Author:
Belton Alexander,Guillot Dominique,Khare Apoorva,Putinar Mihai
Abstract
AbstractA matrix-compression algorithm is derived from a novel isogenic
block decomposition for square matrices. The resulting compression and
inflation operations possess strong functorial and spectral-permanence
properties. The basic observation that Hadamard entrywise functional
calculus preserves isogenic blocks has already proved to be of paramount
importance for thresholding large correlation matrices. The proposed
isogenic stratification of the set of complex matrices bears similarities to
the Schubert cell stratification of a homogeneous algebraic manifold. An
array of potential applications to current investigations in computational
matrix analysis is briefly mentioned, touching concepts such as symmetric
statistical models, hierarchical matrices and coherent matrix organization
induced by partition trees.
Publisher
Springer Science and Business Media LLC
Subject
Applied Mathematics,Analysis
Reference27 articles.
1. N. Akhiezer, The Classical Moment Problem and Some Related Questions in
Analysis, Hafner Publishing Co., New York, 1965.
2. I. Archakov and P.R. Hansen, A canonical representation of block matrices
with applications to covariance and correlation matrices, Preprint (2020).
3. M. Bebendorf, Hierarchical Matrices, Springer-Verlag, Berlin, 2008.
4. A. Belton, D. Guillot, A. Khare and M. Putinar, Matrix positivity
preservers in fixed dimension. I, Adv. Math., 298 (2016), 325–368; https://doi.org/10.1016/j.aim.2016.04.016.
5. A. Belton, D. Guillot, A. Khare and M. Putinar, Simultaneous kernels
of matrix Hadamard powers, Linear Algebra Appl., 576 (2019), 142–157; https://doi.org/10.1016/j.laa.2018.03.035.