centrifugal regulation of neuronal activity in the olfactory bulb of the waking rabbit as revealed by reversible cryogenic blockade , 2004, Experimental Brain Research.

[6]  Walter J. Freeman,et al.  A Neurobiological Theory of Meaning in Perception Part V: Multicortical Patterns of Phase Modulation in Gamma EEG , 2003, Int. J. Bifurc. Chaos.

[7]  Guanrong Chen,et al.  Complex networks: small-world, scale-free and beyond , 2003 .

[8]  W. Freeman,et al.  Aperiodic phase re‐setting in scalp EEG of beta–gamma oscillations by state transitions at alpha–theta rates , 2003, Human brain mapping.

[9]  Walter J. Freeman,et al.  A neurobiological theory of meaning in perception , 2003, Proceedings of the International Joint Conference on Neural Networks, 2003..

[10]  Péter Érdi,et al.  The KIV model - nonlinear spatio-temporal dynamics of the primordial vertebrate forebrain , 2003, Neurocomputing.

[11]  W. Freeman,et al.  Spatial spectra of scalp EEG and EMG from awake humans , 2003, Clinical Neurophysiology.

[12]  Walter J. Freeman,et al.  A Neurobiological Theory of Meaning in Perception Part IV: Multicortical Patterns of amplitude Modulation in Gamma EEG , 2003, Int. J. Bifurc. Chaos.

[13]  Walter J. Freeman,et al.  A Neurobiological Theory of Meaning in Perception Part I: Information and Meaning in Nonconvergent and Nonlocal Brain Dynamics , 2003, Int. J. Bifurc. Chaos.

[14]  Walter J. Freeman,et al.  A Neurobiological Theory of Meaning in Perception. , 2022 .

[15]  Walter J. Freeman,et al.  A Neurobiological Theory of Meaning in Perception Part III: Multiple Cortical Areas Synchronize without Loss of Local Autonomy , 2003, Int. J. Bifurc. Chaos.

[16]  Martin Suter,et al.  Small World , 2002 .

[17]  W. Freeman,et al.  Fine temporal resolution of analytic phase reveals episodic synchronization by state transitions in gamma EEGs. , 2002, Journal of neurophysiology.

[18]  T. Ferrée,et al.  Scaling properties of fluctuations in the human electroencephalogram. , 2001, Physical review. E, Statistical, nonlinear, and soft matter physics.

[19]  R. Quiroga,et al.  Reply to ``Comment on `Performance of different synchronization measures in real data: A case study on electroencephalographic signals' '' , 2001, nlin/0109023.

[20]  J. Martinerie,et al.  Comparison of Hilbert transform and wavelet methods for the analysis of neuronal synchrony , 2001, Journal of Neuroscience Methods.

[21]  W. Freeman,et al.  Change in pattern of ongoing cortical activity with auditory category learning , 2001, Nature.

[22]  Walter J. Freeman,et al.  Response dynamics of entorhinal cortex in awake, anesthetized, and bulbotomized rats , 2001, Brain Research.

[23]  John G. Harris,et al.  Design and implementation of a biologically realistic olfactory cortex in analog VLSI , 2001, Proc. IEEE.

[24]  Robert Kozma,et al.  Chaotic Resonance - Methods and Applications for Robust Classification of noisy and Variable Patterns , 2001, Int. J. Bifurc. Chaos.

[25]  K. Linkenkaer-Hansen,et al.  Long-Range Temporal Correlations and Scaling Behavior in Human Brain Oscillations , 2001, The Journal of Neuroscience.

[26]  Jürgen Kurths,et al.  Synchronization - A Universal Concept in Nonlinear Sciences , 2001, Cambridge Nonlinear Science Series.

[27]  Lee M. Miller,et al.  Stimulus-Based State Control in the Thalamocortical System , 2000, The Journal of Neuroscience.

[28]  W. Freeman,et al.  Analysis of spatial patterns of phase in neocortical gamma EEGs in rabbit. , 2000, Journal of neurophysiology.

[29]  Paul A. Watters,et al.  Time-invariant long-range correlations in electroencephalogram dynamics , 2000, Int. J. Syst. Sci..

[30]  W. Freeman How Brains Make Up Their Minds , 1999 .

[31]  Julián J. González,et al.  Non-linear behaviour of human EEG: fractal exponent versus correlation dimension in awake and sleep stages , 1998, Neuroscience Letters.

[32]  Duncan J. Watts,et al.  Collective dynamics of ‘small-world’ networks , 1998, Nature.

[33]  Henrik Jeldtoft Jensen,et al.  Self-Organized Criticality: Emergent Complex Behavior in Physical and Biological Systems , 1998 .

[34]  M. Steriade Synchronized activities of coupled oscillators in the cerebral cortex and thalamus at different levels of vigilance. , 1997, Cerebral cortex.

[35]  Per Bak,et al.  How Nature Works: The Science of Self‐Organized Criticality , 1997 .

[36]  W. Freeman,et al.  Spatiotemporal analysis of prepyriform, visual, auditory, and somesthetic surface EEGs in trained rabbits. , 1996, Journal of neurophysiology.

[37]  James J. Wright,et al.  Dynamics of the brain at global and microscopic scales: Neural networks and the EEG , 1996, Behavioral and Brain Sciences.

[38]  W. J. Nowack Neocortical Dynamics and Human EEG Rhythms , 1995, Neurology.

[39]  L. Ingber Statistical mechanics of multiple scales of neocortical interactions , 1995 .

[40]  W Singer,et al.  Visual feature integration and the temporal correlation hypothesis. , 1995, Annual review of neuroscience.

[41]  Walter J. Freeman,et al.  Valium, histamine, and neural networks , 1993, Biological Psychiatry.

[42]  T. M. Mayhew,et al.  Anatomy of the Cortex: Statistics and Geometry. , 1991 .

[43]  A. Robinson I. Introduction , 1991 .

[44]  Prof. Dr. Valentino Braitenberg,et al.  Anatomy of the Cortex , 1991, Studies of Brain Function.

[45]  H. Haken,et al.  Synergetics of Cognition , 1990 .

[46]  Walter J. Freeman,et al.  On the Problem of Anomalous Dispersion in Chaoto-Chaotic Phase Transitions of Neural Masses, and Its Significance for the Management of Perceptual Information in Brains , 1990 .

[47]  Walter J. Freeman,et al.  Strange attractors that govern mammalian brain dynamics shown by trajectories of electroencephalographic (EEG) potential , 1988 .

[48]  W J Freeman,et al.  Relation of olfactory EEG to behavior: factor analysis. , 1987, Behavioral neuroscience.

[49]  Tang,et al.  Self-Organized Criticality: An Explanation of 1/f Noise , 2011 .

[50]  B. Baird,et al.  Relation of Olfactory EEG to Behavior: Spatial Analysis , 1987 .

[51]  B. Baird,et al.  Relation of olfactory EEG to behavior: spatial analysis. , 1987, Behavioral neuroscience.

[52]  W. Freeman,et al.  Relation of olfactory EEG to behavior: time series analysis. , 1986, Behavioral neuroscience.

[53]  W. Freeman,et al.  Odor-related bulbar EEG spatial pattern analysis during appetitive conditioning in rabbits. , 1985, Behavioral neuroscience.

[54]  Arnold J. Mandell,et al.  Synergetics of the Brain , 1983 .

[55]  Ch. von der Malsburg,et al.  How are Nervous Structures Organized , 1983 .

[56]  Benoit B. Mandelbrot,et al.  Fractal Geometry of Nature , 1984 .

[57]  Donald O. Walter,et al.  Mass action in the nervous system , 1975 .

[58]  R. Elul The genesis of the EEG. , 1971, International review of neurobiology.

[59]  Walter J. Freeman,et al.  Prepyriform electrical activity after loss of peripheral or central input, or both ☆ , 1968 .

[60]  Theodore H. Bullock,et al.  Neuron doctrine and electrophysiology. , 1959, Science.