Open AccessNeuron simulation environment
Author(s) -
Ted Carnevale
Publication year - 2007
Publication title -
scholarpedia
Language(s) - English
Resource type - Journals
ISSN - 1941-6016
DOI - 10.4249/scholarpedia.1378
Subject(s) - computer science , neuron , domain (mathematical analysis) , spike (software development) , neuroscience , accession , complement (music) , axon , artificial intelligence , cognitive science , biology , psychology , mathematics , economics , mathematical analysis , biochemistry , software engineering , european union , complementation , gene , phenotype , economic policy
The moment-to-moment processing of information by the nervous system involves the propagation and interaction of electrical and chemical signals that are distributed in space and time. Biologically realistic modeling is needed to test hypotheses about the mechanisms that govern these signals and how nervous system function emerges from the operation of these mechanisms. The NEURON simulation program provides a powerful and flexible environment for implementing such models of individual neurons and small networks of neurons. It is particularly useful when membrane potential is nonuniform and membrane currents are complex. We present the basic ideas that would help informed users make the most efficient use of NEURON.
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