
Single neuron dynamics and computation.
Publication
, Journal Article
Brunel, N; Hakim, V; Richardson, MJE
Published in: Curr Opin Neurobiol
April 2014
At the single neuron level, information processing involves the transformation of input spike trains into an appropriate output spike train. Building upon the classical view of a neuron as a threshold device, models have been developed in recent years that take into account the diverse electrophysiological make-up of neurons and accurately describe their input-output relations. Here, we review these recent advances and survey the computational roles that they have uncovered for various electrophysiological properties, for dendritic arbor anatomy as well as for short-term synaptic plasticity.
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Published In
Curr Opin Neurobiol
DOI
EISSN
1873-6882
Publication Date
April 2014
Volume
25
Start / End Page
149 / 155
Location
England
Related Subject Headings
- Neurons
- Models, Neurological
- Humans
- Electrophysiological Phenomena
- Animals
- 3209 Neurosciences
- 1702 Cognitive Sciences
- 1109 Neurosciences
Citation
APA
Chicago
ICMJE
MLA
NLM
Brunel, N., Hakim, V., & Richardson, M. J. E. (2014). Single neuron dynamics and computation. Curr Opin Neurobiol, 25, 149–155. https://doi.org/10.1016/j.conb.2014.01.005
Brunel, Nicolas, Vincent Hakim, and Magnus J. E. Richardson. “Single neuron dynamics and computation.” Curr Opin Neurobiol 25 (April 2014): 149–55. https://doi.org/10.1016/j.conb.2014.01.005.
Brunel N, Hakim V, Richardson MJE. Single neuron dynamics and computation. Curr Opin Neurobiol. 2014 Apr;25:149–55.
Brunel, Nicolas, et al. “Single neuron dynamics and computation.” Curr Opin Neurobiol, vol. 25, Apr. 2014, pp. 149–55. Pubmed, doi:10.1016/j.conb.2014.01.005.
Brunel N, Hakim V, Richardson MJE. Single neuron dynamics and computation. Curr Opin Neurobiol. 2014 Apr;25:149–155.

Published In
Curr Opin Neurobiol
DOI
EISSN
1873-6882
Publication Date
April 2014
Volume
25
Start / End Page
149 / 155
Location
England
Related Subject Headings
- Neurons
- Models, Neurological
- Humans
- Electrophysiological Phenomena
- Animals
- 3209 Neurosciences
- 1702 Cognitive Sciences
- 1109 Neurosciences