creators_name: Bullock, T.H. creators_name: Enright, J.T. creators_name: Chong, K.M. type: journalp datestamp: 1999-07-14 lastmod: 2011-03-11 08:53:40 metadata_visibility: show title: Forays with the additive periodogram applied to the EEG. ispublished: pub subjects: behav-neuro-sci subjects: brain-img subjects: neuro-chem subjects: neuro-mod subjects: neuro-neu subjects: neuro-neu subjects: neuro-physio full_text_status: public abstract: The most information-rich measure of the working brain is the electrical activity, recorded as wideband, extracellular local field potentials from multiple sites, in extent and depth, with millisecond and millimeter resolution. We still lack a common view of the electrical activity in terms of simple description - which must precede explanation in terms of mechanisms. The situation is much like the diverse views on the nature and characteristics of a jungle. We have elsewhere addressed related questions. (i) How much of the wideband activity is stochastic - concluding that a significant and highly labile amount of coherence and bicoherence bespeak temporal fine structure and cooperativity. (ii) How much fine structure is spatial, concluding that differentiation increases as the volume sampled is smaller (Bullock et al. 1995a,b, 1997). date: 1998 date_type: published publication: Proc Fifth Joint Sym on Neural Computation volume: 8 pagerange: 25-28 refereed: TRUE citation: Bullock, T.H. and Enright, J.T. and Chong, K.M. (1998) Forays with the additive periodogram applied to the EEG. [Journal (Paginated)] document_url: http://cogprints.org/107/1/forays.html