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A robust Kibria–Lukman estimator for linear regression model to combat multicollinearity and outliers

Abdul Majid, Shakeel Ahmad, Muhammad Aslam, Muhammad Kashif

2022Concurrency and Computation Practice and Experience31 citationsDOI

Abstract

Summary To circumvent the problem of multicollinearity in regression models, a ridge‐type estimator is recently proposed in the literature, which is named as the Kibria–Lukman estimator (KLE). The KLE has better properties than the conventional ridge regression estimator. However, the presence of outliers in the data set may have some adverse effects on the KLE. To address this issue, the present article proposes a robust version of the KLE based on the M‐estimator. This article also proposes some robust methods to estimate the shrinkage parameter k . The Monte Carlo simulation study and a real‐life data is used to gauge the performance of the proposed methods where the mean squared error is used as the evaluation criterion. The numerical results witness the supremacy of the proposed estimator in the presence of outliers.

Topics & Concepts

MulticollinearityOutlierEstimatorStatisticsMathematicsMean squared errorRobust regressionShrinkage estimatorLinear regressionMinimum-variance unbiased estimatorMinimax estimatorAdvanced Statistical Methods and ModelsAdvanced Statistical Process MonitoringStatistical Methods and Inference
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