Zara, A. (2011). A Paradigm for Multinational Adaptive Testing. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.

Chandra, I. (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

Shen, Y., Bao, Y., Wang, S., & Bradshaw, L.. (2017). 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.

Reckase, M. D., He, W., Xu, J. - R., & Zhou, X.. (2017). 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

Krishnan, E. (2011). High-throughput Health Status Measurement using CAT in the Era of Personal Genomics: Opportunities and Challenges. In Annual Conference of the International Association for Computerized Adaptive Testing.

van Groen, M., Eggen, T., & Veldkamp, B.. (2011). 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.

Thompson, N., & Stoeger, J.. (2017). Evaluation of Parameter Recovery, Drift, and DIF with CAT Data. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=1F7HCZWD28Q97sCKFIJB0Yps0H66NPeKq

Shi, Y. (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

Egberink, I. J. L., Meijer, R. R., Veldkamp, B. P., Schakel, L., & Smid, N. G.. (2010). Detection of aberrant item score patterns in computerized adaptive testing: An empirical example using the CUSUM. Personality and Individual Differences, 48, 921-925.

Maslak, A., & Pozdniakov, S.. (2017). Analysis of CAT Precision Depending on Parameters of the Item Pool. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/file/d/1Bwe58kOQRgCSbB8x6OdZTDK4OIm3LQI3/view?usp=drive_web

Smith, A. B., Rush, R., Velikova, G., Wall, L., Wright, E. P., Stark, D., et al.. (2007). The initial development of an item bank to assess and screen for psychological distress in cancer patients. Psycho-Oncology, 16, 724-732.

Reise, S. P., & Henson, J. M.. (2000). Computerization and adaptive administration of the NEO PI-R. Assessment, 7, 347-64.

Taherbhai, H. M., & Young, M. J.. (2004). Pre-equating: a simulation study based on a large scale assessment model. Journal of Applied Measurement, 5, 301-18.

Reeve, B. B., Hays, R. D., Bjorner, J. B., Cook, K. F., Crane, P. K., Teresi, J. A., et al.. (2007). Psychometric evaluation and calibration of health-related quality of life item banks: plans for the Patient-Reported Outcomes Measurement Information System (PROMIS). Medical Care, 45, S22-31. presented at the May.

Cook, K. F., Choi, S. W., Crane, P. K., Deyo, R. A., Johnson, K. L., & Amtmann, D.. (2008). 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.

Kopec, J. A., Badii, M., McKenna, M., Lima, V. D., Sayre, E. C., & Dvorak, M.. (2008). Computerized adaptive testing in back pain: Validation of the CAT-5D-QOL. Spine, 33, 1384-90. presented at the May 20.

Haley, S. M., Coster, W. J., Andres, P. L., Ludlow, L. H., Ni, P., Bond, T. L., et al.. (2004). Activity outcome measurement for postacute care. Medical Care, 42, I49-161.

Haley, S. M., Coster, W. J., Andres, P. L., Kosinski, M., & Ni, P.. (2004). 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.

Gibbons, R. D., Weiss, D. J., Kupfer, D. J., Frank, E., Fagiolini, A., Grochocinski, V. J., et al.. (2008). Using computerized adaptive testing to reduce the burden of mental health assessment. Psychiatric Services, 59, 361-8. presented at the Apr.

Barrada, J. R., Olea, J., & Abad, F. J.. (2008). Rotating item banks versus restriction of maximum exposure rates in computerized adaptive testing. Spanish Journal of Psychology, 11, 618-625.

von Davier, M., Cho, Y., & Pan, T.. (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.

van der Linden, W. J., & van Krimpen-Stoop, E. M. L. A.. (2003). Using response times to detect aberrant responses in computerized adaptive testing. Psychometrika, 68, 251-265.

Desmarais, M. C., & Pu, X.. (2005). A Bayesian student model without hidden nodes and its comparison with item response theory. International Journal of Artificial Intelligence in Education, 15, 291-323.

van der Linden, W. J., Jiang, B., Ren, H., Choi, S. W., & Diao, Q.. (2017). Bayesian Perspectives on Adaptive Testing. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University.

Penfield, R. D. (2006). Applying Bayesian item selection approaches to adaptive tests using polytomous items. Applied Measurement in Education, 19, 1-20.

Hsu, C. - L., Wang, W. - C., & Chen, S. Y.. (2017). Using Bayesian Decision Theory in Cognitive Diagnosis Computerized Adaptive Testing. In IACAT 2017 Conference. presented at the 08/2017, Niigata Japan: Niigata Seiryo University.

Riley, B. B., & Carle, A. C.. (2012). 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

Verschoor, A. (2011). Optimal Calibration Designs for Computerized Adaptive Testing. In Annual Conference of the International Association for Computerized Adaptive Testing. presented at the 10/2011.

Kopec, J. A., Badii, M., McKenna, M., Lima, V. D., Sayre, E. C., & Dvorak, M.. (2008). Computerized adaptive testing in back pain: Validation of the CAT-5D-QOL. Spine, 33, 1384-90. presented at the May 20.

Cook, K. F., Choi, S. W., Crane, P. K., Deyo, R. A., Johnson, K. L., & Amtmann, D.. (2008). 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.

Hart, D. L., Mioduski, J. E., Werneke, M. W., & Stratford, P. W.. (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

Davis, L. L., Pastor, D. A., Dodd, B. G., Chiang, C., & Fitzpatrick, S. J.. (2003). 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.

Colvin, K., Keller, L. A., & Robin, F.. (2016). 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

Borman, W. C., Buck, D. E., Hanson, M. A., Motowidlo, S. J., Stark, S., & Drasgow, F.. (2001). 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.

Imai, S. (2017). Is CAT Suitable for Automated Speaking Test?. In IACAT 2017 Conference. presented at the 08/2017, Niigata, Japan: Niigata Seiryo University.

De Champlain, A. F. (2017). Using Automated Item Generation in a Large-scale Medical Licensure Exam Program: Lessons Learned. In 2017 IACAT Conference. presented at the 08.2017, Niigata, Japan: Niigata Seiryo University. Retrieved from https://drive.google.com/open?id=14N8hUc8qexAy5W_94TykEDABGVIJHG1h

Guzmán, E., Conejo, R., & García-Hervás, E.. (2005). An Authoring Environment for Adaptive Testing. Educational Technology & Society, 8(3), 66-76.

Bochner, J., Garrison, W., Palmer, L., MacKenzie, D., & Braveman, A.. (1997). A computerized adaptive testing system for speech discrimination measurement: The Speech Sound Pattern Discrimination Test. Journal of the Accoustical Society of America, 101, 2289-298.

Roberts, J. S., Lin, Y., & Laughlin, J. E.. (2001). Computerized adaptive testing with the generalized graded unfolding model. Applied Psychological Measurement, 25, 177-196.

Hol, A. M., Vorst, H. C. M., & Mellenbergh, G. J.. (2007). Computerized adaptive testing for polytomous motivation items: Administration mode effects and a comparison with short forms. Applied Psychological Measurement, 31, 412-429.

Schreiber, M. D., Schneider, R. J., Schweizer, A., Beckmann, J. F., & Baltissen, R.. (2000). Diagnostische programme in der Demenzfrüherkennung: Der Adaptive Figurenfolgen-Lerntest (ADAFI) [Diagnostic programs in the early detection of dementia: The Adaptive Figure Series Learning Test (ADAFI)]. Zeitschrift für Gerontopsychologie & -Psychiatrie, 13, 16-29.

Schneider, R. J., Goff, M., Anderson, S., & Borman, W. C.. (2003). Computerized adaptive rating scales for measuring managerial performance. International Journal of Selection and Assessment, 11, 237-246.

Barnard, J. J. (2015). Implementing a CAT: The AMC Experience . Journal of Computerized Adaptive Testing, 3(1), 1-12. doi:10.7333/15100301001

Ruscio, J., & Ruscio, A. M.. (2002). A structure-based approach to psychological measurement: Matching measurement models to latent structure. Assessment, 9, 4-16.

Ray, R. D. (2004). Adaptive computerized educational systems: A case study. In R. W. Malott, Evidence-based educational methods (pp. 143-169). San Diego, CA. USA: Elsevier Academic Press.

Fries, J. F., Cella, D., Rose, M., Krishnan, E., & Bruce, B.. (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.

Gardner, W., Shear, K., Kelleher, K. J., Pajer, K. A., Mammen, O., Buysse, D., & Frank, E.. (2004). Computerized adaptive measurement of depression: A simulation study. BMC Psychiatry, 4, 13-23.

Huang, Y. - M., Lin, Y. - T., & Cheng, S. - C.. (2009). An adaptive testing system for supporting versatile educational assessment. Computers and Education, 52, 53-67.

Barrada, J. R., Olea, J., & Abad, F. J.. (2008). Rotating item banks versus restriction of maximum exposure rates in computerized adaptive testing. Spanish Journal of Psychology, 11, 618-625.

Stahl, J., Bergstrom, B., & Gershon, R. C.. (2000). CAT administration of language placement examinations. Journal of Applied Measurement, 1, 292-302.

Cheng, Y., & Chang, H. - H.. (2009). 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.

Chen, S. - Y., & Doong, S. H.. (2008). Predicting item exposure parameters in computerized adaptive testing. British Journal of Mathematical and Statistical Psychology, 61, 75-91. presented at the May.

van der Linden, W. J., Veldkamp, B. P., & Reese, L. M.. (2000). An integer programming approach to item bank design. Applied Psychological Measurement, 24, 139-150.

Gibbons, R. D., Weiss, D. J., Kupfer, D. J., Frank, E., Fagiolini, A., Grochocinski, V. J., et al.. (2008). Using computerized adaptive testing to reduce the burden of mental health assessment. Psychiatric Services, 59, 361-8. presented at the Apr.

Hontangas, P., Olea, J., Ponsoda, V., Revuelta, J., & Wise, S. L.. (2004). Assisted self-adapted testing: A comparative study. European Journal of Psychological Assessment, 20, 2-9.

Hart, D. L., Mioduski, J. E., & Stratford, P. W.. (2005). 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.

Koppel, N. B. (2000). Lagrangian relaxation for constrained curve-fitting with binary variables: Applications in educational testing. Dissertation Abstracts International Section A: Humanities and Social Sciences, 61, 1063.

Pastor, D. A., Dodd, B. G., & Chang, H. - H.. (2002). A comparison of item selection techniques and exposure control mechanisms in CATs using the generalized partial credit model. Applied Psychological Measurement, 26, 147-163.

van der Linden, W. J. (2005). A comparison of item-selection methods for adaptive tests with content constraints. Journal of Educational Measurement, 42, 283-302.

Huitzing, H. A., Veldkamp, B. P., & Verschoor, A. J.. (2005). Infeasibility in automated test assembly models: A comparison study of different methods. Journal of Educational Measurement, 42, 223-243.