Group symmetry and covariance regularization
Copyright policy )Group symmetry and covariance regularization
Statistical models that possess symmetry arise in diverse settings such as random fields associated to geophysical phenomena, exchangeable processes in Bayesian statistics, and cyclostationary processes in engineering. We formalize the notion of a symmetric model via group invariance. We propose projection onto a group fixed point subspace as a fundamental way of regularizing covariance matrices in the high-dimensional regime. In terms of parameters associated to the group we derive precise rates of convergence of the regularized covariance matrix and demonstrate that significant statistical gains may be expected in terms of the sample complexity. We further explore the consequences of symmetry on related model-selection problems such as the learning of sparse covariance and inverse covariance matrices. We also verify our results with simulations.
38 pages, 3 figures, submitted to Electronic Journal of Statistics
- University of California, Berkeley United States
- University of Wisconsin–Oshkosh United States
- University of Wisconsin–Madison United States
- California Institute of Technology United States
Ordinary representations and characters, group invariance, Estimation in multivariate analysis, Group invariance, high dimensional asymptotics, Mathematics - Statistics Theory, exchange-ability, Statistics Theory (math.ST), exchangeability, high-dimensional asymptotics, 510, FOS: Mathematics, covariance selection, 62H12, 62F12, Asymptotic properties of parametric estimators
Ordinary representations and characters, group invariance, Estimation in multivariate analysis, Group invariance, high dimensional asymptotics, Mathematics - Statistics Theory, exchange-ability, Statistics Theory (math.ST), exchangeability, high-dimensional asymptotics, 510, FOS: Mathematics, covariance selection, 62H12, 62F12, Asymptotic properties of parametric estimators
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