English

Modeling and Learning on High-Dimensional Matrix-Variate Sequences

Methodology 2024-02-14 v3

Abstract

We propose a new matrix factor model, named RaDFaM, which is strictly derived based on the general rank decomposition and assumes a structure of a high-dimensional vector factor model for each basis vector. RaDFaM contributes a novel class of low-rank latent structure that makes tradeoff between signal intensity and dimension reduction from the perspective of tensor subspace. Based on the intrinsic separable covariance structure of RaDFaM, for a collection of matrix-valued observations, we derive a new class of PCA variants for estimating loading matrices, and sequentially the latent factor matrices. The peak signal-to-noise ratio of RaDFaM is proved to be superior in the category of PCA-type estimations. We also establish the asymptotic theory including the consistency, convergence rates, and asymptotic distributions for components in the signal part. Numerically, we demonstrate the performance of RaDFaM in applications such as matrix reconstruction, supervised learning, and clustering, on uncorrelated and correlated data, respectively.

Keywords

Cite

@article{arxiv.2209.14846,
  title  = {Modeling and Learning on High-Dimensional Matrix-Variate Sequences},
  author = {Xu Zhang and Catherine C. Liu and Jianhua Guo and K. C. Yuen and A. H. Welsh},
  journal= {arXiv preprint arXiv:2209.14846},
  year   = {2024}
}

Comments

33 pages, 12 figures

R2 v1 2026-06-28T02:22:53.678Z