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Source: OpenAlex.org

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Article Timeline

Published online:

28 Apr 2023

Accepted:

23 Feb 2023

Received:

2 Dec 2022

Open Access

Original Research

Nested dynamical modeling of neural systems: A strategy and Some Consequences

Luis H. Favela

Author Affiliations

Luis H. Favela:

  • Department of Philosophy, University of Central Florida, Orlando, FL 32816, USA.

  • Cognitive Sciences Program, University of Central Florida, Orlando, FL 32816, USA.

Abstract

Neuroscience has become a big data enterprise. This is due in large part to the rapidly growing quantity and quality of data and increased appreciation of non-neuronal physiology and environments in explaining behavior, cognition, and consciousness. One way neuroscience is dealing with this embarrassment of riches is by appealing to investigative frameworks that put the multiscale nature of neural systems at the forefront. The current work offers one such approach: Nested dynamical modeling, a strategy for creating models of phenomena comprised of multiple spatial and/or temporal scales for purposes of exploration, explanation, and understanding. Building from dynamical systems theory and synergetics, nested dynamical modeling applies a methodological approach aimed at nesting models at one scale of inquiry within models at other scales without compromising biological realism. This strategy is demonstrated via a proof of concept. Some consequences this approach has for the epistemological and theoretical commitments of neuroscience are discussed.

Keywords

Big data; dynamical systems theory; modeling; multiscale; synergetics.

How to cite this article

Luis H. Favela (2023). ​ Nested Dynamical Modeling of Neural Systems: A strategy and some consequences. Journal of Multiscale Neuroscience 2(1), 240-250

Conflict of Interest

The authors declare that they have no conflict of interest.

Copyright

© 2023 The Author Published by Neural Press. This is an open access article distributed under the terms and conditions of the CC BY 4.0 license.

Disclaimer

The statements, opinions, and data in the Journal of Multiscale Neuroscience are solely those of the individual authors and contributors, not those of the Neural Press or the editors(s).

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This article belongs to the Special Issue

The Mind and the Brain: A Multiscale Interpretation of Cognitive Brain Functionality    

Lead Editor:

Prof Michael J Spivey, Author of "The Continuity of Mind".

Department of Cognitive and Information Sciences,
University of California, Merced, USA

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