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Journal Article

Citation

Annila A. Front. Syst. Neurosci. 2016; 10: e27.

Affiliation

Department of Physics, University of HelsinkiHelsinki, Finland; Department of Biosciences, University of HelsinkiHelsinki, Finland.

Copyright

(Copyright © 2016, Frontiers Research Foundation)

DOI

10.3389/fnsys.2016.00027

PMID

27065819

PMCID

PMC4811869

Abstract

The human brain is a particularly demanding system to infer its nature from observations. Thus, there is on one hand plenty of room for theorizing and on the other hand a pressing need for a rigorous theory. We apply statistical mechanics of open systems to describe the brain as a hierarchical system in consuming free energy in least time. This holistic tenet accounts for cellular metabolism, neuronal signaling, cognitive processes all together, or any other process by a formal equation of motion that extends down to the ultimate precision of one quantum of action. According to this general thermodynamic theory cognitive processes are no different by their operational and organizational principle from other natural processes. Cognition too will emerge and evolve along path-dependent and non-determinate trajectories by consuming free energy in least time to attain thermodynamic balance within the nervous system itself and with its surrounding systems. Specifically, consciousness can be ascribed to a natural process that integrates various neural networks for coherent consumption of free energy, i.e., for meaningful deeds. The whole hierarchy of integrated systems can be formally summed up to thermodynamic entropy. The holistic tenet provides insight to the character of consciousness also by acknowledging awareness in other systems at other levels of nature's hierarchy.


Language: en

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