A well-conditioned estimator for large-dimensional covariance matrices
Olivier Ledoit and
Michael Wolf
Journal of Multivariate Analysis, 2004, vol. 88, issue 2, 365-411
Abstract:
Many applied problems require a covariance matrix estimator that is not only invertible, but also well-conditioned (that is, inverting it does not amplify estimation error). For large-dimensional covariance matrices, the usual estimator--the sample covariance matrix--is typically not well-conditioned and may not even be invertible. This paper introduces an estimator that is both well-conditioned and more accurate than the sample covariance matrix asymptotically. This estimator is distribution-free and has a simple explicit formula that is easy to compute and interpret. It is the asymptotically optimal convex linear combination of the sample covariance matrix with the identity matrix. Optimality is meant with respect to a quadratic loss function, asymptotically as the number of observations and the number of variables go to infinity together. Extensive Monte Carlo confirm that the asymptotic results tend to hold well in finite sample.
Keywords: Condition; number; Covariance; matrix; estimation; Empirical; Bayes; General; asymptotics; Shrinkage (search for similar items in EconPapers)
Date: 2004
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Citations: View citations in EconPapers (425)
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Working Paper: A well conditioned estimator for large dimensional covariance matrices (2000)
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