A NEUROBIOLOGICAL THEORY OF MEANING IN PERCEPTION PART V: MULTICORTICAL PATTERNS OF PHASE MODULATION IN GAMMA EEG
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Publication:4669022
DOI10.1142/S0218127403008296zbMath1118.92011MaRDI QIDQ4669022
Linda Rogers, Walter J. Freeman
Publication date: 15 April 2005
Published in: International Journal of Bifurcation and Chaos (Search for Journal in Brave)
Neural biology (92C20) Biomedical imaging and signal processing (92C55) Psychophysics and psychophysiology; perception (91E30)
Related Items (6)
A field-theoretic approach to understanding scale-free neocortical dynamics ⋮ A NEUROBIOLOGICAL THEORY OF MEANING IN PERCEPTION PART IV: MULTICORTICAL PATTERNS OF AMPLITUDE MODULATION IN GAMMA EEG ⋮ VORTICES IN BRAIN WAVES ⋮ Oscillatory neural network for pattern recognition: trajectory based classification and supervised learning ⋮ COHERENT STATES, FRACTALS AND BRAIN WAVES ⋮ Detecting stable phase structures in EEG signals to classify brain activity amplitude patterns
Cites Work
- A Neurobiological Theory of Meaning in Perception Part I: Information and Meaning in Nonconvergent and Nonlocal Brain Dynamics
- A Neurobiological Theory of Meaning in Perception Part II: Spatial Patterns of Phase in Gamma EEGs from Primary Sensory Cortices Reveal the Dynamics of Mesoscopic Wave Packets
- A NEUROBIOLOGICAL THEORY OF MEANING IN PERCEPTION PART III: MULTIPLE CORTICAL AREAS SYNCHRONIZE WITHOUT LOSS OF LOCAL AUTONOMY
- A NEUROBIOLOGICAL THEORY OF MEANING IN PERCEPTION PART IV: MULTICORTICAL PATTERNS OF AMPLITUDE MODULATION IN GAMMA EEG
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