Finite Information Numbers through the Inductive Combinatorial Hierarchy
Abstract
We report on a recent conjecture by Gisin on a restriction of physical processes in sets of finite information numbers (FIN) and further analyze the entropic constraint associated with the proposed algorithm. In the course, we provide a decomposition of binary entropies in a pair of fractal sequences as functional composites of binary digit-sum functions and we construct a unique formula and an abstract partition function for these. We also prove, based on a previously introduced tool of the inductive combinatorial hierarchies that the naturally inherited self-similarity of the resulting hierarchy of entropic sets contains equivalence classes providing unlimited symbolic series for satisfying the demand posed by the FIN conjecture.
Keywords
Cite
@article{arxiv.1805.06301,
title = {Finite Information Numbers through the Inductive Combinatorial Hierarchy},
author = {Theophanes E. Raptis},
journal= {arXiv preprint arXiv:1805.06301},
year = {2018}
}
Comments
11 p., 2 figures