Sequences of $m$-term deviations in Hilbert space
Abstract
Let be a dictionary in a Hilbert space , that is, a set of unit elements whose linear combinations are dense in . We consider the least -term deviation of an element : this is the distance of from the set of all -term linear combinations of elements of . We prove a dichotomy result: for any dictionary , either the sequence decreases exponentially for every , or the rate of convergence can be arbitrarily slow. We seek universal dictionaries realizing all strictly decreasing null sequences as sequences of -term deviations. All commonly used dictionaries turn out not to be universal. In particular, the least rational deviations in Hardy space do not form certain strictly monotone null sequences. There are no universal dictionaries in finite dimensional Hilbert spaces. We construct a universal dictionary in every infinite dimensional Hilbert space.
Cite
@article{arxiv.2108.04612,
title = {Sequences of $m$-term deviations in Hilbert space},
author = {Petr A. Borodin and Eva Kopecká},
journal= {arXiv preprint arXiv:2108.04612},
year = {2021}
}