A composite class of estimators to deal with the issue of variance estimation under the situations of random non-response in two-occasion successive sampling
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Publication:5082905
DOI10.1080/03610918.2019.1670845OpenAlexW2976377974WikidataQ127189760 ScholiaQ127189760MaRDI QIDQ5082905
Publication date: 21 June 2022
Published in: Communications in Statistics - Simulation and Computation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/03610918.2019.1670845
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Cites Work
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- An alternative to the ratio-cum-product estimator in sample surveys
- A general class of estimators in successive sampling
- Family of estimators of mean, ratio and product of a finite population using random nonresponse
- Estimation of finite population variance in successive sampling using multi-auxiliary variables
- A family of estimators of population variance in two-occasion rotation patterns
- CHAIN REGRESSION-TYPE ESTIMATOR USING MULTIPLE AUXILIARY INFORMATION IN SUCCESSIVE SAMPLING
- Improved Estimators of the Population Mean for Missing Data
- SOME THEORY OF SAMPLING ON SUCCESSIVE OCCASIONS1
- Variance Estimation Using Auxiliary Information
- The Use of a Ratio Estimate in Successive Sampling
- Inference and missing data
- Sample rotation method with auxiliary variable
- Imputation for Missing Values and Corresponding Variance Estimation
- Successive Sampling Using Auxiliary Information on Both the Occasions
- Some imputation methods to compensate with non-response for estimation of population mean in two-occasion successive sampling
- Effectual variance estimation strategy in two-occasion successive sampling in presence of random non response
- A new method of imputation in survey sampling
- Search of Good Rotation Patterns to Improve the Precision of Estimates at Current Occasion
- A General Procedure for Estimating Population Mean in Successive Sampling
- A Generalized Estimator for the Mean of a Finite Population Using Multi-Auxiliary Information
- Successive Sampling With $p (p \geqq 1)$ Auxiliary Variables
- Estimation of finite population variance using random non-response in survey sampling.
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