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Robust regression via mutivariate regression depth

Chao Gao

2020Bernoulli24 citationsDOIOpen Access PDF

Abstract

This paper studies robust regression in the settings of Huber’s $\epsilon$-contamination models. We consider estimators that are maximizers of multivariate regression depth functions. These estimators are shown to achieve minimax rates in the settings of $\epsilon$-contamination models for various regression problems including nonparametric regression, sparse linear regression, reduced rank regression, etc. We also discuss a general notion of depth function for linear operators that has potential applications in robust functional linear regression.

Topics & Concepts

Bayesian multivariate linear regressionNonparametric regressionMathematicsRobust regressionProper linear modelRegression diagnosticLinear regressionRegressionRegression analysisStatisticsCross-sectional regressionMultivariate adaptive regression splinesPolynomial regressionLocal regressionEstimatorMinimaxGeneral linear modelRegression dilutionFactor regression modelLinear predictor functionMathematical optimizationAdvanced Statistical Methods and ModelsStatistical Methods and InferenceAdvanced Statistical Process Monitoring
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