Computing the Brain: A Guide to NeuroinformaticsMichael A. Arbib, Jeffrey S. Grethe Computing the Brain provides readers with an integrated view of current informatics research related to the field of neuroscience. This book clearly defines the new work being done in neuroinformatics and offers information on resources available on the Web to researchers using this new technology. It contains chapters that should appeal to a multidisciplinary audience with introductory chapters for the nonexpert reader. Neuroscientists will find this book an excellent introduction to informatics technologies and the use of these technologies in their research. Computer scientists will be interested in exploring how these technologies might benefit the neuroscience community.
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Contents
41 | |
Databases for Neuroscience Time Series | 115 |
ATLASBASED DATABASES | 165 |
Data Management | 229 |
Summary Databases and Model Repositories | 285 |
Appendices | 353 |
Index | 371 |
Other editions - View all
Computing the Brain: A Guide to Neuroinformatics Michael A. Arbib,Jeffrey S. Grethe Limited preview - 2001 |
Common terms and phrases
activity allows anatomical annotations Arbib atlas level axon basal ganglia behavior Brain Maps brain regions brain structures Browser cerebellar cerebellum cerebral cortex Chapter classical conditioning clump computational concepts connections contains cortex data model data type database model database system defined described developed disk display document Dynamic example experiment experimental exported federated database systems fibers Figure function granule cell hierarchy hippocampus homology implementation Informix input interaction interface layers Manager ment methods microcomplex module monkey NeuARt neural network neuroanatomical neurochemical NeuroCore database Neuroinformatics neurons NeuroScholar neuroscience objects ontology parameters parietal prism protocol Purkinje cell query rat brain receptors reference Repositories represent retrieved saccade schema selected simulation spatial specific stored Summary Database Swanson synaptic Synthetic PET techniques tion tract-tracing uniqueID owner University of Southern USC Brain Project USCBP visual