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Journal of Classification

Erschienen in:

11.01.2024

Nonparametric Cognitive Diagnosis When Attributes Are Polytomous

verfasst von: Youn Seon Lim

Erschienen in: Journal of Classification | Ausgabe 1/2024

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Abstract

Cognitive diagnosis models provide diagnostic information on whether examinees have mastered the skills, called “attributes,” that characterize a given knowledge domain. Based on attribute mastery, distinct proficiency classes are defined to which examinees are assigned based on their item responses. Attributes are typically perceived as binary. However, polytomous attributes may yield higher precision in the assessment of examinees’ attribute mastery. Karelitz (2004) introduced the ordered-category attribute coding framework (OCAC) to accommodate polytomous attributes. Other approaches to handle polytomous attributes in cognitive diagnosis have been proposed in the literature. However, the heavy parameterization of these models often created difficulties in fitting these models. In this article, a nonparametric method for cognitive diagnosis is proposed for use with polytomous attributes, called the nonparametric polytomous attributes diagnostic classification (NPADC) method, that relies on an adaptation of the OCAC framework. The new NPADC method proposed here can be used with various cognitive diagnosis models. It does not require large sample sizes; it is computationally efficient and highly effective as is evidenced by the recovery rates of the proficiency classes observed in large-scale simulation studies. The NPADC method is also used with a real-world data set.

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Bao, Y. (2019). A diagnostic classification model for polytomous attributes [Unpublished doctoral dissertation]. USA: University of Georgia.

Barnes, T. (2003). The Q-matrix method of fault-tolerant teaching in knowledge assessment and data mining [Unpublished doctoral dissertation]. USA: North Carolina State University.

Chen, J., & de la Torre, J. (2013). A general cognitive diagnosis model for expert-defined polytomous attributes. Applied Psychological Measurement, 37(6), 419–437.CrossRef

Chiu, C., & Douglas, J. (2013). A nonparametric approach to cognitive diagnosis by proximity to ideal response patterns. Journal of Classification, 30, 225–250.MathSciNetCrossRef

Chiu, C.-Y., Sun, Y., & Bian, Y. (2018). Cognitive diagnosis for small educational programs: The general nonparametric classification method. Psychometrika, 83, 355–375.MathSciNetCrossRef

de la Torre, J. (2011). The generalized DINA model framework. Psychometrika, 76(2), 179–199.MathSciNetCrossRef

de la Torre, J., & Douglas, J. A. (2004). Higher-order latent trait models for cognitive diagnosis. Psychometrika, 69(3), 333–353.MathSciNetCrossRef

Hartz, S. M. (2002). A Bayesian framework for the unified model for assessing cognitive abilities: Blending theory with practicality (Doctoral dissertation). Available from ProQuest Dissertations and Theses database. (UMI No. 3044108)

Hartz, S. M., & Roussos, L. A. (October 2008). The fusion model for skill diagnosis: Blending theory with practicality. (Research report No. RR-08-71). Princeton, NJ: Educational Testing Service.

Junker, B. W., & Sijtsma, K. (2001). Cognitive assessment models with few assumptions, and connections with nonparametric item response theory. Applied Psychological Measurement, 25, 258–272.MathSciNetCrossRef

Karelitz, T. M. (2004). Ordered category attribute coding framework for cognitive assessments [Unpublished doctoral dissertation]. Urbana-Champaign, USA: University of Illinois.

Lim, Y. S., & Drasgow, F. (2017). Nonparametric calibration of item-by-attribute matrix in cognitive diagnosis. Multivariate behavioral research, 52(5), 562–575.CrossRef

Liu, J., Xu, G., & Ying, Z. (2011). Learning item-attribute relationship in Q-matrix based diagnostic classification models. Report: arXiv:1106.0721, New York City, NY: Columbia University, Department of Statistics.

Liu, J., Xu, G., & Ying, Z. (2012). Data-driven learning of Q-matrix. Applied Psychological Measurement, 36, 548–564.CrossRef

Ma, W. (2022). A higher-order cognitive diagnosis model with ordinal attributes for dichotomous response data. Multivariate behavioral research, 57(2–3), 408–421.CrossRef

Tatsuoka, K. K. (1983). Rule space: An approach for dealing with misconceptions based on item response theory. Journal of Educational Measurement, 20(4), 345–354.CrossRef

Templin, J. L. (2004). Generalized linear proficiency models for cognitive diagnosis [Unpublished doctoral dissertation]. Urbana-Champaign, USA: University of Illinois.

Templin, J. L., & Henson, R. A. (2006). Measurement of psychological disorders using cognitive diagnosis models. Psychological Methods, 11(3), 287–305.CrossRef

von Davier, M.(2018). Diagnosing diagnostic models: From Von Neumann’s elephant to model equivalencies and network psychometrics. Measurement: Interdisciplinary Research and Perspectives, 16(1), 59–70.

Wang, S., & Douglas, J. (2015). Consistency of nonparametric classification in cognitive diagnosis. Psychometrika, 80, 85–100.MathSciNetCrossRef

Zhan, P., Wang, W. C., & Li, X. (2020). A partial mastery, higher-order latent structural model for polytomous attributes in cognitive diagnostic assessments. Journal of Classification, 37, 328–351.MathSciNetCrossRef

Titel: Nonparametric Cognitive Diagnosis When Attributes Are Polytomous
verfasst von: Youn Seon Lim
Publikationsdatum: 11.01.2024
Verlag: Springer US
Erschienen in: Journal of Classification / Ausgabe 1/2024
Print ISSN: 0176-4268
Elektronische ISSN: 1432-1343
DOI: https://doi.org/10.1007/s00357-023-09461-z

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