Gene therapy, retinal degeneration, neuroprotection in
the retina, mammalian retinal development and differentiation.
Cognitive NeuroDynamics: Investigation of cognitive processing through analysis of the large-scale dynamics of activity in the cerebral cortex.
Perception of motion
Coordination Dynamics: Uses brain imaging and behavioral techniques to uncover the principles and mechanisms
underlying patterns of coordination.
Computational Biology: Fractal and nonlinear analysis of molecular, cellular, physiological, and psychological systems.
Molecular Neuroscience: Molecular and cellular mechanisms associated with brain development, damage, and nerve growth.
Dynamics of speech, learning, and memory in normal and clinical populations.
Behavioral Neuroscience: Functional organization of the brainstem and its control of forebrain function; neurophysiology of sleep.
Neuroscience, neurotransmitters and neurological disorders.
Language, Phonology, Morphology, Reading
Brain Imaging and Brain Dynamics: Macroscopic modeling of the spatiotemporal dynamics of human EEG and MEG
Theoretical Neuroscience: Principles of how behavioral and cognitive processes arise from neural network dynamics informed by non-invasive brain imaging.
Music Cognition: Music perception and cognition, attention, auditory perception. Neural and dynamical modeling of auditory perception and attention.
Coordination Dynamics: Principles and mechanisms of human sensorimotor coordination.
Coordination Dynamics: Theoretical and experimental studies of biological action and synchronization
Neural Imaging: Director and owner of University MRI of Boca Raton
EEG Coordination Dynamics of human behavior: large-scale integration within and between brains
