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  • 标题:High-dimensional covariance estimation by minimizing ℓ1-penalized log-determinant divergence
  • 本地全文:下载
  • 作者:Pradeep Ravikumar ; Martin J. Wainwright ; Garvesh Raskutti
  • 期刊名称:Electronic Journal of Statistics
  • 印刷版ISSN:1935-7524
  • 出版年度:2011
  • 卷号:5
  • 页码:935-980
  • DOI:10.1214/11-EJS631
  • 语种:English
  • 出版社:Institute of Mathematical Statistics
  • 摘要:Given i.i.d. observations of a random vector X∈ℝp, we study the problem of estimating both its covariance matrix Σ*, and its inverse covariance or concentration matrix Θ*=(Σ*)−1. When X is multivariate Gaussian, the non-zero structure of Θ* is specified by the graph of an associated Gaussian Markov random field; and a popular estimator for such sparse Θ* is the ℓ1-regularized Gaussian MLE. This estimator is sensible even for for non-Gaussian X, since it corresponds to minimizing an ℓ1-penalized log-determinant Bregman divergence. We analyze its performance under high-dimensional scaling, in which the number of nodes in the graph p, the number of edges s, and the maximum node degree d, are allowed to grow as a function of the sample size n. In addition to the parameters (p,s,d), our analysis identifies other key quantities that control rates: (a) the ℓ∞-operator norm of the true covariance matrix Σ*; and (b) the ℓ∞ operator norm of the sub-matrix Γ*SS, where S indexes the graph edges, and Γ*=(Θ*)−1⊗(Θ*)−1; and (c) a mutual incoherence or irrepresentability measure on the matrix Γ* and (d) the rate of decay 1/f(n,δ) on the probabilities {|Σ̂nij−Σ*ij|>δ}, where Σ̂n is the sample covariance based on n samples. Our first result establishes consistency of our estimate Θ̂ in the elementwise maximum-norm. This in turn allows us to derive convergence rates in Frobenius and spectral norms, with improvements upon existing results for graphs with maximum node degrees . In our second result, we show that with probability converging to one, the estimate Θ̂ correctly specifies the zero pattern of the concentration matrix Θ*. We illustrate our theoretical results via simulations for various graphs and problem parameters, showing good correspondences between the theoretical predictions and behavior in simulations.
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