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Asymptotics for high-dimensional covariance matrices and quadratic forms with applications to the trace functional and shrinkage

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  • Steland, Ansgar
  • von Sachs, Rainer

Abstract

We establish large sample approximations for an arbitrary number of bilinear forms of the sample variance–covariance matrix of a high-dimensional vector time series using ℓ1-bounded and small ℓ2-bounded weighting vectors. Estimation of the asymptotic covariance structure is also discussed. The results hold true without any constraint on the dimension, the number of forms and the sample size or their ratios. Concrete and potential applications are widespread and cover high-dimensional data science problems such as tests for large numbers of covariances, sparse portfolio optimization and projections onto sparse principal components or more general spanning sets as frequently considered, e.g. in classification and dictionary learning. As two specific applications of our results, we study in greater detail the asymptotics of the trace functional and shrinkage estimation of covariance matrices. In shrinkage estimation, it turns out that the asymptotics differ for weighting vectors bounded away from orthogonality and nearly orthogonal ones in the sense that their inner product converges to 0.

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  • Steland, Ansgar & von Sachs, Rainer, 2018. "Asymptotics for high-dimensional covariance matrices and quadratic forms with applications to the trace functional and shrinkage," Stochastic Processes and their Applications, Elsevier, vol. 128(8), pages 2816-2855.
    • Handle: RePEc:eee:spapps:v:128:y:2018:i:8:p:2816-2855
    DOI: 10.1016/j.spa.2017.10.007
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    References listed on IDEAS

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