Wanli Qiao scite author profile

Wanli Qiao

5Publications

94Citation Statements Received

305Citation Statements Given

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256

292

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George Mason University

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Theoretical analysis of nonparametric filament estimation

Qiao¹,

Polonik²

2016

Ann. Statist.

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This paper provides a rigorous study of the nonparametric estimation of filaments or ridge lines of a probability density f . Points on the filament are considered as local extrema of the density when traversing the support of f along the integral curve driven by the vector field of second eigenvectors of the Hessian of f . We 'parametrize' points on the filaments by such integral curves, and thus both the estimation of integral curves and of filaments will be considered via a plug-in method using kernel density estimation. We establish rates of convergence and asymptotic distribution results for the estimation of both the integral curves and the filaments. The main theoretical result establishes the asymptotic distribution of the uniform deviation of the estimated filament from its theoretical counterpart. This result utilizes the extreme value behavior of non-stationary Gaussian processes indexed by manifolds M h , h ∈ (0, 1] as h → 0.

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Asymptotics and optimal bandwidth for nonparametric estimation of density level sets

Qiao¹

2020

Electron. J. Statist.

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Bandwidth selection is crucial in the kernel estimation of density level sets. Risk based on the symmetric difference between the estimated and true level sets is usually used to measure their proximity. In this paper we provide an asymptotic L p approximation to this risk, where p is characterized by the weight function in the risk. In particular the excess risk corresponds to an L 2 type of risk, and is adopted in an optimal bandwidth selection rule for nonparametric level set estimation of d-dimensional density functions (d ≥ 1). Discussion of the assumptions:1. It is known that using higher order kernels (i.e. ν ≥ 2), together with higher order smoothness assumptions can reduce the bias in kernel density estimation. But higher order kernels

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Nonparametric confidence regions for level sets: Statistical properties and geometry

Qiao¹,

Polonik²

2019

Electron. J. Statist.

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This paper studies and critically discusses the construction of nonparametric confidence regions for density level sets. Methodologies based on both vertical variation and horizontal variation are considered. The investigations provide theoretical insight into the behavior of these confidence regions via large sample theory. We also discuss the geometric relationships underlying the construction of horizontal and vertical methods, and how finite sample performance of these confidence regions is influenced by geometric or topological aspects. These discussions are supported by numerical studies.

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Asymptotics and Optimal Bandwidth for Nonparametric Estimation of Density Level Sets

Qiao¹

2017

Preprint

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Extrema of rescaled locally stationary Gaussian fields on manifolds

Qiao¹,

Polonik²

2018

Bernoulli

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Wanli Qiao

Theoretical analysis of nonparametric filament estimation

Asymptotics and optimal bandwidth for nonparametric estimation of density level sets

Nonparametric confidence regions for level sets: Statistical properties and geometry

Asymptotics and Optimal Bandwidth for Nonparametric Estimation of Density Level Sets

Extrema of rescaled locally stationary Gaussian fields on manifolds

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