Properties of artificial neurons that report lightness based on accumulated experience with luminance

Yaniv Morgenstern; Dhara V. Rukmini; Brian B. Monson; Dale Purves

doi:10.3389/fncom.2014.00134

Properties of artificial neurons that report lightness based on accumulated experience with luminance

Yaniv Morgenstern^*
, Dhara V. Rukmini
, Brian B. Monson
, Dale Purves

^*Corresponding author for this work

Duke-NUS Graduate Medical School
Duke University
Duke University School of Medicine

Research output: Contribution to journal › Article › Academic › peer-review

9 Citations (Scopus)

Abstract

The responses of visual neurons in experimental animals have been extensively characterized. To ask whether these responses are consistent with a wholly empirical concept of visual perception, we optimized simple neural networks that responded according to the cumulative frequency of occurrence of local luminance patterns in retinal images. Based on this estimation of accumulated experience, the neuron responses showed classical center-surround receptive fields, luminance gain control and contrast gain control, the key properties of early level visual neurons determined in animal experiments. These results imply that a major purpose of pre-cortical neuronal circuitry is to contend with the inherently uncertain significance of luminance values in natural stimuli.

Original language	English
Article number	134
Pages (from-to)	1-11
Number of pages	11
Journal	Frontiers in Computational Neuroscience
Volume	8
DOIs	https://doi.org/10.3389/fncom.2014.00134
Publication status	Published - 3 Nov 2014
Externally published	Yes

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Publisher Copyright:
© 2014 Morgenstern, Rukmini, Monson and Purves.

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Properties of artificial neurons that report lightness based on accumulated experience with luminanceFinal published version, 2.77 MBLicence: CC BY

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AU - Monson, Brian B.

AU - Purves, Dale

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N2 - The responses of visual neurons in experimental animals have been extensively characterized. To ask whether these responses are consistent with a wholly empirical concept of visual perception, we optimized simple neural networks that responded according to the cumulative frequency of occurrence of local luminance patterns in retinal images. Based on this estimation of accumulated experience, the neuron responses showed classical center-surround receptive fields, luminance gain control and contrast gain control, the key properties of early level visual neurons determined in animal experiments. These results imply that a major purpose of pre-cortical neuronal circuitry is to contend with the inherently uncertain significance of luminance values in natural stimuli.

AB - The responses of visual neurons in experimental animals have been extensively characterized. To ask whether these responses are consistent with a wholly empirical concept of visual perception, we optimized simple neural networks that responded according to the cumulative frequency of occurrence of local luminance patterns in retinal images. Based on this estimation of accumulated experience, the neuron responses showed classical center-surround receptive fields, luminance gain control and contrast gain control, the key properties of early level visual neurons determined in animal experiments. These results imply that a major purpose of pre-cortical neuronal circuitry is to contend with the inherently uncertain significance of luminance values in natural stimuli.

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ER -

Properties of artificial neurons that report lightness based on accumulated experience with luminance

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