Uniqueness and characterization theorems for generalized entropies
Mathematical Physics
2018-01-17 v1 Information Theory
High Energy Physics - Theory
math.IT
math.MP
Quantum Physics
Abstract
The requirement that an entropy function be composable is key: it means that the entropy of a compound system can be calculated in terms of the entropy of its independent components. We prove that, under mild regularity assumptions, the only composable generalized entropy in trace form is the Tsallis one-parameter family (which contains Boltzmann-Gibbs as a particular case). This result leads to the use of generalized entropies that are not of trace form, such as R\'enyi's entropy, in the study of complex systems. In this direction, we also present a characterization theorem for a large class of composable non-trace-form entropy functions with features akin to those of R\'enyi's entropy.
Cite
@article{arxiv.1702.01336,
title = {Uniqueness and characterization theorems for generalized entropies},
author = {Alberto Enciso and Piergiulio Tempesta},
journal= {arXiv preprint arXiv:1702.01336},
year = {2018}
}
Comments
15 pages, no figures