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Thermodynamic Formalism in Neuronal Dynamics and Spike Train Statistics
Thermodynamic Formalism in Neuronal Dynamics and Spike Train Statistics
by Cessac, Bruno , Maldonado, Cesar , Cofré, Rodrigo
in Condensed Matter / Disordered Systems and Neural Networks / Dynamical Systems / free energy and pressure / large deviations / Life Sciences / linear response / Mathematical Physics / Mathematics / maximum entropy principle / neuronal networks dynamics / Neurons and Cognition / Physics / Review / Thermodynamic Formalism
2020
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Thermodynamic Formalism in Neuronal Dynamics and Spike Train Statistics
by Cessac, Bruno , Maldonado, Cesar , Cofré, Rodrigo
in Condensed Matter / Disordered Systems and Neural Networks / Dynamical Systems / free energy and pressure / large deviations / Life Sciences / linear response / Mathematical Physics / Mathematics / maximum entropy principle / neuronal networks dynamics / Neurons and Cognition / Physics / Review / Thermodynamic Formalism
2020
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Thermodynamic Formalism in Neuronal Dynamics and Spike Train Statistics
Thermodynamic Formalism in Neuronal Dynamics and Spike Train Statistics
by Cessac, Bruno , Maldonado, Cesar , Cofré, Rodrigo
in Condensed Matter / Disordered Systems and Neural Networks / Dynamical Systems / free energy and pressure / large deviations / Life Sciences / linear response / Mathematical Physics / Mathematics / maximum entropy principle / neuronal networks dynamics / Neurons and Cognition / Physics / Review / Thermodynamic Formalism
2020

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Thermodynamic Formalism in Neuronal Dynamics and Spike Train Statistics
Thermodynamic Formalism in Neuronal Dynamics and Spike Train Statistics
Journal Article

Thermodynamic Formalism in Neuronal Dynamics and Spike Train Statistics

Cessac, Bruno,
Maldonado, Cesar,
Cofré, Rodrigo
2020
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Overview
The Thermodynamic Formalism provides a rigorous mathematical framework for studying quantitative and qualitative aspects of dynamical systems. At its core, there is a variational principle that corresponds, in its simplest form, to the Maximum Entropy principle. It is used as a statistical inference procedure to represent, by specific probability measures (Gibbs measures), the collective behaviour of complex systems. This framework has found applications in different domains of science. In particular, it has been fruitful and influential in neurosciences. In this article, we review how the Thermodynamic Formalism can be exploited in the field of theoretical neuroscience, as a conceptual and operational tool, in order to link the dynamics of interacting neurons and the statistics of action potentials from either experimental data or mathematical models. We comment on perspectives and open problems in theoretical neuroscience that could be addressed within this formalism.
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Publisher
MDPI,MDPI AG
Subject

Condensed Matter

/ Disordered Systems and Neural Networks

/ Dynamical Systems

/ free energy and pressure

/ large deviations

/ Life Sciences

/ linear response

/ Mathematical Physics

/ Mathematics

/ maximum entropy principle

/ neuronal networks dynamics

/ Neurons and Cognition

/ Physics

/ Review

/ Thermodynamic Formalism

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