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ABSTRACT
Additive models provide an attractive setup to estimate regression functions in a nonparametric context. They provide a flexible and interpretable model, where each regression function depends only on a single explanatory variable and can be estimated at an optimal univariate rate. Most estimation procedures for these models are highly sensitive to the presence of even a small proportion of outliers in the data. In this paper, we show that a relatively simple robust version of the backfitting algorithm (consisting of using robust local polynomial smoothers) corresponds to the solution of a well-defined optimisation problem. This formulation allows us to find mild conditions to show Fisher consistency and to study the convergence of the algorithm. Our numerical experiments show that the resulting estimators have good robustness and efficiency properties. We illustrate the use of these estimators on a real data set where the robust fit reveals the presence of influential outliers.
Acknowledgements
The authors wish to thank the Associate Editor and two anonymous referees for valuable comments which led to an improved version of the original paper.
Disclosure statement
No potential conflict of interest was reported by the authors.
Supplemental material
The supplementary file includes two Sections labelled S.1 and S.2
[S.1: Empirical influence] To study the sensitivity of the robust backfitting with respect to single outliers, we provide a numerical study of the empirical influence function.
[S.2: Real data example] This section contains partial residuals plots for each explanatory variable, both for the classical and robust estimators. For the classical estimators, partial residuals are given for the complete data set and for the data without the outliers.
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