Export 128 results:
Filters: First Letter Of Keyword is I [Clear All Filters]
Using patterns of summed scores in paper-and-pencil tests and computer-adaptive tests to detect misfitting item score patterns. Journal of Educational Measurement, 41, 119-136.
. (2004). Using Computerized Adaptive Testing to Detect Students’ Misconceptions: Exploration of Item Selection. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University.
. (2017). Timing behavior in computerized adaptive testing: Response times for correct and incorrect answers are not related to general fluid intelligence/Zum Zeitverhalten beim computergestützten adaptiveb Testen: Antwortlatenzen bei richtigen und falschen Lösun. Zeitschrift für Differentielle und Diagnostische Psychologie, 24, 57-63.
. (2003). Time-Efficient Adaptive Measurement of Change. Journal of Computerized Adaptive Testing, 7(2), 15-34. doi:10.7333/1909-0702015
. (2019). . (2005).
Técnicas para detectar patrones de respuesta atípicos [Aberrant patterns detection methods]. Anales de Psicología, 22, 143-154.
. (2006). Técnicas para detectar patrones de respuesta atípicos [Aberrant patterns detection methods]. Anales de Psicología, 22, 143-154.
. (2006). . (2002).
Strategies for controlling item exposure in computerized adaptive testing with the generalized partial credit model. Applied Psychological Measurement, 28, 165-185.
. (2004). . (2005).
Simulated computerized adaptive test for patients with shoulder impairments was efficient and produced valid measures of function. Journal of Clinical Epidemiology, 59(3), 290-298.
. (2006). Simulated computerized adaptive test for patients with lumbar spine impairments was efficient and produced valid measures of function. Journal of Clinical Epidemiology, 59, 947–956. doi:10.1016/j.jclinepi.2005.10.017
. (2006). The relationship between item exposure and test overlap in computerized adaptive testing. Journal of Educational Measurement, 40, 129-145.
. (2003). The relationship between item exposure and test overlap in computerized adaptive testing. Journal of Educational Measurement, 40, 129-145.
. (2003). The relationship between item exposure and test overlap in computerized adaptive testing. Journal of Educational Measurement, 40, 129-145.
. (2003). Psychometric properties of an emotional adjustment measure: An application of the graded response model. European Journal of Psychological Assessment, 23, 39-46.
. (2007). . (2005).
Practitioner’s Approach to Identify Item Drift in CAT. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.
. (2011). IACAT 2011Meng Item Drift.pdf (337.44 KB)Practitioner’s Approach to Identify Item Drift in CAT. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.
. (2011). IACAT 2011Meng Item Drift.pdf (337.44 KB)Practitioner’s Approach to Identify Item Drift in CAT. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.
. (2011). IACAT 2011Meng Item Drift.pdf (337.44 KB)Outlier detection in high-stakes certification testing. Journal of Educational Measurement, 39, 219-233.
. (2002). Outlier detection in high-stakes certification testing. Journal of Educational Measurement, 39, 219-233.
. (2002). Optimal testing with easy or difficult items in computerized adaptive testing. Applied Psychological Measurement, 30, 379-393.
. (2006). Optimal testing with easy or difficult items in computerized adaptive testing. Applied Psychological Measurement, 30, 379-393.
. (2006). Optimal testing with easy or difficult items in computerized adaptive testing. Applied Psychological Measurement, 30, 379-393.
. (2006). Optimal stratification of item pools in α-stratified computerized adaptive testing. Applied Psychological Measurement, 27, 262-274.
. (2003). Optimal stratification of item pools in α-stratified computerized adaptive testing. Applied Psychological Measurement, 27, 262-274.
. (2003). Optimal Calibration Designs for Computerized Adaptive Testing. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.
. (2011). IACAT 2011 Verschoor Optimal Calibration Designs.pdf (164.38 KB)The (non)Impact of Misfitting Items in Computerized Adaptive Testing. Journal of Computerized Adaptive Testing, 9(2). doi:10.7333/2211-0902008
. (2022). New Results on Bias in Estimates due to Discontinue Rules in Intelligence Testing. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University.
. (2017). New Challenges (With Solutions) and Innovative Applications of CAT. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=1Wvgxw7in_QCq_F7kzID6zCZuVXWcFDPa
. (2017). A mixed integer programming model for multiple stage adaptive testing. European Journal of Operational Research, 193, 342-350.
. (2009). Methods for restricting maximum exposure rate in computerized adaptative testing. Methodology: European Journal of Research Methods for the Behavioral and Social Sciences, 3, 14-23.
. (2007). ba07014.pdf (398.44 KB)Methods for restricting maximum exposure rate in computerized adaptative testing. Methodology: European Journal of Research Methods for the Behavioral and Social Sciences, 3, 14-23.
. (2007). ba07014.pdf (398.44 KB)Measuring physical functioning in children with spinal impairments with computerized adaptive testing. Journal of Pediatric Orthopedics, 28, 330-5. presented at the Apr-May.
. (2008). Measurement precision and efficiency of multidimensional computer adaptive testing of physical functioning using the pediatric evaluation of disability inventory. Archives of Physical Medicine and Rehabilitation, 87, 1223-9. presented at the Sep.
. (2006). Mathematical-programming approaches to test item pool design (No. RR 02-09) (pp. 93-108). Twente, The Netherlands: University of Twente, Faculty of Educational Science and Technology.
. (2002). Latent-Class-Based Item Selection for Computerized Adaptive Progress Tests. Journal of Computerized Adaptive Testing, 5(2), 22-43. doi:10.7333/1704-0502022
. (2017). [Item Selection Strategies of Computerized Adaptive Testing based on Graded Response Model.]. Acta Psychologica Sinica, 38, 461-467.
. (2006). Item Selection Strategies for Developing CAT in Indonesia. In IACAT 2017 Conference. presented at the 08/2017, Niigata Japan: Niiagata Seiryo University. Retrieved from https://www.youtube.com/watch?v=2KuFrRATq9Q
. (2017). Item Selection Strategies for Developing CAT in Indonesia. In IACAT 2017 Conference. presented at the 08/2017, Niigata Japan: Niiagata Seiryo University. Retrieved from https://www.youtube.com/watch?v=2KuFrRATq9Q
. (2017). Item Selection Methods based on Multiple Objective Approaches for Classification of Respondents into Multiple Levels. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.
. (2011). IACAT 2011 van Groen Eggen Veldkamp Item Selection.pdf (593.82 KB)Item Selection and Hypothesis Testing for the Adaptive Measurement of Change. Applied Psychological Measurement, 34(4), 238-254. doi:10.1177/0146621609344844
. (2010). Item response theory applied to combinations of multiple-choice and constructed-response items--approximation methods for scale scores. In Test scoring (pp. 289-315). Mahwah, N.J. USA: Lawrence Erlbaum Associates.
. (2001). Item Pool Design and Evaluation. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=1ZAsqm1yNZlliqxEHcyyqQ_vOSu20xxZs
. (2017). Item exposure constraints for testlets in the verbal reasoning section of the MCAT. Applied Psychological Measurement, 27, 335-356.
. (2003). [Item characteristic curve equating under graded response models in IRT]. Acta Psychologica Sinica, 37, 832-838.
. (2005). [Item characteristic curve equating under graded response models in IRT]. Acta Psychologica Sinica, 37, 832-838.
. (2005). Issues in Trait Range Coverage for Patient Reported Outcome Measure CATs - Extending the Ceiling for Above-average Physical Functioning. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=1ZC02F-dIyYovEjzpeuRdoXDiXMLFRuKb
. (2017). An integer programming approach to item bank design. Applied Psychological Measurement, 24, 139-150.
. (2000). An integer programming approach to item bank design. Applied Psychological Measurement, 24, 139-150.
. (2000). The initial development of an item bank to assess and screen for psychological distress in cancer patients. Psycho-Oncology, 16, 724-732.
. (2007). The initial development of an item bank to assess and screen for psychological distress in cancer patients. Psycho-Oncology, 16, 724-732.
. (2007). . (2002).
. (2002).
The Influence of Computerized Adaptive Testing on Psychometric Theory and Practice. Journal of Computerized Adaptive Testing, 11(1). doi:10.7333/2403-1101001
. (2024). Infeasibility in automated test assembly models: A comparison study of different methods. Journal of Educational Measurement, 42, 223-243.
. (2005). Increasing the homogeneity of CAT's item-exposure rates by minimizing or maximizing varied target functions while assembling shadow tests. Journal of Educational Measurement, 42, 245-269.
. (2005). An Imputation Approach to Handling Incomplete Computerized Tests. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=1vznZeO3nsZZK0k6_oyw5c9ZTP8uyGnXh
. (2017). An Imputation Approach to Handling Incomplete Computerized Tests. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=1vznZeO3nsZZK0k6_oyw5c9ZTP8uyGnXh
. (2017).