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arxiv: physics/0503007 · v1 · pith:YKRIKM2Fnew · submitted 2005-03-01 · ⚛️ physics.soc-ph

Random matrix theory and robust covariance matrix estimation for financial data

classification ⚛️ physics.soc-ph
keywords matrixestimatordistributionsellipticalcovariancedatarandomrobust
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The traditional class of elliptical distributions is extended to allow for asymmetries. A completely robust dispersion matrix estimator (the `spectral estimator') for the new class of `generalized elliptical distributions' is presented. It is shown that the spectral estimator corresponds to an M-estimator proposed by Tyler (1983) in the context of elliptical distributions. Both the generalization of elliptical distributions and the development of a robust dispersion matrix estimator are motivated by the stylized facts of empirical finance. Random matrix theory is used for analyzing the linear dependence structure of high-dimensional data. It is shown that the Marcenko-Pastur law fails if the sample covariance matrix is considered as a random matrix in the context of elliptically distributed and heavy tailed data. But substituting the sample covariance matrix by the spectral estimator resolves the problem and the Marcenko-Pastur law remains valid.

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