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      The Maximum Caliber Variational Principle for Nonequilibria

      Author(s): 1 , 2 , 3 , 4 , 4
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      Journal: Annual Review of Physical Chemistry
      Publisher: Annual Reviews

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          Abstract

          Ever since Clausius in 1865 and Boltzmann in 1877, the concepts of entropy and of its maximization have been the foundations for predicting how material equilibria derive from microscopic properties. But, despite much work, there has been no equally satisfactory general variational principle for nonequilibrium situations. However, in 1980, a new avenue was opened by E.T. Jaynes and by Shore and Johnson. We review here maximum caliber, which is a maximum-entropy-like principle that can infer distributions of flows over pathways, given dynamical constraints. This approach is providing new insights, particularly into few-particle complex systems, such as gene circuits, protein conformational reaction coordinates, network traffic, bird flocking, cell motility, and neuronal firing.

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          Human behavior and the principle of least effort

          GK Zipf, Zipf GK (1949)
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            Modern Thermodynamics: From Heat Engines to Dissipative Structures

            Prigogine I (1998)
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              Author and article information

              Journal
              Title: Annual Review of Physical Chemistry
              Abbreviated Title: Annu. Rev. Phys. Chem.
              Publisher: Annual Reviews
              ISSN (Print): 0066-426X
              ISSN (Electronic): 1545-1593
              Publication date Created: April 20 2020
              Publication date (Print): April 20 2020
              Volume: 71
              Issue: 1
              Pages: 213-238
              Affiliations
              [1 ]Department of Physics and Astronomy, University of Denver, Denver, Colorado 80209, USA;
              [2 ]Department of Systems Biology, Columbia University, New York, NY 10032, USA
              [3 ]Department of Physics, University of Florida, Gainesville, Florida 32611, USA;
              [4 ]Laufer Center for Physical and Quantitative Biology, Stony Brook University, Stony Brook, New York 11794, USA;
              Article
              DOI: 10.1146/annurev-physchem-071119-040206
              SO-VID: b78aa6f2-383b-461a-9433-d2c0bd2dda9e
              Copyright © © 2020
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