The paper proposes a new covariance estimator for large covariance matrices when the variables have a natural ordering. Using the Cholesky decomposition of the inverse, we impose a banded structure on the Cholesky factor, and select the bandwidth adaptively for each row of the Cholesky factor, using a novel penalty we call nested Lasso. This structure has more flexibility than regular banding, but, unlike regular Lasso applied to the entries of the Cholesky factor, results in a sparse estimator for the inverse of the covariance matrix. An iterative algorithm for solving the optimization problem is developed. The estimator is compared to a number of other covariance estimators and is shown to do best, both in simulations and on a real data example. Simulations show that the margin by which the estimator outperforms its competitors tends to increase with dimension. © Institute of Mathematical Statistics.
CITATION STYLE
Levina, E., Rothman, A., & Zhu, J. (2008). Sparse estimation of large covariance matrices via a nested Lasso penalty. Annals of Applied Statistics, 2(1), 245–263. https://doi.org/10.1214/07-AoAs139
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