Modeling Non-Equilibrium Dynamics of a Discrete Probability Distribution: General Rate Equation for Maximal Entropy Generation in a Maximum-Entropy Landscape with Time-Dependent Constraints
Articolo
Data di Pubblicazione:
2008
Abstract:
A
rate equation for a discrete probability distribution is discussed as a route to
describe smooth relaxation towards the maximum entropy distribution compatible at all times
with one or more linear constraints. The resulting dynamics follows the path of steepest en-
tropy ascent compatible with the constraints. The rate equation is consistent with the Onsager
theorem of reciprocity and the fluctuation-dissipation theorem. The mathematical formalism
was originally developed to obtain a quantum theoretical unification of mechanics and ther-
modinamics. It is presented here in a general, non-quantal formulation as a part of an effort
to develop tools for the phenomenological treatment of non-equilibrium problems with appli-
cations in engineering, biology, sociology, and economics. The rate equation is also extended
to include the case of assigned time-dependences of the constraints and the entropy, such as
for modeling non-equilibrium energy and entropy exchanges.
rate equation for a discrete probability distribution is discussed as a route to
describe smooth relaxation towards the maximum entropy distribution compatible at all times
with one or more linear constraints. The resulting dynamics follows the path of steepest en-
tropy ascent compatible with the constraints. The rate equation is consistent with the Onsager
theorem of reciprocity and the fluctuation-dissipation theorem. The mathematical formalism
was originally developed to obtain a quantum theoretical unification of mechanics and ther-
modinamics. It is presented here in a general, non-quantal formulation as a part of an effort
to develop tools for the phenomenological treatment of non-equilibrium problems with appli-
cations in engineering, biology, sociology, and economics. The rate equation is also extended
to include the case of assigned time-dependences of the constraints and the entropy, such as
for modeling non-equilibrium energy and entropy exchanges.
Tipologia CRIS:
1.1 Articolo in rivista
Elenco autori:
Beretta, Gian Paolo
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