Your search keyword '"Chokri, Khalid"' showing total 9 results

1. Asymptotic normality for the wavelet partially linear additive model components estimation.

Author

Chokri, Khalid and Bouzebda, Salim

Subjects

*ASYMPTOTIC normality, *CONFIDENCE intervals, *ADDITIVES, *DENSITY

Abstract

The focus of this article is on studying a partially linear additive model, which is defined using a measurable function ψ : R q → R . The model is given as follows: ψ (Y i) := Y i = Z i ⊤ β + ∑ ℓ = 1 d m ℓ (X ℓ , i) + ε i for 1 ≤ i ≤ n , where Z i = (Z i , 1 , ... , Z i p ) ⊤ and X i = (X 1 , i , ... , X i d ) ⊤ are vectors of explanatory variables, β = (β 1 , ... , β p ) ⊤ is a vector of unknown parameters, m 1 , ... , m d are unknown univariate real functions, and ε 1 , ... , ε n are independent random errors with mean zero, finite variances σε. Additionally, it is assumed that E (ε | X , Z) = 0 almost surely. The main contributions of this article are as follows. First, under certain mild conditions, we establish the asymptotic normality of the non linear additive components of the model. These components are estimated using the marginal integration device with the linear wavelet method. Second, we leverage our main result to construct confidence intervals for the estimated model. [ABSTRACT FROM AUTHOR]

Published

2024

2. Uniform-in-bandwidth consistency results in the partially linear additive model components estimation.

Author

Chokri, Khalid and Bouzebda, Salim

Subjects

*ADDITIVES, *NONPARAMETRIC estimation

Abstract

We are mainly concerned with the partially linear additive model defined for a measurable function ψ : R q → R , by ψ (Y i) : = Y i = Z i ⊤ β + ∑ l = 1 d m l (X l , i) + ε i for 1 ≤ i ≤ n , where Z i = (Z 1 , i , ... , Z p , i) ⊤ and X i = (X 1 , i , ... , X i , d) ⊤ are vectors of explanatory variables, β = (β 1 , ... , β p) ⊤ is a vector of unknown parameters, m 1 , ... , m d are unknown univariate real functions, and ε 1 , ... , ε n are independent random errors with mean zero, finite variances σ ε and E (ε | X , Z) = 0 a.s. Under some mild conditions, we present a sharp uniform-in-bandwidth limit law for the nonlinear additive components of the model estimated by the marginal integration device with the kernel method. We allow the bandwidth to varying within the complete range for which the estimator is consistent. We provide the almost sure simultaneous asymptotic confidence bands for the regression functions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Uniform-in-bandwidth consistency results in the partially linear additive model components estimation

Author

Chokri, Khalid, primary and Bouzebda, Salim, additional

Published

2022

4. Statistical tests in the partially linear additive regression models

Author

Bouzebda, Salim and Chokri, Khalid

Published

2014

5. Additivity test on the nonlinear part in partially linear models

Author

Chokri, Khalid and Louani, Djamal

Published

2013

6. Asymptotic results for the linear parameter estimate in partially linear additive regression model

Author

Chokri, Khalid and Louani, Djamal

Published

2011

7. Contributions à l'inférence statistique dans les modèles de régression partiellement linéaires additifs

Author

Chokri, Khalid, Laboratoire de Statistique Théorique et Appliquée (LSTA), Université Pierre et Marie Curie - Paris 6 (UPMC), Université Pierre et Marie Curie - Paris VI, Djamal Louani, and Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Curse of dimensionality, Intégration marginale, [MATH.MATH-GM]Mathematics [math]/General Mathematics [math.GM], Modèle additif, Additive modeling, Test d'additivité, Loi du logarithme itéré, Fléau de la dimension, Estimateur à noyau

Abstract

Parametric regression models provide powerful tools for analyzing practical data when the models are correctly specified, but may suffer from large modelling biases when structures of the models are misspecified. As an alternative, nonparametric smoothing methods eases the concerns on modelling biases. However, nonparametric models are hampered by the so-called curse of dimensionality in multivariate settings. One of the methods for attenuating this difficulty is to model covariate effects via a partially linear structure, a combination of linear and nonlinear parts. To reduce the dimension impact in the estimation of the nonlinear part of the partially linear regression model, we introduce an additive structure of this part which induces, finally, a partially linear additive model. Our aim in this work is to establish some limit results pertaining to various parameters of the model (consistency, rate of convergence, asymptotic normality and iterated logarithm law) and to construct some hypotheses testing procedures related to the model structure, as the additivity of the nonlinear part, and to its parameters.; Les modèles de régression paramétrique fournissent de puissants outils pour la modélisation des données lorsque celles-ci s’y prêtent bien. Cependant, ces modèles peuvent être la source d’importants biais lorsqu’ils ne sont pas adéquats. Pour éliminer ces biais de modélisation, des méthodes non paramétriques ont été introduites permettant aux données elles mêmes de construire le modèle. Ces méthodes présentent, dans le cas multivarié, un handicap connu sous l’appellation de fléau de la dimension où la vitesse de convergence des estimateurs est une fonction décroissante de la dimension des covariables. L’idée est alors de combiner une partie linéaire avec une partie non-linéaire, ce qui aurait comme effet de réduire l’impact du fléau de la dimension. Néanmoins l’estimation non-paramétrique de la partie non-linéaire, lorsque celle-ci est multivariée, est soumise à la même contrainte de détérioration de sa vitesse de convergence. Pour pallier ce problème, la réponse adéquate est l’introduction d’une structure additive de la partie non-linéaire de son estimation par des méthodes appropriées. Cela permet alors de définir des modèles de régression partièllement linéaires et additifs. L’objet de la thèse est d’établir des résultats asymptotiques relatifs aux divers paramètres de ce modèle (consistance, vitesses de convergence, normalité asymptotique et loi du logarithme itéré) et de construire aussi des tests d’hypothèses relatives à la structure du modèle, comme l’additivité de la partie non-linéaire, et à ses paramètres.

Published

2014

8. Some uniform consistency results in the partially linear additive model components estimation

Author

Bouzebda, Salim, primary, Chokri, Khalid, additional, and Louani, Djamal, additional

Published

2013

9. Some uniform consistency results in the partially linear additive model components estimation.

Author

Bouzebda, Salim, Chokri, Khalid, and Louani, Djamal

Subjects

*LINEAR systems, *MATHEMATICAL models, *ESTIMATION theory, *ERROR analysis in mathematics, *FINITE fields

Abstract

In the present paper, we are mainly concerned with the partially linear additive model defined, for a measurable function, bywhereZi= (Zi, 1, …,Zip)⊤andXi= (X1, i, …,Xid)⊤are vectors of explanatory variables,is a vector of unknown parameters,m1, …,mdare unknown univariate real functions, and ϵ1, …, ϵnare independent random errors with mean zero, finite variances σϵ, anda.s. We establish exact rates of strong uniform consistency of the non linear additive components of the model estimated by the marginal integration device with the kernel method. Our proofs are based upon the modern empirical process theory in the spirit of the works of Einmahl and Mason (2000) and Deheuvels and Mason (2004) relative to uniform deviations of non parametric kernel-type estimators. [ABSTRACT FROM PUBLISHER]

Published

2016