Lower bounds for the dynamically defined measures
Abstract
The dynamically defined measure (DDM) arising from a finite measure on an initial -algebra on a set and an invertible map acting on the latter is considered. Several lower bounds for it are obtained and sufficient conditions for its positivity are deduced under the general assumption that there exists an invariant measure such that . In particular, DDMs arising from the Hellinger integral are constructed with , , and for all measurable and , and further computable lower bounds for them are obtained and analyzed. The function is computed explicitly for such that in the case of a discrete ergodic decomposition of , and the other two functions are computed under the additional condition of the equivalence of and . In particular, if is ergodic, it is shown that the first function is completely determined by the -essential supremum (infimum) of for all (), and, if it is continuous at , the above inequalities become equalities. The computation of it enables an explicit computation of some DDMs arising as outer measure approximations with respect to it, which demonstrates that this technique allows to obtain new measures, and that such measures can have phase transitions with respect to the DDM specifying the covering sets.
Cite
@article{arxiv.1506.04497,
title = {Lower bounds for the dynamically defined measures},
author = {Ivan Werner},
journal= {arXiv preprint arXiv:1506.04497},
year = {2022}
}
Comments
Slightly improved the introduction