English

Phase transitions in spiked matrix estimation: information-theoretic analysis

Probability 2019-06-25 v3 Information Theory math.IT Statistics Theory Statistics Theory

Abstract

We study here the so-called spiked Wigner and Wishart models, where one observes a low-rank matrix perturbed by some Gaussian noise. These models encompass many classical statistical tasks such as sparse PCA, submatrix localization, community detection or Gaussian mixture clustering. The goal of these notes is to present in a unified manner recent results (as well as new developments) on the information-theoretic limits of these spiked matrix models. We compute the minimal mean squared error for the estimation of the low-rank signal and compare it to the performance of spectral estimators and message passing algorithms. Phase transition phenomena are observed: depending on the noise level it is either impossible, easy (i.e. using polynomial-time estimators) or hard (information-theoretically possible, but no efficient algorithm is known to succeed) to recover the signal.

Keywords

Cite

@article{arxiv.1806.04343,
  title  = {Phase transitions in spiked matrix estimation: information-theoretic analysis},
  author = {Léo Miolane},
  journal= {arXiv preprint arXiv:1806.04343},
  year   = {2019}
}

Comments

These notes present in a unified manner recent results (as well as new developments) on the information-theoretic limits in spiked matrix estimation

R2 v1 2026-06-23T02:26:48.194Z