Neutrosophic ratio-type estimators for estimating the population mean

Tahir, Zaigham; Khan, Hina; Aslam, Muhammad; Shabbir, Javid; Mahmood, Yasar; Smarandache, Florentín

doi:10.1007/s40747-021-00439-1

Cited by 17 publications

(26 citation statements)

References 20 publications

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“…. , 26) have higher efficiency than the existing exponential neutrosophic estimators ȳBTrRN and ȳRrN for all three simulated populations. Among ȳNETi (i = 1, 2, .…”

Section: Discussionmentioning

confidence: 78%

“…Ref. [26] proposed the neutrosophic ratio estimators for the estimation of the neutrosophic population mean given in ( 9), ( 11), (13), and (15) below.…”

Section: Existing Neutrosophic Estimatorsmentioning

confidence: 99%

“…3. The third neutrosophic data set, containing 3000 values, is generated from N N (µ N , Σ N ) with µ N = ( [11,26], [13,28]) and…”

Section: Simulation Studymentioning

confidence: 99%

“…Ref. [26] proposed neutrosophic ratio and exponential ratio estimators for the estimation of the neutrosophic population mean in simple random sampling under the given sample size. Ref.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Ratio-Type Estimator for Estimating the Neutrosophic Population Mean in Simple Random Sampling under Intuitionistic Fuzzy Cost Function

Ullah,

Shabbir,

Alomair

et al. 2023

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Survey sampling has a wide range of applications in biomedical, meteorological, stock exchange, marketing, and agricultural research based on data collected through sample surveys or experimentation. The collected set of information may have a fuzzy nature, be indeterminate, and be summarized by a fuzzy number rather than a crisp value. The neutrosophic statistics, a generalization of fuzzy statistics and classical statistics, deals with the data that have some degree of indeterminacy, imprecision, and fuzziness. In this article, we introduce a fuzzy decision-making approach for deciding a sample size under a fuzzy measurement cost modeled by an intuitionistic fuzzy cost function. Our research introduces neutrosophic ratio-type estimators for estimating the population mean of the neutrosophic study variable YN∈[YL,YU] utilizing all the indeterminate values of the neutrosophic auxiliary variable XN∈[XL,XU] rather than only the extreme values XL and XU. Three simulation studies are carried out to explain the proposed methods of parameter estimation, sample size determination, and efficiency comparison. The results reveal that the proposed neutrosophic class of estimators produces more accurate and precise estimates of the neutrosophic population mean than the existing neutrosophic estimators in simple random sampling, which is the ultimate goal of inferential statistics.

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“…. , 26) have higher efficiency than the existing exponential neutrosophic estimators ȳBTrRN and ȳRrN for all three simulated populations. Among ȳNETi (i = 1, 2, .…”

Section: Discussionmentioning

confidence: 78%

“…Ref. [26] proposed the neutrosophic ratio estimators for the estimation of the neutrosophic population mean given in ( 9), ( 11), (13), and (15) below.…”

Section: Existing Neutrosophic Estimatorsmentioning

confidence: 99%

“…3. The third neutrosophic data set, containing 3000 values, is generated from N N (µ N , Σ N ) with µ N = ( [11,26], [13,28]) and…”

Section: Simulation Studymentioning

confidence: 99%

“…Ref. [26] proposed neutrosophic ratio and exponential ratio estimators for the estimation of the neutrosophic population mean in simple random sampling under the given sample size. Ref.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Ratio-Type Estimator for Estimating the Neutrosophic Population Mean in Simple Random Sampling under Intuitionistic Fuzzy Cost Function

Ullah,

Shabbir,

Alomair

et al. 2023

Axioms

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“…Aslam [27] suggested the neutrosophic statistical test for counts in climatology. Tahir et al [28] investigated neutrosophic ratio-type estimators for estimating the population mean. Recently, Vishwakarma and Singh [29] introduced a generalized estimator for computation of the population mean under neutrosophic RSS with an application to solar energy data.…”

Section: Introductionmentioning

confidence: 99%

On Efficient Estimation of the Population Mean under Stratified Ranked Set Sampling

Bhushan

Kumar

Shahab

et al. 2022

Journal of Mathematics

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This paper considers some efficient combined and separate classes of estimators of the population mean in the presence of bivariate auxiliary information under stratified ranked set sampling. The mean square error MSE expressions of the proffered combined and separate classes of estimators are derived to the first order of approximation. The theoretical conditions are obtained under which the proffered combined and separate classes of estimators perform better than the existing combined and separate class of estimators. Subsequently, numerical and simulation studies are performed using real and artificially generated populations. The numerical and simulation results are found to be rewarding, showing the superiority of the proffered estimators over the existing estimators.

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Predictive estimation for mean under median ranked set sampling: an application to COVID-19 data

Shukla

Singh

Vishwakarma

2023

Indian J Pure Appl Math

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Neutrosophic ratio-type estimators for estimating the population mean

Cited by 17 publications

References 20 publications

Ratio-Type Estimator for Estimating the Neutrosophic Population Mean in Simple Random Sampling under Intuitionistic Fuzzy Cost Function

Ratio-Type Estimator for Estimating the Neutrosophic Population Mean in Simple Random Sampling under Intuitionistic Fuzzy Cost Function

On Efficient Estimation of the Population Mean under Stratified Ranked Set Sampling

Predictive estimation for mean under median ranked set sampling: an application to COVID-19 data

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