One of the aims of a computerized adaptive test (CAT) is to construct an optimal test for each examinee. This is done by estimating the examinee’s ability-level (θ) after administration of each item and, based on this current ability estimate (�θ), the next item is selected using an item selection procedure. The θ-estimation procedure, the item selection procedure and the stopping rule of the CAT are all based on the assumption that the item scores of the examinee fit the assumed IRT model. It is questionable, however, whether the assumed IRT model gives a good description for each examinee’s test behavior. For those examinees for whom this is not the case, the current ability estimate as a measure of true θmay be inadequate, and as a resul...
Why ask a person to answer a problem item, when you a priori know they won’t be able to solve it? It...
The advantages that computer adaptive testing offers over linear tests have been well documented. Th...
It is shown that deviations of estimated from true values of item difficulty parameters, caused for ...
Item scores that do not fit an assumed item response theory model may cause the latent trait value t...
Item scores that do not fit an assumed item response theory model may cause the latent trait value t...
In this study we discuss recent developments of person-fit analysis in the context of computerized a...
Recent developments of person-fit analysis in computerized adaptive testing (CAT) are discussed. Met...
Several person-fit statistics have been proposed to detect item score patterns that do not fit an it...
Item response theory (IRT) has been adapted as the theoretical foundation of computerized adaptive t...
Abstract This study focused on how early misfit affected the recovery of θ for a computerized adapti...
Person-fit statistics test whether or not the likelihood of a respondent’s complete vector of item s...
textComputerized adaptive testing (CAT) provides a highly efficient alternative to the paper-and-pen...
The scalability of individual trait scores on a computerized adaptive test (CAT) was assessed throug...
Studies investigating the power of person-fit statis-tics often assume that the item parameters that...
Item scores that do not fit an assumed item response theory model may cause the latent trait value t...
Why ask a person to answer a problem item, when you a priori know they won’t be able to solve it? It...
The advantages that computer adaptive testing offers over linear tests have been well documented. Th...
It is shown that deviations of estimated from true values of item difficulty parameters, caused for ...
Item scores that do not fit an assumed item response theory model may cause the latent trait value t...
Item scores that do not fit an assumed item response theory model may cause the latent trait value t...
In this study we discuss recent developments of person-fit analysis in the context of computerized a...
Recent developments of person-fit analysis in computerized adaptive testing (CAT) are discussed. Met...
Several person-fit statistics have been proposed to detect item score patterns that do not fit an it...
Item response theory (IRT) has been adapted as the theoretical foundation of computerized adaptive t...
Abstract This study focused on how early misfit affected the recovery of θ for a computerized adapti...
Person-fit statistics test whether or not the likelihood of a respondent’s complete vector of item s...
textComputerized adaptive testing (CAT) provides a highly efficient alternative to the paper-and-pen...
The scalability of individual trait scores on a computerized adaptive test (CAT) was assessed throug...
Studies investigating the power of person-fit statis-tics often assume that the item parameters that...
Item scores that do not fit an assumed item response theory model may cause the latent trait value t...
Why ask a person to answer a problem item, when you a priori know they won’t be able to solve it? It...
The advantages that computer adaptive testing offers over linear tests have been well documented. Th...
It is shown that deviations of estimated from true values of item difficulty parameters, caused for ...