The distance between a naive cumulative estimator and its least concave majorant

We consider the process $\widehat\Lambda_n-\Lambda_n$, where $\Lambda_n$ is a cadlag step estimator for the primitive $\Lambda$ of a nonincreasing function $\lambda$ on $[0,1]$, and $\widehat\Lambda_n$ is the least concave majorant of $\Lambda_n$. We extend the results in Kulikov and Lopuha\"a...

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Bibliographic Details
Main Authors Lopuhaä, Hendrik P, Musta, Eni
Format Journal Article
LanguageEnglish
Published 16.06.2017
Subjects
Mathematics - Statistics Theory
Statistics - Theory
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Summary:We consider the process $\widehat\Lambda_n-\Lambda_n$, where $\Lambda_n$ is a cadlag step estimator for the primitive $\Lambda$ of a nonincreasing function $\lambda$ on $[0,1]$, and $\widehat\Lambda_n$ is the least concave majorant of $\Lambda_n$. We extend the results in Kulikov and Lopuha\"a (2006, 2008) to the general setting considered in Durot (2007). Under this setting we prove that a suitably scaled version of $\widehat\Lambda_n-\Lambda_n$ converges in distribution to the corresponding process for two-sided Brownian motion with parabolic drift and we establish a central limit theorem for the $L_p$-distance between $\widehat\Lambda_n$ and $\Lambda_n$.
DOI:10.48550/arxiv.1706.05173