English

An Approximation Problem in Multiplicatively Invariant Spaces

Classical Analysis and ODEs 2016-09-12 v2

Abstract

Let H\mathcal{H} be Hilbert space and (Ω,μ)(\Omega,\mu) a σ\sigma-finite measure space. Multiplicatively invariant (MI) spaces are closed subspaces of L2(Ω,H) L^2(\Omega, \mathcal{H}) that are invariant under point-wise multiplication by functions in a fix subset of L(Ω).L^{\infty}(\Omega). Given a finite set of data FL2(Ω,H),\mathcal{F}\subseteq L^2(\Omega, \mathcal{H}), in this paper we prove the existence and construct an MI space MM that best fits F\mathcal{F}, in the least squares sense. MI spaces are related to shift invariant (SI) spaces via a fiberization map, which allows us to solve an approximation problem for SI spaces in the context of locally compact abelian groups. On the other hand, we introduce the notion of decomposable MI spaces (MI spaces that can be decomposed into an orthogonal sum of MI subspaces) and solve the approximation problem for the class of these spaces. Since SI spaces having extra invariance are in one-to-one relation to decomposable MI spaces, we also solve our approximation problem for this class of SI spaces. Finally we prove that translation invariant spaces are in correspondence with totally decomposable MI spaces.

Keywords

Cite

@article{arxiv.1602.08608,
  title  = {An Approximation Problem in Multiplicatively Invariant Spaces},
  author = {Carlos Cabrelli and Carolina A. Mosquera and Victoria Paternostro},
  journal= {arXiv preprint arXiv:1602.08608},
  year   = {2016}
}

Comments

18 pages, To appear in Contemporary Mathematics

R2 v1 2026-06-22T12:59:10.626Z