The multidimensional truncated Moment Problem: Carath\'eodory Numbers from Hilbert Functions
Abstract
In this paper we improve the bounds for the Carath\'eodory number, especially on algebraic varieties and with small gaps (not all monomials are present). We provide explicit lower and upper bounds on algebraic varieties, , and . We also treat moment problems with small gaps. We find that for every and there is a such that we can construct a moment functional which needs at least atoms . Consequences and results for the Hankel matrix and flat extension are gained. We find that there are moment functionals which need to be extended to the worst case degree , , in order to have a flat extension.
Cite
@article{arxiv.1903.00598,
title = {The multidimensional truncated Moment Problem: Carath\'eodory Numbers from Hilbert Functions},
author = {Philipp J. di Dio and Mario Kummer},
journal= {arXiv preprint arXiv:1903.00598},
year = {2021}
}
Comments
The first version contained the Carath\'eodory numbers from Hilbert functions and the shape reconstruction from derivatives of moments. The second part part extended and the paper is split into two papers: "Carath\'eodory numbers from Hilbert functions" and "Shape and Gaussian Mixture Reconstruction from Derivatives of Moments"