Noise in neurons is message dependent

Guillermo A. Cecchi; Mariano Sigman; José Manuel Alonso; Luis Martínez; Dante R. Chialvo; Marcelo O. Magnasco

doi:10.1073/pnas.100113597

Noise in neurons is message dependent

Guillermo A. Cecchi
, Mariano Sigman
, José Manuel Alonso
, Luis Martínez
, Dante R. Chialvo
, Marcelo O. Magnasco

Biological & Vision Sciences

College of Optometry

Rockefeller University

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

83 Scopus citations

Abstract

Neuronal responses are conspicuously variable. We focus on one particular aspect of that variability: the precision of action potential timing. We show that for common models of noisy spike generation, elementary considerations imply that such variability is a function of the input, and can be made arbitrarily large or small by a suitable choice of inputs. Our considerations are expected to extend to virtually any mechanism of spike generation, and we illustrate them with data from the visual pathway. Thus, a simplification usually made in the application of information theory to neural processing is violated: noise is not independent of the message. However, we also show the existence of error-correcting topologies, which can achieve better timing reliability than their components.

Original language	English
Pages (from-to)	5557-5561
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	97
Issue number	10
DOIs	https://doi.org/10.1073/pnas.100113597
State	Published - May 9 2000

Keywords

Error correcting
Information theory
Neuronal reliability
Temporal coding

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10.1073/pnas.100113597

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AU - Cecchi, Guillermo A.

AU - Sigman, Mariano

AU - Alonso, José Manuel

AU - Martínez, Luis

AU - Chialvo, Dante R.

AU - Magnasco, Marcelo O.

PY - 2000/5/9

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N2 - Neuronal responses are conspicuously variable. We focus on one particular aspect of that variability: the precision of action potential timing. We show that for common models of noisy spike generation, elementary considerations imply that such variability is a function of the input, and can be made arbitrarily large or small by a suitable choice of inputs. Our considerations are expected to extend to virtually any mechanism of spike generation, and we illustrate them with data from the visual pathway. Thus, a simplification usually made in the application of information theory to neural processing is violated: noise is not independent of the message. However, we also show the existence of error-correcting topologies, which can achieve better timing reliability than their components.

AB - Neuronal responses are conspicuously variable. We focus on one particular aspect of that variability: the precision of action potential timing. We show that for common models of noisy spike generation, elementary considerations imply that such variability is a function of the input, and can be made arbitrarily large or small by a suitable choice of inputs. Our considerations are expected to extend to virtually any mechanism of spike generation, and we illustrate them with data from the visual pathway. Thus, a simplification usually made in the application of information theory to neural processing is violated: noise is not independent of the message. However, we also show the existence of error-correcting topologies, which can achieve better timing reliability than their components.

KW - Error correcting

KW - Information theory

KW - Neuronal reliability

KW - Temporal coding

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

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Noise in neurons is message dependent

Abstract

Keywords

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