Second Order Phase Transition Describes Maximally Informative Encoding in the Retina
2014
Files
Abstract
Neurons have limited dynamic ranges. Theoretical studies have derived how a single neuron should place its dynamic range to optimize the information it transmits about the input. However, neural circuits encode with populations of neurons.
Details
Title
Second Order Phase Transition Describes Maximally Informative Encoding in the Retina
Author(s)
Kastner, David ; Baccus, Stephen A. ; Sharpee, Tatyana O.
Conference
COSYNE 2014, Salt Lake City & Snowbird, Utah, USA, February 27 - March 4, 2014
Date
2014
Laboratories
LCN
Record Appears in
Scientific production and competences > I&C - School of Computer and Communication Sciences > IINFCOM > LCN - Computational Neuroscience Laboratory
Scientific production and competences > SV - School of Life Sciences > BMI - Brain Mind Institute > LCN - Computational Neuroscience Laboratory
Work outside EPFL
Posters
Scientific production and competences > SV - School of Life Sciences > BMI - Brain Mind Institute > LCN - Computational Neuroscience Laboratory
Work outside EPFL
Posters
Record creation date
2014-03-07