01413nas a2200121 4500008003900000245009000039210006900129300001200198490000700210520100200217100001501219856005701234 2009 d00aA Knowledge-Based Approach for Item Exposure Control in Computerized Adaptive Testing0 aKnowledgeBased Approach for Item Exposure Control in Computerize a530-5580 v343 a
The purpose of this study is to investigate a functional relation between item exposure parameters (IEPs) and item parameters (IPs) over parallel pools. This functional relation is approximated by a well-known tool in machine learning. Let P and Q be parallel item pools and suppose IEPs for P have been obtained via a Sympson and Hetter–type simulation. Based on these simulated parameters, a functional relation k = fP (a, b, c) relating IPs to IEPs of P is obtained by an artificial neural network and used to estimate IEPs of Q without tedious simulation. Extensive experiments using real and synthetic pools showed that this approach worked pretty well for many variants of the Sympson and Hetter procedure. It worked excellently for the conditional Stocking and Lewis multinomial selection procedure and the Chen and Lei item exposure and test overlap control procedure. This study provides the first step in an alternative means to estimate IEPs without iterative simulation.
1 aDoong, S H uhttp://jeb.sagepub.com/cgi/content/abstract/34/4/53002031nas a2200121 4500008004100000245009400041210006900135260009700204520146200301100001201763700001901775856011501794 2009 eng d00aKullback-Leibler information in multidimensional adaptive testing: theory and application0 aKullbackLeibler information in multidimensional adaptive testing aD. J. Weiss (Ed.), Proceedings of the 2009 GMAC Conference on Computerized Adaptive Testing.3 aBuilt on multidimensional item response theory (MIRT), multidimensional adaptive testing (MAT) can, in principle, provide a promising choice to ensuring efficient estimation of each ability dimension in a multidimensional vector. Currently, two item selection procedures have been developed for MAT, one based on Fisher information embedded within a Bayesian framework, and the other powered by Kullback-Leibler (KL) information. It is well-known that in unidimensional IRT that the second derivative of KL information (also termed “global information”) is Fisher information evaluated atθ 0. This paper first generalizes the relationship between these two types of information in two ways—the analytical result is given as well as the graphical representation, to enhance interpretation and understanding. Second, a KL information index is constructed for MAT, which represents the integration of KL nformation over all of the ability dimensions. This paper further discusses how this index correlates with the item discrimination parameters. The analytical results would lay foundation for future development of item selection methods in MAT which can help equalize the item exposure rate. Finally, a simulation study is conducted to verify the above results. The connection between the item parameters, item KL information, and item exposure rate is demonstrated for empirical MAT delivered by an item bank calibrated under two-dimensional IRT.1 aWang, C1 aChang, Hua-Hua uhttp://iacat.org/content/kullback-leibler-information-multidimensional-adaptive-testing-theory-and-application00557nas a2200121 4500008004100000245011200041210006900153260004500222100001800267700001500285700001700300856011800317 2006 eng d00aKernel-smoothed DIF detection procedure for computerized adaptive tests (Computerized testing report 00-08)0 aKernelsmoothed DIF detection procedure for computerized adaptive aNewton, PAbLaw School Admission Council1 aNandakumar, R1 aBanks, J C1 aRoussos, L A uhttp://iacat.org/content/kernel-smoothed-dif-detection-procedure-computerized-adaptive-tests-computerized-testing01769nas a2200193 4500008004100000245023000041210006900271300000900340490000700349520093900356653002101295653003001316653001801346653001601364653004201380100001201422700001901434856012201453 2004 eng d00aKann die Konfundierung von Konzentrationsleistung und Aktivierung durch adaptives Testen mit dern FAKT vermieden werden? [Avoiding the confounding of concentration performance and activation by adaptive testing with the FACT]0 aKann die Konfundierung von Konzentrationsleistung und Aktivierun a1-170 v253 aThe study investigates the effect of computerized adaptive testing strategies on the confounding of concentration performance with activation. A sample of 54 participants was administered 1 out of 3 versions (2 adaptive, 1 non-adaptive) of the computerized Frankfurt Adaptive Concentration Test FACT (Moosbrugger & Heyden, 1997) at three subsequent points in time. During the test administration changes in activation (electrodermal activity) were recorded. The results pinpoint a confounding of concentration performance with activation for the non-adaptive test version, but not for the adaptive test versions (p = .01). Thus, adaptive FACT testing strategies can remove the confounding of concentration performance with activation, thereby increasing the discriminant validity. In conclusion, an attention-focusing-hypothesis is formulated to explain the observed effect. (PsycINFO Database Record (c) 2005 APA ) (journal abstract)10aAdaptive Testing10aComputer Assisted Testing10aConcentration10aPerformance10aTesting computerized adaptive testing1 aFrey, A1 aMoosbrugger, H uhttp://iacat.org/content/kann-die-konfundierung-von-konzentrationsleistung-und-aktivierung-durch-adaptives-testen-mit