[Statlist] TR: Research seminar in statistics March 18th 2016, GSEM University of Geneva

Karen Longden Roure K@ren@Longden @end|ng |rom un|ge@ch
Mon Mar 14 11:35:54 CET 2016


Dear All,

We are pleased to invite you to our next Research Seminar -

Looking forward to seeing you,

Organisers :
E. Cantoni - D. La Vecchia - E. Ronchetti -
S. Sperlich - F. Trojani - M-P. Victoria-Feser

Friday March 18th, 2016 at 11h15 - Room M 5220, Uni Mail (40, bd du Pont-d'Arve)

Marco Avella Medina, University of Geneva
Robust penalized M-estimators for generalized linear and additive models   (Thesis Defense)

ABSTRACT:
Generalized linear models (GLM) and generalized additive models (GAM) are popular statistical methods for modelling continuous and discrete data both parametrically and nonparametrically. In this general framework, we consider the problem of variable selection by studing a wide class of penalized M-estimators that are particularly well suited for high dimensional scenarios where the number of covariates p is very large relative to the sample size n. We focus on resistance issues in the presence of deviations from the stochastic assumptions of the postulated models and highlight the weaknesses of widely used estimators. We advocate the need for robust estimators and propose several penalized quasilikelihood estimators that achieve both good statistical properties at the assumed model and stability in a neighborhood of it. Specifically, we provide careful asymptotic analyses of our robust estimators for GLM and GAM when the number of parameters increases with the sample size. We start by revisiting the asymptotics of M-estimators for GLM with a diverging number of parameters. We establish asymptotic normality of these estimators and reexamine distributional results for likelihood ratio type and Wald type tests based on them. We then consider penalized M-estimators for high dimensional set ups where p can be much larger than n. In the GLM setting we show that our estimators are consistent, asymptotically normally distributed and variable selection consistent under regularity conditions. Furthermore they have a bounded bias in a neighborhood of the model. In the GAM setting we establish an asymptotic L2-norm consistency result for the nonparametric components which achieves the optimal rates of convergence. In addition, the proposed penalized estimator is able to select the correct model consistently. We propose new algorithms for the implementation of our penalized M-estimators and illustrate the finite sample perfomance of our methods, at the model and under contamination, in simulation studies. An important contribution of this thesis is to formally study the local robustness properties of general nondifferentiable penalized M-estimators. In particular, we propose a framework that allows us to define rigourously the influence function as the limiting influence function of a sequence of approximating functionals. We show that this influence function can be used to characterize the robustness properties of a wide range of sparse estimators and that it can be viewed as a derivative in the sense of distribution theory. At the end of this thesis, we discuss some extensions of our work and give an overview of the future challenges of robust statistics in high dimensions.

Visit the website: http://www.stat-center.unige.ch/ressem.html


Karen Longden Roure
Program Coordinator
MSc. in Management, MSc. in Economics, MSc. in Statistics
Universit� de Gen�ve, Uni-Mail
Facult� d'Economie & Management, GSEM
40, bd. du Pont d'Arve, 1211 Gen�ve 4
T�l:  +41.22.379.8109 (10h-14h)


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