Development of a multidimensional computerized adaptive test based on the bifactor mode
Citation
Şahin M. D.,Gelbal S. (2020). Development of a Multidimensional Computerized Adaptive Test based on the Bifactor Model . International Journal of Assessment Tools in Education, 7(3), 323 - 342. Doi: 10.21449/ijate.707199Abstract
The purpose of this study was to conduct a real
-
time multidimensional
computerized adaptive test (MCAT) using data from a previous
paper
-
pencil
test
(PPT)
regarding the grammar and vocabulary dimensions of an end
-
of
-
term
proficiency exam conducted on students in a preparatory class at a university. An
item pool was established through four separate 50
-
item sets applied in four
differe
nt semesters. The fit between unidimensional, multi
-
unidimensional and
bifactor IRT models was compared during item calibration, with the bifactor model
providing the best fit for all data sets. This was followed by a hybrid simulation for
36 conditions ob
tained using six item selection methods, two ability estimation
methods and three termination rules. The statistics and graphs obtained indicate D
-
rule item selection,
maximum a posteriori (
MAP
)
ability estimation and standard
error termination rule as the
best algorithm for the real
-
time MCAT application.
With the minimum number of items to be administered determined as 10, the real
-
time application conducted on 99 examinees yielded an average number of items
of 13.4. The PPT format proficiency exam consis
ts of 50 items, leading to the
conclusion that the examinees participating in the real
-
time MCAT are
administered an average of 74.4% fewer items than the PPT. Additionally, 86 of
the examinees answered between 10
-
13 items. The item pool use rate is 30%.
L
astly, the correlation between the PPT scores and general trait scores of 32
examinees was calculated as .77.
Source
International Journal of Assessment Tools in EducationVolume
7Issue
3Collections
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