Minimal scalings and structural properties of scalable frames

Abstract

For a unit-norm frame F = \fi\i=1k in n, a scaling is a vector c=(c(1),…,c(k))∈ ≥ 0k such that \c(i)fi\i =1k is a Parseval frame in n. If such a scaling exists, F is said to be scalable. A scaling c is a minimal scaling if \fi : c(i)>0\ has no proper scalable subframe. It is known that the set of all scalings of F is a convex polytope whose vertices correspond to minimal scalings. In this paper, we provide an estimation of the number of minimal scalings of a scalable frame and a characterization of when minimal scalings are affinely dependent. Using this characterization, we can conclude that all strict scalings c=(c(1),…,c(k))∈ > 0k of F have the same structural property. We also present the uniqueness of orthogonal partitioning property of any set of minimal scalings, which provides all possible tight subframes of a given scaled frame.