Abdelkader Benkhaled scite author profile

Abdelkader Benkhaled

4Publications

11Citation Statements Received

18Citation Statements Given

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Affiliations

Université Mustapha Stambouli de Mascara, Université de Saida Dr.Moulay Tahar, University of Lille

Publications

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Minimaxity and Limits of Risks Ratios of Shrinkage Estimators of a Multivariate Normal Mean in the Bayesian Case

Hamdaoui¹,

Benkhaled²,

Mezouar³

2020

Stat., optim. inf. comput.

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In this article, we consider two forms of shrinkage estimators of a multivariate normal mean with unknown variance. We take the prior law as a normal multivariate distribution and we construct a Modified Bayes estimator and an Empirical Modified Bayes estimator. We are interested instudying the minimaxity and the behavior of risks ratios of these estimators to the maximum likelihood estimator, when the dimension of the parameters space and the sample size tend to infinity.

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A nonparametric estimation of the conditional ageing intensity function in censored data: A local linear approach

Khardani¹,

Benkhaled

2021

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Baranchick-type Estimators of a Multivariate Normal Mean Under the General Quadratic Loss Function

Hamdaoui

Benkhaled

Terbeche

2020

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The problem of estimating the mean of a multivariate normal distribution by different types of shrinkage estimators is investigated. We established the minimaxity of Baranchick-type estimators for identity covariance matrix and the matrix associated to the loss function is diagonal. In particular the class of James-Stein estimator is presented. The general situation for both matrices cited above is discussed

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Comparison of Risk Ratios of Shrinkage Estimators in High Dimensions

et al. 2021

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In this paper, we analyze the risk ratios of several shrinkage estimators using a balanced loss function. The James–Stein estimator is one of a group of shrinkage estimators that has been proposed in the existing literature. For these estimators, sufficient criteria for minimaxity have been established, and the James–Stein estimator’s minimaxity has been derived. We demonstrate that the James–Stein estimator’s minimaxity is still valid even when the parameter space has infinite dimension. It is shown that the positive-part version of the James–Stein estimator is substantially superior to the James–Stein estimator, and we address the asymptotic behavior of their risk ratios to the maximum likelihood estimator (MLE) when the dimensions of the parameter space are infinite. Finally, a simulation study is carried out to verify the performance evaluation of the considered estimators.

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