Fast global convergence of gradient methods for high-dimensional statistical recovery
Author(s)
Agarwal, Alekh; Negahban, Sahand N.; Wainwright, Martin J.
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Many statistical M-estimators are based on convex optimization problems formed by the combination of a data-dependent loss function with a norm-based regularizer. We analyze the convergence rates of projected gradient and composite gradient methods for solving such problems, working within a high-dimensional framework that allows the ambient dimension d to grow with (and possibly exceed) the sample size n. Our theory identifies conditions under which projected gradient descent enjoys globally linear convergence up to the statistical precision of the model, meaning the typical distance between the true unknown parameter θ[superscript ∗] and an optimal solution [ˆ over θ]. By establishing these conditions with high probability for numerous statistical models, our analysis applies to a wide range of M-estimators, including sparse linear regression using Lasso; group Lasso for block sparsity; log-linear models with regularization; low-rank matrix recovery using nuclear norm regularization; and matrix decomposition using a combination of the nuclear and ℓ[subscript 1] norms. Overall, our analysis reveals interesting connections between statistical and computational efficiency in high-dimensional estimation.
Date issued
2012-10Department
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science; Massachusetts Institute of Technology. Laboratory for Information and Decision SystemsJournal
Annals of Statistics
Publisher
Institute of Mathematical Statistics
Citation
Agarwal, Alekh, Sahand Negahban, and Martin J. Wainwright. "Fast global convergence of gradient methods for high-dimensional statistical recovery." Annals of Statistics 40.5 (2012): 2452-2482. ©Institute of Mathematical Statistics
Version: Final published version
ISSN
0090-5364