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Using response times to detect aberrant responses in computerized adaptive testing. Psychometrika, 68, 251-265.
. (2003). Using computerized adaptive testing to reduce the burden of mental health assessment. Psychiatric Services, 59, 361-8. presented at the Apr.
. (2008). gi08361.pdf (106.3 KB)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). Test design optimization in CAT early stage with the nominal response model. Applied Psychological Measurement, 31, 213-232.
. (2007). A Test Assembly Model for MST. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.
. (2011). IACAT 2011 Verschoor Radtke Eggen Test Assmebly Model.pdf (339.24 KB)A Test Assembly Model for MST. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.
. (2011). IACAT 2011 Verschoor Radtke Eggen Test Assmebly Model.pdf (339.24 KB)Ten recommendations for advancing patient-centered outcomes measurement for older persons. Annals of Internal Medicine, 139, 403-409. presented at the Sep 2.
. (2003). Simulated computerized adaptive tests for measuring functional status were efficient with good discriminant validity in patients with hip, knee, or foot/ankle impairments. Journal of Clinical Epidemiology, 58, 629-38.
. (2005). ha05629.pdf (227.89 KB)Simulated computerized adaptive tests for measuring functional status were efficient with good discriminant validity in patients with hip, knee, or foot/ankle impairments. Journal of Clinical Epidemiology, 58, 629-38.
. (2005). ha05629.pdf (227.89 KB)Simulated computerized adaptive tests for measuring functional status were efficient with good discriminant validity in patients with hip, knee, or foot/ankle impairments. Journal of Clinical Epidemiology, 58, 629-38.
. (2005). ha05629.pdf (227.89 KB)Simulated computerized adaptive test for patients with shoulder impairments was efficient and produced valid measures of function. Journal of Clinical Epidemiology, 59, 290-8.
. (2006). Simulated computerized adaptive test for patients with shoulder impairments was efficient and produced valid measures of function. Journal of Clinical Epidemiology, 59, 290-8.
. (2006). 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 shoulder impairments was efficient and produced valid measures of function. Journal of Clinical Epidemiology, 59, 290-8.
. (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). SIMCAT 1.0: A SAS computer program for simulating computer adaptive testing. Applied Psychological Measurement, 30, 60-61.
. (2006). Score comparability of short forms and computerized adaptive testing: Simulation study with the activity measure for post-acute care. Archives of Physical Medicine and Rehabilitation, 85, 661-6. presented at the Apr.
. (2004). Response Time and Response Accuracy in Computerized Adaptive Testing. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=1yYP01bzGrKvJnfLwepcAoQQ2F4TdSvZ2
. (2017). Response Time and Response Accuracy in Computerized Adaptive Testing. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=1yYP01bzGrKvJnfLwepcAoQQ2F4TdSvZ2
. (2017). Refining the conceptual basis for rehabilitation outcome measurement: personal care and instrumental activities domain. Medical Care, 42, I62-172. presented at the Jan.
. (2004). Refining the conceptual basis for rehabilitation outcome measurement: personal care and instrumental activities domain. Medical Care, 42, I62-172. presented at the Jan.
. (2004). Refining the conceptual basis for rehabilitation outcome measurement: personal care and instrumental activities domain. Medical Care, 42, I62-172. presented at the Jan.
. (2004). Refining the conceptual basis for rehabilitation outcome measurement: personal care and instrumental activities domain. Medical Care, 42, I62-172. presented at the Jan.
. (2004). Refining the conceptual basis for rehabilitation outcome measurement: personal care and instrumental activities domain. Medical Care, 42, I62-172. presented at the Jan.
. (2004). Reduction in patient burdens with graphical computerized adaptive testing on the ADL scale: tool development and simulation. Health and Quality of Life Outcomes, 7, 39.
. (2009). Progress in assessing physical function in arthritis: PROMIS short forms and computerized adaptive testing. Journal of Rheumatology, 36, 2061-2066. presented at the Sep.
. (2009). Pre-equating: a simulation study based on a large scale assessment model. Journal of Applied Measurement, 5, 301-18.
. (2004). Pre-equating: a simulation study based on a large scale assessment model. Journal of Applied Measurement, 5, 301-18.
. (2004). Predicting item exposure parameters in computerized adaptive testing. British Journal of Mathematical and Statistical Psychology, 61, 75-91. presented at the May.
. (2008). 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)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)Measuring quality of life in chronic illness: the functional assessment of chronic illness therapy measurement system. Archives of Physical Medicine and Rehabilitation, 83, S10-7. presented at the Dec.
. (2002). 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). Measuring physical function in patients with complex medical and postsurgical conditions: a computer adaptive approach. American Journal of Physical Medicine and Rehabilitation, 84, 741-8. presented at the Oct.
. (2005). Measuring physical function in patients with complex medical and postsurgical conditions: a computer adaptive approach. American Journal of Physical Medicine and Rehabilitation, 84, 741-8. presented at the Oct.
. (2005). Measuring physical function in patients with complex medical and postsurgical conditions: a computer adaptive approach. American Journal of Physical Medicine and Rehabilitation, 84, 741-8. presented at the Oct.
. (2005). The maximum priority index method for severely constrained item selection in computerized adaptive testing. British Journal of Mathematical and Statistical Psychology, 62, 369-83. presented at the May.
. (2009). Letting the CAT out of the bag: Comparing computer adaptive tests and an 11-item short form of the Roland-Morris Disability Questionnaire. Spine, 33, 1378-83. presented at the May 20.
. (2008). Item Response Time on Task Effect in CAT. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University.
. (2017). Item response theory and health outcomes measurement in the 21st century. Medical Care, 38, II28-II42.
. (2000). Item exposure constraints for testlets in the verbal reasoning section of the MCAT. Applied Psychological Measurement, 27, 335-356.
. (2003). Item exposure constraints for testlets in the verbal reasoning section of the MCAT. Applied Psychological Measurement, 27, 335-356.
. (2003). Item banking to improve, shorten and computerized self-reported fatigue: an illustration of steps to create a core item bank from the FACIT-Fatigue Scale. Quality of Life Research, 12, 485-501. presented at the Aug.
. (2003). Item banking to improve, shorten and computerized self-reported fatigue: an illustration of steps to create a core item bank from the FACIT-Fatigue Scale. Quality of Life Research, 12, 485-501. presented at the Aug.
. (2003). The initial development of an item bank to assess and screen for psychological distress in cancer patients. Psycho-Oncology, 16, 724-732.
. (2007). Improving patient reported outcomes using item response theory and computerized adaptive testing. Journal of Rheumatology, 34, 1426-31. presented at the Jun.
. (2007). Generating abstract reasoning items with cognitive theory. In , Item generation for test development (pp. 219-250). Mahwah, N.J. USA: Lawrence Erlbaum Associates, Inc.
. (2002). From Reliability to Validity: Expanding Adaptive Testing Practice to Find the Most Valid Score for Each Test Taker. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.
. (2011). IACAT 2011 Wise From Reliability to Validity.pdf (619.18 KB)An exploratory analysis of item parameters and characteristics that influence item level response time. Dissertation Abstracts International Section A: Humanities and Social Sciences, 61, 1812.
. (2000). An exploratory analysis of item parameters and characteristics that influence item level response time. Dissertation Abstracts International Section A: Humanities and Social Sciences, 61, 1812.
. (2000). An exploratory analysis of item parameters and characteristics that influence item level response time. Dissertation Abstracts International Section A: Humanities and Social Sciences, 61, 1812.
. (2000). An examination of the reliability and validity of performance ratings made using computerized adaptive rating scales. Dissertation Abstracts International: Section B: The Sciences and Engineering, 61, 570.
. (2000). An examination of the reliability and validity of performance ratings made using computerized adaptive rating scales. Dissertation Abstracts International: Section B: The Sciences and Engineering, 61, 570.
. (2000). An examination of the comparative reliability, validity, and accuracy of performance ratings made using computerized adaptive rating scales. Journal of Applied Psychology, 86, 965-973.
. (2001). An examination of exposure control and content balancing restrictions on item selection in CATs using the partial credit model. Journal of Applied Measurement, 4, 24-42.
. (2003). An evaluation of patient-reported outcomes found computerized adaptive testing was efficient in assessing stress perception. Journal of Clinical Epidemiology, 62, 278-287.
. (2009). Evaluating the usefulness of computerized adaptive testing for medical in-course assessment. Academic Medicine, 74, 1125-8. presented at the Oct.
. (1999). Efficiency and sensitivity of multidimensional computerized adaptive testing of pediatric physical functioning. Disability & Rehabilitation, 30, 479-84.
. (2008). Efficiency and sensitivity of multidimensional computerized adaptive testing of pediatric physical functioning. Disability & Rehabilitation, 30, 479-84.
. (2008).