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Comparison of two Bayesian methods to detect mode effects between paper-based and computerized adaptive assessments: a preliminary Monte Carlo study. BMC Med Res Methodol, 12, 124. presented at the 2012. doi:10.1186/1471-2288-12-124
. (2012). 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). 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). Assessing self-care and social function using a computer adaptive testing version of the pediatric evaluation of disability inventory. Archives of Physical Medicine and Rehabilitation, 89, 622-629. presented at the Apr.
. (2008). A computer adaptive testing approach for assessing physical functioning in children and adolescents. Developmental Medicine and Child Neuropsychology, 47, 113-120. presented at the Feb.
. (2005). Assessing mobility in children using a computer adaptive testing version of the pediatric evaluation of disability inventory. Archives of Physical Medicine and Rehabilitation, 86, 932-9. presented at the May.
. (2005). A computer adaptive testing approach for assessing physical functioning in children and adolescents. Developmental Medicine and Child Neuropsychology, 47, 113-120. presented at the Feb.
. (2005). 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). 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). 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). The relationship between item exposure and test overlap in computerized adaptive testing. Journal of Educational Measurement, 40, 129-145.
. (2003). Improving patient reported outcomes using item response theory and computerized adaptive testing. Journal of Rheumatology, 34, 1426-31. presented at the Jun.
. (2007). Data pooling and analysis to build a preliminary item bank: an example using bowel function in prostate cancer. Evaluation and the Health Professions, 28, 142-59.
. (2005). Data pooling and analysis to build a preliminary item bank: an example using bowel function in prostate cancer. Evaluation and the Health Professions, 28, 142-59.
. (2005). The relationship between item exposure and test overlap in computerized adaptive testing. Journal of Educational Measurement, 40, 129-145.
. (2003). Estimation of trait level in computerized adaptive testing. Applied Psychological Measurement, 24, 257-265.
. (2000). Computerized adaptive testing using the nearest-neighbors criterion. Applied Psychological Measurement, 27, 204-216.
. (2003). A comparison of item selection techniques and exposure control mechanisms in CATs using the generalized partial credit model. Applied Psychological Measurement, 26, 147-163.
. (2002). A comparative study of item exposure control methods in computerized adaptive testing. Journal of Educational Measurement, 40, 71-103.
. (2003). The relationship between item exposure and test overlap in computerized adaptive testing. Journal of Educational Measurement, 40, 129-145.
. (2003). A comparison of item selection rules at the early stages of computerized adaptive testing. Applied Psychological Measurement, 24, 241-255.
. (2000). A comparison of item selection rules at the early stages of computerized adaptive testing. Applied Psychological Measurement, 24, 241-255.
. (2000). Effect of Imprecise Parameter Estimation on Ability Estimation in a Multistage Test in an Automatic Item Generation Context . Journal of Computerized Adaptive Testing, 4(1), 1-18. doi:10.7333/1608-040101
. (2016). Colvin FINAL.pdf (630.27 KB)Optimal stratification of item pools in α-stratified computerized adaptive testing. Applied Psychological Measurement, 27, 262-274.
. (2003). Controlling item exposure and test overlap in computerized adaptive testing. Applied Psychological Measurement, 29, 204-217.
. (2005). Optimal stratification of item pools in α-stratified computerized adaptive testing. Applied Psychological Measurement, 27, 262-274.
. (2003). Computerized adaptive testing using the nearest-neighbors criterion. Applied Psychological Measurement, 27, 204-216.
. (2003). Dynamic assessment of health outcomes: Time to let the CAT out of the bag?. Health Services Research, 40, 1694-1711.
. (2005). A comparison of item selection techniques and exposure control mechanisms in CATs using the generalized partial credit model. Applied Psychological Measurement, 26, 147-163.
. (2002). 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(3), 290-298.
. (2006). . (2005).
Comparing methods of assessing differential item functioning in a computerized adaptive testing environment. Journal of Educational Measurement, 43, 245-264.
. (2006). Effects of practical constraints on item selection rules at the early stages of computerized adaptive testing. Journal of Educational Measurement, 41, 149-174.
. (2004). 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). Advances in quality of life measurements in oncology patients. Seminars in Oncology, 29, 60-8. presented at the Jun.
. (2002). Advances in quality of life measurements in oncology patients. Seminars in Oncology, 29, 60-8. presented at the Jun.
. (2002). MHK-MST Design and the Related Simulation Study. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University.
. (2017). A Large-Scale Progress Monitoring Application with 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=1uGbCKenRLnqTxImX1fZicR2c7GRV6Udc
. (2017). Moving in a new direction: Computerized adaptive testing (CAT). Nursing Management, 24, 80, 82. presented at the Jan.
. (1993). The NAPLEX: evolution, purpose, scope, and educational implications. American Journal of Pharmaceutical Education, 72, 33. presented at the Apr 15.
. (2008). Comparing methods of assessing differential item functioning in a computerized adaptive testing environment. Journal of Educational Measurement, 43, 245-264.
. (2006). 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
. (2023). Computerized adaptive testing for follow-up after discharge from inpatient rehabilitation: II. Participation outcomes. Archives of Physical Medicine and Rehabilitation, 89, 275-283. presented at the Feb.
. (2008). Computerized adaptive testing for follow-up after discharge from inpatient rehabilitation: I. Activity outcomes. Archives of Physical Medicine and Rehabilitation, 87, 1033-42. presented at the Aug.
. (2006). 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). 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). 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). IRT health outcomes data analysis project: an overview and summary. Quality of Life Research, 16, 121-132.
. (2007). IRT health outcomes data analysis project: an overview and summary. Quality of Life Research, 16, 121-132.
. (2007). IRT health outcomes data analysis project: an overview and summary. Quality of Life Research, 16, 121-132.
. (2007). IRT health outcomes data analysis project: an overview and summary. Quality of Life Research, 16, 121-132.
. (2007). Refining the conceptual basis for rehabilitation outcome measurement: personal care and instrumental activities domain. Medical Care, 42, I62-172. presented at the Jan.
. (2004). Assessing self-care and social function using a computer adaptive testing version of the pediatric evaluation of disability inventory. Archives of Physical Medicine and Rehabilitation, 89, 622-629. presented at the Apr.
. (2008). Data pooling and analysis to build a preliminary item bank: an example using bowel function in prostate cancer. Evaluation and the Health Professions, 28, 142-59.
. (2005). Data pooling and analysis to build a preliminary item bank: an example using bowel function in prostate cancer. Evaluation and the Health Professions, 28, 142-59.
. (2005). . (2004).
Computerized adaptive testing for follow-up after discharge from inpatient rehabilitation: II. Participation outcomes. Archives of Physical Medicine and Rehabilitation, 89, 275-283. presented at the Feb.
. (2008). A computer adaptive testing approach for assessing physical functioning in children and adolescents. Developmental Medicine and Child Neuropsychology, 47, 113-120. presented at the Feb.
. (2005).