I. Neurophysiological Fundamentals and Theories.
Event-related neural activities: What about phase?
The cortical activation model (CAM).
Source analysis of EEG oscillations using high-resolution EEG and MEG.
Principles of oscillatory brain dynamics and a treatise of recognition of faces and facial expressions.
Dynamic sculpting of brain functional connectivity and mental rotation aptitude.
II. Analysis of Dynamics of Brain Oscillations: Methodological Advances.
Quantification and visualization of event-related changes in oscillatory brain activity in the time-frequency domain.
Information-based modelling of event-related brain dynamics.
Time-frequency microstructure and statistical significance of ERD and ERS.
Analyzing event-related EEG data with multivariate autoregressive parameters.
III. ERD/ERS and Cognition.
Upper alpha ERD and absolute power: Their meaning for memory performance.
Sensitivity of alpha band ERD to individual differences in cognition.
Oscillatory neuronal dynamics during language comprehension.
Cognition- and memory-related ERD/ERS responses in the auditory stimulus modality.
IV. ERD/ERS and Sensorimotor Processing.
ERD/ERS patterns reflecting sensorimotor activation and deactivation.
Interregional long-range and short-range synchrony: A basis for complex senorimotor processing.
Cortical oscillatory changes occurring during somatosensory and thermal stimulation.
Action-perception connection and the cortical mu rhythm.
Converging evidence of ERD/ERS and BOLD-responses in motor control research.
V. Invasive Approaches and Clinical Applications.
High frequency gamma oscillations and human brain mappi