Asymptotic insights for projection, Gordon-Lewis and Sidon constants in Boolean cube function spaces

Abstract

The main aim of this work is to study important local Banach space constants for Boolean cube function spaces. Specifically, we focus on BSN, the finite-dimensional Banach space of all real-valued functions defined on the N-dimensional Boolean cube \-1, +1\N that have Fourier--Walsh expansions supported on a fixed~family S of subsets of \1, …, N\. Our investigation centers on the projection, Sidon and Gordon--Lewis constants of this function space. We combine tools from different areas to derive exact formulas and asymptotic estimates of these parameters for special types of families S depending on the dimension N of the Boolean cube and other complexity characteristics of the support set S. Using local Banach space theory, we establish the intimate relationship among these three important constants.