Dynamic Response Strategies: Accounting for Response Process Heterogeneity in IRTree Decision Nodes.

Autor: Merhof V; Department of Psychology, University of Mannheim, L 13 15, 68161, Mannheim, Germany. merhof@uni-mannheim.de., Meiser T; Department of Psychology, University of Mannheim, L 13 15, 68161, Mannheim, Germany.
Jazyk: angličtina
Zdroj: Psychometrika [Psychometrika] 2023 Dec; Vol. 88 (4), pp. 1354-1380. Date of Electronic Publication: 2023 Feb 06.
DOI: 10.1007/s11336-023-09901-0
Abstrakt: It is essential to control self-reported trait measurements for response style effects to ensure a valid interpretation of estimates. Traditional psychometric models facilitating such control consider item responses as the result of two kinds of response processes-based on the substantive trait, or based on response styles-and they assume that both of these processes have a constant influence across the items of a questionnaire. However, this homogeneity over items is not always given, for instance, if the respondents' motivation declines throughout the questionnaire so that heuristic responding driven by response styles may gradually take over from cognitively effortful trait-based responding. The present study proposes two dynamic IRTree models, which account for systematic continuous changes and additional random fluctuations of response strategies, by defining item position-dependent trait and response style effects. Simulation analyses demonstrate that the proposed models accurately capture dynamic trajectories of response processes, as well as reliably detect the absence of dynamics, that is, identify constant response strategies. The continuous version of the dynamic model formalizes the underlying response strategies in a parsimonious way and is highly suitable as a cognitive model for investigating response strategy changes over items. The extended model with random fluctuations of strategies can adapt more closely to the item-specific effects of different response processes and thus is a well-fitting model with high flexibility. By using an empirical data set, the benefits of the proposed dynamic approaches over traditional IRTree models are illustrated under realistic conditions.
(© 2023. The Author(s).)
Databáze: MEDLINE
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