The Journal of Neuroscience, December 9, 2009 • 29(49):15595–15600 • [removed]Brief Communications Neuronal Avalanches Imply Maximum Dynamic Range in Cortical Networks at Criticality - Journal Communications - Document - PDFSEARCH.IO - Document Search Engine

Back to Results

First Page	Meta Content
	The Journal of Neuroscience, December 9, 2009 • 29(49):15595–15600 • [removed]Brief Communications Neuronal Avalanches Imply Maximum Dynamic Range in Cortical Networks at Criticality Add to Reading List Document Date: 2010-02-07 19:50:51 Open Document File Size: 1,20 MB Share Result on Facebook City Cambridge / Bethesda / New York / Oxford / / Company Sigma-Aldrich / Proc Natl Acad Sci U S A / Multi Channel Systems / Cortical Networks / / Country United Kingdom / / Currency USD / / / Event Natural Disaster / Reorganization / / Facility National Institute of Mental Health / College Park / University of Maryland / Laboratory of Systems Neuroscience / / IndustryTerm information processing / excitable networks / stimulus processing / recurrent neural networks / optimized stimulus processing / Stock solutions / neural networks / power law / neuronal networks / input processing / power-law function / / Organization Department of Defense Multidisciplinary University Research Initiative / University of Maryland / Laboratory of Systems Neuroscience / University of Maryland / College Park / Swiss National Science Foundation / Society for Neuroscience / Porter Neuroscience Research Center / National Institute of Mental Health / / Person Neuroscience / Craig Stewart / Dietmar Plenz / / Position model control parameter / Governor / / ProgrammingLanguage L / / ProvinceOrState South Dakota / Maryland / / Technology Neuroscience / two protocols / Simulation / PDF / / URL www.jneurosci.org / / SocialTag Neural networks Neuroscience Brain Cerebrum Neurophysiology Neural oscillation Primary auditory cortex Evoked activity Visual cortex Biology