Comparing Performances (Type I error and Power) of IRT Likelihood Ratio SIBTEST and Mantel-Haenszel Methods in the Determination of Differential Item Functioning

This simulation study compared the performances (Type I error and power) of Mantel-Haenszel (MH), SIBTEST, and item response theory-likelihood ratio (IRT-LR) methods under certain conditions. Manipulated factors were sample size, ability differences between groups, test length, the percentage of dif...

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Bibliographic Details
Published in:Educational sciences : theory & practice 2014-01, Vol.14 (6), p.2186
Main Authors: Kabasakal, Kübra Atalay, Gök, Bilge, Arsan, Nihan, Kelecioglu, Hülya
Format: Article
Language:English
Subjects:
Ability
Comparative Analysis
Differences
Error of Measurement
Foreign Countries
Item Response Theory
Mantel Haenszel Procedure
Sample Size
Simulation
Statistical Analysis
Test Bias
Test Items
Test Length
Turkey
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Summary:This simulation study compared the performances (Type I error and power) of Mantel-Haenszel (MH), SIBTEST, and item response theory-likelihood ratio (IRT-LR) methods under certain conditions. Manipulated factors were sample size, ability differences between groups, test length, the percentage of differential item functioning (DIF), and underlying model used to generate data. Results suggest that SIBTEST had the highest Type I error in the detection of uniform DIF, but MH had the highest power under all conditions. In addition, the percentage of DIF and the underlying model appear to have influenced the Type I error rate of IRT-LR. Ability differences between groups, test length, the percentage of DIF, model, and the interactions between ability differences*percentage of DIF, ability differences*test length, test length*percentage of DIF, test length*model affected the SIBTEST methods' Type I error rate. In the MH procedure, effective factors for Type I error rate were: sample size, test length, the percentage of DIF, ability differences*percentage of DIF, ability differences*model, and ability differences*percentage of DIF*model. No factors were effective on the power of SIBTEST and MH, but the underlying model had a significant effect on the IRT-LR power rate.
ISSN:2148-7561
1303-0485
2148-7561
DOI:10.12738/estp.2014.6.2165