Open Problems within Nonextensive Statistical Mechanics

Nelson, Kenric P.

doi:10.3390/e26020118

Entropy

2024

DOI: 10.3390/e26020118

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Open Problems within Nonextensive Statistical Mechanics

Kenric P. Nelson

Abstract: Nonextensive statistical mechanics has developed into an important framework for modeling the thermodynamics of complex systems and the information of complex signals. To mark the 80th birthday of the field’s founder, Constantino Tsallis, a review of open problems that can stimulate future research is provided. Over the thirty-year development of NSM, a variety of criticisms have been published ranging from questions about the justification for generalizing the entropy function to the interpretation of the gen… Show more

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Elucidating Partial Folding State of Bovine Pancreatic Trypsin Inhibitor by a Combined Study of Molecular Dynamics Simulations, Information Theory, Molecular Graph Theory, and Machine Learning

Kamberaj

2023

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Using a notably large amount of data in investigating physical and chemical phenomena demands new statistical and computational approaches; besides, the cross-validations require wellestablished theoretical frameworks. This study aims to validate the statistical efficiency of alternative definitions for the information-theoretic measures, such as transfer entropy, using the (α, q) theoretical framework. The primary goal is to find measurements of high-order correlations that preserve information-theoretic properties of information transfer between the components of a dynamical system due to local operations. Besides, this study aims to decode the information contained in the amino acid sequence establishing a three-dimensional protein structure by comparing their physical-chemical properties with their ranked role in the protein interaction network topology using new graph-theoretic measures based on the constructed digraph models of (α, q) information transfer. Moreover, this study aims to use the Deep Graph Convolution Neural Networks for classifying the amino acid role in a protein structure trained upon short equilibrium structure fluctuations at sub-nanosecond time scales.In particular, this study examines the influence of disulphide bridges on the 3D protein structure of the Bovine Pancreatic Trypsin Inhibitor protein (wild type and its mutated analogue).

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Elucidating Partial Folding State of Bovine Pancreatic Trypsin Inhibitor by a Combined Study of Molecular Dynamics Simulations, Information Theory, Molecular Graph Theory, and Machine Learning

Kamberaj

2023

Preprint

View full text Add to dashboard Cite

show abstract

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Open Problems within Nonextensive Statistical Mechanics

Cited by 1 publication

References 63 publications

Elucidating Partial Folding State of Bovine Pancreatic Trypsin Inhibitor by a Combined Study of Molecular Dynamics Simulations, Information Theory, Molecular Graph Theory, and Machine Learning

Elucidating Partial Folding State of Bovine Pancreatic Trypsin Inhibitor by a Combined Study of Molecular Dynamics Simulations, Information Theory, Molecular Graph Theory, and Machine Learning

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