Export 2294 results:
Journal Article
PDF icon v18n2p121.pdf (2.08 MB)
Chen, S. - Y., Lei, P. - W., Chen, J. - H., & Liu, T. - C.. (2014). General Test Overlap Control: Improved Algorithm for CAT and CCT. Applied Psychological Measurement, 38, 229-244. doi:10.1177/0146621613513494
Chang, H. - H., & Ying, Z.. (1996). A Global Information Approach to Computerized Adaptive Testing. Applied Psychological Measurement, 20(3), 213-229.
PDF icon v20n3p213.pdf (1.91 MB)
Chang, H. - H., & Ying, Z.. (1996). A global information approach to computerized adaptive testing. Applied Psychological Measurement, 20, 213-229.
Almond, R. G., & Mislevy, R. J.. (1999). Graphical models and computerized adaptive testing. Applied Psychological Measurement, 23, 223-37.
DeWitt, L. J., & Weiss, D. J.. (1976). Hardware and software evolution of an adaptive ability measurement system. Behavior Research Methods and Instrumentation, 8, 104-107.
Born, S., & Frey, A.. (2017). Heuristic Constraint Management Methods in Multidimensional Adaptive Testing. Educational and Psychological Measurement, 77, 241-262. doi:10.1177/0013164416643744
Reckase, M., Ju, U., & Kim, S.. (2019). How Adaptive Is an Adaptive Test: Are All Adaptive Tests Adaptive?. Journal of Computerized Adaptive Testing, 7(1), 1-14. doi:10.7333/1902-0701001
Chuah, S. C., Drasgow, F., & Luecht, R.. (2006). How Big Is Big Enough? Sample Size Requirements for CAST Item Parameter Estimation. Applied Measurement in Education, 19, 241-255. doi:10.1207/s15324818ame1903_5
Tai, M. Him, Cooperman, A. W., DeWeese, J. N., & Weiss, D. J.. (2023). How Do Trait Change Patterns Affect the Performance of Adaptive Measurement of Change?. Journal of Computerized Adaptive Testing, 10(3), 32-58. doi:10.7333/2307-1003032
Wang, S., Lin, H., Chang, H. - H., & Douglas, J.. (2016). Hybrid Computerized Adaptive Testing: From Group Sequential Design to Fully Sequential Design. Journal of Educational Measurement, 53, 45–62. doi:10.1111/jedm.12100
Xiong, X. (2018). A Hybrid Strategy to Construct Multistage Adaptive Tests. Applied Psychological Measurement, 42, 630-643. doi:10.1177/0146621618762739
Kingsbury, G. G., & Houser, R. L.. (2008). ICAT: An adaptive testing procedure for the identification of idiosyncratic knowledge patterns. Zeitschrift für Psychologie / Journal of Psychology, 216(1), 40–48.
PDF icon ICAT- An Adaptive Testing Procedure for the Identification of Idiosyncratic Knowledge Patterns.pdf (322.62 KB)
Wang, W. - C., & Chen, P. - H.. (2004). Implementation and Measurement Efficiency of Multidimensional Computerized Adaptive Testing. Applied Psychological Measurement, 28, 295-316. doi:10.1177/0146621604265938
Barnard, J. J. (2015). Implementing a CAT: The AMC Experience . Journal of Computerized Adaptive Testing, 3(1), 1-12. doi:10.7333/15100301001
Spoden, C., Frey, A., & Bernhardt, R.. (2018). Implementing Three CATs Within Eighteen Months. Journal of Computerized Adaptive Testing, 6(3), 38-55. presented at the 09/2018. doi:10.7333/1809-060338
Grodenchik, D. J. (2002). The implications of the use of non-optimal items in a Computer Adaptive Testing (CAT) environment. Dissertation Abstracts International: Section B: the Sciences & Engineering, 63, 1606.
PDF icon v04n2p157.pdf (650.25 KB)
Wang, C. (2014). Improving Measurement Precision of Hierarchical Latent Traits Using Adaptive Testing. Journal of Educational and Behavioral Statistics, 39, 452-477. doi:10.3102/1076998614559419
Weiss, D. J. (1982). Improving Measurement Quality and Efficiency with Adaptive Testing. Applied Psychological Measurement, 6(4), 473-492.
PDF icon v06n4p473.pdf (2.74 MB)
Barnard, J. J. (2022). Improving Precision of CAT Measures. Journal of Computerized Adaptive Test-ing, 9(1), 1-7. presented at the 10/2022. doi:10.7333/2210-0901001
Barrada, J. R., Olea, J., Ponsoda, V., & Abad, F. J.. (2008). Incorporating randomness in the Fisher information for improving item-exposure control in CATs. British Journal of Mathematical and Statistical Psychology, 61, 493-513.
Leung, C. - K., Chang, H. - H., & Hau, K. - T.. (2003). Incorporation Of Content Balancing Requirements In Stratification Designs For Computerized Adaptive Testing. Educational and Psychological Measurement, 63, 257-270. doi:10.1177/0013164403251326
Reckase, M. D. (2024). The Influence of Computerized Adaptive Testing on Psychometric Theory and Practice. Journal of Computerized Adaptive Testing, 11(1). doi:10.7333/2403-1101001
de Ayala, R. J. (1992). The influence of dimensionality on CAT ability estimation. Educational and Psychological Measurement, 52, 513-528.
Patton, J. M., Ying Cheng,, Yuan, K. - H., & Diao, Q.. (2013). The Influence of Item Calibration Error on Variable-Length Computerized Adaptive Testing. Applied Psychological Measurement, 37, 24-40. doi:10.1177/0146621612461727
Zheng, C., He, G., & Gao, C.. (2017). The Information Product Methods: A Unified Approach to Dual-Purpose Computerized Adaptive Testing. Applied Psychological MeasurementApplied Psychological Measurement, 42(4), 321 - 324. presented at the 2018/06/01. Retrieved from https://doi.org/10.1177/0146621617730392
Balajthy, E. (2002). Information technology and literacy assessment. Reading and Writing Quarterly, 18, 369-373.
Diao, Q., & van der Linden, W. J.. (2013). Integrating Test-Form Formatting Into Automated Test Assembly. Applied Psychological Measurement, 37, 361-374. doi:10.1177/0146621613476157
Chang, S. - H. (1991). Inter-subtest branching in computerized adaptive testing. Dissertation Abstracts International, 52, 140-141.

Pages