Litcius/Paper detail

New classes of difference cum-ratio-type exponential estimators for a finite population variance in stratified random sampling

Umer Daraz, Jinbiao Wu, Mohammed A. Al‐Omair, Luai Abdulla Aldoghan

2024Heliyon25 citationsDOIOpen Access PDF

Abstract

The problem of estimating the variance of a finite population is an important issue in practical situations where controlling variability is difficult. During experiments conducted in the fields of agriculture and biology, researchers often face this issue, resulting in outcomes that appear uncontrollable for the desired results. Using auxiliary information effectively has the potential to enhance the precision of estimators. This article aims to introduce improved classes of efficient estimators that are specifically designed to estimate the study variable's finite population variance. When stratified random sampling is used, these estimators are particularly efficient when the minimum and maximum values of the auxiliary variable are known. The bias and mean squared error (MSE) of the proposed classes of estimators are determined by a first-order approximation. In order to evaluate their performance and verify the theoretical results, we performed simulation research. The proposed estimators show higher percent relative efficiencies (PREs) in all simulation scenarios compared to other existing estimators, according to the results. Three datasets are utilized in the application section, which are used to further validate the effectiveness of the proposed estimators.

Topics & Concepts

Stratified samplingStatisticsMathematicsEstimatorPopulation varianceVariance (accounting)Sampling (signal processing)Ratio estimatorPoisson samplingPopulationType (biology)Exponential functionApplied mathematicsMinimum-variance unbiased estimatorMonte Carlo methodComputer scienceDemographyMathematical analysisImportance samplingBias of an estimatorSlice samplingSociologyGeologyComputer visionBusinessFilter (signal processing)AccountingPaleontologySurvey Sampling and Estimation Techniques