Since the days of Galileo, time has been a fundamental variable in scientific attempts to understand the natural world. Once the first recordings of electrical activity in the brain had been made, it became clear that electrical signals from the brain consist of very complex temporal patterns. This can now be demonstrated by recordings at the single unit level and by electroencephalography (EEG). Time and the Brain explores modern approaches to these temporal aspects of electrical brain activity. The temporal structure as revealed from trains of impulses from single nerve cells and from EEG recordings are discussed in depth together with an exploration of correlations with behaviour and psychology. The single cell and EEG approaches often tend to be segregated as the research occurs in laboratories in different parts of the world. By bringing together modern information acquired using both methods it is hoped that they can become better integrated as complimentary windows on the information processing achieved by the brain.
Cross Correlograms for Neuronal Spike Trains. Different Types of Temporal Correlation in Neocortex, their Origin and Significance, L.G. Nowak and J. Bullier
The Space-Time Continuum in Mammalian Sensory Pathways, A.A. Ghazanfar and M.A.L. Nicolelis
Information Flow Along Neocortical Axons, H.A. Swadlow
Psychophysics of Human Timing, T.H. Rammsayer and S. Grondin
Cortical Processing by Fast Synchronization: High Frequency Rhythmic and Non-rhythmic Signals in the Visual Cortex Point to General Principles of Spatio-Temporal Coding, R. Eckhorn
EEG Alpha Activity and Cognitive Processes, W. Klimesch
Theta Frequency, Synchronization and Episodic Memory Performance, W. Klimesch
Distributed Assemblies, High Frequencies, and the Significance of EEG/MEG Recordings, F. Pulvermuller
Cell Assemblies, Associative Memory and Temporal Structure in Brain Signals, T. Wennekers and G. Palm
The Relation Between EEG and Evoked Potentials, E. Basar, S. Karakas, E. Rahn, and M. Schurmann
Coherence and Phase Relations Between EEG Traces Recorded from Different Locations, P. Rappelsberger, S. Weiss, and B. Scack
Temporal Structure of Neural Activity and Models of Information Processing in the Brain, G.N. Barisyuk, R.M. Borissyuk, and Y.B. Kazanovich
Biography
Robert Miller