Impact of Ignoring Nested Data Structures on Ability Estimation

Shropshire, Kevin O'Neil

03 June 2014

The literature is clear that intentional or unintentional clustering of data elements typically results in the inflation of the estimated standard error of fixed parameter estimates. This study is unique in that it examines the impact of multilevel data structures on subject ability which are random effect predictions known as empirical Bayes estimates in the one-parameter IRT / Rasch model. The literature on the impact of complex survey design on latent trait models is mixed and there is no "best practice" established regarding how to handle this situation. A simulation study was conducted to address two questions related to ability estimation. First, what impacts does design based clustering have with respect to desirable statistical properties when estimating subject ability with the one-parameter IRT / Rasch model? Second, since empirical Bayes estimators have shrinkage properties, what impacts does clustering of first-stage sampling units have on measurement validity-does the first-stage sampling unit impact the ability estimate, and if so, is this desirable and equitable? Two models were fit to a factorial experimental design where the data were simulated over various conditions. The first model Rasch model formulated as a HGLM ignores the sample design (incorrect model) while the second incorporates a first-stage sampling unit (correct model). Study findings generally showed that the two models were comparable with respect to desirable statistical properties under a majority of the replicated conditions-more measurement error in ability estimation is found when the intra-class correlation is high and the item pool is small. In practice this is the exception rather than the norm. However, it was found that the empirical Bayes estimates were dependent upon the first-stage sampling unit raising the issue of equity and fairness in educational decision making. A real-world complex survey design with binary outcome data was also fit with both models. Analysis of the data supported the simulation design results which lead to the conclusion that modeling binary Rasch data may resort to a policy tradeoff between desirable statistical properties and measurement validity. / Ph. D.

Complex survey designs

clustering

PSU

nested data

multilevel data

hierarchical data

two-level HGLM

three-level HGLM

Rasch

ability estimation

Racial and Ethnic Comparison of Migration Selectivity: Primary and Repeat Migration

Lee, Sang Lim

01 December 2008

The purposes of this study are to examine migration disparities in primary, onward, and return migration by Hispanics, non-Hispanic black, and non-Hispanic white and to inspect the differences among the various types of migration. In addition, this study explores explanations of the migration disparities. These have been rarely studied because of a lack of proper migration data. This research employs the National Longitudinal Study of Youth (NLSY79) for a logistic regression of primary migration and for a hierarchical generalized linear model (HGLM) of the two types of repeat migration, namely onward and return. The results demonstrate that whites are more likely to make primary and onward migrations compared to blacks and Hispanics. But, with return migration, significant differences between whites and other minorities are not found. With respect to the contributors or explanations, this study indicates that the racial/ethnic migration disparities are not explained by socioeconomic status as opposed to explanations by human capital perspectives. The racial/ethnic disparities in migrations seem to be produced by discrimination and an unequal distribution of opportunities. Return migration presents several interesting different patterns compared with the other type migrations, including the effects of age and educational attainment. For return migration, old and less educated individuals have higher odds, showing reversed pattern of total, primary, and onward migration. The findings seem to indicate that different characteristics are involved in different types of migration.

HGLM

Internal Migration

Primary Migration

Race/ethnicity

Repeat Migration

Demography, Population, and Ecology

Sociology

Impacts of Ignoring Nested Data Structure in Rasch/IRT Model and Comparison of Different Estimation Methods

Chungbaek, Youngyun

06 June 2011

This study involves investigating the impacts of ignoring nested data structure in Rasch/1PL item response theory (IRT) model via a two-level and three-level hierarchical generalized linear model (HGLM). Currently, Rasch/IRT models are frequently used in educational and psychometric researches for data obtained from multistage cluster samplings, which are more likely to violate the assumption of independent observations of examinees required by Rasch/IRT models. The violation of the assumption of independent observation, however, is ignored in the current standard practices which apply the standard Rasch/IRT for the large scale testing data. A simulation study (Study Two) was conducted to address this issue of the effects of ignoring nested data structure in Rasch/IRT models under various conditions, following a simulation study (Study One) to compare the performances of three methods, such as Penalized Quasi-Likelihood (PQL), Laplace approximation, and Adaptive Gaussian Quadrature (AGQ), commonly used in HGLM in terms of accuracy and efficiency in estimating parameters. As expected, PQL tended to produce seriously biased item difficulty estimates and ability variance estimates whereas almost unbiased for Laplace or AGQ for both 2-level and 3-level analysis. As for the root mean squared errors (RMSE), three methods performed without substantive differences for item difficulty estimates and ability variance estimates in both 2-level and 3-level analysis, except for level-2 ability variance estimates in 3-level analysis. Generally, Laplace and AGQ performed similarly well in terms of bias and RMSE of parameter estimates; however, Laplace exhibited a much lower convergence rate than that of AGQ in 3-level analyses. The results from AGQ, which produced the most accurate and stable results among three computational methods, demonstrated that the theoretical standard errors (SE), i.e., asymptotic information-based SEs, were underestimated by at most 34% when 2-level analyses were used for the data generated from 3-level model, implying that the Type I error rate would be inflated when the nested data structures are ignored in Rasch/IRT models. The underestimated theoretical standard errors were substantively more severe as the true ability variance increased or the number of students within schools increased regardless of test length or the number of schools. / Ph. D.

theoretical standard error.

RMSE

MCSE

bias

AGQ

Laplace

PQL

IRT

Rasch

HGLM

nested data structure

Monte Carlo simulation

Implementing SAE Techniques to Predict Global Spectacles Needs

Zhang, Yuxue

January 2023

This study delves into the application of Small Area Estimation (SAE) techniques to enhance the accuracy of predicting global needs for assistive spectacles. By leveraging the power of SAE, the research undertakes a comprehensive exploration, employing arange of predictive models including Linear Regression (LR), Empirical Best Linear Unbiased Prediction (EBLUP), hglm (from R package) with Conditional Autoregressive (CAR), and Generalized Linear Mixed Models (GLMM). At last phase,the global spectacle needs’ prediction includes various essential steps such as random effects simulation, coefficient extraction from GLMM estimates, and log-linear modeling. The investigation develops a multi-faceted approach, incorporating area-level modeling, spatial correlation analysis, and relative standard error, to assess their impact on predictive accuracy. The GLMM consistently displays the lowest Relative Standard Error (RSE) values, almost close to zero, indicating precise but potentially overfit results. Conversely, the hglm with CAR model presents a narrower RSE range, typically below 25%, reflecting greater accuracy; however, it is worth noting that it contains a higher number of outliers. LR illustrates a performance similar to EBLUP, with RSE values reaching around 50% in certain scenarios and displaying slight variations across different contexts. These findings underscore the trade-offs between precision and robustness across these models, especially for finer geographical levels and countries not included in the initial sample.

small area estimation

area-level model

generalized linear mixed models

Conditional Autoregressive

spatial correlation

spectacle needs

assistive products

auxiliary data

hglm

relative standard error

simulation

Probability Theory and Statistics

Sannolikhetsteori och statistik